China Naval Modernization: Implications for
U.S. Navy Capabilities—Background and
Issues for Congress

Ronald O'Rourke
Specialist in Naval Affairs
July 31, 2012
Congressional Research Service
7-5700
www.crs.gov
RL33153
CRS Report for Congress
Pr
epared for Members and Committees of Congress

China Naval Modernization

Summary
The question of how the United States should respond to China’s military modernization effort,
including its naval modernization effort, has emerged as a key issue in U.S. defense planning. The
question is of particular importance to the U.S. Navy, because many U.S. military programs for
countering improved Chinese military forces would fall within the Navy’s budget.
Two DOD strategy and budget documents released in January 2012 state that U.S. military
strategy will place a renewed emphasis on the Asia-Pacific region, and that as a result, there will
be a renewed emphasis on air and naval forces in DOD plans. Administration officials have stated
that notwithstanding reductions in planned levels of U.S. defense spending, the U.S. military
presence in the Asia-Pacific region will be maintained and strengthened.
Decisions that Congress and the executive branch make regarding U.S. Navy programs for
countering improved Chinese maritime military capabilities could affect the likelihood or
possible outcome of a potential U.S.-Chinese military conflict in the Pacific over Taiwan or some
other issue. Some observers consider such a conflict to be very unlikely, in part because of
significant U.S.-Chinese economic linkages and the tremendous damage that such a conflict could
cause on both sides. In the absence of such a conflict, however, the U.S.-Chinese military balance
in the Pacific could nevertheless influence day-to-day choices made by other Pacific countries,
including choices on whether to align their policies more closely with China or the United States.
In this sense, decisions that Congress and the executive branch make regarding U.S. Navy
programs for countering improved Chinese maritime military forces could influence the political
evolution of the Pacific, which in turn could affect the ability of the United States to pursue goals
relating to various policy issues, both in the Pacific and elsewhere.
China’s naval modernization effort, which began in the 1990s, encompasses a broad array of
weapon acquisition programs, including anti-ship ballistic missiles (ASBMs), submarines, and
surface ships. China’s naval modernization effort also includes reforms and improvements in
maintenance and logistics, naval doctrine, personnel quality, education, training, and exercises.
Observers believe that the near-term focus of China’s military modernization effort has been to
develop military options for addressing the situation with Taiwan. Consistent with this goal,
observers believe that China wants its military to be capable of acting as a so-called anti-access
force—a force that can deter U.S. intervention in a conflict involving Taiwan, or failing that,
delay the arrival or reduce the effectiveness of intervening U.S. naval and air forces. Observers
believe that China’s military modernization effort, including its naval modernization effort, is
increasingly oriented toward pursuing additional goals, such as asserting or defending China’s
territorial claims in the South China Sea and East China Sea; enforcing China’s view—a minority
but growing view among world nations—that it has the right to regulate foreign military activities
in its 200-mile maritime exclusive economic zone (EEZ); protecting China’s sea lines of
communications; protecting and evacuating Chinese nationals in foreign countries; displacing
U.S. influence in the Pacific; and asserting China’s status as a major world power.
Potential oversight issues for Congress include the following: whether the U.S. Navy in coming
years will be large enough to adequately counter improved Chinese maritime anti-access forces
while also adequately performing other missions of interest to U.S. policymakers around the
world; the Navy’s ability to counter Chinese ASBMs and submarines; and whether the Navy, in
response to China’s maritime anti-access capabilities, should shift over time to a more distributed
fleet architecture.
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Contents
Introduction...................................................................................................................................... 1
Issue for Congress ..................................................................................................................... 1
Scope, Sources, and Terminology ............................................................................................. 2
Background...................................................................................................................................... 3
Overview of China’s Naval Modernization Effort .................................................................... 3
Date of Inception................................................................................................................. 3
Elements of Modernization Effort....................................................................................... 3
Limitations and Weaknesses................................................................................................ 3
Goals of Naval Modernization Effort.................................................................................. 4
Selected Elements of China’s Naval Modernization Effort....................................................... 8
Anti-Ship Ballistic Missiles (ASBMs)................................................................................ 8
Anti-Ship Cruise Missiles (ASCMs)................................................................................. 10
Submarines........................................................................................................................ 10
Aircraft Carriers and Carrier-Based Aircraft..................................................................... 17
Surface Combatants........................................................................................................... 21
Amphibious Ships ............................................................................................................. 30
Land-Based Aircraft and Unmanned Aerial Vehicles (UAVs) .......................................... 33
Nuclear and Electromagnetic Pulse (EMP) Weapons ....................................................... 34
Maritime Surveillance and Targeting Systems.................................................................. 34
Chinese Naval Operations Away from Home Waters.............................................................. 34
Numbers of Chinese Ships and Aircraft; Comparisons to U.S. Navy ..................................... 37
Numbers Chinese Navy Ships and Naval Aircraft ............................................................ 37
Comparing U.S. and Chinese Naval Capabilities.............................................................. 39
DOD Response to China Naval Modernization....................................................................... 41
Renewed DOD Emphasis on Asia-Pacific Region............................................................ 41
January 5, 2012, Strategic Guidance Document ............................................................... 42
January 26, 2012, Document on Selected FY2013 Program Decisions............................ 43
September 2011 Press Report About New Defense Planning Guidance........................... 44
Air-Sea Battle (ASB) Concept .......................................................................................... 45
Navy Response to China Naval Modernization....................................................................... 45
Force Posture and Basing Actions..................................................................................... 45
Acquisition Programs........................................................................................................ 49
Training and Forward-Deployed Operations..................................................................... 53
Statements of Confidence.................................................................................................. 54
Issues for Congress ........................................................................................................................ 55
Future Size of U.S. Navy......................................................................................................... 55
Air-Sea Battle Concept............................................................................................................ 56
Navy’s Ability to Counter China’s ASBMs............................................................................. 57
Breaking the ASBM’s Kill Chain...................................................................................... 57
AAW and BMD Capability of Flight III DDG-51 Destroyer............................................ 58
Endo-Atmospheric Target for Simulating DF-21D ASBM ............................................... 61
Press Reports..................................................................................................................... 62
Navy’s Ability to Counter China’s Submarines....................................................................... 68
Navy’s Fleet Architecture ........................................................................................................ 69
Legislative Activity for FY2013.................................................................................................... 70
FY2013 National Defense Authorization Act (H.R. 4310/S. 3254) ........................................ 70
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House................................................................................................................................. 70
Senate ................................................................................................................................ 73
FY2013 DOD Appropriations Act (H.R. 5856)....................................................................... 77
House................................................................................................................................. 77

Figures
Figure 1. Jin (Type 094) Class Ballistic Missile Submarine.......................................................... 11
Figure 2. Yuan (Type 041) Class Attack Submarine...................................................................... 11
Figure 3. Acoustic Quietness of Chinese and Russian Nuclear-Powered Submarines .................. 13
Figure 4. Acoustic Quietness of Chinese and Russian Non-Nuclear-Powered Submarines.......... 14
Figure 5. Ex-Ukrainian Aircraft Carrier Varyag ............................................................................ 18
Figure 6. Luyang II (Type 052C) Class Destroyer......................................................................... 23
Figure 7. Jiangkai II (Type 054A) Class Frigate............................................................................ 25
Figure 8. Houbei (Type 022) Class Fast Attack Craft.................................................................... 28
Figure 9. Haixun 01 Maritime Patrol Ship..................................................................................... 30
Figure 10. Yuzhao (Type 071) Class Amphibious Ship ................................................................. 31
Figure 11. Type 081 LHD (Unconfirmed Conceptual Rendering of a Possible Design)............... 32

Tables
Table 1. PLA Navy Submarine Commissionings .......................................................................... 16
Table 2. PLA Navy Destroyer Commissionings ............................................................................ 24
Table 3. PLA Navy Frigate Commissionings ................................................................................ 26
Table 4. Numbers of PLA Navy Ships and Aircraft Provided by Office of Naval
Intelligence (ONI)....................................................................................................................... 38
Table 5. Numbers of PLA Navy Ships Presented in Annual DOD Reports to Congress............... 39

Appendixes
Appendix A. February 2012 Testimony of Commander, U.S. Pacific Command ......................... 79
Appendix B. Background Information on Air-Sea Battle Concept ............................................... 80

Contacts
Author Contact Information........................................................................................................... 94

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Introduction
Issue for Congress
The question of how the United States should respond to China’s military modernization effort,
including its naval modernization effort, has emerged as a key issue in U.S. defense planning. The
Department of Defense (DOD) states that “China’s rise as a major international actor is likely to
stand out as a defining feature of the strategic landscape of the early 21st Century,” and that
China’s military “is now venturing into the global maritime domain, a sphere long dominated by
the U.S. Navy.”1 Admiral Michael Mullen, the then-Chairman of the Joints Chiefs of Staff, stated
in June 2010 that “I have moved from being curious to being genuinely concerned” about China’s
military programs.2
The question of how the United States should respond to China’s military modernization effort is
of particular importance to the U.S. Navy, because many U.S. military programs for countering
improved Chinese military forces would fall within the Navy’s budget. An October 19, 2011,
press report stated:
The US Navy views the Asia-Pacific region as a top strategic priority even as it faces
possible budget cuts that could curtail other global missions, the naval chief said Wednesday
[October 19].
With China’s clout rising and its military might expanding, President Barack Obama’s
deputies and military commanders increasingly portray Asia as a key to American national
security.
The new chief of naval operations, Admiral Jonathan Greenert, echoed that view and
suggested growing pressure on the US defense budget would not derail plans to focus on the
Pacific region.
“Asia will be clearly a priority and we will adjust our operations accordingly,” Greenert told
reporters in a teleconference.3
Decisions that Congress and the executive branch make regarding U.S. Navy programs for
countering improved Chinese maritime military capabilities could affect the likelihood or
possible outcome of a potential U.S.-Chinese military conflict in the Pacific over Taiwan or some
other issue. Some observers consider such a conflict to be very unlikely, in part because of
significant U.S.-Chinese economic linkages and the tremendous damage that such a conflict could
cause on both sides. In the absence of such a conflict, however, the U.S.-Chinese military balance

1 U.S. Department of Defense, Annual Report to Congress [on] Military and Security Developments Involving the
People’s Republic of China 2011
. Washington, 2011. Executive summary and p. 1.
2 Viola Gienger, “U.S. Concern Over China’s Military Intent Growing, Mullen Says,” Bloomberg.com, June 10, 2010.
See also Daniel Ten Kate, “U.S. Criticism Of China’s Military May Overshadow Asian Security Meeting,”
Bloomberg.com, July 15, 2010; and Jon Rabiroff, “Mullen Moves From ‘Curious’ To ‘Concerned’ Over China’s
Military,” Stripes.com, July 21, 2010.
See also the February 28, 2012, testimony of Admiral Robert Willard, Commander, U.S. Pacific Command, before the
Senate Armed Services Committee in Appendix A
3 Dan De Luce, “For US Navy, Asia is crucial priority: admiral,” Agence France-Presse, October 19, 2011.
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in the Pacific could nevertheless influence day-to-day choices made by other Pacific countries,
including choices on whether to align their policies more closely with China or the United States.
In this sense, decisions that Congress and the executive branch make regarding U.S. Navy
programs for countering improved Chinese maritime military forces could influence the political
evolution of the Pacific, which in turn could affect the ability of the United States to pursue goals
relating to various policy issues, both in the Pacific and elsewhere.
Scope, Sources, and Terminology
This report focuses on the potential implications of China’s naval modernization for future
required U.S. Navy capabilities. Other CRS reports address separate issues relating to China.
This report is based on unclassified open-source information, such as the annual DOD report to
Congress on military and security developments involving China,4 an August 2009 report on
China’s navy from the Office of Naval Intelligence (ONI),5 and published reference sources such
as Jane’s Fighting Ships.
For convenience, this report uses the term China’s naval modernization to refer to the
modernization not only of China’s navy, but also of Chinese military forces outside China’s navy
that can be used to counter U.S. naval forces operating in the Western Pacific, such as land-based
anti-ship ballistic missiles (ASBMs), land-based surface-to-air missiles (SAMs), land-based air
force aircraft armed with anti-ship cruise missiles (ASCMs), and land-based long-range radars for
detecting and tracking ships at sea.
China’s military is formally called the People’s Liberation Army, or PLA. Its navy is called the
PLA Navy, or PLAN (also abbreviated as PLA[N]), and its air force is called the PLA Air Force,
or PLAAF. The PLA Navy includes an air component that is called the PLA Naval Air Force, or
PLANAF. China refers to its ballistic missile force as the Second Artillery Corps (SAC).

4 Department of Defense, Annual Report to Congress [on] Military and Security Developments Involving the People’s
Republic of China 2012
. Washington, May 2012. 43 pp. Hereafter 2012 DOD CMSD. The 2009 and earlier editions of
the report were known as the China military power report. The 2009 edition is cited as 2009 DOD CMP, and earlier
editions are cited similarly.
5 Office of Naval Intelligence, The People’s Liberation Army Navy, A Modern Navy with Chinese Characteristics,
Suitland (MD), Office of Naval Intelligence, August 2009. 46 pp. (Hereafter 2009 ONI Report.)
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Background
Overview of China’s Naval Modernization Effort6
Date of Inception
Observers date the beginning of China’s naval modernization effort to various points in the
1990s.7 Design work on the first of China’s newer ship classes appears to have begun in the later
1980s.8 Some observers believe that China’s naval modernization effort may have been reinforced
or accelerated by a 1996 incident in which the United States deployed two aircraft carrier strike
groups to waters near Taiwan in response to Chinese missile tests and naval exercises near
Taiwan.9
Elements of Modernization Effort
China’s naval modernization effort encompasses a broad array of weapon acquisition programs,
including programs for anti-ship ballistic missiles (ASBMs), anti-ship cruise missiles (ASCMs),
land-attack cruise missiles (LACMs), surface-to-air missiles, mines, manned aircraft, unmanned
aircraft, submarines, aircraft carriers, destroyers, frigates, patrol craft, amphibious ships, mine
countermeasures (MCM) ships, hospital ships, and supporting C4ISR10 systems. Some of these
acquisition programs have attracted particular interest and are discussed in further detail below.
China’s naval modernization effort also includes reforms and improvements in maintenance and
logistics, naval doctrine, personnel quality, education and training, and exercises.11
Limitations and Weaknesses
Although China’s naval modernization effort has substantially improved China’s naval
capabilities in recent years, observers believe China’s navy continues to exhibit limitations or
weaknesses in several areas, including capabilities for sustained operations by larger formations
in distant waters,12 joint operations with other parts of China’s military,13 C4ISR systems,14 anti-

6 Unless otherwise indicated, shipbuilding program information in this section is taken from Jane’s Fighting Ships
2011-2012
, and previous editions. Other sources of information on these shipbuilding programs may disagree regarding
projected ship commissioning dates or other details, but sources present similar overall pictures regarding PLA Navy
shipbuilding.
7 China ordered its first four Russian-made Kilo-class submarines in 1993, and its four Russian-made Sovremenny-
class destroyers in 1996. China laid the keel on its first Song (Type 039) class submarine in 1991, its first Luhu (Type
052) class destroyer in 1990, its Luhai (Type 051B) class destroyer in 1996, and its first Jiangwei I (Type 053 H2G)
class frigate in 1990.
8 First-in-class ships whose keels were laid down in 1990 or 1991 (see previous footnote) likely reflect design work
done in the latter 1980s.
9 DOD, for example, states that “The U.S. response in the 1995-96 Taiwan Strait crisis underscored to Beijing the
potential challenge of U.S. military intervention and highlighted the importance of developing a modern navy, capable
of conducting A2AD [anti-access/area-denial] operations, or ‘counter-intervention operations’ in the PLA’s lexicon.”
(2011 DOD CMSD, p. 57.)
10 C4ISR stands for command and control, communications, computers, intelligence, surveillance, and reconnaissance.
11 For a discussion of improvements in personnel, training, and exercises, see 2009 ONI Report, pp. 31-40.
12 DOD states that “By the latter half of the current decade, China will likely be able to project and sustain a modest-
(continued...)
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air warfare (AAW), antisubmarine warfare (ASW), MCM, a dependence on foreign suppliers for
certain key ship components,15 and a lack of operational experience in combat situations.16
The sufficiency of a country’s naval capabilities is best assessed against that navy’s intended
missions. Although China’s navy has limitations and weaknesses, it may nevertheless be
sufficient for performing certain missions of interest to Chinese leaders. As China’s navy reduces
its weaknesses and limitations, it may become sufficient to perform a wider array of potential
missions.
Goals of Naval Modernization Effort
Capabilities for Taiwan Scenarios, Including Acting as Anti-Access Force
DOD and other observers believe that the near-term focus of China’s military modernization
effort, including its naval modernization effort, has been to develop military options for
addressing the situation with Taiwan.17 Consistent with this goal, observers believe that China
wants its military to be capable of acting as a so-called anti-access force—a force that can deter
U.S. intervention in a conflict involving Taiwan, or failing that, delay the arrival or reduce the
effectiveness of intervening U.S. naval and air forces.
ASBMs, attack submarines, and supporting C4ISR systems are viewed as key elements of
China’s emerging anti-access force, though other force elements—such as ASCMs, LACMs (for
attacking U.S. air bases and other facilities in the Western Pacific), and mines—are also of
significance.
China’s emerging maritime anti-access force can be viewed as broadly analogous to the sea-
denial force that the Soviet Union developed during the Cold War to deny U.S. use of the sea or

(...continued)
sized force, perhaps several battalions of ground forces or a naval flotilla of up to a dozen ships, in low-intensity
operations far from China. This evolution will lay the foundation for a force able to accomplish a broader set of
regional and global objectives. However, it is unlikely that China will be able to project and sustain large forces in
high-intensity combat operations far from China prior to 2020.” (2011 DOD CMSD, p. 27.)
13 DOD states that “Despite significant improvements, the PLA continues to face deficiencies in inter-service
cooperation and actual experience in joint exercises and combat operations.” (2011 DOD CMSD, p. 27.)
14 DOD states that
A fully integrated C4ISR system, as envisioned by PLA leaders, would enable the PLA to respond
to complex battle-field conditions with a high level of agility and synchronization. To accomplish
that vision, the PLA will need to overcome deficiencies in system integration and interservice
coordination. Nevertheless, improvements in these systems will continue to enhance PLA battle-
field awareness and lead to greater integration among the separate PLA services.
(2012 DOD CMSD, p. 8.)
15 DOD states, with regard to shipbuilding, that “China continues relying on foreign suppliers for some propulsion units
and to a much lesser degree, fire control systems, cruise missiles, surface-to-air missiles, torpedo systems, sensors, and
other advanced electronics.” (2011 DOD CMSD, p. 43.) For an additional discussion, see John Pomfret, “Military
Strength Is Eluding China,” Washington Post, December 25, 2010: 1.
16 DOD states that “the PLA remains untested in modern combat. This lack of operational experience continues to
complicate outside assessment of the progress of China’s military transformation.” (2010 DOD CMSD, p. 22)
17 For a DOD summary of these options—including maritime quarantine or blockade, limited force or coercive options,
an air and missile campaign, and an amphibious invasion—see 2012 DOD CMSD, pp. 18-19.
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counter U.S. forces participating in a NATO-Warsaw Pact conflict. One potential difference
between the Soviet sea-denial force and China’s emerging maritime anti-access force is that
China’s force includes ASBMs capable of hitting moving ships at sea.
Additional Goals Not Directly Related to Taiwan
DOD and other observers also believe that China’s military modernization effort, including its
naval modernization effort, is increasingly oriented toward pursuing additional goals not directly
related to Taiwan, including the following:
• asserting or defending China’s territorial claims in the South China Sea and East
China Sea—claims that overlap with those of other countries and, in the case of
the South China Sea, are somewhat ambiguous but potentially expansive enough
to go well beyond what would normally be supported by international legal
norms relating to territorial waters;
• enforcing China’s view—a minority but growing view among world nations—
that it has the legal right to regulate foreign military activities in its 200-mile
maritime exclusive economic zone (EEZ);
• protecting China’s sea lines of communications, including those running through
the Indian Ocean to the Persian Gulf, on which China relies for much of its
energy imports;
• protecting and evacuating Chinese nationals living and working in foreign
countries;
• displacing U.S. influence in the Pacific; and
• asserting China’s status as a major world power.
DOD states that
Since the early 1980s, China’s leaders have sustained an ambitious and broad-based military
modernization program intended to transform the PLA into a modern force. Throughout this
modernization drive, Taiwan contingency planning has dominated the agenda. Even though
cross-Strait tensions have subsided since 2008, Taiwan remains a critical mission, and the
PLA continues building capabilities aimed at Taiwan and at deterring, delaying, or denying
possible third party intervention in a cross-Strait conflict. At the same time, the mandate of
the new historic missions has provided the justification for new capabilities to accomplish
diverse missions farther from China. Chinese military investments reflect these requirements
and have led to the fielding of equipment and capabilities that support the PLA’s traditional
set of core missions (such as defending China’s security, sovereignty and territorial
integrity), and an expanding array of new missions at home and abroad.18

18 2012 DOD CMSD, p. 6. See also p. iv. Another observer states:
China’s active defense strategy has a maritime component that aligns with the PRC’s 1982 naval
maritime plan outlined by then-Vice Chairman of the Military Commission, Liu Huaqing. This
naval strategy delineated three stages. In the first stage, from 2000 to 2010, China was to establish
control of waters within the first island chain that links Okinawa Prefecture, Taiwan and the
Philippines. In the second stage, from 2010 to 2020, China would seek to establish control of
waters within the second island chain that links the Ogasawara island chain, Guam and Indonesia.
The final stage, from 2020 until 2040, China would put an end to U.S. military dominance in the
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Potential Significance of Goals Not Directly Related to Taiwan
The above-listed goals not directly related to Taiwan are potentially significant for at least five
reasons:
• First, they imply that if the situation with Taiwan were somehow resolved, China
could find continuing reasons to pursue its naval modernization effort.
• Second, they suggest that if China completes its planned buildup of Taiwan-
related naval force elements, or if the situation with Taiwan were somehow
resolved, the composition of China’s naval modernization effort could shift to
include a greater emphasis on naval force elements that would be appropriate for
supporting additional goals not directly related to Taiwan, such as aircraft
carriers, a larger number of nuclear-powered attack submarines, serial production
of destroyers, larger amphibious ships, underway replenishment ships, hospital
ships, and overseas bases or support facilities. Some observers believe a shift to a
greater emphasis on naval force elements of this kind has already occurred.19
• Third, they suggest that China’s maritime territorial claims have the potential for
acting as a continuing cause of friction or tension in U.S.-Chinese relations.
• Fourth, they suggest that China’s view that it has the legal right to regulate
foreign military activities in its EEZ has the potential for acting as an ongoing
source of potential incidents between U.S. and Chinese ships and aircraft in
international waters and airspace close to China.
• Fifth, they suggest that in the absence of conflict, China’s military forces,
including in particular its naval forces, will be used on a day-to-day basis to
promote China’s political position in the Pacific. This would create an essentially
political (as opposed to combat-related) reason for the United States or other
countries to maintain a competitive presence in the region with naval and other
forces that are viewed by observers in the Pacific as capable of effectively
countering China’s forces. Even if a U.S.-Chinese military conflict in the Pacific
over Taiwan or some other issue were never to occur, the U.S.-Chinese military
balance in the Pacific could nevertheless influence day-to-day choices made by
other Pacific countries, including choices on whether to align their policies more
closely with China or the United States. In this sense, decisions that Congress and

(...continued)
Pacific and Indian Oceans, using aircraft carriers as a key component of their military force.
Recent Chinese military developments, rhetoric, and actions reflect implementation of this
maritime strategy, on pace with the projections to seek control of the first island chain.
(Prepared statement by Stacy A. Pedrozo, Capt, JAGC, USN, U.S. Navy Military Fellow, Council
on Foreign Relations, Before the U.S.-China Economic & Security Review Commission, January
27, 2011, p. 2. For DOD maps of the first and second island chains, see 2012 DOD CMSD, pp. 40
and 42.)
19 One observer states that aside from the PLAN’s major naval projects, “I find the launching and possible induction of
the No. 88 ‘life style’ ship to be the best indication of PLAN’s blue water desires. From all of the pictures I have seen,
this ship looks to be a ship where sailors (who have been out in the sea for a long time) can party and release stress. I
guess that’s PLAN’s substitute to having port calls.” (Blog entry entitled “Reflecting [on] PLAN in 2011,” December
17, 2011, accessed December 23, 2011, at http://www.informationdissemination.net/2011/12/reflecting-plan-in-
2011.html.)
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the executive branch make regarding U.S. Navy programs for countering
improved Chinese maritime military forces could influence the political
evolution of the Pacific, which in turn could affect the ability of the United States
to pursue goals relating to various policy issues, both in the Pacific and
elsewhere.
China’s View Regarding Right to Regulate Foreign Military Activities in EEZ
China’s view that it has the legal right to regulate foreign military activities in its EEZ appears to
be at the crux of multiple incidents between Chinese and U.S. ships and aircraft in international
waters and airspace in the South China Sea, including incidents in March 2001, March 2009, and
May 2009 in which Chinese ships and aircraft confronted and harassed the U.S. naval ships
Bowditch (TAGS-62), Impeccable (TAGOS-23), and Victorious (TAGOS-19), as they were
conducting survey and ocean surveillance operations in China’s EEZ, and an incident on April 1,
2001, in which a U.S. Navy EP-3 electronic surveillance aircraft flying in international airspace
about 65 miles southeast of China’s Hainan Island in the South China Sea was intercepted by
Chinese fighters.20
It is important to note, particularly from a U.S. perspective, that China’s view that it has the legal
right to regulate foreign military activities in its EEZ is related to, but separate from, the issue of
disputes between China and neighboring countries over maritime territorial claims in the South
China Sea and East China Sea. Even if all territorial disputes in those areas were resolved,
China’s view that it has the legal right to regulate foreign military activities in its EEZ would
continue to act as an ongoing source of potential incidents at sea between Chinese and U.S. ships
and aircraft.
It is also important to note, particularly from a U.S. perspective, that if China’s view that it has
the legal right to regulate foreign military activities in its EEZ were to gain international
acceptance, it could establish an international legal precedent that other coastal countries might
decide to follow—a development that, if it were to occur, could significantly affect U.S. naval
operations in various places around the world. One set of observers states that China
promotes revisionist and inconsistent interpretations of what activities are legally permissible
in the EEZ. For instance, China leads a 23 state group of the 192 UN member states who
seek a minority interpretation of UNCLOS that would restrict foreign military access within
China’s claimed EEZ and the airspace above it.21 If this approach were adopted, China could
prohibit foreign military operations in major swaths of South China Sea, thereby threatening
freedom of navigation in some of the world’s most important shipping and energy lanes.
Accepting the minority view on EEZ access would also set a precedent for the 38% of the
world’s ocean area potentially claimed as EEZ to be similarly restricted—even by states such
as Somalia that utterly lacks the capacity to maintain order in the face of sub-state threats. 22

20 One of the fighters accidentally collided with and damaged the EP-3, which then made an emergency landing on
Hainan Island. For more on this incident, see CRS Report RL30946, China-U.S. Aircraft Collision Incident of April
2001: Assessments and Policy Implications
, by Shirley A. Kan et al..
21 The passage at this point contains a footnote that cites the following source: Peter A. Dutton, “China’s Efforts to
Assert Legal Control of Maritime Airspace,” in Andrew Erickson and Lyle Goldstein, eds., Chinese Aerospace Power:
Evolving Maritime Roles
, Annapolis, Naval Institute Press, 2011, pp. 90-107.
22 Andrew Erickson and Gabe Colins, “Near Seas ‘Anti-Navy’ Capabilities, not Nascent Blue Water Fleet, Constitute
China’s Core Challenge to U.S. and Regional Militaries,” China SignPost, March 6, 2012, p. 3, accessed at
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Selected Elements of China’s Naval Modernization Effort
Anti-Ship Ballistic Missiles (ASBMs)
China for several years has been developing and testing an anti-ship ballistic missile (ASBM),
which is a theater-range ballistic missile23 equipped with a maneuverable reentry vehicle (MaRV)
designed to hit moving ships at sea. The ASBM is referred to as the DF-21D, and is believed to
be a new variant of China’s existing DF-21 (aka CSS-5) road-mobile medium-range ballistic
missile (MRBM). DOD states that the missile has a range exceeding 1,500 km (i.e., about 810
nautical miles), and that it “is intended to provide the PLA the capability to attack large ships,
including aircraft carriers, in the western Pacific Ocean.”24 Another observer states that “the DF-
21D’s warhead apparently uses a combination of radar and optical sensors to find the target and
make final guidance updates…. Finally, it uses a high explosive, or a radio frequency or cluster
warhead that at a minimum can achieve a mission kill [against the target ship].”25
Observers have expressed strong concern about the DF-21D, because such missiles, in
combination with broad-area maritime surveillance and targeting systems, would permit China to
attack aircraft carriers, other U.S. Navy ships, or ships of allied or partner navies operating in the
Western Pacific. The U.S. Navy has not previously faced a threat from highly accurate ballistic
missiles capable of hitting moving ships at sea. For this reason, some observers have referred to
the DF-21 as a “game-changing” weapon. Due to their ability to change course, the MaRVs on an
ASBM would be more difficult to intercept than non-maneuvering ballistic missile reentry
vehicles.26

(...continued)
http://www.chinasignpost.com/wp-content/uploads/2012/03/China-SignPost-55_Strategic-Horizon_1A_Near-Seas-
Are-The-Real-Challenge_20120306.pdf. See also Martin Murphy, “Fair Warning,” Naval War College Review, Winter
2012: 164-167; Peter Dutton, “Three Disputes and Three Objectives,” Naval War College Review, Autumn 2011: 42-
67; James Kraska, Maritime Power and the Law of the Sea, New York, Oxford University Press, 2011, 464 pp.; and
Jonathan G. Odom, “The True ‘Lies’ of the Impeccable Incident: What Really Happened, Who Disregarded
International Law, and Why Every Nation (Outside of China) Should Be Concerned,” Michigan State Journal of
International Law
, May 2010: 1-42.
23 Depending on their ranges, these theater-range ballistic missiles can be divided into short-, medium-, and
intermediate-range ballistic missiles (SRBMs, MRBMs, and IRBMs, respectively).
24 2011 DOD CMSD, p. 3. 2012 DOD CMSD similarly states on page 22 that the range of the missile “exceeds 1,500
km.” See also 2009 ONI Report, pp. 26-27. A July 12, 2011, China Daily news report described the DF-21D as a
missile with a range of 2,700 kilometers, or about 1,460 nautical miles. (Hu Yinan, Li Xiaokun, and Cui Haipei,
“Official Confirms China Building Aircraft Carrier,” China Daily (www.chinadaily.com.cn), July 12, 2011, accessed
online July 13, 2011, at http://www.chinadaily.com.cn/cndy/2011-07/12/content_12880708.htm.) A subsequent news
report, however, states: “Jane’s has learnt that the reference to 2,700 km was added by China Daily staff and is not
corroborated by other Chinese reporting on the DF-21D.” (J. Michael Cole, “China Confirms ‘Carrier Killer,’” Jane’s
Defense Weekly
, July 20, 2011: 6.)
25 Richard Fisher, Jr., “PLA and U.S. Arms Racing in the Western Pacific,” available online at
http://www.strategycenter.net/research/pubID.247/pub_detail.asp. A mission kill means that the ship is damaged
enough that it cannot perform its intended mission.
26 For further discussion of China’s ASBM-development effort and its potential implications for U.S. naval forces, see
Craig Hooper and Christopher Albon, “Get Off the Fainting Couch,” U.S. Naval Institute Proceedings, April 2010: 42-
47; Andrew S. Erickson, “Ballistic Trajectory—China Develops New Anti-Ship Missile,” Jane’s Intelligence Review,
January 4, 2010; Michael S. Chase, Andrew S. Erickson and Christopher Yeaw, “Chinese Theater and Strategic Missile
Force Modernization and its Implications for the United States,” The Journal of Strategic Studies, February 2009: 67-
114; Andrew S. Erickson and David D. Yang, “On the Verge of a Game-Changer,” U.S. Naval Institute Proceedings,
May 2009: 26-32; Andrew Erickson, “Facing A New Missile Threat From China, How The U.S. Should Respond To
(continued...)
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Regarding the operational status of the DF-21D, DOD states that “during 2010, China made
strides toward fielding an operational anti-ship ballistic missile....”27 An August 25, 2011, press
report states:
China has developed a “workable design” of the world’s first anti-ship ballistic missile,
potentially capable of hitting and disabling a U.S. aircraft carrier, according to Pentagon
officials.
China also has satellites in place “that could provide some targeting data on large surface
ships in the region, and this expanding infrastructure is augmented by non-space-based
sensors and surveillance assets,” said Navy Commander Leslie Hull-Ryde, a Pentagon
spokeswoman on China, in an e-mail.
“Over the next few years, we expect China will work to refine and integrate many emerging
systems, including the DF- 21D” missile, she said....
China at this time “has provided no indication of whether they consider this an operational
system,” Hull-Ryde said. She declined to say if the Pentagon believes the missile currently
poses a threat to U.S. carriers.
Taiwan, which relies on the U.S. military presence, says in its new 2011 National Defense
Report that China already has “produced and fielded” the missile “in small numbers,” said a
translation provided by Andrew Erikson, an associate professor in the Naval War College’s
Strategic Research Department.28
A July 12, 2011, news report from China quotes Chen Bingde, the chief of the PLA general staff,
as stating that “the missile is still undergoing experimental testing” and that “it is a high-tech
weapon and we face many difficulties in getting funding, advanced technologies and high-quality
personnel, which are all underlying reasons why it is hard to develop this.”29 A February 18, 2011,
press report from China quoted an unnamed source as saying that the DF-21D “is already
deployed in the army.”30 In December 2010 and January 2011, it was reported that DOD believes

(...continued)
China’s Development Of Anti-Ship Ballistic Missile Systems,” CBSNews.com, May 28, 2009; Andrew S. Erickson,
“Chinese ASBM Development: Knowns and Unknowns,” China Brief, June 24, 2009: 4-8; Andrew S. Erickson and
David D. Yang, “Using the Land to Control the Sea? Chinese Analysts Consider the Antiship Ballistic Missile,” Naval
War College Review
, Autumn 2009: 53-86; Eric Hagt and Matthew Durnin, “China’s Antiship Ballistic Missile,
Developments and Missing Links,” Naval War College Review, Autumn 2009: 87-115; Mark Stokes, “China’s
Evolving Conventional Strategic Strike Capability, The Anti-ship Ballistic Missile Challenge to U.S. Maritime
Operations in the Western Pacific and Beyond
, Project 2049 Institute, September 14, 2009. 123 pp.
27 2011 DOD CMSD, p. 13.
28 Tony Capaccio, “China Has ‘Workable’ Anti-Ship Missile Design, Pentagon Says,” Bloomberg.com, August 25,
2011.
29 Hu Yinan, Li Xiaokun, and Cui Haipei, “Official Confirms China Building Aircraft Carrier,” China Daily
(www.chinadaily.com.cn), July 12, 2011, accessed online July 13, 2011, at http://www.chinadaily.com.cn/cndy/2011-
07/12/content_12880708.htm. See also Bradley Perrett, “Imbalance of Power,” Aviation Week & Space Technology,”
July 18/25, 2011: 24-25.
30 Zhang Han and Huang Jingling, “New Missile ‘Ready by 2015,” Global Times (http://military.globaltimes.cn),
February 18, 2011. The new missile referred to in the title of the article is a missile other than the DF-21 that the article
said is to have a range of up to 4,000 km, or about 2,160 nm.
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the missile has achieved the equivalent of what for a U.S. weapon would be called Initial
Operational Capability (IOC).31
Anti-Ship Cruise Missiles (ASCMs)
Among the most capable of the new ASCMs that have been acquired by China’s navy are the
Russian-made SS-N-22 Sunburn (carried by China’s four Russian-made Sovremenny-class
destroyers) and the Russian-made SS-N-27 Sizzler (carried by 8 of China’s 12 Russian-made
Kilo-class submarines). China’s large inventory of ASCMs also includes several indigenous
designs. DOD states that “The PLA Navy has or is acquiring nearly a dozen ASCM variants,
ranging from the 1950s-era CSS-N-2 to the modern Russian-made SS-N-22 and SS-N-27B. The
pace of ASCM research, development, and production within China has accelerated over the past
decade,”32 and that “The SONG, YUAN, SHANG and the still-to-be-deployed Type 095 [class
submarines] all will be capable of launching the [new Chinese-made] long-range CH-SS-NX-13
ASCM, once the missile completes development and testing.”33
Submarines
China’s submarine modernization effort has attracted substantial attention and concern. The
August 2009 ONI report states that “since the mid-1990s, the PRC has emphasized the submarine
force as one of the primary thrusts of its military modernization effort.”34
Types Acquired in Recent Years
China since the mid-1990s has acquired 12 Russian-made Kilo-class non-nuclear-powered attack
submarines (SSs) and deployed four new classes of indigenously built submarines, including the
following:
• a new nuclear-powered ballistic missile submarine (SSBN) design called the Jin
class or Type 094 (Figure 1);
• a new nuclear-powered attack submarine (SSN) design called the Shang class or
Type 093;35

31 See, for example, the transcript of a January 5, 2011, Defense Writers Group roundtable with Vice Admiral David J.
Dorsett, Deputy CNO for Information Warfare; Tony Capaccio, “China’s Anti-Ship Missiles Aren’t Effective Yet, U.S.
Navy Says,” Bloomberg.com, January 3, 2011; “Deputy Chief of Naval Operations for Information Dominance
(N2/N6): China Has Space-Based & Non-Space-Based C2 + ISR ‘capable of providing the targeting information
necessary to employ the DF-21D’ Anti-Ship Ballistic Missile (ASBM),” blog entry dated January 4, 2011, accessed by
CRS on January 7, 2011, at http://www.andrewerickson.com/; and Yoichi Kato, “U.S. Commander Says China Aims to
Be A ‘Global Military’ Power,” Asahi.com (Asahi Shimbun), December 28, 2010. See also Andrew Erickson and Gabe
Collins, “China Deploys World’s First Long-Range, Land-Based ‘Carrier Killer’: DF-21D Anti-Ship Ballistic Missile
(ASBM) Reaches “Initial Operational Capability” IOC,” China SignPost, December 26, 2010; Bill Gertz, “China Has
Carrier-Killer Missile, U.S. Admiral Says,” Washington Times, December 28, 2010: 1; Associated Press, “China
Moving Toward Deploying Anti-Carrier Missile,” Washington Post, December 28, 2010; Kathrin Hille, “Chinese
Missile Shifts Power In Pacific,” Financial Times, December 29, 2010: 1.
32 2011 DOD CMSD, p. 30.
33 2011 DOD CMSD, p. 4.
34 2009 ONI Report, p. 20.
35 Some sources state that a successor to the Shang class SSN design, called the Type 095 SSN design, is in
(continued...)
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• a new SS design called the Yuan class or Type 041 (or Type 039A) (Figure 2);36
and
• another (and also fairly new) SS design called the Song class or Type 039/039G.
Figure 1. Jin (Type 094) Class Ballistic Missile Submarine

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.
Figure 2. Yuan (Type 041) Class Attack Submarine

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.

(...continued)
development.
36 Some observers believe the Yuan class to be a variant of the Song class and refer to the Yuan class as the
Type 039A. The August 2009 ONI report states that the Yuan class may be equipped with an air-independent
propulsion (AIP) system. (2009 ONI Report, p. 23.)
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The Kilos and the four new classes of indigenously built submarines are regarded as much more
modern and capable than China’s aging older-generation submarines. At least some of the new
indigenously built designs are believed to have benefitted from Russian submarine technology
and design know-how.37 DOD states that the Yuan class design “probably includes an air-
independent propulsion system.”38
DOD and other observers believe the Type 093 SSN design will be succeeded by a newer SSN
design called the Type 095. The August 2009 ONI report includes a graph (see Figure 3) that
shows the Type 095 SSN, along with the date 2015, suggesting that ONI projects that the first
Type 095 will enter service that year. DOD states that:
Two second-generation SHANG-class (Type-093) SSNs are already in service and as many
as five third-generation SSNs will be added in the coming years. When complete, the new
class of SSNs will incorporate better quieting technology, improving China’s capability to
conduct a range of missions from surveillance to the interdiction of surface vessels with
torpedoes and ASCMs.39
In September 2010, it was reported that China launched the first of a new kind of SS, possibly as
a successor to the Yuan class.40 Photographs of the submarine published in press reports in June
2011 suggest the design is roughly one-third larger than the Yuan class. The design has a
relatively large sail (i.e., “conning tower”) that some observers have speculated might be
intended, in part, for storing and launching missiles that are too large for the ship’s torpedo room
and torpedo tubes.41
Figure 3 and Figure 4, which are taken from the August 2009 ONI report, show the acoustic
quietness of Chinese nuclear- and non-nuclear-powered submarines, respectively, relative to that
of Russian nuclear- and non-nuclear-powered submarines. The downward slope of the arrow in
each figure indicates the increasingly lower noise levels (i.e., increasing acoustic quietness) of the
submarine designs shown. In general, quieter submarines are more difficult for opposing forces to
detect and counter. The green-yellow-red color spectrum on the arrow in each figure might be
interpreted as a rough indication of the relative difficulty that a navy with capable antisubmarine
warfare forces (such as the U.S. Navy) might have in detecting and countering these submarines:
Green might indicate submarines that would be relatively easy for such a navy to detect and
counter, yellow might indicate submarines that would be less easy for such a navy to detect and
counter, and red might indicate submarines that would be more difficult for such a navy to detect
and counter.

37 The August 2009 ONI report states that the Yuan class may incorporate quieting technology from the Kilo class, and
that it may be equipped with an air-independent propulsion (AIP) system. (2009 ONI Report, p. 23.)
38 2012 DOD CMSD, p. 23.
39 2012 DOD CMSD, p. 23.
40 See, for example, Ted Parsons, “China Launches New SSK,” Jane’s Defence Weekly, September 22, 2010: 16. A
similar article was published as Ted Parsons, “Launch of Mystery Chinese SSK Fuels Submarine Race in Asia,” Jane’s
Navy International
, October 2010: 4. See also the blog entry at http://www.informationdissemination.net/2011/04/
recent-photos-from-chinese-shipyards.html.
41 See, for example, Ted Parsons, “Chinese Sub Images Offer Mission Clues,” Jane’s Defence Weekly, June 2011: 14.
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Figure 3. Acoustic Quietness of Chinese and Russian Nuclear-Powered Submarines

Source: 2009 ONI Report, p. 22.
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Figure 4. Acoustic Quietness of Chinese and Russian Non-Nuclear-Powered
Submarines
(Non-nuclear-powered submarines are commonly referred to as diesel or diesel-electric submarines)

Source: 2009 ONI Report, p. 22.
China’s submarines are armed with one or more of the following: ASCMs, wire-guided and
wake-homing torpedoes, and mines. The final eight Kilos purchased from Russia are reportedly
armed with the highly capable Russian-made SS-N-27 Sizzler ASCM. In addition to other
weapons, Shang-class SSNs may carry LACMs. Although ASCMs are often highlighted as
sources of concern, wake-homing torpedoes are also a concern because they can be very difficult
for surface ships to counter.
Although China’s aging Ming-class (Type 035) submarines are based on old technology and are
much less capable than China’s newer-design submarines, China may decide that these older
boats have continued value as minelayers or as bait or decoy submarines that can be used to draw
out enemy submarines (such as U.S. SSNs) that can then be attacked by other Chinese naval
forces.
In related areas of activity, China reportedly is developing new unmanned underwater vehicles,42
and has modernized its substantial inventory of mines.43 DOD states that “China has developed

42 Lyle Goldstein and Shannon Knight, “Coming Without Shadows, Leaving Without Footprints,” U.S. Naval Institute
Proceedings
, April 2010: 30-35.
43 See, for example, Scott C. Truver, “Taking Mines Seriously, Mine Warfare in China’s Near Seas,” Naval War
College Review
,” Spring 2012: 30-66.
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torpedo and mine systems capable of area denial in a Taiwan scenario. Estimates of China’s naval
mine inventory exceed 50,000 mines, with many more capable systems developed in the past 10
years.”44
Submarine Acquisition Rate and Potential Submarine Force Size
Table 1 shows actual and projected commissionings of Chinese submarines by class since 1995,
when China took delivery of its first two Kilo-class boats. The table includes the final nine boats
in the Ming class, which is an older and less capable submarine design. As shown in Table 1,
China by the end of 2010 had a total of 31 relatively modern attack submarines—meaning Shang,
Kilo, Yuan, and Song class boats—in commission. As shown in the table, much of the growth in
this figure occurred in 2004-2006, when 18 boats (including 8 Kilo-class boats and 8 Song-class
boats) were added.
The figures in Table 1 show that between 1995 and 2010, China placed into service a total of 42
submarines of all kinds, or an average of about 2.6 submarines per year. This average
commissioning rate, if sustained indefinitely, would eventually result in a steady-state submarine
force of about 53 to 79 boats of all kinds, assuming an average submarine life of 20 to 30 years.
Excluding the 12 Kilos purchased from Russia, the total number of domestically produced
submarines placed into service between 1995 and 2007 is 30, or an average of about 1.9 per year.
This average rate of domestic production, if sustained indefinitely, would eventually result in a
steady-state force of domestically produced submarines of about 38 to 56 boats of all kinds, again
assuming an average submarine life of 20 to 30 years.
The August 2009 ONI report states that “Chinese submarine procurement has focused on smaller
numbers of modern, high-capability boats,” and that “over the next 10 to 15 years, primarily due
to the introduction of new diesel-electric and [non-nuclear-powered] air independent power (AIP)
submarines, the force is expected to increase incrementally in size to approximately 75
submarines.”45

44 2012 DOD CMSD, p. 23.
45 2009 ONI Report, p. 21. The report states on page 46 that “Because approximately three-quarters of the current
submarine force will still be operational in 10-15 years, new submarine construction is expected to add approximately
10 platforms to the force.” See also the graph on page 45, which shows the submarine force leveling off in size around
2015.
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Table 1. PLA Navy Submarine Commissionings
Actual (1995-2010) and Projected (2011-2016)
Annual
Cumulative
Jin
Shang
Ming
Song
Yuan
total
Cumulative
total for
(Type (Type
Kilo SS
(Type (Type (Type
for all
total for all
modern
094)
093)
(Russian-
035)
039)
041)
types
types
attack

SSBN
SSN
made)
SSb
SS
SSa
shown
shown
boatsc
1995


2d 1 3 3 2
1996
1 1 4 2
1997
2 2 6 2
1998


1d 2 3 9 3
1999


1d 1 2 11 5
2000
1 1 12 5
2001
1 2 3 15 7
2002
1 1 16 7
2003
2 2 18 9
2004
1 3 4 22 13
2005
4 3 7 29 20
2006
1 3 2e 1 7 36 27
2007
1 1f




2 38 28
2008






0 38 28
2009
2 2 40 30
2010
1 1 2 42 31
2011
2 2 44 33
2012
1 1 2 46 34
2013
1 n/a
n/a
n/a
n/a
2014
1 n/a
n/a
n/a
n/a
2015

n/a
n/a
n/a
n/a
2016
1g n/a n/a
n/a
n/a
Source: Jane’s Fighting Ships 2011-2012, and previous editions.
Note: n/a = data not available.
a. Some observers believe the Yuan class to be a variant of the Song class and refer to the Yuan class as the
Type 039A.
b. Figures for Ming-class boats are when the boats were launched (i.e., put into the water for final
construction). Actual commissioning dates for these boats may have been later.
c. This total excludes the Jin-class SSBNs and the Ming-class SSs.
d. Jane’s Fighting Ships 2011-2012 lists the commissioning date of the Kilo as December 15, 1994. The first four
Kilo-class boats are to be refitted in Russia; upgrades are likely to include installation of SS-N-27 ASCM.
Jane’s reports that the first of the two boats shown in the table as entering service in 1995 was
commissioned into service on December 15, 1994, while it was still in Russia, and arrived in China by
transporter ship in February 1995.
e. No further units expected after the 12th and 13th shown for 2006.
f.
Jane’s Fighting Ships 2011-2012 states that production of the two Shang-class boats shown in the table may
be fol owed by production of a new SSN design possibly known as the Type 095 class. A graph on page 22
of 2009 ONI Report (reprinted in this CRS report as Figure 3) suggests that ONI expects the first Type 095
to enter service in 2015.
g. A total of six Jin-class boats is expected by Jane’s, with the sixth unit projected to be commissioned in 2016.
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JL-2 SLBM on Jin-Class SSBN
Each Jin-class SSBN is expected to be armed with 12 JL-2 nuclear-armed submarine-launched
ballistic missiles (SLBMs). DOD estimates that these missiles will have a range of about 7,400
kilometers (about 3,996 nautical miles).46 DOD states that “The JIN-class SSBN and the JL-2 will
give the PLA Navy its first credible sea-based nuclear capability. The JL-2 program has faced
repeated delays, but may reach initial operating capability within the next two years.”47
Aircraft Carriers and Carrier-Based Aircraft
Chinese officials have been talking openly since 2006 about eventually operating aircraft
carriers.48 China is completing the ex-Ukrainian aircraft carrier Varyag, which China purchased as
an unfinished ship in 1998, and reportedly has begun building its first indigenous aircraft carrier.
DOD states that “During the next decade China is likely to fulfill its carrier ambitions, becoming
the last permanent member of the UN Security Council to obtain a carrier capability.”49 The
August 2009 ONI report states that “China is undertaking a program to both operationalize [the
Varyag] (likely as a training platform) and build an indigenous carrier to join the fleet between
2015 and 2020.”50
Ex-Ukrainian Aircraft Carrier Varyag
The Varyag (Figure 5) began conducting sea trials in August 2011; DOD states that China “will
likely” commission the ship into service in 2012.51 The ship reportedly has not conducted aircraft
operations during its sea trials, although in the more recent trials, the ship reportedly has carried
mockups of China’s new J-15 carrier-based fighter.52

46 2012 DOD CMSD, p. 23. (The report indicates the range on page 43 as “>7,400 km,” meaning greater than 7,400
km.) A range of 7,400 km could permit Jin-class SSBNs to attack

targets in Alaska (except the Alaskan panhandle) from protected bastions close to China;

targets in Hawaii (as well as targets in Alaska, except the Alaskan panhandle) from locations south of Japan;

targets in the western half of the 48 contiguous states (as well as Hawaii and Alaska) from mid-ocean
locations west of Hawaii; and

targets in all 50 states from mid-ocean locations east of Hawaii.
47 2012 DOD CMSD, p. 23.
48 The August 2009 ONI report states that “Beginning in early 2006, PRC-owned media has reported statements from
high-level officials on China’s intent to build aircraft carriers.”
49 2011 DOD CMSD, p. 46.
50 2009 ONI Report, p. 17. The report similarly states on page 1 that China “is refurbishing [the Varyag] and plans to
build its own [aircraft carrier] within the next five to ten years,” and on page 19 that “the PRC will likely have an
operational, domestically produced carrier sometime after 2015.” The report states on page 19 that the Varyag “is
expected to become operational in the 2010 to 2012 timeframe, and will likely be used to develop basic proficiencies in
carrier operations.”
51 2012 DOD CMSD, p. 7.
52 Wendell Minnick, “China Carrier’s Sea Trial Includes New Fighter Mockups,” Defense News, July 9, 2012: 26.
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Figure 5. Ex-Ukrainian Aircraft Carrier Varyag
Pictured here reportedly on July 30, 2012, following ship’s ninth sea trial

Source: Xinhua, “China’s Aircraft Carrier Platform Finishes 9th Sea Trial,” Global Times (www.globaltimes.cn), July
31, 2012, accessed July 31, 2012, at http://www.globaltimes.cn/content/724331.shtml. (Photo credited to
www.cns.com.) The caption to the photo stated: “China’s aircraft carrier platform returned to the dock in
Dalian, northeast China’s Liaoning Province, after finishing its 9th sea trial, July 30, 2010. The trial lasted 25 days,
the longest one in its history.”
The ship’s air wing might not be added until some time after the ship becomes fully operational.
Observers expect it would then take a substantial amount of time for the ship’s crew and air wing
to become proficient in operating aircraft from the ship. According to some reports in 2011, China
had difficulty purchasing from Russia arresting wire systems that are needed for the ship to be
able to support landings by fixed-wing aircraft.53 At an August 24, 2011, DOD press briefing, a
DOD said official that “the aircraft carrier could become operationally available to China’s navy
by the end of 2012, we assess, but without aircraft. It will take a number of additional years for an
air group to achieve the sort of minimal level of combat capability aboard the carrier that will be
necessary for them to start to operate from the carrier itself.”54
The Varyag has an estimated full load displacement of about 65,000 tons, and might
accommodate an air wing of 30 to 50 aircraft, including short-takeoff, vertical landing (STOVL)
fixed-wing airplanes and some helicopters. By comparison, a U.S. Navy aircraft carrier has a full
load displacement of about 100,000 tons and can accommodate an air wing of 65 or more aircraft,
including conventional takeoff and landing (CTOL) airplanes (which tend to have a greater
range/payload than STVOL airplanes) and some helicopters.55

53 See, for example, “Russia Refuses To Sell Arresters for Chinese Aircraft Carrier,” Free Republic
(www.freerepublic.com)
, November 25, 2011; J. Michael Cole, “First Chinese Aircraft Carrier Might Soon Embark On
Its Third Trial At Sea,” Taipei Times, December 21, 2011.
54 Transcript of DOD press briefing with Michael Schiffer, Deputy Assistant Secretary of Defense for East Asia,
accessed at http://www.defense.gov/transcripts/transcript.aspx?transcriptid=4868. See also 2011 DOD CMSD, pp. 3
and 46.
55 For more on the Varyag, see Paul M. Barrett, “China’s 65,000-Ton Secret,” Bloomberg Businessweek, January 30,
2012.
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Indigenous Aircraft Carriers
DOD states in 2012 that “some components of China’s first indigenously-produced carrier may
already be under construction; that carrier could achieve operational capability after 2015. China
likely will build multiple aircraft carriers and associated support ships over the next decade.”56
A May 21, 2012, press report stated:
Taiwan’s intelligence chief said May 21 that China plans to build two aircraft carriers, in
addition to the first in its fleet, a refitted former Soviet carrier currently undergoing sea
trials....
Tsai [Teh-sheng, head of the island’s National Security Bureau,] said construction of the
warships is slated to start in 2013 and 2015, respectively, with delivery dates of 2020 and
2022, and that they would be conventionally powered.57
An August 2, 2011, press report stated:
China has begun work on its first aircraft carrier and probably will develop two or more,
along with outfitting a former Russian carrier that is set to begin sea trials soon, Pentagon
officials said.
“We expect China to build at least one indigenous carrier, probably two or more, but they
have not revealed how many they intend to build, what the construction schedule will [be] or
what their missions will be,” said a defense official familiar with intelligence assessments.
A second defense official said China regards aircraft carriers as key symbols of global power
projection and is unlikely to build just two.
Other defense officials said assessments about the indigenous carriers are based on
intelligence showing construction of the first indigenous carrier at the Changxing Island
Shipyard in Shanghai.
The carrier appears in satellite photos to be similar in design to the Varyag, a Soviet-era
carrier purchased by China that uses a sky-jump style takeoff ramp at the front of the ship....
“Two aircraft carriers are being built at the Jiangnan Shipyard in Shanghai,” a Chinese
official with ties to China’s Communist Party leadership told Reuters last week.58
A July 10, 2011, press report stated:
China has started construction of its first domestically made aircraft carrier, according to
diplomatic and U.S. government sources....
Military sources close to developments in the Chinese Navy said the domestically made
carrier is being constructed in a shipyard on Changxing Island in Shanghai.

56 2012 DOD CMSD, p. 22.
57 Agence France-Presse, “China To Build 2 More Aircraft Carriers: Taiwan,” DefenseNews.com, May 21, 2012.
58 Bill Gertz, “China Begins To Build Its Own Aircraft Carrier,” Washington Times, August 2, 2011: 1. Material in
brackets as in original.
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The sources said the new carrier will likely be midsize, similar to the Varyag, and carry Jian-
15 jet fighters, which China has just developed. The fighters will likely take off from a ski
jump-style flight deck as is done on the Varyag....
Security around the shipyard on Changxing Island has increased significantly since the start
of this year, which military sources attribute to the start of construction of the carrier.59
A late-2010 article states that
photographic evidence [suggests] that China has finally laid the building blocks and keel for
its first indigenously designed aircraft carrier (CV), at Changxing Island Shipyard,
Shanghai..... The new carrier is estimated to likely be from 245 to 265m [i.e., about 804 feet
to 869 feet] in length and 65 to 70m [i.e., about 213 feet to 229 feet] in beam (this would
make it slightly smaller than the modernised, angled deck former USS “Coral Sea” (CVA-
43, for comparative purposes). Construction is likely to take eight to nine years, meaning the
ship becomes operational (IOC) [in] 2019-2020.60
Carrier-Based Aircraft
China reportedly was engaged in lengthy negotiations with Russia to purchase up to 50 Russian-
made carrier-capable Su-33 fighter aircraft. Although the negotiations with Russia reportedly did
not lead to a purchase of Su-33s, China reportedly is now developing its own carrier-capable
fighter, called the J-15, or Flying Shark, which reportedly is based on the Su-33.61 Some press
reports in 2011 suggested that China may be developing a short takeoff, vertical landing
(STOVL) jet called the J-18 for use on its aircraft carriers, but observers in 2011 were divided on
whether such a program exists and, if so, what its specific aims or current status may be.62
Potential Roles, Missions, and Strategic Significance
Although aircraft carriers might have some value for China in Taiwan-related conflict scenarios,
they are not considered critical for Chinese operations in such scenarios, because Taiwan is within
range of land-based Chinese aircraft. Consequently, most observers believe that China is

59 Yomiuri Shimbun, “China Starts Constructing Own Flattop; ‘2 Carriers Operational Within 10 Yrs’,” Daily Yomiuri
Online (www.yomiuri.co.jp)
, July 10, 2011, accessed online July 11, 2011 at http://www.yomiuri.co.jp/dy/world/
T110709003274.htm.
60 Keith Jacobs, “The Chinese and Japanese Navies Compared,” Naval Forces, No. VI, 2010: 80-85.
61 2011 DOD CMSD, p. 46. See also Reuben F. Johnson, “Images Suggest Shenyang Making Progress on Carrier-
Capable J-15,” Jane’s Navy International, March 2012: 11; David Axe, “The Limits Of China’s Fighter,” The
Diplomat (the-diplomat.com)
, July 15, 2011; Gabe Collins and Andrew Erickson, “China’s J-15 No Game Changer,”
The Diplomat (http://the-diplomat.com), June 23, 2011; Andrew Erickson and Gabe Collins, “‘Flying Shark’ Gaining
Altitude: How might new J-15 strike fighter improve China’s maritime air warfare ability?” China SignPost, June 7,
2011, 11 pp.; Wendell Minnick, “China Confirms J-15 Carrier-Based Fighter; Aircraft Based on Russian-Designed Su-
33,” Defense News, May 2, 2011: 4; David A. Fulghum, “New Chinese Ship-Based Fighter Progresses,” Aviation Week
& Space Technology
, April 28, 2011; David A. Fulghum, “New Chinese Ship-Based Heavy Fighter Readied For Flight
Tests,” Aerospace Daily & Defense Report, April 27, 2011: 1-2; Michael Wines, “Chinese State Media, In A Show Of
Openness, Print Jet Photos,” New York Times, April 26, 2011: 4.
62 See, for example, Wendell Minnick, “Is China Developing a VSTOL Fighter?” DefenseNews.com, April 22, 2011;
David Axe, “China’s Jump Jet Mystery,” The Diplomat (the-diplomat.com), April 25, 2011, accessed online May 19,
2011, at http://the-diplomat.com/flashpoints-blog/2011/04/25/chinas-jump-jet-mystery/; Dave Majumdar, “Analysts
Skeptical About China’s J-18,” Defense News, May 2, 2011: 8; Wendell Minnick, “China Confirms J-15 Carrier-Based
Fighter; Aircraft Based on Russian-Designed Su-33,” Defense News, May 2, 2011: 4.
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acquiring carriers primarily for their value in other kinds of operations that are more distant from
China’s shores, and to symbolize China’s status as a major world power. DOD states that “Given
the fact that Taiwan can be reached by land-based aviation, China’s aircraft carrier program
would offer very limited value in a Taiwan scenario and would require additional naval resources
for protection. However, it would enable China to extend its naval air capabilities elsewhere.”63
Chinese aircraft carriers could be used for power-projection operations, particularly in scenarios
that do not involve opposing U.S. forces. Chinese aircraft carriers could also be used for
humanitarian assistance and disaster relief (HA/DR) operations, maritime security operations
(such as anti-piracy operations), and non-combatant evacuation operations (NEOs). Politically,
aircraft carriers could be particularly valuable to China for projecting an image of China as a
major world power, because aircraft carriers are viewed by many as symbols of major world
power status. In a combat situation involving opposing U.S. naval and air forces, Chinese aircraft
carriers would be highly vulnerable to attack by U.S. ships and aircraft, but conducting such
attacks could divert U.S. ships and aircraft from performing other missions in a conflict situation
with China.64
DOD states that the Varyag “will initially serve as a training platform for fixed-wing aircraft and
as an additional asset for helicopter-borne HA/DR operations, until its full fixed-wing air
regiment achieves operational capability in several years.”65 DOD also states that “China
currently has a land-based training program for carrier pilots; however, it will still take several
additional years for China to achieve a minimal level of combat capability for its aircraft
carriers.”66
Surface Combatants
China since the early 1990s has purchased four Sovremenny-class destroyers from Russia and
deployed nine new classes of indigenously built destroyers and frigates (some of which are
variations of one another) that demonstrate a significant modernization of PLA Navy surface
combatant technology. China reportedly is also building a new class of corvettes (i.e., light
frigates) and has deployed a new kind of missile-armed fast attack craft that uses a stealthy
catamaran hull design. The August 2009 ONI report states that “the PLA(N) surface force is one
of the largest in the world, and its capabilities are growing at a remarkable rate,”67 and that “in
recent years, the most notable upgrade to the PLA(N) surface force has been its shipboard area-
air-defense (AAD) capability.”68 DOD states: “The PLA Navy has acquired modern,
domestically-produced surface combatants....These ships improve the PLA Navy’s area air

63 2011 DOD CMSD, p. 38.
64 For further discussion, see Andrew Erickson and Gabe Collins, “The ‘Flying Shark’ Prepares to Roam the Seas: pros
and cons [for China] of China’s aircraft carrier program,” China SignPost, May 18, 2011, 5 pp.; Aaron Shraberg,
“Near-Term Missions for China’s Maiden Aircraft Carrier,” China Brief, June 17, 2011: 4-6; and Andrew S. Erickson,
Abraham M. Denmark, and Gabriel Collins, “Beijing’s ‘Starter Carrier’ and Future Steps,” Naval War College Review,
Winter 2012: 15-55.
65 2012 DOD CMSD, p. 7.
66 2012 DOD CMSD, p. 22.
67 2009 ONI Report, p. 16. This comment may relate not solely to China’s surface combatants (e.g., destroyers, frigates,
and fast attack craft), but to China’s entire surface fleet, which includes other types of ships as well, such as aircraft
carriers, amphibious ships, and auxiliary and support ships.
68 2009 ONI Report, p. 18.
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defense capability significantly, which will be critical as the PLA Navy expands its operations
into areas beyond the range of shore-based air defense.”69
Sovremenny-Class Destroyers
China in 1996 ordered two Sovremenny-class destroyers from Russia; the ships entered service in
1999 and 2001. China in 2002 ordered two additional Sovremenny-class destroyers from Russia;
the ships entered service in 2005 and 2006. Sovremenny-class destroyers are equipped with the
Russian-made SS-N-22 Sunburn ASCM, a highly capable ASCM.
Five New Indigenously Built Destroyer Classes
China since the early 1990s has deployed five new classes of indigenously built destroyers, one of
which is a variation of another. The classes are called the Luhu (Type 052), Luhai (Type 051B),
Luyang I (Type 052B), Luyang II (Type 052C), and Louzhou (Type 051C) designs. Compared to
China’s 13 remaining older Luda (Type 051) class destroyers, which entered service between
1971 and 1991, these five new indigenously built destroyer classes are substantially more modern
in terms of their hull designs, propulsion systems, sensors, weapons, and electronics. The Luyang
II-class ships (Figure 6) appear to feature a phased-array radar that is outwardly somewhat
similar to the SPY-1 radar used in the U.S.-made Aegis combat system.70 Like the older Luda-
class destroyers, these new destroyer classes are armed with ASCMs.

69 2012 DOD CMSD, p. 23.
70 2009 ONI Report, p. 1.
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Figure 6. Luyang II (Type 052C) Class Destroyer

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.
As shown in Table 2, China between 1994 and 2007 commissioned only one or two ships in each
of its five new indigenously built destroyers classes, suggesting that these classes were intended
as stepping stones in a plan to modernize the PLA Navy’s destroyer technology incrementally
before committing to larger-scale series production of destroyers. As also shown in Table 2, after
commissioning no new destroyers in 2008-2010, construction of new destroyers appears to have
resumed with serial production of Luyang II-class ships.
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Table 2. PLA Navy Destroyer Commissionings
Actual (1994-2010) and Projected (2011-2012)
Sovre-
menny
Luhu
Luhai
Luyang I
Lyugang II
Louzhou
(Russian-
(Type (Type
(Type
(Type
(Type
Annual Cumulative

made)
052)
051B)
052B)
052C)
051C)
total
total
1994
1

1 1
1995






0 1
1996
1

1 2
1997






0 2
1998






0 2
1999
1 1

2 4
2000






0 4
2001
1

1 5
2002






0 5
2003






0 5
2004
2 1
3 8
2005
1
1
2 10
2006
1

1 2 12
2007


1 1 13
2008






0 13
2009






0 13
2010






0 13
2011






0 13
2012




1a

1 14
Source: Jane’s Fighting Ships 2011-2012, and previous editions.
a. Jane’s Fighting Ships 2011-2012 states that this ship was launched on November 28, 2010, and is being built
to a modified version of the Luyang II design. Jane’s expects three further ships in the class.
Jane’s Fighting Ships states that a third Luyang II-class ship, built to a modified design, was
launched (i.e., put into the water for the final phase of its construction) on November 28, 2010,
and was expected to enter service in 2012, and that three further ships are expected.71 An April
22, 2012, blog entry stated that the third ship had joined the PLAN’s East Sea Fleet, and that the
sixth and seventh ships in the class were under construction.72 A July 11, 2012, blog entry stated
that the third ship appears to have entered service.73 A July 21, 2012, blog entry stated that the
fourth ship might have entered sea trials, that the sixth ship had recently been launched, and that
three additional destroyers of either the same design or a new design appear to be under
construction.74

71 Jane’s Fighting Ships 2011-2012, p. 139.
72 Blog entry entitled “Recent Activities Around Chinese Shipyards,” April 22, 2012, accessed July 31, 2012, at
http://www.informationdissemination.net/2012/04/recent-acitivites-around-chinese.html. (Note the spelling of
“acitivites” in the URL.)
73 Blog entry entitled “An Update from Chinese Shipyards,” July 11, 2012, accessed July 13, 2012, at
http://www.informationdissemination.net/2012/07/update-from-chinese-shipyards.html.
74 Blog entry entitled “052C and Beyond,” July 21, 2012, accessed July 27, 2012 at
http://www.informationdissemination.net/2012/07/052c-and-beyond.html.
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Four New Indigenously Built Frigate Classes
China since the early 1990s has deployed four new classes of indigenously built frigates, two of
which are variations of two others. The classes are called the Jiangwei I (Type 053 H2G),
Jiangwei II (Type 053H3), Jiangkai I (Type 054), and Jiangkai II (Type 054A) designs. Compared
to China’s 28 remaining older Jianghu (Type 053) class frigates, which entered service between
the mid-1970s and 1989, the four new frigate classes feature improved hull designs and systems,
including improved AAW capabilities. As shown in Table 3, production of Jiangkai II-class ships
(Figure 7) continues, and Jane’s projects an eventual total of 16.
Figure 7. Jiangkai II (Type 054A) Class Frigate

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.

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Table 3. PLA Navy Frigate Commissionings
Actual (1991-2010) and Projected (2011-2013)
Jiangwei I (Type
Jiangwei II
Jiangkai I
Jiangkai II
Annual Cumulative

053 H2G)
(Type 053H3) (Type 054)
(Type 054A)
total
total
1991
1


1 1
1992
1


1 2
1993
1


1 3
1994
1


1 4
1995




0 4
1996




0 4
1997




0 4
1998
1


1 5
1999
4


4 9
2000
1


1 10
2001




0 10
2002
2


2 12
2003




0 12
2004




0 12
2005
2
1

3 15
2006

1

1 16
2007




0 16
2008


4
4 20
2009




0 20
2010


2
2 22
2011


2
2 25
2012


3
3 28
2013


1
1 29
Source: Jane’s Fighting Ships 2011-2012, and previous editions.
Type 056 Corvette
China reporetdly is building a new type of corvette (i.e., light frigate) called the Type 056. A
January 17, 2012, blog entry stated that at least three such ships were under construction in two
shipyards.75 An April 22, 2012, blog entry reiterated that the ships are being built at two
shipyards, and stated that two of them had reached an advanced stage of construction.76 A July 11,

75 Blog entry entitled “Update From PLAN Land,” January 17, 2012, accessed February 8, 2012, at
http://www.informationdissemination.net/2012/01/update-from-plan-land.html. A December 2011 blog entry states:
We have been waiting for an OPV [offshore patrol vessel] class to appear [that in size would be]
between [the Type] 022 [fast attack craft class] and [the Type] 054A [frigate] class to guard the
littoral waters and patrol in South China Sea. For a while, it seemed like all of the newly built
cutters will be taking that role, even though they are practically unarmed. Finally, the long rumored
[Type] 056 class ships are now under construction in multiple Chinese shipyards. We have already
seen 056 hulls forming in HuDong and HuangPu shipyard ... but smaller shipyards around the
country are also expected to be building 056 ships.
(Blog entry entitled “Reflecting [on] PLAN in 2011,” December 17, 2011, accessed December 23,
2011, at http://www.informationdissemination.net/2011/12/reflecting-plan-in-2011.html.)
76 Blog entry entitled “Recent Activities Around Chinese Shipyards,” April 22, 2012, accessed July 31, 2012, at
(continued...)
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2012, blog entry states the first two ships in the class have been launched (i.e., put into the water
for the final phase of their construction).77
Houbei (Type 022) Fast Attack Craft
As an apparent replacement for at least some of its older fast attack craft, or FACs (including
some armed with ASCMs), China in 2004 introduced a new type of ASCM-armed fast attack
craft, called the Houbei (Type 022) class (Figure 8), that uses a stealthy, wave-piercing,
catamaran hull.78 The Houbei class was being built in at least six shipyards. DOD states that
“China has deployed approximately 60 of its HOUBEI-class (Type-022) wave-piercing
catamaran-hull guided missile patrol craft. Each boat can carry up to eight YJ-83 ASCMs. These
boats have increased the PLA Navy’s littoral warfare capabilities.”79 According to one source,
production of the design slowed in 2009, but a total of as many as 100 might be built.80 A
December 17, 2011, blog entry states: “The 022 class production [activities] have almost stopped
completely now. Enough of them have been produced to replace all of the old FACs.”81 The
August 2009 ONI report states that “the Houbei’s ability to patrol coastal and littoral waters and
react at short notice allows the PLA(N)’s larger combatants to focus on offshore defense and out-
of-[home]area missions without leaving a security gap along China’s coastline.”82

(...continued)
http://www.informationdissemination.net/2012/04/recent-acitivites-around-chinese.html. (Note the spelling of
“acitivites” in the URL.)
77 Blog entry entitled “An Update from Chinese Shipyards,” July 11, 2012, accessed July 13, 2012, at
http://www.informationdissemination.net/2012/07/update-from-chinese-shipyards.html.
78 For an article discussing how the Type 022 design appears to have been derived from the designs of Australian high-
speed ferries, see David Lague, “Insight: From a Ferry, a Chinese Fast-Attack Boat,” Reuters, June 1, 2012.
79 2012 DOD CMSD, p. 23.
80 Jane’s Fighting Ships 2011-2012, p. 151.
81 Blog entry entitled “Reflecting [on] PLAN in 2011,” December 17, 2011, accessed December 23, 2011, at
http://www.informationdissemination.net/2011/12/reflecting-plan-in-2011.html.
82 2009 ONI Report, p. 20. For further discussion of the Houbei class, see John Patch, “A Thoroughbred Ship-Killer,”
U.S. Naval Institute Proceedings, April 2010: 48-53.
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Figure 8. Houbei (Type 022) Class Fast Attack Craft
With an older Luda-class destroyer behind

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.
Surface Ships Operated by Non-PLAN Maritime Agencies
In addition to the PLAN surface combatants discussed above, China operates numerous
additional surface ships in several paramilitary maritime law enforcement agencies that are
outside the PLAN. These agencies are China Marine Surveillance (CMS), the State
Oceanographic Administration (SOA), the Marine Environmental Forecast Service (MEFS), the
Bureau of Fisheries (BOF), the Fisheries Law Enforcement Command (FLEC), the Maritime
Border Defense Force (MBDF), the China Coast Guard (CCG), and the Maritime Safety
Administration (MSA).83 The ships operated by these maritime agencies are generally lightly
armed, but can be effective in confrontations with unarmed ships (such as fishing vessels) or
lightly armed ships operated by other nations. China is increasingly using ships operated by these
agencies, particularly CMS, to assert and defend its maritime territorial claims and fishing
interests in the South China Sea.84A July 30, 2012, press report states:
As of May 2011, China had about 300 marine surveillance ships, including 30 ships
weighing [i.e., displacing] more than 1,000 tons, and 10 planes, including four helicopters, to
monitor marine affairs.
There are two patrol vessels weighing more than 3,000 tons, Haixun 11 and Haixun 31, and a
1,500-ton patrol vessel, Haixun 21.85

83 For an article discussing these agencies, see James C. Bussert, “Parsing China’s Fourth Fleet,” Signal, November
2011, accessed November 30, 2011, at http://www.afcea.org/signal/articles/templates/SIGNAL_Article_Template.asp?
articleid=2774&zoneid=7.
84 See, for example, 2012 DOD CMSD, p. 3, and the blog entry entitled “China’s Great White Fleet—Will China’s
Secret Fleet Soon Outnumber The US Navy?” June 19, 2012, accessed July 27, 2012 at http://www.forbes.com/sites/
gcaptain/2012/06/19/chinas-great-white-fleet-will-a-secret-fleet-soon-outnumber-the-us-navy/.
85 Tan Zongyang, “China Launches Advanced Patrol Vessel,” China Daily (chinadaily.com.cn), July 30, 2012,
(continued...)
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The same press report states:
China launched its largest and most advanced patrol vessel Haixun 01 on Saturday [July 28,
2012] in Wuhan, Hubei province, as the nation steps up efforts to protect its marine
sovereignty and enhance rescue efficiency on its coastal waters.
The new flagship is the first patrol vessel capable of completing both maritime surveillance
and rescue missions, according to a statement from the Shanghai Maritime Bureau, which
will manage the ship.
The vessel is responsible for cruising on China’s territorial waters, searching and saving lives
at sea, investigating maritime disputes, monitoring oil spills and conducting emergency
disposals, the statement said, adding the vessel can also tow ships and put out fires on other
boats.
The 5,418-ton ship86 is 128.6 meters [i.e., about 422 feet] in length. It can sail at speed of 37
km per hour [i.e., about 20 knots], and has a maximum sailing distance of 18,520 km [i.e.,
10,000 nm] without refueling.87
Figure 9 shows a picture of the above-discussed Haixun 01 maritime patrol ship.

(...continued)
accessed July 30, 2012 at http://www.chinadaily.com.cn/cndy/2012-07/30/content_15628983.htm.
86 For purposes of comparison, the reported displacement figure of 5,418 tons is roughly 30% greater than the 4,166-
ton displacement of a U.S. Navy Oliver Hazard Perry (FFG-7) class frigate, and roughly 80% greater than the roughly
3,000-ton displacement of a U.S. Navy Littoral Combat Ship (LCS).
87 Tan Zongyang, “China Launches Advanced Patrol Vessel,” China Daily (chinadaily.com.cn), July 30, 2012,
accessed July 30, 2012 at http://www.chinadaily.com.cn/cndy/2012-07/30/content_15628983.htm.
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Figure 9. Haixun 01 Maritime Patrol Ship

Source: Shanghai Maritime Safety Administration (http://www.shmsa.gov.cn/news/201207305563039713.html),
accessed July 31, 2012, as linked from “China Launches the Country’s Largest and Most Advanced Patrol Vessel,”
The Maritime Executive, July 30, 2012, accessed July 31, 2012 at http://maritime-executive.com/article/china-
launches-largest-and-most-advanced-patrol-vessel.
Amphibious Ships
Yuzhao (Type 071) Amphibious Ship
China has built and deployed a new class of amphibious ships called the Yuzhao or Type 071 class
(Figure 10). The lead ship in the class entered service in 2008 and was deployed as part of one of
China’s anti-piracy patrols off Somalia. The second ship in the class was launched (i.e., put into
the water for the final phase of its construction) in November 2010 and began sea trials around
September 2011.88 The third and fourth ships in the class reportedly have been launched.89

88 Jane’s Fighting Ships 2011-2012, p. 154, and the blog entry dated September 27, 2011 and available online at
http://www.informationdissemination.net/2011/09/latest-activity-at-hd-shipyard.html.
89 Sources: Blog entry dated September 27, 2011, and accessed online at http://www.informationdissemination.net/
2011/09/latest-activity-at-hd-shipyard.html; and “Fourth Chinese Navy Type 071 LPD Launched at Shanghai
Shipyard,” January 28, 2012, accessed online at http://www.navyrecognition.com/index.php?option=com_content&
task=view&id=301 (a similar item, also dated January 28, 2012, was accessed online at http://nosint.blogspot.com/
2012/01/fourth-chinese-navy-type-071-lpd.html). See also David Lague, “New China Landing Vessels Point To Pacific
Rivalry,” Reuters.com, February 14, 2012. See also the blog entry entitled “Recent Activities Around Chinese
Shipyards,” April 22, 2012, accessed July 31, 2012, at http://www.informationdissemination.net/2012/04/recent-
acitivites-around-chinese.html. (Note the spelling of “acitivites” in the URL.)
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The Type 071 design has an estimated displacement of 17,600 tons, compared with about 15,900
tons to 16,700 tons for the U.S. Navy’s Whidbey Island/Harpers Ferry (LSD-41/49) class
amphibious ships, which were commissioned into service between 1985 and 1998, and about
25,900 tons for the U.S. Navy’s new San Antonio (LPD-17) class amphibious ships, the first of
which was commissioned into service in 2006.
Figure 10. Yuzhao (Type 071) Class Amphibious Ship
With two Houbei (Type 022) fast attack craft behind

Source: Photograph provided to CRS by Navy Office of Legislative Affairs, December 2010.
Reported Potential Type 081 Amphibious Ship
China reportedly might also begin (or might have already begun) building a larger amphibious
ship, called the Type 081 LHD, that might displace about 20,000 tons.90 Such a ship would be
about half as large as U.S. Navy LHD/LHA-type amphibious assault ships, and about the same
size as France’s Mistral-class LHDs. Some observers believe China may build a total of three or
more Type 081s. A March 28, 2012, press report states:
China Shipbuilding Corporation (CSC) has revealed what may be a design for the Type 081
landing helicopter dock (LHD) amphibious assault ship.
The design was shown in model form at the Defense & Security 2012 exhibition in Bangkok
in early March. It is unclear whether this is the Type 081 LHD design long expected to
complement the People’s Liberation Army (PLA) Navy’s Type 071 land platform dock
(LPD) vessels, the third of which was launched in September 2011. However, China did

90 Jane’s Fighting Ships 2011-2012, p. 153.
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reveal a model of the Type 071 in 2004 ahead of the first-in-class vessel’s launch in
December 2006.
According to Taiwanese defence magazine DTM, which supplied images of the model to IHS
Jane’s
, the proposed LHD has a length of 211 m [i.e., about 692.25 feet], [a] maximum
speed of 23 kt and can embark eight helicopters with hangar space for four. Endurance is 25-
30 days at sea and accommodation is provided for 1,068 embarked marines, officials said....
Any resemblance to the French Mistral [LHD] design may reflect comments by the late
General/Admiral Liu Huaqing, the architect of the PLA’s modernisation path, who in his
memoirs confirmed co-operation with French naval design institutes.91
Figure 11 shows an unconfirmed conceptual rendering of a possible design for the Type 081
LHD.
Figure 11. Type 081 LHD (Unconfirmed Conceptual Rendering of a Possible Design)

Source: Global Times Forum, accessed July 31, 2012 at http://forum.globaltimes.cn/forum/showthread.php?p=
72083.

91 Ted Parsons, “Chinese Shipbuilder Unveils Possible Type 081 LHD Design,” Jane’s Defence Weekly, March 28,
2012: 15. The article includes a photo of a model of a Type 081 design that appears similar to the design shown in
Figure 11. See also “New Chinese Ship Causes Alarm,” Taipei Times, May 31, 2012: 1.
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Potential Roles for Type 071 and Type 081 Ships
Although larger amphibious ships such as the Type 071 and the Type 081 would be of value for
conducting amphibious landings in Taiwan-related conflict scenarios, some observers believe that
China is building such ships more for their value in conducting other kinds of operations that are
more distant from China’s shores. Larger amphibious ships can be used for conducting not only
amphibious landings, but humanitarian assistance and disaster relief (HA/DR) operations,
maritime security operations (such as anti-piracy operations), and non-combatant evacuation
operations (NEOs). Some countries are acquiring larger amphibious ships as much, or more, for
these kinds of operations as for conducting amphibious landings.92 Politically, larger amphibious
ships can also be used for naval diplomacy (i.e., port calls and engagement activities).
Land-Based Aircraft and Unmanned Aerial Vehicles (UAVs)
Land-Based Aircraft
China has introduced modern land-based fighters and strike fighters into the PLA Air Force and
PLA Naval Air Force. These include Russian-made Su-27s and Su-30s and indigenously
produced J-10s and J-11s. At least some of the strike fighters are or will be armed with modern
ASCMs. China’s land-based naval aircraft inventory includes, among other things, 24 Russian-
made Su-30 MKK 2 Flanker land-based fighters, whose delivery was completed in 2004. The Su-
30 is a derivative of the Su-27. Some of the Su-30s might eventually be fitted with the Russian-
made AS-17A/B ASCM. (China’s air force operates at least 150 Su-27s; these aircraft could be
used for fleet-defense operations.) China’s navy also operates 100 ASCM-armed JH-7 land-based
fighter-bombers that were delivered between 1998 and 2004, and older ASCM-armed land-based
maritime bombers. China in January 2011 reportedly began testing a stealthy, land-based, fighter-
type aircraft, called the J-20. Some observers believe, based on the aircraft’s size and design, that
it might be intended as a land-based strike aircraft for attacking ships at sea.93
UAVs
DOD states that “acquisition and development of longer-range UAVs and UCAVs [Unmanned
Combat Aerial Vehicles, i.e., armed UAVs] will expand China’s options for long-range
reconnaissance and strike.”94 The August 2009 ONI report states that “China is developing UAVs

92 See, for example, Richard Scott, “Power Projectors,” Jane’s Defence Weekly, July 27, 2011: 21-24, 26-28.
93 See, Bill Sweetman, “Chinese J-20 Stealth Fighter In Taxi Tests,” AviationWeek.com, January 3, 2011; Jeremy Page,
“A Chinese Stealth Challenge,” Wall Street Journal, January 5, 2011: 1; Phil Stewart, “U.S. Downplays Chinese
Stealth Fighter Status,” Reuters.com, January 5, 2011; Agence France-Presse, “US Downplays Concern Over Chinese
Stealth Fighter,” DefenseNews.com, January 6, 2011; Tony Capaccio, “China’s J-20 Stealth Fighter Meant to Counter
F-22, F-35, U.S. Navy Says,” Bloomberg.com, January 6, 2011; David A. Fulgham, et al, “Stealth Slayer?” Aviation
Week & Space Technology
, January 17, 2011: 20-21, Andrew S. Erickson and Gabriel B. Collins, “China’s New
Project 718/J-20 Fighter: Development outlook and strategic implications,” China SignPost, January 17, 2011, 13 pp.;
Dave Majumdar, “U.S. Opinions Vary Over China’s Stealthy J-20,” Defense News, January 24, 2011: 16; Stephen
Trimble, “J-20: China’s Ultimate Aircraft Carrier-Killer?” The DEW Line (www.flightglobal.com), February 9, 2011;
Carlo Kopp, “An Initial Assessment of China’s J-20 Stealth Fighter,” China Brief, May 6, 2011: 9-11; David Axe,
“Stealth Fighter or Bomber?” The Diplomat (http://the-diplomat.com), July 26, 2011; Bill Sweetman, “Chinese J-20
Stealth Fighter Advances,” Aviation Week Defense Technology International, January 31, 2012.
94 2011 DOD CMSD, p. 32.
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that have the potential to bring multimission capabilities to the maritime environment. In recent
years, Chinese officials have openly touted the benefits of UAVs, such as low manufacturing
costs, lack of personnel casualties, and inherent ‘stealth-like’ characteristics.”95
Nuclear and Electromagnetic Pulse (EMP) Weapons
A July 22, 2011, press report states that “China’s military is developing electromagnetic pulse
weapons that Beijing plans to use against U.S. aircraft carriers in any future conflict over Taiwan,
according to an intelligence report made public on Thursday [July 21]…. The report, produced in
2005 and once labeled ‘secret,’ stated that Chinese military writings have discussed building low-
yield EMP warheads, but ‘it is not known whether [the Chinese] have actually done so.’”96
Maritime Surveillance and Targeting Systems
China reportedly is developing and deploying maritime surveillance and targeting systems that
can detect U.S. ships and submarines and provide targeting information for Chinese ASBMs and
other Chinese military units. These systems reportedly include land-based over-the-horizon
backscatter (OTH-B) radars, land-based over-the-horizon surface wave (OTH-SW) radars,
electro-optical satellites, radar satellites, and seabed sonar networks.97 DOD states that
The PLA Navy is improving its long-range surveillance capability with sky-wave and
surface-wave over-the-horizon (OTH) radars. In combination with early-warning aircraft,
unmanned aerial vehicles (UAVs), and other surveillance and reconnaissance equipment, the
radars allow China to carry out surveillance and reconnaissance over the western Pacific.
These radars can be used in conjunction with reconnaissance satellites to locate targets at
great distances from China, thereby supporting long-range precision strikes, including
employment of ASBMs.98
Chinese Naval Operations Away from Home Waters
Chinese navy ships in recent years have begun to conduct operations away from China’s home
waters. Although many of these operations have been for making diplomatic port calls, some of
them have been for other purposes, including in particular anti-piracy operations in waters off
Somalia. DOD states that “the PLA Navy has demonstrated the capability to conduct limited
deployments of modern surface platforms outside the second island chain, including nine separate
deployments to the Gulf of Aden to support sustained counter-piracy operations from 2009

95 2009 ONI Report, pp. 28-29. See also Eloise Lee and Robert Johnson, “The Chinese Navy Is Betting Big On Its New
Submarine Hunting Drones,” Business Insider (http://articles.businessinsider.com), April 12, 2012; Wendell Minnick,
“China’s Silver Hawk UAV Program Advances,” DefenseNews.com, July 14, 2011; Kenji Minemura, “China
Developing Unmanned Aircraft To Counter U.S. Forces,” Asahi Shimbun (Japan), January 25, 2012.
96 Bill Gertz, “Beijing Develops Pulse Weapons,” Washington Times, July 22, 2011: 1. Except for “[July 21],”
materials in brackets as in original.
97 See 2011 DOD CMSD, pp. 3 and 38; Ben Blanchard, “China Ramps Up Military Use of Space With New Satellites –
Report,” Reuters, July 11, 2011; Andrew Erickson, “Satellites Support Growing PLA Maritime Monitoring and
Targeting Capabilities,” China Brief, February 10, 2011: 13-18; Torbjorg Hemmingsen, “Enter the Dragon: Inside
China’s New Model Navy,” Jane’s Navy International, May 2011: 14-16, 18, 20, 22, particularly the section on target
tracking on pages 15-16; Simon Rabinovitch, “China’s Satellites Cast Shadow Over US Pacific Operations,” Financial
Times
, July 12, 2011; Andrew S. Erickson, “Eyes in the Sky,” U.S. Naval Institute Proceedings, April 2010: 36-41.
98 2012 DOD CMSD, pp. 22-23.
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through mid 2011. The PLA Navy also has acquired new classes of ships to support conventional
military operations as well as humanitarian assistance and disaster relief missions, including the
Type 071 amphibious transport dock and the hospital ship, which the Chinese call the ‘Peace
Ark.’”99 DOD also states that “outside of foreign ‘goodwill cruises,’ [China’s anti-piracy
operation] represents the PLA Navy’s only series of operational deployments beyond the
immediate western Pacific region.”100
Some observers believe that China may want to eventually build a series of naval and other
military bases in the Indian Ocean—a so-called “string of pearls”—so as to support Chinese naval
operations along the sea line of communication linking China to Persian Gulf oil sources.101 Other

99 2011 DOD CMSD, pp. 32-33. See also pp. 17, 65 and 67, and Peter W. Mackenzie, Red Crosses, Blue Water[:]
Hospital Ships and China’s Expanding Naval Presence
, CNA, September 2011, 24 pp.
100 2011 DOD CMSD, p. 7. The report similarly states on page 3 that “outside of peacetime counter-piracy missions, for
example, China’s Navy has little operational experience beyond regional waters.” One group of observers, reviewing
out-of-area Chinese naval operations, concluded the following:
The PLAN still has some ways to go before it can operate effectively out of area. At present, it can
effectively replenish at sea, conduct intra–task force resupply, perform long-distance navigation,
conduct formation-keeping with competent seamanship, and operate in all weather conditions. The
PLAN cannot currently conduct a full-scale joint forcible entry operation, maintain maritime
superiority out of area, conduct multicarrier or carrier strike group operations, or provide
comprehensive protection against threats to an out of area task force (antiaircraft warfare, ASW,
and antisurface warfare).
The PLAN appears to be expanding its out of area operations incrementally. This will allow the
United States, its allies, and other countries time to work out (with each other and with the Chinese)
how to respond to opportunities for greater cooperation and potential challenges posed by a more
capable PLAN.
China has an even longer way to go before it can be considered a global military power. In
particular, it has no network of facilities and bases to maintain and repair its ships. The possession
or absence of such a network may ultimately be the best indication of China’s future intentions. If
China lacks such a support network, it will have great difficulty engaging in major combat
operations (MCOs) far from its shores.
Experience gained through out of area operations will help make the PLAN somewhat more
effective (in areas such as navigation and seamanship) in some of its other operations. However,
most of the tasks performed and lessons gained from out of area operations are not directly
transferrable to either a Taiwan contingency or a notional out of area MCO. This implies that time
spent on conducting nontraditional out of area deployments for a PLAN unit is time away from
combat training for a Taiwan contingency or preparing for MCOs out of area.
A more capable and active PLAN will present new challenges for U.S. policy. On the one hand, the
United States wants China to “become a responsible stake holder” in support of international
security objectives, which implies a need for greater naval capability to operate out of area. On the
other hand, improved PLAN operational capabilities potentially pose a greater military threat to the
United States and its allies, especially Asia. The United States has to reassure its allies that it will
remain present in the region as a hedge even as Chinese military capabilities improve.
(Christopher D. Yung et al, China’s Out of Area Naval Operations: Case Studies, Trajectories,
Obstacles, and Potential Solutions
, Washington, National Defense University Press, December
2010. [Institute for National Strategic Studies, China Strategic Perspectives, No. 3.] 65 pp.)
See also Andrew Erickson and Austin Strange, “‘Selfish Superpower’ No Longer? China’s Anti-Piracy Activities and
21st-Century Global Maritime Governance,” Harvard Asia Quarterly, Spring/Summer 2012: 92-102.
101 Bill Gertz, “China Builds Up Strategic Sea Lanes,” Washington Times, January 18, 2005, p.1. See also Daniel J.
Kostecka, “The Chinese Navy’s Emerging Support Network in the Indian Ocean,” China Brief, July 22, 1010: 3-5;
Edward Cody, “China Builds A Smaller, Stronger Military,” Washington Post, April 12, 2005, p. 1; Indrani Bagchi,
“China Eyeing Base in Bay of Bengal?” Times of India, August 9, 2008, posted online at
http://timesofindia.indiatimes.com/China_eyeing_base_in_Bay_of_Bengal/articleshow/3343799.cms; Eric Ellis,
“Pearls for the Orient,” Sydney Morning Herald, July 9, 2010.
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observers argue that although China has built or is building commercial port facilities in the
Indian Ocean, China to date has not established any naval bases in the Indian Ocean and instead
appears to be pursuing what U.S. officials refer to as a “places not bases” strategy (meaning a
collection of places for Chinese navy ships to occasionally visit for purposes of refueling and
restocking supplies, but not bases).102
In May 2011, Pakistan’s foreign minister reportedly stated that China had agreed to take over
operation of Pakistan’s port of Gwadar from the Singaporean government firm that has been
managing the port, and that Pakistan wants to have China build a naval base at Gwadar for the
Pakistani navy.103 Shortly thereafter, however, a spokeswoman for China’s foreign ministry stated
that operation of the port Gwadar was neither offered by Pakistan nor accepted by China.104
In December 2011, the Seychelles reportedly offered to support Chinese anti-piracy operations in
the Indian Ocean by having Chinese navy ships stop at its port facilities for resupply and crew
rest. China reportedly stated that it was considering the offer; that the arrangement, if accepted,
would not involve basing Chinese navy ships in the Seychelles; and that Chinese navy ships
already stop at ports in Yemen, Oman, and Djibouti for resupply and crew rest.105

102 Daniel J. Kostecka, “A Bogus Asian Pearl,” U.S. Naval Institute Proceedings, April 2011: 48-52; Daniel J.
Kostecka, “Places and Bases: The Chinese Navy’s Emerging Support Network in the Indian Ocean,” Naval War
College Review
, Winter 2011: 59-78; Daniel J. Kostecka, “Hambantota, Chittagong, and the Maldives – Unlikely
Pearls for the Chinese Navy,” China Brief, November 19, 2010: 8-11; Daniel J. Kostecka, “The Chinese Navy’s
Emerging Support Network in the Indian Ocean,” China Brief, July 22, 2010: 5.
103 See, for example, Jeremy Page, “Beijing Agrees To Operate A Key Port, Pakistan Says,” New York Times, May 23,
2011: 17; Agence France-Presse, “Pakistan Asks China to Build Naval Base in Nation,” DefenseNews.com, May 22,
2011; Farhan Bokhari and Kathrin Hille, “Pakistan Turns to China for Naval Base,” Financial Times (www.ft.com),
May 22, 2011.
104 See, for example, Michael Wines, “Pakistan And China: Two Friends Hit A Bump,” New York Times, May 27,
2011: 4. DOD states that
China has invested in several civilian port projects throughout Asia and along the Indian Ocean.
Although such investments may improve peacetime logistical support options for the PLA Navy,
not to mention enhancing PRC soft power in the region, they are not a substitute for military bases.
Without overseas military bases, China will be constrained in its ability to project and sustain
power beyond the immediate region. A decision in Beijing to abandon its longstanding and self-
imposed policy against overseas basing would signal that China seeks a greater blue water combat
capability.
(2011 DOD CMSD, p. 33.)
The August 2009 ONI report contains additional discussion of operations away from home waters; see 2009 ONI
Report
, p. 40. See also Dean Chang, “The Chinese Navy’s Budding Overseas Presence,” Heritage Foundation Web
Memo, No. 2752, January 11, 2010, 3 pp; and Wendell Minnick, “Chinese Expeditions Boost Naval Expertise,”
DefenseNews.com, January 11, 2010.
105 Agence France-Presse, “Seychelles Invites China to Set Up Anti-Piracy Base,” DefenseNews.com, December 2,
2011; Associated Press, “China Says It Is Mulling Offer From Seychelles To Be Naval Resupply and Recreation Base,”
Washington Post (www.washingtonpost.com), December 12, 2011; Jeremy Page and Tom Wright, “Chinese Military
Considers New Indian Ocean Presence,” Wall Street Journal, December 14, 2011: 12; Li Xiaokun and Li Lianxing,
“Navy Looks at Offer From Seychelles,” China Daily, December 12, 2011; Ananth Krishman, “No Indian Ocean
Military Base: China,” The Hindu, December 12, 2011; Aude Genet (Agence France-Presse), “China Beefing Up
Military Presence In Indian Ocean,” Yahoo.com, December 20, 2011.
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Numbers of Chinese Ships and Aircraft; Comparisons to U.S. Navy
Numbers Chinese Navy Ships and Naval Aircraft
Numbers Provided by Office of Naval Intelligence (ONI)
Table 4 shows Office of Naval Intelligence (ONI) figures on numbers of Chinese navy ships and
aircraft from 1990 to 2009, and projected figures for 2015 and 2020. The figures in the table lump
older and less capable ships together with newer and more capable ships discussed above.
The
modern attack submarines, destroyers, and frigates shown in Table 1, Table 2, and Table 3 for
2009 account for about half of the attack submarines, about half of the destroyers, and about 42%
of the frigates shown in Table 4 for 2009. DOD states that the percentage of modern units within
China’s submarine force has increased from less than 10% in 2000 and 2004 to 50% in 2008 and
about 56% in 2010, and that the percentage of modern units within China’s force of surface
combatants has increased from less than 10% in 2000 and 2004 to about 25% in 2008 and 26% in
2010.106
As can be seen in the table, ONI projects that, between 2009 and 2020, the total number of
submarines will increase, a small number of aircraft carriers and major amphibious ships will be
added to the fleet, the total number destroyers will remain more or less unchanged, and the total
number of frigates will decline slightly. The total number of larger combat ships in China’s navy
(defined here as submarines, aircraft carriers, destroyers, and frigates) is projected to increase
somewhat, mostly because of the projected increase in attack submarines. As these changes take
place, the overall capability of China’s navy will increase as newer and more capable units
replace older and less capable ones. The August 2009 ONI report states that “as newer and more
capable platforms replace aging platforms, the PLA(N)’s total order of battle may remain
relatively steady, particularly in regard to the surface force.”107
As can also be seen in the table, ONI projects that the numbers of land-based maritime strike
aircraft, carrier-based fighters, and helicopters, will almost triple between 2009 and 2020, and that
most of this increase will occur between 2009 and 2015.

106 2011 DOD CMSD, p. 43 (figure).
107 2009 ONI Report, p. 46.
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Table 4. Numbers of PLA Navy Ships and Aircraft Provided by Office of Naval
Intelligence (ONI)
(Figures include both older and less capable units and newer and more capable units)
Projection for
Projection for

1990 1995 2000 2005 2009
2015
2020
Ships







Bal istic missile submarines
1
1
1
2
3
4 or 5?
4 or 5?
Attack submarines (SSNs and SSs)
80
82
65
58
59
~70
~72

SSNs
5 5 5 6 6
n/a
n/a

SSs
75 77 60 52 53
n/a
n/a
Aircraft
carriers
0 0 0 0 0
1?
2?
Destroyers
14 18 21 25 26
~26
~26
Frigates
35 35 37 42 48
~45
~42
Subtotal above ships
130
136
124
127
136
~146 or ~147?
~146 or ~147?
Missile-armed attack craft
200
165
100
75
80+
n/a
n/a
Amphibious
ships
65 70 60 56 58
n/a
n/a
Large ships (LPDs/LHDs)
0
0
0
0
1
~6?
~6?
Smaller ships
65
70
60
56
57
n/a
n/a
Mine warfare ships
n/a
n/a
n/a
n/a
40
n/a
n/a
Major auxiliary ships
n/a
n/a
n/a
n/a
50
n/a
n/a
Minor auxiliary ships and support craft
n/a
n/a
n/a
n/a
250+
n/a
n/a
Aircraft







Land-based maritime strike aircraft
n/a
n/a
n/a
n/a
~145
~255
~258
Carrier-based
fighters
0 0 0 0 0
~60
~90
Helicopters
n/a n/a n/a n/a ~34
~153
~157
Subtotal above aircraft
n/a n/a n/a n/a ~179 ~468
~505
Source: Prepared by CRS. Source for 2009, 2015, and 2020: 2009 ONI report, page 18 (text and table), page 21
(text), and (for figures not available on pages 18 or 21), page 45 (CRS estimates based on visual inspection of
ONI graph entitled “Estimated PLA[N] Force Levels”). Source for 1990, 1995, 2000, and 2005: Navy data
provided to CRS by Navy Office of Legislative Affairs, July 9, 2010.
Notes: n/a is not available. The use of question marks for the projected figures for ballistic missile submarines,
aircraft, carriers, and major amphibious ships (LPDs and LHDs) for 2015 and 2020 reflects the difficulty of
resolving these numbers visually from the graph on page 45 of the ONI report. The graph shows more major
amphibious ships than ballistic missile submarines, and more ballistic missile submarines than aircraft carriers.
Figures in this table for aircraft carriers include the ex-Ukrainian carrier Varyag, which is likely to enter service
before any new-construction indigenous carrier. The ONI report states on page 19 that China “will likely have
an operational, domestically produced carrier sometime after 2015.” Such a ship, plus the Varyag, would give
China a force of 2 operational carriers sometime after 2015.
The graph on page 45 shows a combined total of amphibious ships and landing craft of about 244 in 2009, about
261 projected for 2015, and about 253 projected for 2015.
Since the graph on page 45 of the ONI report is entitled “Estimated PLA[N] Force Levels,” aircraft numbers
shown in the table presumably do not include Chinese air force (PLAAF) aircraft that may be capable of attacking
ships or conducting other maritime operations.
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Numbers Presented in Annual DOD Reports to Congress
DOD states that “The PLA Navy possesses some 75 principal surface combatants, more than 60
submarines, 55 medium and large amphibious ships, and roughly 85 missile-equipped small
combatants.”108 Table 5 shows numbers of Chinese navy ships as presented in annual DOD
reports to Congress on military and security developments involving China (previously known as
the annual report on China military power). As with Table 4, the figures in Table 5 lump older and
less capable ships together with newer and more capable ships discussed above.
The modern
attack submarines, destroyers, and frigates shown in Table 1, Table 2, and Table 3 for 2009
account for about half of the attack submarines, about half of the destroyers, and about 42% of
the frigates shown in Table 5 for 2009. As mentioned earlier, DOD states that the percentage of
modern units within China’s submarine force has increased from less than 10% in 2000 and 2004
to about 47% in 2008 and 50% in 2009, and that the percentage of modern units within China’s
force of surface combatants has increased from less than 10% in 2000 and 2004 to about 25% in
2008 and 2009.109
Table 5. Numbers of PLA Navy Ships Presented in Annual DOD Reports to
Congress
(Figures include both older and less capable units and newer and more capable units)

2000 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012
Nuclear-powered attack submarines
5
5
n/a
6
5
5
5
6
6
5
5
~ 60
Diesel attack submarines
~60
~ 50
n/a 51 50 53 54 54 54 49 48
Destroyers
~20
n/a 21 25 25 29 27 25 26 26
~ 60
> 60
Frigates ~40
n/a 43 45 47 45 48 49 53 53
Missile-armed coastal patrol craft
n/a
~ 50
~ 50
n/a
51
45
41
45
70
85
86
86
Amphibious ships: LSTs and LPDs
n/a
20
25
25
26
27
27
27
28
almost
~ 40
> 40
Amphibious ships: LSMs
50
n/a 23 25 25 28 28 28 28 23
Source: Table prepared by CRS based on data in 2002-2012 editions of annual DOD report to Congress on
military and security developments involving China (known for 2009 and prior editions as the report on China
military power).
Notes: n/a means data not available in report. LST means tank landing ship; LPD means transport dock ship;
LSM means medium landing ship.
Comparing U.S. and Chinese Naval Capabilities
U.S. and Chinese naval capabilities are sometimes compared by showing comparative numbers of
U.S. and Chinese ships. Although numbers of ships (or aggregate fleet tonnages) can be relatively
easy to compile from published reference sources, they are highly problematic as a means of
assessing relative U.S. and Chinese naval capabilities, for the following reasons:
A fleet’s total number of ships (or its aggregate tonnage) is only a partial
metric of its capability. In light of the many other significant contributors to

108 2011 DOD CMSD, p. 3.
109 2011 DOD CMSD, p. 43 (figure).
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naval capability,110 navies with similar numbers of ships or similar aggregate
tonnages can have significantly different capabilities, and navy-to-navy
comparisons of numbers of ships or aggregate tonnages can provide a highly
inaccurate sense of their relative capabilities. In recent years, the warfighting
capabilities of navies have derived increasingly from the sophistication of their
internal electronics and software. This factor can vary greatly from one navy to
the next, and often cannot be easily assessed by outside observation. As the
importance of internal electronics and software has grown, the idea of comparing
the warfighting capabilities of navies principally on the basis of easily observed
factors such as ship numbers and tonnages has become increasingly less valid,
and today is highly problematic.
Total numbers of ships of a given type (such as submarines, destroyers, or
frigates) can obscure potentially significant differences in the capabilities of
those ships, both between navies and within one country’s navy.
111 The
potential for obscuring differences in the capabilities of ships of a given type is
particularly significant in assessing relative U.S. and Chinese capabilities, in part
because China’s navy includes significant numbers of older, obsolescent ships.
Figures on total numbers of Chinese submarines, destroyers, frigates, and coastal
patrol craft lump older, obsolescent ships together with more modern and more
capable designs.112 As mentioned earlier, DOD states that the percentage of
modern units within China’s submarine force has increased from less than 10% in
2000 and 2004 to 50% in 2008 and about 56% in 2010, and that the percentage of
modern units within China’s force of surface combatants has increased from less
than 10% in 2000 and 2004 to about 25% in 2008 and 26% in 2010.113 This CRS
report shows numbers of more modern and more capable submarines, destroyers,
and frigates in Table 1, Table 2, and Table 3, respectively.
A focus on total ship numbers reinforces the notion that increases in total
numbers necessarily translate into increases in aggregate capability, and
that decreases in total numbers necessarily translate into decreases in
aggregate capability.
For a Navy like China’s, which is modernizing in some
ship categories by replacing larger numbers of older, obsolescent ships with
smaller numbers of more modern and more capable ships, this is not necessarily
the case. As shown in Table 4, for example, China’s submarine force today has
fewer boats than it did in the 1990, but has greater aggregate capability than it did
in 1990, because larger numbers of older, obsolescent boats have been replaced
by smaller numbers of more modern and more capable boats. A similar point
might be made about China’s force of missile-armed attack craft. DOD states that
“Since the 1990s, the PLA Navy has rapidly transformed from a large fleet of

110 These include types (as opposed to numbers or aggregate tonnage) of ships; types and numbers of aircraft; the
sophistication of sensors, weapons, C4ISR systems, and networking capabilities; supporting maintenance and logistics
capabilities; doctrine and tactics; the quality, education, and training of personnel; and the realism and complexity of
exercises.
111 Differences in capabilities of ships of a given type can arise from a number of other factors, including sensors,
weapons, C4ISR systems, networking capabilities, stealth features, damage-control features, cruising range, maximum
speed, and reliability and maintainability (which can affect the amount of time the ship is available for operation).
112 For an article discussing this issue, see Joseph Carrigan, “Aging Tigers, Mighty Dragons: China’s bifurcated
Surface Fleet,” China Brief, September 24, 2010: 2-6.
113 2011 DOD CMSD, p. 43 (figure).
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low-capability, single-mission platforms, to a leaner force equipped with more
modern, multi-mission platforms.”114 The August 2009 ONI report states that
“even if [China’s] naval force sizes remain steady or even decrease, overall naval
capabilities can be expected to increase as forces gain multimission
capabilities.”115 For assessing navies like China’s, it can be more useful to track
the growth in numbers of more modern and more capable units. This CRS report
shows numbers of more modern and more capable submarines, destroyers, and
frigates in Table 1, Table 2, and Table 3, respectively.
Comparisons of numbers of ships (or aggregate tonnages) do not take into
account maritime-relevant military capabilities that countries might have
outside their navies,
such as land-based anti-ship ballistic missiles (ASBMs),
land-based anti-ship cruise missiles (ASCMs), and land-based air force aircraft
armed with ASCMs or other weapons. Given the significant maritime-relevant
non-navy forces present in both the U.S. and Chinese militaries, this is a
particularly important consideration in comparing U.S. and Chinese military
capabilities for influencing events in the Western Pacific. Although a U.S.-China
incident at sea might involve only navy units on both sides, a broader U.S.-China
military conflict would more likely be a force-on-force engagement involving
multiple branches of each country’s military.
The missions to be performed by one country’s navy can differ greatly from
the missions to be performed by another country’s navy. Consequently, navies
are better measured against their respective missions than against one another.
Although Navy A might have less capability than Navy B, Navy A might
nevertheless be better able to perform Navy A’s intended missions than Navy B is
to perform Navy B’s intended missions. This is another significant consideration
in assessing U.S. and Chinese naval capabilities, because the missions of the two
navies are quite different.
DOD Response to China Naval Modernization
Renewed DOD Emphasis on Asia-Pacific Region
Two DOD strategy and budget documents—one released on January 5, 2012, the other released
on January 26, 2012—state that U.S. military strategy will place a renewed increased emphasis
on the Asia-Pacific region, and that as a result, there will be a renewed emphasis on air and naval
forces in DOD plans. The release of these two documents followed statements by administration
officials beginning in the latter months of 2011 that identified the Asia-Pacific as a high-priority
region for DOD in coming years. Administration officials have stated that notwithstanding
reductions in planned levels of U.S. defense spending, the U.S. military presence in the Asia-
Pacific region will be maintained and strengthened. Although administration officials state that
the renewed emphasis on the Asia-Pacific region is not directed at any single country, many
observers believe it is in no small part intended as a response to China’s military modernization
effort and its assertive behavior regarding its maritime territorial claims.

114 2011 DOD CMSD, p. 3.
115 2009 ONI Report, p. 46.
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January 5, 2012, Strategic Guidance Document
On January 5, 2012, the Administration released a strategic guidance document that the
Administration said would be used to guide decisions on the allocation of DOD resources in the
FY2013 defense budget and future DOD budgets. In a cover letter to the document, President
Obama stated that “as we end today’s wars, we will focus on a broader range of challenges and
opportunities, including the security and prosperity of the Asia Pacific.” In another cover letter,
Secretary of Defense Panetta stated that the U.S. military “will have global presence emphasizing
the Asia-Pacific and the Middle East while still ensuring our ability to maintain our defense
commitments to Europe, and strengthening alliances and partnerships across all regions.” The
document itself states in part:
U.S. economic and security interests are inextricably linked to developments in the arc
extending from the Western Pacific and East Asia into the Indian Ocean region and South
Asia, creating a mix of evolving challenges and opportunities. Accordingly, while the U.S.
military will continue to contribute to security globally, we will of necessity rebalance
toward the Asia-Pacific region
. Our relationships with Asian allies and key partners are
critical to the future stability and growth of the region. We will emphasize our existing
alliances, which provide a vital foundation for Asia-Pacific security. We will also expand our
networks of cooperation with emerging partners throughout the Asia-Pacific to ensure
collective capability and capacity for securing common interests....
The maintenance of peace, stability, the free flow of commerce, and of U.S. influence in this
dynamic region will depend in part on an underlying balance of military capability and
presence. Over the long term, China’s emergence as a regional power will have the potential
to affect the U.S. economy and our security in a variety of ways. Our two countries have a
strong stake in peace and stability in East Asia and an interest in building a cooperative
bilateral relationship. However, the growth of China’s military power must be accompanied
by greater clarity of its strategic intentions in order to avoid causing friction in the region.
The United States will continue to make the necessary investments to ensure that we
maintain regional access and the ability to operate freely in keeping with our treaty
obligations and with international law. Working closely with our network of allies and
partners, we will continue to promote a rules-based international order that ensures
underlying stability and encourages the peaceful rise of new powers, economic dynamism,
and constructive defense cooperation....
In order to credibly deter potential adversaries and to prevent them from achieving their
objectives, the United States must maintain its ability to project power in areas in which our
access and freedom to operate are challenged. In these areas, sophisticated adversaries will
use asymmetric capabilities, to include electronic and cyber warfare, ballistic and cruise
missiles, advanced air defenses, mining, and other methods, to complicate our operational
calculus. States such as China and Iran will continue to pursue asymmetric means to counter
our power projection capabilities, while the proliferation of sophisticated weapons and
technology will extend to non-state actors as well. Accordingly, the U.S. military will invest
as required to ensure its ability to operate effectively in anti-access and area denial (A2/AD)
environments.
This will include implementing the Joint Operational Access Concept,
sustaining our undersea capabilities, developing a new stealth bomber, improving missile
defenses, and continuing efforts to enhance the resiliency and effectiveness of critical space-
based capabilities.116

116 Department of Defense, Sustaining U.S. Global Leadership: Priorities for 21st Century Defense, January 2012,
cover letters and pp. 2, 4-5. Italics as in original.
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January 26, 2012, Document on Selected FY2013 Program Decisions
On January 26, 2012, DOD released a document outlining selected program decisions that will be
included in DOD’s proposed FY2013 budget. The January 26 document states that DOD’s
“leadership and subject matter experts assessed the potential strategic, military and programmatic
risks associated with each budget decision in accordance with five major tenets within the
President’s strategic guidance [document of January 5, 2012].” The first of these five tenets, the
document states, is: “Rebalance force structure and investments toward the Asia-Pacific and
Middle East regions while sustaining key alliances and partnerships in other regions.” The
document states that
The focus on the Asia-Pacific region places a renewed emphasis on air and naval forces
while sustaining ground force presence. The Middle East has been dominated by ground
force operations over the last decade; however, as we gradually transition security in
Afghanistan and reestablish peacetime ground force presence, this region will also become
increasingly maritime. Therefore we: ...
• Maintained the aircraft carrier fleet at 11 ships and 10 [carrier] air wings
• Maintained the big-deck amphibious fleet ... 117
• Budgeted to forward station Littoral Combat Ships in Singapore and patrol craft in
Bahrain
• Funded development of a new afloat forward staging base that can be dedicated to
support missions in areas where ground-based access is not available, such as counter-
mine operations
For these forces to remain capable, we had to invest in capabilities required to maintain our
military’s continued freedom of action in the face of new technologies designed to frustrate
access advantages. Consequently, we increased or protected investment in capabilities that
preserve the U.S. military’s ability to project power in contested areas and strike quickly
from over the horizon, including:...
• Design changes to increase cruise missile capacity of future Virginia-class submarines118
• Design of a conventional prompt strike option from submarines119
• Upgraded radars for tactical aircraft and ships

117 This is a reference to the Navy’s inventory of LHA- and LHD-type amphibious assault ships. These ships, which
resemble medium-sized aircraft carriers, are often referred to as big-deck or large-deck amphibious ships because their
flight decks are much larger than those of the Navy’s smaller (i.e., LPD- and LSD-type) amphibious ships.
118 This appears to be a reference to a plan to build future Virginia (SSN-774) class attack submarines to a lengthened
design that includes an additional mid-body section, called the Virginia Payload Module (VPM) containing four large-
diameter vertical launch tubes for firing cruise missiles and other payloads. For more on the VPM, see CRS Report
RL32418, Navy Virginia (SSN-774) Class Attack Submarine Procurement: Background and Issues for Congress, by
Ronald O'Rourke.
119 This appears to refer to a new, fast-flying weapon that would be launched from submarines.
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To ensure sufficient resources to protect these strategic priorities, we will reduce the number
of ships by slowing the pace of building new ships and by accelerating the retirement of
some existing ships. These include:
• Retiring 7 cruisers early – 6 did not have ballistic missile defense (BMD) capability, and
the seventh with BMD capability is in need of costly hull repairs120
• Slipping a large deck amphibious ship (LHA) by 1 year121
• Slipping 1 new Virginia class submarine outside the FYDP [Five Year Defense Plan]
• Reducing Littoral Combat Ships by 2 ships in the FYDP122
• Reducing Joint High Speed Vessels by 8 in the FYDP123
• Retiring 2 smaller amphibious ships (LSD) early and moving their replacement outside
the FYDP ... 124
This strategic precept puts a premium on self- and rapidly-deployable forces that can project
power and perform multiple mission types. This reinforces the need to maintain existing
numbers of aircraft carriers, large-deck amphibious ships, and bombers. Furthermore, as the
Marine Corps withdraws from the ground in Afghanistan, it will return to afloat posture, with
the capability to rapidly respond to crises as they emerge. These choices are consistent with
our strategic emphasis on the Asia-Pacific region and the Middle East, but are applicable
anywhere on the globe where U.S. national security or vital interests are threatened....
Our ability to project power is a key component of our strategic guidance. We protected...
aircraft carriers, surface combatant modernization.... We also protected capabilities that
allow us to project power in denied environments. In addition to those discussed earlier, such
as... increasing the cruise missile capacity of future submarines, we protected anti-submarine
warfare and counter-mine capabilities....125
September 2011 Press Report About New Defense Planning Guidance
A September 29, 2011, press report stated that a new DOD Defense Planning Guidance (DPG)
document126 dated August 29, 2011, “advocat[es] increased investment in military capabilities
designed for high-end war among major powers, according to sources familiar with the

120 The Navy currently has 22 Ticonderoga (CG-47) class Aegis cruisers; retiring seven early would reduce the
inventory of these ships to 15.
121 Under the FY2012 budget submission, the next LHA-type ship was to be procured in FY2016; the deferral would
thus appear to be FY2017.
122 This may be a deferral of the procurement of two LCSs, but not a reduction in the planned total LCS procurement of
55 ships.
123 This may reflect a reduction in the JHSV force-level goal from 21 ships to 10.
124 The Navy currently operates 12 LSD-type amphibious ships; retiring two early would reduce the inventory to 10.
The planned replacement for these LSDs is a new ship class called the LSD(X). The Navy had previously announced
that the first LSD(X) was to be procured in FY2017; the new announcement here suggests that the procurement date for
this ship has been deferred to a later year.
125 Department of Defense, Defense Budget: Priorities and Choices, January 2012, pp. 4, 5, 6, 7, 9.
126 The DPG is an internal DOD document that guides DOD’s preparation of its proposed budget.
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document.” The report stated that the new DPG “signals a ‘new seriousness [in DOD planning]
about major-power war,’ which could trigger a ‘flowering of air and naval power,’ said a former
service official familiar with the guidance.” The report stated that DOD “is planning to reduce
capability for conventional military operations and counterinsurgency, shrink the size of the
military, maintain counterterrorism capability and invest more in countering high-end threats like
long-range weapons being developed by China that could challenge U.S. power projection
capabilities in the Western Pacific, said a military official familiar with Panetta’s guidance.” The
report stated that “if the [DOD] budget [for FY2013 and beyond] comes out with the ‘one-third,
one-third, one-third’ ratio intact, the comprehensive review ‘should be judged a complete failure,’
an administration official said. The Army’s [budget] topline will likely be cut harder than other
services, the official said.”127
Air-Sea Battle (ASB) Concept
DOD has been developing a new Air-Sea Battle (ASB) concept that is intended to increase the
joint operating effectiveness U.S. naval and Air Force units, particularly in operations for
countering anti-access forces. The ASB development effort was announced in the 2010
Quadrennial Defense Review. DOD has established an Air-Sea Battle Office to guide the
implementation of the concept.128 Although DOD officials state that the ASB concept is not
directed at any particular adversary, many observers believe it is focused to a large degree, if not
principally, on countering Chinese and Iranian anti-access forces.
For more on the ASB concept, see Appendix B.
Navy Response to China Naval Modernization
The U.S. Navy has taken a number of steps in recent years that appear intended, at least in part, at
improving the U.S. Navy’s ability to counter Chinese maritime anti-access capabilities, including
but not limited to those discussed below.
Force Posture and Basing Actions
The final report on the 2006 QDR directed the Navy “to adjust its force posture and basing to
provide at least six operationally available and sustainable carriers and 60% of its submarines in
the Pacific to support engagement, presence and deterrence.”129 Additional force posture actions
that appear intended, at least in part, at improving the U.S. Navy’s ability to counter Chinese
maritime anti-access capabilities, include the following:

127 Christopher J. Castelli, “DOD Aims To Boost Investment In Capabilities For Major-Power War,” Inside the
Pentagon
, September 29, 2011. The phrase “one-third, one-third, one-third ratio” is a reference to the division of the
DOD “base” budget (i.e., the DOD budget other than the part that funds operations in Afghanistan and Iraq) between
the Army, the Navy and Marine Corps, and the Air Force. The current division of the DOD base budget not an exact
one-third, one-third, one-third division, but the phrase has come into use as a shorthand way of referring to the current
budget division, which has remained relatively unchanged in recent years.
128 Christopher P. Cavas, “Air-Sea Battle Office Targets DoD Blind Spots,” NavyTimes.com, November 10, 2011;
Gabe Starosta, “Pentagon Stands Up new AirSea Battle Office,” Inside the Navy, November 14, 2011; Ann Roosevelt,
“DoD Office Created To Implement Air-Sea Battle Concept,” Defense Daily, November 14, 2011: 6; Michael Fabey,
“Pentagon Acknowledges New Air-Sea Battle Office,” Aerospace Daily & Defense Report, November 14, 2011: 3.
129 U.S. Department of Defense, Quadrennial Defense Review Report. Washington, 2006. (February 6, 2006) p. 47.
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• earlier actions (i.e., actions implemented over the past several years)
• shifting three Pacific Fleet Los Angeles (SSN-688) class SSNs to Guam;
• basing all three Seawolf (SSN-21) class submarines—the Navy’s largest and
most heavily armed SSNs—in the Pacific Fleet (at Kitsap-Bremerton, WA);
• basing two of the Navy’s four converted Trident cruise missile/special
operations forces submarines (SSGNs) in the Pacific (at Bangor, WA);130
• assigning most of the Navy’s ballistic missile defense (BMD)-capable Aegis
cruisers and destroyers to the Pacific—and homeporting some of those ships
at Yokosuka, Japan, and Pearl Harbor, HI;
• more recent actions
• announcing an intention to station up to four Littoral Combat Ships (LCSs) at
Singapore (with the first to be sent there in the spring of 2013 for a 10-month
deployment);131
• announcing a plan to rotate Marines on six-month training deployments
through Darwin, Australia; and
• conducting talks with the Philippines about the possibility of rotating
surveillance aircraft or perhaps Navy ships through Philippine bases.132
A March 9, 2012, press report stated: “Currently about 55 percent of the Navy’s force is based in
the Pacific while 45 percent is Atlantic oriented, but those numbers will ‘gradually’ shift to more
along the lines of 60 to 40 percent favoring the Pacific as the Pentagon executes a new global
strategy, [Secretary of the Navy Ray] Mabus said at a conference hosted by Credit Suisse in
Arlington, Va.”133
A January 19, 2012, press report stated:
The head of the Navy told sailors Thursday [January 19] that the Asia-Pacific will be the
service’s focus in the future, and he views Hawaii as the gateway to the region.
“Let me give it to you straight, right here. The focus of this department in the future is the
Asia-Pacific region, where you are,” Adm. Jonathan Greenert told more than 500 sailors
during a visit to Pearl Harbor, one of the Navy’s largest bases. “I look at Hawaii and I say
it’s the gateway—it’s the most strategic base—out into the Asia-Pacific.”
Greenert attributed the shift to an evolving world, the U.S. drawdown from operations in the
Middle East, and a declining defense budget.....

130 For more on the SSGNs, see CRS Report RS21007, Navy Trident Submarine Conversion (SSGN) Program:
Background and Issues for Congress
, by Ronald O'Rourke.
131 Jim Wolf, “U.S. Plans 10-Month Warship Deployment To Singapore,” Reuters.com, May 10, 2012.
132 See, for example, Manuel Mogato, “Philippines Study U.S. Offer to Deploy Spy Planes,” Reuters.com, January 27,
2012.
133 Mike McCarthy, “New Ships Will Account For Asia-Pacific Buildup, SECNAV Says,” Defense Daily, March 9,
2012: 4-6. See also Bill Bartel, “Changes Are Coming To Hampton Roads, Navy Says,” Norfolk Virginian-Pilot,
March 6, 2012.
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Greenert explained to reporters afterward that the Navy would channel future investments to
meet the needs of the Pacific Command first.
He said ships and aircraft deployments in the Pacific would remain at current levels or be
increased. The same goes for efforts involving unmanned equipment, cyber security and
electronic warfare, he said.134
A January 16, 2012, press report further quoted Greenert as saying that about half of the Navy’s
50 ships in the Western Pacific on any given day are forward-deployed naval forces in and around
Japan. According to the report, Greenert stated, in reference to this deployment, “That’s the most
advanced airwing we have, the most advanced cruisers and destroyers, ordnance, antisubmarine
warfare.... And we screen our sailors and our commanders very carefully. We put our best in the
Western Pacific.”135
A January 10, 2012, press report stated:
President Barack Obama’s decision to reorient the U.S. military’s focus to the Asia-Pacific
region will not lead to a major naval buildup there, the top U.S. Navy officer said on
Tuesday [January 10], adding that the United States already has a robust presence in the
area....
Addressing a forum in Washington, Admiral Jonathan Greenert, the chief of naval
operations, put forward a chart showing that the U.S. Navy has about 50 ships and
submarines deployed today in the western Pacific, compared with about 30 in the Middle
East.
Greenert said the Navy would review Obama’s strategy and “adjust accordingly.”
“But my first assessment is that we're in good shape in the Navy where we stand in the
western Pacific,” he told a forum hosted by the Center for a New American Security think
tank in Washington.
Asked about a possible buildup in naval forces and equipment in Asia, Greenert appeared to
play down speculation about a major change in the deployment of forces there and in the
Middle East.
“My point is, it’s not a big naval buildup in the Far East. We're there, we have been there, we
will continue to be there,” he said.
“And that I see the same proportion in the (Middle East), I don't see a naval movement” from
there, he said.136

134 Audrey McAvoy, “US Navy Chief: Asia-Pacific Will Be Navy’s Focus,” Yahoo.com (Associated Press), January
19, 2012.
135 Christopher J. Castelli, “CNO: ‘Big Naval Buildup’ Not Needed In Asia-Pacific Region,” Inside the Navy, January
16, 2012. See also Donna Miles, “CNO: Navy Advances Asia-Pacific Partnerships,” Navy News Service, January 11,
2012, accessed online at http://www.navy.mil/search/display.asp?story_id=64711.
136 Phil Stewart and Paul Eckert, “No Big U.S. Naval Buildup in Asia, Top Officer Says,” Reuters.com, January 10,
2012. See also Christopher J. Castelli, “CNO: ‘Big Naval Buildup’ Not Needed In Asia-Pacific Region,” Inside the
Navy
, January 16, 2012.
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In a December 2011 journal article, Admiral Jonathan Greenert, the Chief of Naval Operations,
stated that the Navy
will expand [its] forward-stationed forces to improve our posture and responsiveness. In
Southeast Asia, we will station several of our newest littoral combat ships at Singapore’s
naval facility, and as announced in November by President Barack Obama, begin rotational
deployments of Marines to Darwin, Australia.137
A September 17, 2011, press report stated:
The defence alliance between the US and Australia is to be significantly beefed up as more
American ships, aircraft and troops move from North Asia to the southern hemisphere to be
based locally at joint military facilities.
New US Defence Secretary Leon Panetta said yesterday that enhancement of the relationship
between the alliance partners was intended to send a “very clear signal” to the Asia-Pacific
region.
Mr Panetta was speaking in San Francisco after a high-level ministerial meeting, known as
Ausmin, that marked the 60th anniversary of the signing of the ANZUS [Australia-New
Zealand-U.S.] treaty in the same city.
“We’ve done exchanges, we’ve had exercises together,” he said. “That is something we’ve
done pretty much in the past. The goal here is to strengthen that relationship as best we can
to send a clear signal to the Asia-Pacific region that the US and Australia are going to
continue to work together to make very clear to those that would threaten us that we are
going to stick together.”
The Ausmin talks yesterday, which included cyber terrorism as part of the alliance pact for
the first time, were hosted by US Secretary of State Hillary Clinton and attended by Mr
Panetta, Foreign Minister Kevin Rudd and Defence Minister Stephen Smith….
Australia will also host more US troops and military hardware at jointly run bases on its soil,
although Mr Smith stressed at the conclusion of yesterday’s talks that negotiations were
continuing about the planned expansion….
Mrs Clinton said after the meeting that the US and Australia were committed to working
together to seize the opportunities of a “fast-changing Asia-Pacific” region.138
A September 16, 2011, blog entry stated that
China’s improving air and naval power and its assertion of claims in the South China Sea are
very likely moving the most important [U.S.] defense mission [in the Western Pacific] 2,000
miles south from [Japan and South Korea,] where U.S. forces in the region are now
concentrated. This mismatch is presumably not lost on the U.S. and Australian ministers
gathered in San Francisco.

137 Jonathan Greenert, “Navy, 2025: Forward Warfighters,” U.S. Naval Institute Proceedings, December 2011: 20.
Greenert’s statement about stationing several LCSs at Singapore followed statements by other administration officials
dating back to June 2011 about operating a small number of LCSs out of Singapore. See, for example, Wong Maye-E
(Associated Press), “Gates Pledges Wider U.S. Military Presence in Asia,” USA Today, June 4, 2011; and Dan de Luce
(Agence France-Presse), “Gates: New Weapons For ‘Robust’ U.S. Role in Asia,” DefenseNews.com, June 3, 2011.
138 Brad Norington, “Troop Boost A Signal To Asia-Pacific,” The Weekend Australian, September 17, 2011: 2.
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In addition to pledging greater cooperation on cyberdefense (a problem increasingly blamed
on sources in China), the United States will gain greater access to Australian military
training areas, pre-position military equipment in Australia, obtain access to Australian
facilities and ports, and establish options for more joint military activities in the region.
This step-up in military coordination with Australia follows similar U.S. diplomatic forays
around the South China Sea. In 2005, the United States and Singapore signed a strategic
framework agreement on military cooperation that was expanded this year with an agreement
to deploy new U.S. Navy littoral combat ships to Singapore. The deepening of this
agreement will enhance the ability of the U.S. Navy to support the multilateral military
training exercises it leads every year with partners around the South China Sea.
However, Washington appears to be taking a notably different approach in the southwest
Pacific. Unlike its agreement with Japan and South Korea, the new agreements with
Australia and Singapore, along with other low-key arrangements with the Philippines and
others in the region, do not call for the permanent basing of U.S. combat units in these
countries. Both the United States and its partners in the region have an interest in
maintaining the “forward presence” of U.S. military forces in the region. But the permanent
bases and garrisons in South Korea and Japan have become corrosive, especially on
Okinawa, where the local population has become hostile to the U.S. military presence. In
addition, restrictions on training areas in Japan and South Korea are impairing the readiness
of U.S. forces there and reducing the utility of their presence.
The model the U.S. planners appear to have in mind for Australia, Singapore, and around the
South China Sea involves regular and frequent training exercises, temporary access to host
countries’ facilities, and frequent consultation by staff officers and advisors. For training
exercises or in response to crises, U.S. air and ground forces would fly in and meet up with
pre-positioned equipment, with naval forces arriving soon thereafter. This method would
avoid the political friction the United States has encountered in Japan and South Korea and
allow U.S. soldiers to remain at bases inside the United States that have better training
facilities and provide better living arrangements for soldiers and their families.
This new method of providing security for the southwest Pacific remains mostly a theory and
will face increasing pressure if Chinese forces eventually threaten easy access to the region.
But if the model succeeds, it could call into question the utility of maintaining the existing
garrisons on Okinawa and South Korea, which in any case are increasingly untenable as the
Chinese missile threat expands. The trick for U.S. military strategists and diplomats will be
implementing this more flexible deployment model while simultaneously reassuring regional
partners that U.S. security commitments are as firm as ever. As pressures increase, that trick
may not be easy to pull off.139
Acquisition Programs
As mentioned earlier (see “Limitations and Weaknesses” in “Background”), China’s navy
exhibits limitations or weaknesses in several areas, including C4ISR systems, anti-air warfare
(AAW), antisubmarine warfare (ASW), and mine countermeasures (MCM). Countering China’s

139 Robert Haddock, “The New Pacific Theater,” SmallWarsJournal.com, September 16, 2011. See also Anne Gearan
and Lolilta C. Baldor, “Deal Near On More US Military Access In Australia,” Yahoo.com (Associated Press),
September 15, 2011; Simon Mann, “US, Australia Inch Towards Troops, Military Deal,” Sydney Morning Herald
(smh.com.au)
, September 16, 2011; Australian Associated Press, “US, Australia Coy About Asia-Pacific Strategy,”
TheAustralian.com.au, September 16, 2011; Ernie Bower and Alexander Vagg, “AUSMIN Outcomes: GIs Based
Down Under?” CogitASIA (CSIS Asia Policy Blog) (cogitasia.com), September 14, 2011.
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naval modernization might thus involve, among other things, actions to exploit these limitations
and weaknesses, such as developing and procuring electronic warfare systems, antiship cruise
missiles, Virginia (SSN-774) class attack submarines, torpedoes, unmanned underwater vehicles
(UUVs), and mines.
Many of the Navy’s programs for acquiring highly capable ships, aircraft, and weapon systems
can be viewed as intended, at least in part, at improving the U.S. Navy’s ability to counter
Chinese maritime anti-access capabilities. Examples of highly capable ships now being acquired
include Ford (CVN-78) class aircraft carriers,140 Virginia (SSN-774) class attack submarines,141
and Arleigh Burke (DDG-51) class Aegis destroyers, including the new Flight III version of the
DDG-51, which is to be equipped with a new radar for improved air and missile defense
operations.142 The procurement rate of Virginia-class submarines was increased to two per year in
FY2011, and the Navy wants to start procuring the Flight III version of the DDG-51 in FY2016.
Examples of highly capable aircraft now being acquired by the Navy include F-35C carrier-based
Joint Strike Fighters (JSFs),143 F/A-18E/F Super Hornet strike fighters and EA-18G Growler
electronic attack aircraft,144 E-2D Hawkeye early warning and command and control aircraft, the
P-8A Multi-mission Maritime Aircraft (MMA), the Navy carrier-based Unmanned Combat Air
System (N-UCAS program) demonstrator program, and the follow-on Unmanned Carrier
Launched Airborne Surveillance and Strike (UCLASS) system.145 Some analysts, such as those at
the Center for Strategic and Budgetary Assessments (CSBA), an independent defense study
group, have emphasized the need for the Navy to develop and acquire a long-range unmanned
aircraft such as UCLASS for use on Navy aircraft carriers. A September 29, 2011, press report on
a new DOD Defense Planning Guidance (DPG) document stated:
“The Navy and Air Force are positioned to do well [in forthcoming DOD budgets]—but I
imagine business as usual for them won’t be an option either,” [an administration official]
said, noting unmanned aircraft will need to be a prominent feature for both. The Navy needs
to “get serious” about unmanned combat air vehicles “if they want to keep carriers relevant”
and the Air Force “needs to rethink whether the [service’s planned new] long-range bomber
will be manned,” the official said.146
The Navy is also developing a number of new sensor and weapon technologies that might be of
value in countering Chinese maritime anti-access capabilities, such as an electromagnetic rail gun
(EMRG) whose potential missions include air and missile defense, and high-power free electron

140 For more on the CVN-78 program, see CRS Report RS20643, Navy Ford (CVN-78) Class Aircraft Carrier
Program: Background and Issues for Congress
, by Ronald O'Rourke.
141 For more on the Virginia-class program, see CRS Report RL32418, Navy Virginia (SSN-774) Class Attack
Submarine Procurement: Background and Issues for Congress
, by Ronald O'Rourke.
142 For more on the DDG-51 program, including the planned Flight III version, see CRS Report RL32109, Navy DDG-
51 and DDG-1000 Destroyer Programs: Background and Issues for Congress
, by Ronald O'Rourke.
143 For more on the F-35 program, see CRS Report RL30563, F-35 Joint Strike Fighter (JSF) Program, by Jeremiah
Gertler.
144 For more on the F/A-18E/F and EA-18G programs, see CRS Report RL30624, Navy F/A-18E/F and EA-18G
Aircraft Program
, by Jeremiah Gertler.
145 The Navy is currently developing a stealthy, long-range, unmanned combat air system (UCAS) for use in the Navy’s
carrier air wings. The demonstration program for the system is called UCAS-D. The subsequent production version of
the aircraft is called N-UCAS, with the N standing for Navy.
146 Christopher J. Castelli, “DOD Aims To Boos Investment In Capabilities For Major-Power War,” Inside the
Pentagon
, September 29, 2011.
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lasers (FELs) and solid state lasers (SSLs), whose potential missions also include air and missile
defense.147
An October 10, 2011, press report states that Admiral Jonathan Greenert, the Chief of Naval
Operations (CNO), in a memorandum dated September 23, 2011, “has launched a new review to
identify warfighting investments that could counter Chinese military methods for disrupting key
battlefield information systems.” According to the report, the memorandum “requests options for
warfighting in ‘the complex electromagnetic environment’ and for countering ‘anti-access/area-
denial’ threats—terms closely associated with China’s military.” The report quotes the
memorandum as stating that “Today’s weapons rely on EM [electromagnetic] sensors, EM
communications and EM seekers to complete their ‘kill chains,’ while defenders are increasingly
turning to EM methods for protection,” and that “some kill chains never leave the EM
environment at all, damaging an adversary’s military capability by affecting control systems
alone—no bomb or missile required.” The report states that the memorandum “directs the group
to ‘generate innovative concepts for [the] Navy to employ the EM environment as a primary line
of operation in a 2025-2030 warfighting campaign.”148
In a December 2011 journal article, Greenert stated that
regional powers in 2025 could use ballistic and cruise missiles, submarines, and guided
rockets and artillery to prevent military forces or legitimate users from entering an area
(“anti-access,” or A2) or operating effectively within an area (“area-denial,” or AD). Those
capabilities can be characterized as defensive, reducing opposition to them, and they can be
deployed from the country’s mainland territory, making attacks against them highly
escalatory. Their intended purpose, however, is clear—intimidation of neighboring countries,
including U.S. allies and partners. Aggressors can threaten to hold key maritime crossroads
at risk, render territorial claims moot, and assert that intervention by the United States or
others in these disputes can be delayed or prevented. The stated or unstated implication is
that their neighbors should capitulate to the aggressor’s demands.
To help defend our allies and protect our interests, U.S. forces in 2025 will need to be able to
operate and project power despite adversary A2/AD capabilities. Over the next decade naval
and air forces will implement the new AirSea Battle Concept and put in place the tactics,
procedures, and systems of this innovative approach to the A2/AD challenge....
Over the next decade, maintaining the Navy’s war-fighting edge and addressing fiscal
constraints will require significant changes in how we develop the force. We will need to
shift from a focus on platforms to instead focus on what the platform carries. We have
experience in this model. Aircraft carriers, amphibious ships and the littoral combat ships are
inherently reconfigurable, with sensor and weapon systems that can evolve over time for the
expected mission. As we apply that same modular approach to each of our capabilities, the
weapons, sensors, unmanned systems, and electronic-warfare systems that a platform
deploys will increasingly become more important than the platform itself.
That paradigm shift will be prompted by three main factors. First, the large number, range of
frequencies, and growing sophistication of sensors will increase the risk to ships and
aircraft—even “stealthy” ones—when operating close to an adversary’s territory. Continuing

147 For more on the Navy’s laser-development efforts, see CRS Report R41526, Navy Shipboard Lasers for Surface,
Air, and Missile Defense: Background and Issues for Congress
, by Ronald O'Rourke.
148 Christopher J. Castellil, “Memo: Navy Seeks To Counter China’s Battle-Disruption Capabilities,” Inside the Navy,
October 10, 2011.
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to pursue ever-smaller signatures for manned platforms, however, will soon become
unaffordable. Second, the unpredictable and rapid improvement of adversary A2/AD
capabilities will require faster evolution of our own systems to maintain an advantage or
asymmetrically gain the upper hand. This speed of evolution is more affordable and
technically possible in weapons, sensors, and unmanned systems than in manned platforms.
The third factor favoring a focus on payloads is the changing nature of war. Precision-guided
munitions have reduced the number and size of weapons needed to achieve the same effect.
At the same time, concerns for collateral damage have significantly lowered the number of
targets that can be safely attacked in a given engagement. The net effect is fewer weapons
are needed in today’s conflicts.
Together, those trends make guided, precision stand-off weapons such as Tomahawk land-
attack missiles, joint air-surface stand-off missiles, and their successors more viable and
cost-effective alternatives to increasingly stealthy aircraft that close the target and drop
bombs or shoot direct-attack missiles. To take full advantage of the paradigm shift from
platform to payload, the Fleet of 2025 will incorporate faster, longer-range, and more
sophisticated weapons from ships, aircraft, and submarines. In turn, today’s platforms will
evolve to be more capable of carrying a larger range of weapons and other payloads.
Those other payloads will include a growing number of unmanned systems. Budget
limitations over the next 10 to 15 years may constrain the number of ships and aircraft the
Navy can buy....
The future Fleet will deploy a larger and improved force of rotary wing unmanned aerial
vehicles (UAVs) including today’s Fire Scout and soon, the armed Fire-X. Those vehicles
were invaluable in recent operations in Libya and in counterterrorism operations around the
Central Command area of responsibility. Deploying from the deck of a littoral combat ship, a
detachment of Fire Scouts can provide continuous surveillance more than 100 miles away.
Those systems will expand the reach of the ship’s sensors with optical and infrared
capabilities, as well as support special operations forces in the littorals. Even more
significant, the Fleet of 2025 will include UAVs deploying from aircraft carrier decks. What
started a decade ago as the unmanned combat air system will be operating by 2025 as an
integral element of some carrier air wings, providing surveillance and some strike capability
at vastly increased ranges compared with today’s strike fighters. Once that aircraft is fielded,
it will likely take on additional missions such as logistics, electronic warfare, or tanking.
Submarines will deploy and operate in conjunction with a family of unmanned vehicles and
sensors by 2025 to sustain the undersea dominance that is a clear U.S. asymmetric
advantage. Large-displacement unmanned underwater vehicles (UUVs) will deploy from
ships, shore, or Virginia-class submarine payload tubes to conduct surveillance missions.
With their range and endurance, large UUVs could travel deep into an adversary’s A2/AD
envelope to deploy strike missiles, electronic warfare decoys, or mines. Smaller UUVs will
be used by submarines to extend the reach of their organic sensors, and will operate in
conjunction with unattended sensors that can be deployed from surface combatants,
submarines, and P-8A patrol aircraft. The resulting undersea network will create a more
complete and persistent “common operational picture” of the underwater environment when
and where we need it. This will be essential to finding and engaging adversary submarines,
potentially the most dangerous A2/AD capability.
The undersea picture is extremely important in terms of countering enemy mining. The most
basic of A2/AD weapons, mines can render an area of ocean unusable for commercial
shipping for weeks or months while we laboriously locate and neutralize them. Even the
threat of mines is enough to severely restrict ship movements, significantly affecting trade
and global economic stability if it happens in key choke points such as the Malacca or
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Hormuz straits. The mine countermeasure capabilities we are developing for littoral combat
ships and MH-60 aircraft rely heavily on unmanned sensors to rapidly build the underwater
picture, and unmanned neutralization systems to disable mines. By 2025 those systems will
be fully fielded, and their portable nature could allow them to be another swappable payload
on a range of combatants....
Electronic warfare (EW) and cyber operations are increasingly essential to defeating the
sensors and command and control (C2) that underpin an opponent’s A2/AD capabilities. If
the adversary is blinded or unable to communicate, he cannot aim long-range ballistic and
cruise missiles or cue submarines and aircraft. Today, Navy forces focus on deconflicting
operations in the electromagnetic spectrum or cyber domains. By 2025, the Fleet will fully
operationalize those domains, more seamlessly managing sensors, attacks, defense, and
communications, and treating EW and cyber environments as “maneuver spaces” on par with
surface, undersea, or air.
For example, an electronic jammer or decoy can defeat individual enemy radar, and thus an
enemy C2 system using the radar’s data. A cyber operation might be able to achieve a similar
effect, allowing U.S. forces to avoid detection. This is akin to using smoke and “rubber-
duck” decoys in World War II to obscure and confuse the operational picture for Japanese
forces, allowing U.S. ships to maneuver to an advantageous position. The future Fleet will
employ EW and cyber with that same sense of operational integration.149
An April 3, 2012, press report stated:
Air Force and Navy planners were stunned by the lack of money and focus on EA/EW
[electronic attack/electronic warfare] in the fiscal 2013 defense budget request. “Most of us
expected to see that change of investment in the president’s budget,” says a veteran EW
specialist. “It not only wasn’t there, [funding] went in the opposite direction. We expected to
see a much more aggressive shifting of priorities. Putting money behind something is what
really indicates intent. I think it’s a momentary hiccup. If it’s not, this whole new Asia-
Pacific strategy [which has electronic surveillance and attack at its heart] is a façade.150
Training and Forward-Deployed Operations
The Navy in recent years has increased antisubmarine warfare (ASW) training for Pacific Fleet
forces and conducted various forward-deployed operations in the Western Pacific, including
exercises and engagement operations with Pacific allied and partner navies, as well as operations
that appear to have been aimed at monitoring Chinese military operations.151

149 Jonathan Greenert, “Navy, 2025: Forward Warfighters,” U.S. Naval Institute Proceedings, December 2011: 20.
Greenert’s statement about stationing several LCSs at Singapore followed statements by other administration officials
dating back to June 2011 about operating a small number of LCSs out of Singapore. See, for example, Wong Maye-E
(Associated Press), “Gates Pledges Wider U.S. Military Presence in Asia,” USA Today, June 4, 2011; and Dan de Luce
(Agence France-Presse), “Gates: New Weapons For ‘Robust’ U.S. Role in Asia,” DefenseNews.com, June 3, 2011.
150 David A. Fulghum, “GAO Report On Electronic Attack Belabors The Obvious,” Aerospace Daily & Defense
Report
, April 3, 2012: 5. The first instance of bracketed wording was inserted by CRS; the others are as in the original.
151 Incidents at sea in recent years between U.S. and Chinese ships and aircraft in China’s Exclusive Economic Zone
(EEZ) (see “China’s View Regarding Right to Regulate Foreign Military Activities in EEZ” in “Background”) appear
to involve, on the U.S. side, ships and aircraft, such as TAGOS ocean surveillance ships and EP-3 electronic
surveillance aircraft, whose primary apparent mission is to monitor foreign military operations.
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In a December 2011 journal article, Admiral Jonathan Greenert, the Chief of Naval Operations,
stated:
Critical to shaping the environment is cooperation with partners and allies across the range of
operations. At the high end [of operations], we will expand our combined efforts with allies
in Japan, South Korea, and Australia to train and exercise in missions such as antisubmarine
warfare and integrated air and missile defense. Over the next decade, we will also increase
deployments of ships and aircraft for the cooperative missions our other allies and partners
need most. Our ships ships [sic] in Singapore will conduct cooperative counterpiracy or
countertrafficking operations around the South China Sea. Similarly, 2025 may see [land-
based] P-8A Poseidon [maritime patrol] aircraft or unmanned broad area maritime
surveillance aerial vehicles periodically deploy to the Philippines or Thailand to help those
nations with maritime domain awareness....
As Secretary of State Hillary Clinton noted in a recent Foreign Policy article, the Asia-
Pacific region will be emphasized in our forward posture.... We will continue our robust
rotational deployments to the western Pacific, complemented with our forward-stationed
navy and marine forces in Japan, Guam, Singapore, and Australia.152
Statements of Confidence
Countering China’s naval modernization effort can also involve stating publicly (while
withholding classified details) the U.S. Navy’s ability to counter improved Chinese maritime
forces. Such public statements could help prevent Chinese overconfidence that might lead to
incidents, while also reassuring regional allies, partners, and neutrals. Conversely, some observers
might argue, having an ability to counter Chinese maritime military forces but not stating it
publicly could invite Chinese overconfidence and thereby be destabilizing. A February 1, 2011,
press report stated:
U.S. military commanders are expressing confidence that they can hold their own in the face
of faster-than-expected advances by China’s military, but looming cost cuts are adding to
doubts about the future of American power in the Pacific….
In an interview from an office at the Washington Navy Yard, a military base in the nation’s
capital, the top Navy commander said the military had plans in place to cope with advances
in China, and elsewhere. “We're not flat footed” in the response to China, Admiral Gary
Roughead told Reuters.
“I would say that we are responding, or advancing, our capabilities in such a way that we’re
pacing the global developments that are taking place,” he said.
“That includes Chinese advances, it includes developments that are taking place in other
parts of the world as well.”153
A December 2010 press report stated:
The man who would face the Chinese in battle, Adm. Patrick Walsh, the current commander
of the U.S. Navy’s Pacific Fleet, sees preparation as a way to avoid a future fight. “When we

152 Jonathan Greenert, “Navy, 2025: Forward Warfighters,” U.S. Naval Institute Proceedings, December 2011: 20.
153 Phil Stewart, “U.S. Military Says Keeps Up With China; Is It Enough?” Reuters.com, February 1, 2011.
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look at these sorts of [Chinese military] developments, such as the ASBM, they are
technological developments that we respect, but do not necessarily fear,” Walsh says. “The
key element in any sort of deterrent strategy is to make it clear to those who would use a
given piece of technology that we have the means to counter it, and to maintain a
technological edge.”154
One observer stated in 2009 that
It is time for the national security community to get a grip on itself. The AA/AD [anti-
access/area-denial] threat is neither new nor all that daunting. The U.S. military has already
faced down the mother of all AA/AD threats. It was the Soviet military. The Red Army was
postured for the ultimate AA/AD operation, including a massive air and missile assault—
employing chemical weapons—on all our forward bases and using hundreds of submarines
and aircraft to sweep the seas of our ships. The AA/AD Cassandras are hyping today’s
threat. Equally bad, they are forgetting recent history.
The U.S. military will employ a full sweep of technologies, tactics and techniques to counter
the AA/AD threat. As my colleague Loren Thompson pointed out… a few weeks ago the
U.S. Navy has ways of addressing the anti-shipping ballistic missile threat. Advanced
organic mine warfare capabilities are being developed to counter sea mines. The Air Force
will employ a combination of airfield defenses, electronic warfare, SEAD [suppression of
enemy air defenses], unmanned systems, long-range precision weapons and most important,
stealthy aircraft to defeat the AA/AD threat. There is an AA/AD threat, but it is not an
apocalyptic danger.155
Issues for Congress
Future Size of U.S. Navy
One potential oversight issue for Congress, particularly in the context of reductions in planned
levels of defense spending that are anticipated as a result of the Budget Control Act of 2011 (S.
365/P.L. 112-25 of August 2, 2011), concerns whether the U.S. Navy in coming years will be
large enough to adequately counter improved Chinese maritime anti-access forces while also
adequately performing other missions around the world of interest to U.S. policymakers. Some
observers are concerned that a combination of growing Chinese naval capabilities and budget-
driven reductions in the size of the U.S. Navy could encourage Chinese military overconfidence
and demoralize U.S. allies and partners in the Pacific, and thereby destabilize or make it harder
for the United States to defend its interests in the region.156
Navy officials state that, to carry out Navy missions around the world in coming years, the Navy
will need to achieve and maintain a fleet of about 310-316 ships of various types and numbers.

154 Erik Sofge, “China’s Deadliest Game,” Popular Mechanics, December 2010: 83.
155 Daniel Goure, “The Overblown Anti-Access, Area Denial Threat,” Lexington Institute Early Warning Blog, October
23, 2009, accessed at http://www.lexingtoninstitute.org/the-overblown-anti-access-area-denial-threat?a=1&c=1171.
156 See, for example, Dan Blumenthal and Michael Mazza, “Asia Needs a Larger U.S. Defense Budget,” Wall Street
Journal
, July 5, 2011; J. Randy Forbes, “Defence Cuts Imperil US Asia Role,” The Diplomat (http://the-diplomat.com),
October 26, 2011. See also Andrew Krepinevich, “Panetta’s Challenge,” Washington Post, July 15, 2011: 15; Dean
Cheng, Sea Power and the Chinese State: China’s Maritime Ambitions, Heritage Foundation Backgrounder No. 2576,
July 11, 2011, p. 10.
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The Navy’s FY2013 30-year (FY2013-FY2042) shipbuilding plan, however, does not include
enough ships to fully support all elements of the Navy’s 310-316 ship goal over the long run. The
Navy projects that if the FY2013 30-year plan were implemented, there would be a shortfall in
cruisers-destroyer throughout the 30-year period, and shortfalls in attack submarines and
amphibious ships at certain points during the 30-year period.157 As cost-saving measures, the
Navy’s FY2013 budget proposes the early retirement in FY2013 and FY2014 of seven Aegis
cruisers, the shifting into reduced operation status (ROS) of two amphibious ships, and the
deferral of some planned ship procurements.
Potential oversight questions for Congress, include the following:
• Under the Administration’s plans, will the Navy in coming years be large enough
to adequately counter to adequately counter improved Chinese maritime anti-
access forces while also adequately performing other missions around the world
of interest to U.S. policymakers?
• What might be the political and security implications in the Asia-Pacific region
of a combination of growing Chinese naval capabilities and budget-driven
reductions in the size of the U.S. Navy?
• If the Navy is reduced in size, and priority in the allocation of deployed Navy
ships is given to maintaining Navy forces in the Pacific, what will be the impact
on Navy force levels in other parts of the world, such as the Persian Gulf/Indian
Ocean region or the Mediterranean Sea, and consequently on the Navy’s ability
to adequately perform its missions in those parts of the world?
• To what extent could the operational impacts of a reduction in Navy ship
numbers be mitigated through increased use of forward homeporting, multiple
crewing, and long-duration deployments with crew rotation (i.e., “Sea Swap”)?
How feasible are these options, and what would be their potential costs and
benefits?
• Particularly in a situation of constrained DOD resources, if enough funding is
allocated to the Navy to permit the Navy in coming years to maintain a fleet of
about 310-316 ships including 11 aircraft carriers, how much would other DOD
programs need to be reduced, and what would be the operational implications of
those program reductions in terms of DOD’s overall ability to counter improved
Chinese military forces and perform other missions?
Air-Sea Battle Concept
Another potential oversight issue for Congress concerns the Air-Sea Battle concept. In a
November 7, 2011, letter to Secretary of Defense Panetta, Representative J. Randy Forbes, the
chairman of the Readiness subcommittee of the House Armed Services Committee, stated in part:
Despite reports throughout 2011 that AirSea Battle had been completed in an executive
summary form, to my knowledge Members of Congress have yet to be briefed on its

157 For additional discussion, see CRS Report RL32665, Navy Force Structure and Shipbuilding Plans: Background
and Issues for Congress
, by Ronald O'Rourke.
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conclusions or in any way made a part of the process. This support will be critical if this
concept is to be both properly resourced and enduring….
… I believe the development of this operational concept, like AirLand Battle during the late
1970s and early 1980s, will require the support of Congress if it is to be both successful and
enduring. As you will recall, after Airland Battle was finalized in 1980 the Army worked to
build a consensus around the effort, first within the Department and then with Members of
Congress through a series of briefings. These briefings described the doctrine and the
weapons coming into production that would form the basis of this major doctrinal transition.
With Congress’ support, AirLand Battle received the proper resources that led to a revolution
in the way America’s Army and Air Force conducted joint operations. If AirSea Battle is to
have similar success, the Congress will have to be made a full partner of this effort.
As AirSea Battle moves from the development stage to implementation, I am eager to
understand how you plan to make Congress part of this process. More specifically, what is
the overall fiscal program required to support the basic concept? In the short term, I would
also appreciate a brief to better understand the findings of the Department’s two-year effort
to comprehend the challenges created by sophisticated A2/AD [anti-access/area-denial]
environments and the operational and tactical demands that will be required to sustain our
freedom of action in these theaters.158
Navy’s Ability to Counter China’s ASBMs
Another potential oversight issue for Congress concerns the Navy’s ability to counter China’s
ASBMs. Although China’s projected ASBM, as a new type of weapon, might be considered a
“game changer,” that does not mean it cannot be countered. There are several potential
approaches for countering an ASBM that can be imagined, and these approaches could be used in
combination. The ASBM is not the first “game changer” that the Navy has confronted; the Navy
in the past has developed counters for other new types of weapons, such as ASCMs, and is likely
exploring various approaches for countering ASBMs.
Breaking the ASBM’s Kill Chain
Countering China’s projected ASBMs could involve employing a combination of active (i.e.,
“hard-kill”) measures, such as shooting down ASBMs with interceptor missiles, and passive (i.e.,
“soft-kill”) measures, such as those for masking the exact location of Navy ships or confusing
ASBM reentry vehicles. Employing a combination of active and passive measures would attack
various points in the ASBM “kill chain”—the sequence of events that needs to be completed to
carry out a successful ASBM attack. This sequence includes detection, identification, and
localization of the target ship, transmission of that data to the ASBM launcher, firing the ASBM,
and having the ASBM reentry vehicle find the target ship.
Attacking various points in an opponent’s kill chain is an established method for countering an
opponent’s military capability. A September 30, 2011, press report, for example, quotes
Lieutenant General Herbert Carlisle, the Air Force’s deputy chief of staff for operations, plans,

158 Letter dated November 7, 2011, from Representative J. Randy Forbes to the Honorable Leon Panetta, accessed
November 30, 2011, at http://forbes.house.gov/UploadedFiles/Panetta_ASB.pdf. The letter was also posted at
InsideDefense.com (subscription required) on November 18, 2011. See also Megan Eckstein, “Forbes Asks Pentagon
For Details On New AirSea Battle Office,” Inside the Navy, November 21, 2011.
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and requirements, as stating in regard to Air Force planning that “We’ve taken [China’s] kill
chains apart to the ‘nth’ degree.”159
To attack the ASBM kill chain, Navy surface ships, for example, could operate in ways (such as
controlling electromagnetic emissions or using deception emitters) that make it more difficult for
China to detect, identify, and track those ships.160 The Navy could acquire weapons and systems
for disabling or jamming China’s long-range maritime surveillance and targeting systems, for
attacking ASBM launchers, for destroying ASBMs in various stages of flight, and for decoying
and confusing ASBMs as they approach their intended targets. Options for destroying ASBMs in
flight include developing and procuring improved versions of the SM-3 BMD interceptor missile
(including the planned Block IIA version of the SM-3), accelerating the acquisition of the Sea-
Based Terminal (SBT) interceptor (the planned successor to the SM-2 Block IV terminal-phase
BMD interceptor),161 accelerating development and deployment of the electromagnetic rail gun
(EMRG), and accelerating the development and deployment of shipboard high-power free
electron lasers (FELs) and solid state lasers (SSLs). Options for decoying and confusing ASBMs
as they approach their intended targets include equipping ships with systems, such as electronic
warfare systems or systems for generating radar-opaque smoke clouds, that could confuse an
ASBM’s terminal-guidance radar.162 One observer has argued that active defenses alone are
unlikely to succeed, and that the U.S. Navy should place stronger emphasis on passive
defenses.163
AAW and BMD Capability of Flight III DDG-51 Destroyer
In assessing the Navy’s ability to counter China’s ASBMs, a potentially important question that
Congress may consider is whether the Flight III version of the DDG-51 destroyer—the version
that the Navy wants to procure starting in FY2016—would have sufficient AAW and BMD
capability to perform projected air and missile defense missions against Chinese forces, including
ASBMs.

159 David A. Fulghum, “USAF: Slash And Burn Defense Cuts Will Cost Missions, Capabilities,” Aerospace Daily &
Defense Report
, September 30, 2011: 6.
160 For a journal article discussing actions by the Navy during the period 1956-1972 to conceal the exact locations of
Navy ships, see Robert G. Angevine, “Hiding in Plain Sight, The U.S. Navy and Dispersed Operations Under EMCON,
1956-1972,” Naval War College Review, Spring 2011: 79-95. See also Jonathan F. Sullivan, Defending the Fleet From
China’s Anti-Ship Ballistic Missile: Naval Deception’s Roles in Sea-Based Missile Defense, A Thesis submitted to the
Faculty of the Graduate School of Arts and Sciences of Georgetown University in partial fulfillment of the
requirements for the degree of Master of Arts in Security Studies, April 15, 2011, accessed August 10, 2011 at
http://gradworks.umi.com/1491548.pdf.
161 For more on the SM-3, including the Block IIA version, and the SBT, see CRS Report RL33745, Navy Aegis
Ballistic Missile Defense (BMD) Program: Background and Issues for Congress
, by Ronald O'Rourke.
162 Regarding the option of systems for generating radar-opaque smoke clouds, Thomas J. Culora, “The Strategic
Implications of Obscurants,” Naval War College Review, Summer 2010: 73-84; Scott Tait, “Make Smoke!” U.S. Naval
Institue Proceedings, June 2011: 58-63.
163Marshall Hoyler, “China’s ‘Antiaccess’ Ballistic Missiles and U.S. Active Defense,” Naval War College Review,
Autumn 2010: 84-105.
For additional discussions of options for countering ASBMs, see Sam J. Tangredi, “No Game Changer for China,” U.S.
Naval Institute Proceedings
, February 2010: 24-29; and Loren B. Thompson, “China’s New “Carrier-Killing” Missile
Is Overrated,” Lexington Institute (Early Warning Blog), August 9, 2010 (available online at
http://www.lexingtoninstitute.org/chinas-new-carrier-killing-missile-is-overrated?a=1&c=1171). See also Craig Hooper
and Christopher Albon, “Get Off the Fainting Couch,” U.S. Naval Institute Proceedings, April 2010: 42- 47; and
Duncan Lennox, “China’s ASBM Project: Keep Calm and Carry On,” Jane’s Defence Weekly, February 16, 2011: 23.
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The Flight III DDG-51 would have more AAW and BMD capability than the current Flight IIA
DDG-51 design, but less AAW and BMD capability than was envisioned for a now-canceled
cruiser called the CG(X), in large part because the Flight III DDG-51 would be equipped with a
12- or 14-foot-diameter version of a new radar called the Air and Missile Defense Radar (AMDR)
that would have more sensitivity than the SPY-1 radar on Flight IIA DDG-51s, but less sensitivity
than the substantially larger version of the AMDR that was envisioned for the CG(X). The CG(X)
also may have had more missile-launch tubes than the Flight III DDG-51.
Supporters of the Navy’s proposal to procure Flight III DDG-51s could argue that a 12- or 14-
foot-diameter version of the AMDR would provide the DDG-51 with sufficient AAW and BMD
capability to perform projected AAW and BMD missions because this radar would be
substantially more capable than the SPY-1 radar currently on DDG-51s, and because Flight III
DDG-51s (and other Navy ships) would also benefit from data collected by other sensors,
including space-based sensors.
Skeptics could argue that Flight III DDG-51s might not have sufficient AAW and BMD capability
because a 12- or 14-foot-diameter AMDR would be substantially less capable than the
substantially larger AMDR that the Navy previously believed would be needed to adequately
perform projected AAW and BMD missions, because the off-board sensors on which the Flight
III DDG-51 would rely for part of its sensor data that might turn out to be less capable as the
Navy assumed in 2008 that they would be, and because the off-board sensors and their related
data-communication links could in any event be vulnerable to enemy attack.
A January 2012 Government Accountability Office (GAO) report on DDG-51 acquisition stated
that
the Navy’s choice of DDG 51 as the platform for AMDR limits the overall size of the radar
to one that will be unable to meet the Navy’s desired (objective) IAMD [integrated air and
missile defense] capabilities. If the Navy selects a 12-foot AMDR—which may reduce the
impacts on the ship and design—it may not be able to meet the requirements for AMDR as
currently stated in the Navy’s draft capabilities document....
[The] Flight III [DDG-51] with a 14-foot AMDR will not be powerful enough to meet the
Navy’s objective, or desired IAMD capabilities. The shipyards and the Navy have
determined that 14-foot radar arrays are the largest that can be accommodated within the
confines of the existing DDG 51 configuration. Adding a radar larger than 14 feet to DDG
51 is unlikely without major structural changes to the ship. AMDR is being specifically
developed to be a scalable radar—meaning that it can be increased in size and power to
provide enhanced capability against emerging threats.
According to AMDR contractors, the Navy had originally contracted for an investigation of a
Variant 2 AMDR with a sensitivity of SPY+40,164 but this effort was cancelled. They added
that the maximum feasible size of AMDR would be dictated by the ship and radar power and
cooling demands, but that they had investigated versions as large as 36 feet. Leveraging
AMDR’s scalability will not be possible on DDG 51 without major changes, such as a new
deckhouse or adding to the dimensions of the hullform itself by broadening the beam of the

164 This is a way of characterizing how much more sensitive a particular version of the AMDR is compared to the SPY-
1 radar on the current Flight IIA DDG-51. The larger the number after the plus sign, the greater the degree of
improvement in sensitivity that the AMDR would have over the SPY-1 radar. The SPY-1 radar itself in this
nomenclature would be referred to as SPY+0.
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ship or adding a new section (called a plug) to the middle of the ship to add length. Navy
officials have stated that adding a plug to DDG 51 is not currently a viable option due to the
complexity, and that a new ship design is preferable to a plugged DDG 51.
The Navy has not yet determined the size of AMDR for Flight III, and two sizes are under
consideration: a 14-foot AMDR with a sensitivity of SPY+15, and a 12-foot AMDR with a
sensitivity of SPY+11. According to a draft AMDR Capability Development Document, the
Navy has identified that an AMDR with SPY+15 will meet operational performance
requirements against the threat environment illustrated in the [destroyer] Radar/Hull
Study.165 This document also notes that a significantly larger SPY+30 AMDR is required to
meet the Navy’s desired capability (known as objective) against the threat environment
illustrated in the MAMDJF AOA.166 The Navy could choose to change these requirements.
The MAMDJF AOA eliminated the DDG 51-based SPY+15 solution from consideration in
part due to the limited radar capability, and identified that a radar closer to SPY+30 power
with a signal to noise ratio 1,000 times better than SPY+0 and an array size over 20 feet is
required to address the most challenging threats. If a 12-foot array is chosen, the Navy will
be selecting a capability that is less than the “marginally adequate” capability offered by a
SPY+15 radar as defined by the Radar/Hull Study red team assessment. According to Navy
officials, only through adding additional square footage can the Navy effectively make large
improvements in the sensitivity of the radar the SPY+30 radar considered in the MAMDJF
AOA could only be carried by a newly designed cruiser or a modified San Antonio [LPD-17]
class [amphibious] ship, and only a modified DDG 1000 [destroyer] and could carry the
approximately SPY+25 radar. According to the draft AMDR Capability Development
Document, the Navy’s desired IAMD capability can only be accommodated on a larger,
currently unspecified ship. As part of the MAMDJF AOA, the Navy identified that DDG
1000 can accommodate a SPY+25 radar. As part of a technical submission to the Navy,
BIW—the lead designer for DDG 1000167—also identified a possible design for a 21-foot
radar on DDG 1000. The Navy did not include a variant with this size radar in the
Radar/Hull Study.
According to senior Navy officials, since the MAMDJF AOA was released the Navy has
changed its concept on the numbers of Navy ships that will be operating in an IAMD
environment. Rather than one or a small number of ships conducting IAMD alone and
independently managing the most taxing threat environments without support, the Navy now
envisions multiple ships that they can operate in concert with different ground and space-
based sensor assets to provide cueing for AMDR when targets are in the battlespace. This
cueing would mean that the shooter ship could be told by the off-board sensors where to look
for a target, allowing for earlier detection and increased size of the area that can be covered.
According to the Navy, this concept—referred to as sensor netting—can be used to augment
the reduced radar capability afforded by a 12 or 14-foot AMDR as compared to the larger
radars studied in the MAMDJF AOA. For example, the Navy cited the use of the Precision
Tracking Space System program as an example of sensors that could be leveraged. However,
this program (envisioned as a constellation of missile tracking satellites) is currently in the
conceptual phase, and the independent Radar/Hull Study red team stated that the
development timeline for this system is too long to consider being able to leverage this
system for Flight III. Navy officials told us that another option would be to leverage the
newly completed Cobra Judy Replacement radar ship and its very powerful dual-band radar

165 This is a study that the Navy conducted to compare various combinations of radars on the DDG-51 and DDG-1000
destroyer hull forms.
166 MAMDJF AOA is Maritime Air and Missile Defense of Joint Forces Analysis of Alternatives—a DOD study that
examined ship-design options for the now-canceled CG(X) cruiser.
167 This is reference to Bath Iron Works of Bath, ME, a shipyard that is part of General Dynamics.
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to provide cueing for DDG 51s. This cueing could allow the DDG 51s to operate a smaller
AMDR and still be effective. The Cobra Judy Replacement ship is comparatively cheaper
than DDG 51s (approximately $1.7 billion for the lead ship), and was commercially designed
and built. However, it is not a combatant ship, which would limit its employment in a
combat environment and make it difficult to deploy to multiple engagement locations.
Senior Navy officials told us that the concept of sensor netting is not yet well defined, and
that additional analysis is required to determine what sensor capabilities currently exist or
will be developed in the future, as well as how sensor netting might be conceptualized for
Flight III. Sensor netting requires not only deployment of the appropriate sensors and for
these sensors to work alone, but they also need to be able to share usable data in real-time
with Aegis in the precise manner required to support BMD engagements. Though sharing
data among multiple sensors can provide greater capabilities than just using individual stand-
alone sensors, officials told us that every sensor system has varying limitations on its
accuracy, and as more sensors are networked together and sharing data, these accuracy
limitations can compound. Further, though there have been recent successes in sharing data
during BMD testing, DOD weapons testers responsible for overseeing BMD testing told us
that there have also been issues with sending data between sensors. Although sensor
technology will undoubtedly evolve in the future, how sensor netting will be leveraged by
Flight III and integrated with Navy tactics to augment Aegis and the radar capability of
Flight III is unknown...
The Navy’s choices for Flight III will likely be unsuitable for the most stressful threat
environments it expects to face....
We recommend that the Secretary of Defense direct the Secretary of the Navy to take the
following three actions:...
2. Report to Congress in its annual long-range shipbuilding plan on its plans for a future,
larger surface combatant, carrying a more capable version of AMDR and the costs and
quantities of this ship....
DOD concurred with our second recommendation that the Navy report to Congress in its
annual long-range shipbuilding plan on its plans for a future larger surface combatant
carrying a more capable version of AMDR. Given the assessments that the Navy is currently
conducting on surface combatants, the Navy’s next submission should include more specific
information about its planned future surface combatant acquisitions.168
Another CRS report discusses potential options for improving or augmenting the AAW and BMD
capabilities of future Navy destroyers.169
Endo-Atmospheric Target for Simulating DF-21D ASBM
A December 2011 report from DOD’s Director, Operational Test and Evaluation (DOT&E)—the
DOT&E office’s annual report for FY2011—states the following in its section on test and
evaluation resources:

168 Government Accountability Office, Arleigh Burke Destroyers[:] Additional Analysis and Oversight Required to
Support the Navy’s Future Surface Combatant Plans
, GAO-12-113, January 2012, pp. 31, 41-44, 52, 53.
169 See CRS Report RL32109, Navy DDG-51 and DDG-1000 Destroyer Programs: Background and Issues for
Congress
, by Ronald O'Rourke.
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Anti-Ship Ballistic Missile Target
A threat representative Anti-Ship Ballistic Missile (ASBM) target for operational open-air
testing has become an immediate test resource need. China is fielding the DF-21D ASBM,
which threatens U.S. and allied surface warships in the Western Pacific. While the Missile
Defense Agency has exo-atmospheric targets in development, no program currently exists
for an endo-atmospheric target. The endo-atmospheric ASBM target is the Navy’s
responsibility, but it is not currently budgeted. The Missile Defense Agency estimates the
non-recurring expense to develop the exo-atmospheric target was $30 million with each
target costing an additional $30 million; the endo-atmospheric target will be more expensive
to produce according to missile defense analysts. Numerous Navy acquisition programs will
require an ASBM surrogate in the coming years, although a limited number of targets (3-5)
may be sufficient to validate analytical models.170
A February 28, 2012, press report stated:
“Numerous programs will require” a test missile to stand in for the Chinese DF-21D,
“including self-defense systems used on our carriers and larger amphibious ships to counter
anti-ship ballistic missiles,” [Michael Gilmore, the Pentagon’s director of operational test
and evaluation] said in an e-mailed statement....
“No Navy target program exists that adequately represents an anti-ship ballistic missile’s
trajectory,” Gilmore said in the e-mail. The Navy “has not budgeted for any study,
development, acquisition or production” of a DF-21D target, he said.
Lieutenant Alana Garas, a Navy spokeswoman, said in an e-mail that the service
“acknowledges this is a valid concern and is assessing options to address it. We are unable to
provide additional details.”...
Gilmore, the testing chief, said his office first warned the Navy and Pentagon officials in
2008 about the lack of an adequate target. The warnings continued through this year, when
the testing office for the first time singled out the DF-21D in its annual public report....
The Navy “can test some, but not necessarily all, potential means of negating anti-ship
ballistic missiles,” without a test target, Gilmore said.171
Press Reports
A March 16, 2012, blog entry states:
China has developed a missile that would turn an aircraft carrier into a two-billion-dollar
hulk of twisted metal, flame, and dead sailors. Publicly, the U.S. Navy downplays its
importance. Privately, the sailors are working out several different options to kill it before it
kills them.

170 Department of Defense, Director, Operational Test and Evaluation, FY 2011 Annual Report, December 2011, p.
294.
171 Tony Capaccio, “Navy Lacks Targets To Test U.S. Defenses Against China Missile,” Bloomberg Government
(bgov.com)
, February 28, 2012. See also Christopher J. Castelli, “DOD IG Questions Realism Of Targets Used To
Simulate Enemy Missiles,” Inside Missile Defense, March 21, 2012.
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Adm. Jonathan Greenert, the Navy’s top officer, explained to reporters during a Friday
[March 16] breakfast meeting that the Navy has ways of exploiting some of the DF-21D
missile’s formidable technical capabilities, even before opening fire and praying.
As Greenert sees it, there’s a menu of options. Some involve convincing the DF-21D that the
carrier is in a different place. Others involve masking the electronic emissions of the carrier.
Still others are more traditional—like blasting the missile out of the salty air.
“You want to spoof them, preclude detection, jam them, shoot them down if possible, get
them to termination, confuse it,” Greenert said. “The concept is end-to-end, and the
capabilities therein [are] what we’re pursuing”
First up: the missile’s guidance systems. This is where Greenert wants the Navy’s investment
in jamming and electronic warfare generally to pay off.
“If whatever is launched has a seeker, can you jam it?” Greenert mused. “Yes, no, maybe so?
What would it take to jam it?” For now, that’s a job for the flying, jamming Growlers which
messed with Moammar Gadhafi’s anti-aircraft systems in Libya last year. Later on, the Navy
will have a next-generation jammer, also built onto some of its jets, which it wants to use to
infect enemy systems with malware. Alternatively or in supplement, the strike group would
go radio silent, to stop the missile from homing in on its electronic emissions.
Then comes the “more popular” part, Greenert said: shooting the missile down. The Aegis
missile-defense cruisers included in an aircraft carrier strike group would be tasked with that
over the next decade. Afterward, the Navy wants to use giant shipboard lasers to burn
through incoming missiles. But it’s by no means clear the Navy really can clear all the
technological obstacles to oceanic laser warfare by its mid-2020s deadline.
And shooting down this new missile isn’t a guaranteed proposition. “When do you have to
engage it? On the way up? Mid-course? Terminal?” Greenert said.
His answer: all of the above. “We call it links of a chain,” Greenert said. “We want to break
as many links as possible.” Navy weapons have to be ready to disable the DF-21D—either
through jamming it or shooting it—during “all” phases of its trajectory.
There’s also something that Greenert didn’t mention: he has time on his side.
The Navy conceded in December 2010 that the DF-21D had reached “initial operating
capability.” But its intelligence chief quickly added that blowing up a carrier is still past
China’s means. Hitting a moving object is difficult. Testing the thing at sea is too. Then
China needs to integrate the missile into its general surface warfare plans. And after all that
come the countermeasures Greenert outlined. Solving all that takes time.
And while China works on that, the Navy will continue its own development. If Greenert is
freaked out by a weapon that can punch through one of the most potent symbols of American
power, he’s doing a good job of hiding it in public.172
In a December 2011 journal article, Major General Timothy Hanifen, the Director of
Expeditionary Warfare (N85) in the office of the Chief of Naval Operations, stated:

172 Spencer Ackerman, “How To Kill China’s ‘Carrier-Killer’ Missile: Jam, Spoof And Shoot,” Danger Room
(Wired.com)
, March 16, 2012, accessed online at http://www.wired.com/dangerroom/2012/03/killing-chinas-carrier-
killer/. The word “[are],” in brackets, as in original.
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Logistically, in order to sustain the Fleet’s capability to fight near-continuously across vast
distances, a game-changing technology-development effort is needed in the area of rapid at-
sea vertical-launch system (VLS)173 replenishment and reloading. Current pier-side VLS
reload requirements force a disruption of Fleet combat tempo and increase the probability of
warship engagement in port, when it is most vulnerable. With rapid at-sea replenishment and
an adequate combat reload inventory, the fleet could continue to leverage the vastness of the
seas to complicate targeting and lower effective engagement probabilities, while
simultaneously maintaining a very high and sustained combat tempo during both force
closure and across the joint campaign. Without that ability, battle-force operations increase
in risk as they become more tied to naval-base replenishment and thereby more predictable,
sequential, and vulnerable....
At present, the Navy is developing very capable and elegant anti-ballistic intercept missiles
that allow its ships to defensively engage with precision at long ranges. The Fleet also has
less-elegant, close-in missile- and weapons-capabilities. What is potentially missing is an
intermediate-range naval gun capability that increases engagement opportunities and adds
both density and depth to layered defenses. Within the Navy, there are a total of 106 MK 45
5-inch 54/62-caliber guns that can be linked via warship sensors for shared battle-network
awareness and cooperative-engagement capability—one that is currently unused.
The existing guns, if outfitted with common, modular, long-range 5-inch rounds, could
provide both an individual warship and the overall Fleet with a greater engagement range
and weapons-effects density through the massing of fires. That massing of fire could be
accomplished against over-the-horizon high and low targets at long ranges, then gradually
shifted in successive engagement opportunities to direct line-of-sight fires within the radar
envelope. It could effectively create a wall of shrapnel pellets and fragments into which in-
bound aircraft and missiles would fly and be destroyed—not unlike the old 3-inch/50
variable time and radio-frequency fuse weapons effects of World War II. A 5-inch
pellet/flechette round would have equally blinding and devastating effects on adversary
surface and land-based radars and electronic systems, swarming small boats, command-and-
control ships, and sites ashore—with a value-added naval surface fire support application
against ground forces.
Developing a near-term, long-range naval gunfire engagement capability for air, missile, and
surface defense is feasible, achievable, and affordable. Recently, the Zumwalt-class
destroyers’ advance gun system 6-inch/155-mm long-range land attack projectile round was
successfully and accurately fired to a distance of about 62 nautical miles. Advances in its
technical maturity and adaptability have made it possible to develop and produce a smaller,
common 5-inch long-range variant. For the equivalent research-and-development cost of
procuring fewer SM3/SM6 missiles, the Fleet could potentially design, develop, and field a
modular 5-inch long-range round to be used in both the MK 45 and EMRG gun mounts
when the latter enter service in the mid-2020s. The common 5-inch round is conceptually,
technologically, fiscally, and developmentally feasible and achievable. It should be pursued
and fielded at flank speed.174
A November 9, 2011, press report stated that Vice Admiral Scott Swift, the commander of the
U.S. Navy’s 7th Fleet (the fleet responsible for the Western Pacific),

173 A ship’s battery of vertical tubes for storing and launching missiles is referred to as a VLS. At present, VLS tubes
cannot be rapidly reloaded at sea.
174 Timothy C. Hanifen, “At the Point of Inflection,” U.S. Naval Institute Proceedings, December 2011: 26 and 31.
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downplayed concerns about China’s development of a ballistic missile, dubbed the DF-21D,
that could theoretically be capable of sinking American aircraft carriers at great distance. If
true, it’s the kind of game changer that some fear could, during a crisis, force the U.S. away
from strategic areas such as the Taiwan Strait, the waters around Korea, and the South China
Sea.
“The capability is significant. Whether any given system will live up to its design is
arguable,” Adm. Swift said. He said it’s unwise to figure any single weapon could be a “holy
grail” for a particular fighting force and emphasized the totality of a fighting force’s options.
“You have to look at those systems holistically and what the overall impact is. I will tell you
based on what I see, I don’t envision changing any of my operation based on one specific
system,” Adm. Swift said.175
An August 29/September 5, 2011, press report states:
Each possible [Chinese] source of ISR [intelligence, surveillance and reconnaissance
targeting data] for the DF-21 looks vulnerable in its own way, helping to explain why the
U.S. Navy says it can break the kill chain for the missile. Yet it seems that in many links [in
the kill chain], information [on the location of U.S. Navy ships] could be collected
redundantly, so breaking one [link] does not mean breaking the chain….
In all cases, the data needs to flow back to China from the [ISR] sensor, and the system’s
control center presumably needs to send commands to the sensor platform—more links in
the kill chain that would have to be protected [by the Chinese]. If the DF-21D needs
targeting updates as it flies, then that data feed would also be at risk.
If the missile is designed for an air burst—to spread destruction across a carrier’s deck rather
than lunging into the hangar, machinery and command spaces—then its fuse could also be a
target of countermeasures.176
The then-Chief of Naval Operations, Admiral Gary Roughead, stated the following in an
interview published on April 4, 2011:
Question: China reportedly has deployed a so-called aircraft carrier killer. Does such a
weapon upset the balance of power insofar as the Navy is concerned?
Roughead: No. You have to look at the total employment of the weapon. You have to look
at the nature of being able to first locate, then target, and then engage a moving sea-borne
target at range. I’m always struck at how captivated people have gotten about the carrier
killer. Nobody’s talking about the precision with which every fixed airfield in the region
could be targeted. I really do think that it is not the game-changer people have played it up to
be.177
A March 16, 2011, press report states:

175 Alex Frangos, “U.S. Navy Commander Calls for Greater Dialogue,” Wall Street Journal (http://blogs.wsj.com/
chinarealtime), November 9, 2011.
176 Bradley Perrett, “Pacific Projections,” Aviation Week & Space Technology, August 29/September 5, 2011: 67-68.
177 “‘We’re Not Gambling,’” Aviation Week & Space Technology, April 4, 2011: 66.
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“There has been a lot of discussion about the Dong Feng 21 missile,” [Admiral Gary]
Roughead acknowledged. “But the DF 21 is no more an anti-access weapon than a
submarine is. I would argue that you can put a ship out of action faster by putting a hole in
the bottom [with a torpedo] than by putting a hole in the top [with a weapon like the DF-
21].”
Noting the superiority of the Navy’s Virginia-class attack submarines over the several types
China is building, Roughead declared that “even though the DF 21 has become a
newsworthy weapon, the fact is our aircraft carriers can maneuver, and we have systems that
can counter weapons like that.”
“My objective,” in regards to the Chinese, Roughead said, “is to not be denied ocean areas
were can operate, or not be restricted in our ability to operate.”178
A February 15, 2011, press report states:
A new “carrier killer” missile that has become a symbol of China’s rising military might will
not force the U.S. Navy to change the way it operates in the Pacific, a senior Navy
commander told The Associated Press.
Defense analysts say the Dong Feng 21D missile could upend the balance of power in Asia,
where U.S. aircraft carrier battle groups have ruled the waves since the end of World War II.
However, Vice Adm. Scott van Buskirk, commander of the U.S. 7th Fleet, told the AP in an
interview that the Navy does not see the much-feared weapon as creating any insurmountable
vulnerability for the U.S. carriers - the Navy’s crown jewels.
“It’s not the Achilles heel of our aircraft carriers or our Navy - it is one weapons system, one
technology that is out there,” Van Buskirk said in an interview this week on the bridge of the
USS George Washington, the only carrier that is home-based in the western Pacific….
Van Buskirk, whose fleet is responsible for most of the Pacific and Indian oceans, with 60-
70 ships and 40,000 sailors and Marines under its command, said the capabilities of the
Chinese missile are as yet unproven. But he acknowledged it does raise special concerns.
“Any new capability is something that we try to monitor,” he said.
“If there wasn’t this to point to as a game changer, there would be something else,” he said.
“That term has been bandied about for many things. I think it really depends in how you
define the game, whether it really changes it or not. It’s a very specific scenario for a very
specific capability - some things can be very impactful.”…
Still, van Buskirk said the Navy has no intention of altering its mission because of the new
threat and will continue to operate in the seas around Japan, Korea, the Philippines and
anywhere else it deems necessary.
“We won't change these operations because of this specific technology that might be out
there,” he told The AP while the USS George Washington was in its home port just south of
Tokyo for repairs last week. “But we will carefully monitor and adapt to it.”179

178 Christopher P. Cavas, “Roughead Says Russian, Chinese Navies Growing,” NavyTimes.com, March 16, 2011.
179 Eric Talmadge, “3-Star: Anti-Carrier Missile Won’t Stop Navy,” NavyTimes.com, February 15, 2011.
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Admiral Roughead stated the following in a January 14, 2011, interview:
Question: As you say, you don’t jump with the revelation of another capability, particularly
as you might have known it was coming. But excitable headline writers like to talk about the
ASBM as a game-changer. Is that accurate?
Roughead: I think it is a bit of an overstatement. I find it very interesting when you talk
about the ballistic missile capability and the fixation on the ASBM, the fact of the matter is
that with regard to the other military capabilities that are land-based, you could have the co-
ordinates of every 20 feet of airstrip preprogrammed and you know it is not going to move. I
would submit the beauty of naval forces is their flexibility, and the challenges of finding,
targeting and then hitting them. It is a new capability and a new application of a ballistic
missile, but at the same time, I look at it and say let’s move forward with this.
Question: Do you have any idea about timetables for deployment? Admiral Willard has
talked about this.
Roughead: He talked about the initial operational capability, which is a term we use. It
would not surprise me that in the next couple of years that that capability will be in play.
Question: But have you been preparing for some time your own structure to incorporate
that?
Roughead: I think across the board I am always looking at developments and at how do we
keep our options open relative to those developments. For me personally, the PLAN has been
an area of interest since I was first exposed to it in a very personal way starting in 1994.
Through a series of assignments I have been able to watch it. I have had a focused
professional interest in it. So I watch and do the things that I have to do to make sure that my
navy is ready.180
Vice Admiral David J. Dorsett, the Deputy Chief of Naval Operations for Information
Dominance, stated the following at a January 5, 2011, meeting with defense reporters:
Question: What are the resourcing requirements implications of the Chinese missile given
you said it’s got capability [inaudible]? Are there major improvements in the Aegis air
defense system that you’re recommending or [inaudible] the edges? What are the defensive
implications for the Navy and resources in the next four or five years?
Dorsett: First of all, Tony, going into any level of detail would be a classified answer, and
I’ll tell you, like any advanced technology that’s developed for military use around the globe,
the U.S. Navy needs to develop counters. We need to be innovative in that approach. I think
that’s one of the things that with creation of information dominance, we’ve been able to look
at a variety of kinetic and non-kinetic solution sets to counter advancing capabilities. And
relative to advanced missile systems, we’re doing that as well. It’s a vague answer for you,
but it’s the best I can do.
Question: Can you give a sense of whether the Aegis system is roughly capable of handling
this threat?

180 Source: Transcript of interview, as appended to Richard McGregor, “US Fleet Chief Voices Doubts On Chinese
Navy,” Financial Times, January 18, 2011.
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Dorsett: Because of the – I’d prefer not to answer the question.181
Navy’s Ability to Counter China’s Submarines
Another potential oversight issue for Congress concerns the Navy’s ability to counter China’s
submarines. Some observers raised questions about the Navy’s ability to counter Chinese
submarines following an incident on October 26, 2006, when a Chinese Song-class submarine
reportedly surfaced five miles away from the Japan-homeported U.S. Navy aircraft carrier Kitty
Hawk
(CV-63), which reportedly was operating at the time with its strike group in international
waters in the East China Sea, near Okinawa. According to press reports, the carrier strike group at
the time was not actively searching for submarines, and the Song-class boat remained undetected
by the strike group until it surfaced and was observed by one of the strike group’s aircraft.182 The
Chinese government denied that the submarine was following the strike group.183
Improving the Navy’s ability to counter China’s submarines could involve procuring platforms
(i.e., ships and aircraft) with ASW capabilities, and/or developing technologies for achieving a
new approach to ASW that is distributed and sensor-intensive (as opposed to platform-intensive).
Navy officials in 2004-2005 spoke of their plans for achieving distributed, sensor-intensive ASW
architecture.184 Such an approach might involve the use of networked sensor fields, unmanned
vehicles, and standoff weapons. Implementing such an approach to ASW reportedly would
require overcoming some technical challenges, particularly for linking together large numbers of
distributed sensors, some of which might be sonobuoys as small as soda cans.185

181 Source: Transcript of Defense Writers Group roundtable with Vice Admiral David J. Dorsett, Deputy CNO for
Information Warfare. Material in brackets as in the transcript.
182 Bill Gertz, “China Sub Secretly Stalked U.S. Fleet,” Washington Times, November 13, 2006: 13; Philip Creed,
“Navy Confirms Chinese Sub Spotted Near Carrier,” NavyTimes.com, November 13, 2006; Bill Gertz, “Defenses On
[sic] Subs To Be Reviewed,” Washington Times, November 14, 2006; En-Lai Yeoh, “Fallon Confirms Chinese Stalked
Carrier,” NavyTimes.com, November 14, 2006; Bill Gertz, “Admiral Says Sub Risked A Shootout,” Washington Times,
November 15, 2006; Jeff Schogol, “Admiral Disputes Report That Kitty Hawk, Chinese Sub Could Have Clashed,”
Mideast Starts and Stripes, November 17, 2006.
183 Associated Press, “China Denies Reports That Sub Followed Kitty Hawk,” NavyTimes.com, November 16, 2006. A
shorter version of the same story was published as Associated Press, “China Denies Sub Followed A Group Of U.S.
Warships,” Asian Wall Street Journal, November 17, 2006: 11.
184 See, for example, Otto Kreisher, “As Underwater Threat Re-Emerges, Navy Renews Emphasis On ASW,”
Seapower, October 2004, p. 15, and Jason Ma, “ASW Concept Of Operations Sees ‘Sensor-Rich’ Way Of Fighting
Subs,” Inside the Navy, February 7, 2005.
185 Jason Ma, “Autonomous ASW Sensor Field Seen As High-Risk Technical Hurdle,” Inside the Navy, June 6, 2005.
See also Jason Ma, “Navy’s Surface Warfare Chief Cites Progress In ASW Development,” Inside the Navy, January 17,
2005. More recent press reports discuss research on ASW concepts involving bottom-based sensors, sensor networks,
and unmanned vehicles; see Richard Scott, “GLINT In the Eye: NURC Explores Novel Autonomous Concepts For
Future ASW,” Jane’s International Defence Review, January 2010: 34-35; Richard Scott, “DARPA Goes Deep With
ASW Sensor Network,” Jane’s International Defence Review, March 2010: 13; Richard Scott, “Ghost In The Machine:
DARPA Sets Course Towards Future Unmanned ASW Trail Ship,” Jane’s Navy International, April 2010: 10-11;
Norman Friedman, “The Robots Arrive,” Naval Forces, No. IV, 2010: 40-42, 44, 46; Bill Sweetman, “Darpa Funds
Unmanned Boat For Submarine Stalking,” Aerospace Daily & Defense Report, January 6, 2011: 5; Richard Scott,
“Networked Concepts Look to Square the ASW Circle,” Jane’s International Defence Review, January 2011: 42-47;
Richard Scott, “DARPA’s Unmanned ASW Sloop Concept Casts Lines,” Jane’s Navy International, January/February
2011: 5.
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Countering wake-homing torpedoes more effectively could require completing development work
on the Navy’s new anti-torpedo torpedo (ATT) and putting the weapon into procurement.186 A
July 21, 2011, press report states that DOD
is seeking congressional permission to immediately boost funding for a high-priority Navy
effort to give aircraft carriers and other high-value ships the ability to defend against torpedo
attacks, something they lack today. Pentagon comptroller Robert Hale, in a May 8
reprogramming request not made public by the Defense Department, told lawmakers DOD
wants to shift $8 million into Navy research-and-development accounts to support rapid
prototyping of the Anti-Torpedo Torpedo Defense System (ATTDS).187
Navy’s Fleet Architecture
Another potential oversight issue for Congress concerns the Navy’s fleet architecture. Some
observers, viewing the anti-access aspects of China’s naval modernization effort, including
ASBMs, ASCMs, and other anti-ship weapons, have raised the question of whether the U.S. Navy
should respond by shifting over time to a more highly distributed fleet architecture featuring a
reduced reliance on carriers and other large ships and an increased reliance on smaller ships.
Supporters of this option argue that such an architecture could generate comparable aggregate
fleet capability at lower cost and be more effective at confounding Chinese maritime anti-access
capabilities. Skeptics, including supporters of the currently planned fleet architecture, question
both of these arguments.188

186 For articles discussing torpedo defense systems, including ATTs, see Richard Scott, “Ships Shore Up,” Jane’s
Defence Weekly
, September 1, 2010: 22-23, 25, 27; Mike McCarthy, “NAVSEA Seeks Industry Thoughts On Torpedo
Defense Systems,” Defense Daily, November 29, 2011: 4-5.
187 Jason Sherman, “Navy Seeks Funding To Develop First Anti-Torpedo Capability For Carriers,” Inside the Navy,
July 18, 2011.
188 The question of whether the U.S. Navy concentrates too much of its combat capability in a relatively small number
of high-value units, and whether it should shift over time to a more highly distributed fleet architecture, has been
debated at various times over the years, in various contexts. Much of the discussion concerns whether the Navy should
start procuring smaller aircraft carriers as complements or replacements for its current large aircraft carriers.
Supporters of shifting to a more highly distributed fleet architecture argue that the Navy’s current architecture,
including its force of 11 large aircraft carriers, in effect puts too many of the Navy’s combat-capability eggs into a
relatively small number of baskets on which an adversary can concentrate its surveillance and targeting systems and its
anti-ship weapons. They argue that although a large Navy aircraft carrier can absorb hits from multiple conventional
weapons without sinking, a smaller number of enemy weapons might cause damage sufficient to stop the carrier’s
aviation operations, thus eliminating the ship’s primary combat capability and providing the attacker with what is
known as a “mission kill.” A more highly distributed fleet architecture, they argue, would make it more difficult for
China to target the Navy and reduce the possibility of the Navy experiencing a significant reduction in combat
capability due to the loss in battle of a relatively small number of high-value units.
Opponents of shifting to a more highly distributed fleet architecture argue that large carriers and other large ships are
not only more capable, but proportionately more capable, than smaller ships, that larger ships are capable of fielding
highly capable systems for defending themselves, and that they are much better able than smaller ships to withstand the
effects of enemy weapons, due to their larger size, extensive armoring and interior compartmentalization, and extensive
damage-control systems. A more highly distributed fleet architecture, they argue, would be less capable or more
expensive than today’s fleet architecture. Opponents of shifting to a more highly distributed fleet architecture argue
could also argue that the Navy has already taken an important (but not excessive) step toward fielding a more
distributed fleet architecture through its plan to acquire 55 Littoral Combat Ships (LCSs), which are small, fast surface
combatants with modular, “plug-and-flight” mission payloads. (For more on the LCS program, see CRS Report
RL33741, Navy Littoral Combat Ship (LCS) Program: Background, Issues, and Options for Congress, by Ronald
O'Rourke.)
The issue of Navy fleet architecture, including the question of whether the Navy should shift over time to a more highly
(continued...)
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Another question bearing on fleet architecture concerns the future role of Navy unmanned
vehicles in countering Chinese anti-access forces. A July 16, 2012, press report states:
The Navy is eying potential investments in revolutionary unmanned systems with greater
autonomy than today’s drones to counter advanced Chinese weapons capable of threatening
U.S. warships, according to draft guidance for a new assessment.
Although Defense Department and naval leaders have previously called for drones with
greater levels of autonomy, the “specific pathways” for the introduction of enabling
technologies have not yet been identified, states the draft terms of reference for the Naval
Research Advisory Committee’s planned review.189
Legislative Activity for FY2013
FY2013 National Defense Authorization Act (H.R. 4310/S. 3254)
House
Section 1231 of H.R. 4310 as reported by the House Armed Services Committee (H.Rept. 112-
479 of May 11, 2012) states:
SEC. 1231. ANNUAL REPORT ON MILITARY AND SECURITY DEVELOPMENTS
INVOLVING THE PEOPLE’S REPUBLIC OF CHINA.
(a) In General- Subsection (b) of section 1202 of the National Defense Authorization Act for
Fiscal Year 2000 (P.L. 106-65; 113 Stat. 781; 10 U.S.C. 113 note), as most recently amended
by section 1238 of the National Defense Authorization Act for Fiscal Year 2012 (P.L. 112-
81; 125 Stat. 1642), is further amended—
(1) by redesignating paragraphs (10), (11), and (12) as paragraphs (12), (13), and (14),
respectively; and
(2) by inserting after paragraph (9) the following:
`(10) The strategy, goals, and capabilities of Chinese space programs, including trends,
global and regional activities, the involvement of military and civilian organizations,
including state-owned enterprises, academic institutions, and commercial entities, and efforts

(...continued)
distributed fleet architecture, was examined in a report by DOD’s Office of Force Transformation (OFT) that was
submitted to Congress in 2005. OFT’s report, along with two other reports on Navy fleet architecture that were
submitted to Congress in 2005, are discussed at length in CRS Report RL33955, Navy Force Structure: Alternative
Force Structure Studies of 2005—Background for Congress
, by Ronald O'Rourke. The functions carried out by OFT
have since been redistributed to other DOD offices. See also Wayne P. Hughes, Jr., The New Navy Fighting Machine:
A Study of the Connections Between Contemporary Policy, Strategy, Sea Power, Naval Operations, and the
Composition of the United States Fleet
, Monterey (CA), Naval Postgraduate School, August 2009, 68 pp.; Timothy C.
Hanifen, “At the Point of Inflection,” U.S. Naval Institute Proceedings, December 2011: 24-31; and the blog entry
available online at http://www.informationdissemination.net/2011/06/navy-is-losing-narratives-battle.html.
189 Christopher J. Castelli, “Investments In Drone Autonomy Eyed To Counter China’s A2/AD Weapons,” Inside the
Navy
, July 16, 2012.
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to develop, acquire, or gain access to advanced technologies that would enhance Chinese
military capabilities.
`(11) The strategy, goals, and capabilities of Chinese cyber activities, including trends,
global and regional activities, the involvement of military and civilian organizations,
including state-owned enterprises, academic institutions, and commercial entities. Relevant
analyses and forecasts shall consider—
`(A) Chinese cyber activities directed against the Department of Defense;
`(B) potential harms that may affect Department of Defense communications, computers,
networks, systems, or other military assets as a result of a cyber attack; and
`(C) any other developments regarding Chinese cyber activities that the Secretary of Defense
determines are relevant to the national security of the United States.’.
(b) Combatant Commander Assessment- Such section is further amended—
(1) by redesignating subsections (c) and (d) as subsections (d) and (e), respectively; and
(2) by inserting after subsection (b) the following:
`(c) Combatant Commander Assessment- The report required under subsection (a) shall
include an annex, in classified or unclassified form, that includes an identification and
assessment of the Commander of the United States Pacific Command on the following:
`(1) Any gaps in intelligence that limit the ability of the Commander to address challenges
posed by the People’s Republic of China.
`(2) Any gaps in the capabilities, capacity, and authorities of the Commander to address
challenges posed by the People’s Republic of China to United States Armed Forces and
United States interests in the region.
`(3) Any other matters the Commander considers to be relevant.’.
(c) Effective Date- The amendments made by subsections (a) and (b) take effect on the date
of the enactment of this Act and apply with respect to each report required to be submitted
under section 1202 of the National Defense Authorization Act for Fiscal Year 2000 on or
after such date of enactment.
H.Rept. 112-479 states:
Finally, the committee has taken steps to ensure that the United States military is well
positioned to address challenges in the Asia-Pacific region. The President’s new defense
strategic guidance envisions a rebalancing to the Asia-Pacific. The committee agrees with the
importance of the region, but seeks to ensure that the military has sufficient capability and
capacity to effectively operate in the region. Consequently, in this title [Title XII—Matters
Relating to Foreign Nations] the committee seeks to enhance reporting on the cyber and
space capabilities of the People’s Liberation Army of the People’s Republic of China. The
committee also includes provisions regarding the assessment of the Commander of the U.S.
Pacific Command on the command’s gaps in intelligence, capability, capacity and authority,
with regard to the Democratic People’s Republic of Korea and the People’s Republic of
China. The committee encourages the Department of Defense to build and strengthen its
military relationships with regional allies and partners in order to cooperatively meet
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regional security challenges. These assessments are critical to facilitating the Department of
Defense’s ability to appropriately shift its resources and capabilities to the Asia-Pacific
region. (Page 248)
The report also states:
Competitive Strategies Study
The committee recommends that the Department of Defense further develop its policies for
deterring aggression through closer examination of military strategies and capabilities that
impose disproportionate costs on adversaries seeking to defend against them. The
Department of Defense’s “Sustaining U.S. Global Leadership: Priorities for 21st Century
Defense” (hereafter Defense Strategic Guidance, or DSG) noted that “Credible deterrence
results from both the capabilities to deny an aggressor the prospect of achieving his
objectives and from the complementary capability to impose unacceptable costs on the
aggressor.” The committee recognizes that such cost-imposing deterrence strategies are
already being implemented by potential adversaries of the United States. The DSG noted that
China and Iran are examples of states that are pursuing “asymmetric means to counter [U.S.]
power projection capabilities,” which include missiles and mines that are far less expensive
than the countermeasures the U.S. military would have to deploy in response. Under
conditions of fiscal austerity, the U.S. military may not always be able to invest in the level
of force structure or range of capabilities necessary to overcome all adversary capabilities.
Instead, the U.S. military would have to respond to initiatives undertaken by potential
adversaries more efficiently by investing in discrete capabilities that hold at risk interests of
particular value to a given adversary, forcing the adversary to expend substantially more
resources in defending that particular interest.
The committee directs the Director of the Office of Net Assessment to conduct a study to
identify cost imposing/competitive strategies focused on countering potential challenges
posed by foreign nations. The study shall be submitted within 365 days of the enactment of
the Act to the Committee on the Armed Services of the House. The study’s findings and
recommendations shall be submitted in an unclassified report, with a classified annex if
necessary. The report study should include the following:
(1) an identification and analysis of potential cost-imposing strategies focused on at
least two potential adversaries known to be developing anti-access and area-denial
capabilities, based on a thorough assessment of the potential adversaries’ particular
strategic culture and military vulnerabilities;
(2) an assessment of the congruence of such strategies with the current defense strategy
and defense program of record;
(3) the implications of pursuing such strategies for the U.S. defense posture, to include
capabilities, force posture, and the role of allies and partners; and
(4) recommendations for defense investments by the Department of Defense and the
defense industrial base, including, but not limited to, investments in personnel,
technologies, equipment, and training that would be consistent with the objectives of
one or more feasible cost-imposing strategies. (Pages 251-252)
The report also states:
Rebalancing to Asia-Pacific Region
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The committee recognizes the importance of the Asia-Pacific region and agrees that the
economic and security interests of the United States are closely linked to developments in the
arc extending from the Western Pacific and East Asia into the Indian Ocean region and South
Asia. The committee also supports the planned rotational presence of the U.S. Marines to
northern Australia and the deployment of additional U.S. Navy ships to the region. The
committee encourages the Secretary of Defense to consult with the congressional defense
committees on its Pacific basing strategy in order to facilitate understanding of the needs and
requirements of the Commander of U.S. Pacific Command and to support U.S. troops
deployed in the region. The committee requests a briefing from the Secretary of Defense
focusing on specific objectives of the strategy for the United States and our regional allies,
including an assessment of how current and future U.S. military engagements, including
deployments, training, exercises, and other activities, may meet regional strategic and theater
campaign plan objectives. (Page 259)
The report also states:
Strengthening Asia-Pacific Partnerships
The committee encourages the Department of Defense to engage with our allies and partners
in the Asia-Pacific region to build and strengthen regional security and stability. U.S.
economic and security interests are closely linked to the Asia-Pacific region. Two of the four
largest economies are in the region, and about 40 percent of the world’s trade passes through
the Strait of Malacca. Regional stability and open trade lanes are crucial for the U.S.
economy. Our allies and partners have played an important role, alongside the United States
military, in maintaining peace for the past six decades. The region’s vast maritime domain,
with strategic chokepoints, numerous archipelagos, and the largest seas and oceans, requires
close working relationships with our five treaty allies and many strategic partners. The
committee encourages the Department to continue strengthening its partnerships with Asia-
Pacific allies and partners to contribute to regional security. (Pages 260-261)
Senate
Section 1232 of S. 3254 as reported by the Senate Armed Services Committee (S.Rept. 112-173
of June 4, 2012) states:
SEC. 1232. ADDITIONAL ELEMENTS IN ANNUAL REPORT ON MILITARY AND
SECURITY DEVELOPMENTS INVOLVING THE PEOPLE’S REPUBLIC OF CHINA.
Section 1202 of the National Defense Authorization Act for Fiscal Year 2000 (10 U.S.C. 113
note) is amended—
(1) in subsection (b)—
(A) by amending paragraph (9) to read as follows:
`(9) Developments in China’s asymmetric capabilities, including efforts to develop and
deploy cyberwarfare and electronic warfare capabilities, and associated activities originating
or suspected of originating from China. This discussion of these developments shall
include—
`(A) the nature of China’s cyber activities directed against the Department of Defense and an
assessment of the damage inflicted on the Department of Defense by reason thereof, and the
potential harms;
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`(B) a description of China’s strategy for use and potential targets of offensive cyberwarfare
and electronic warfare capabilities;
`(C) details on the number of malicious cyber incidents emanating from Internet Protocol
addresses in China, including a comparison of the number of incidents during the reporting
period to previous years; and
`(D) details regarding the specific People’s Liberation Army; state security; research and
academic; state-owned, associated, or other commercial enterprises; and other relevant actors
involved in supporting or conducting cyberwarfare and electronic warfare activities and
capabilities.’;
(B) by redesignating paragraphs (10), (11), and (12) as paragraphs (15), (16), and (17)
respectively;
(C) by inserting after paragraph (9) the following new paragraphs:
`(10) The strategy and capabilities of Chinese space programs, including trends, global and
regional activities, the involvement of military and civilian organizations, including state-
owned enterprises, academic institutions, and commercial entities, and efforts to develop,
acquire, or gain access to advanced technologies that would enhance Chinese military
capabilities.
`(11) Developments in China’s nuclear capabilities, which shall include the following:
`(A) The size and state of China’s nuclear stockpile.
`(B) A description of China’s nuclear strategy and associated doctrines.
`(C) A description of the quantity, range, payload features, and location of China’s nuclear
missiles and the quantity and operational status of their associated launchers or platforms.
`(D) An analysis of China’s efforts to use electromagnetic pulse.
`(E) Projections of possible future Chinese nuclear arsenals, their capabilities, and associated
doctrines.
`(F) A description of China’s fissile material stockpile and civil and military production
capabilities and capacities.
`(G) A discussion of any significant uncertainties or knowledge gaps surrounding China’s
nuclear weapons program and the potential implications of any such knowledge gaps for the
security of the United States and its allies.
`(12) A description of China’s anti-access and area denial capabilities.
`(13) A description of China’s command, control, communications, computers, intelligence,
surveillance, and reconnaissance modernization program and its applications for China’s
precision guided weapons.
`(14) A description of China’s maritime activities, including—
`(A) China’s response to Freedom of Navigation activities conducted by the Department of
Defense;
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`(B) an account of each time People’s Liberation Army Navy vessels have transited outside
the First Island Chain, including the type of vessels that were involved; and
`(C) the role of China’s maritime law enforcement vessels in maritime incidents, including
details regarding any collaboration between China’s law enforcement vessels and the
People’s Liberation Army Navy.’; and
(D) by adding after paragraph (17), as redesignated by subparagraph (B), the following new
paragraphs:
`(18) A description of Chinese military-to-military relationships with other countries,
including the size and activity of military attache offices around the world and military
education programs conducted in China for other countries or in other countries for the
Chinese.
`(19) A description of any significant sale or transfer of military hardware, expertise, and
technology to or from the People’s Republic of China, including a forecast of possible future
sales and transfers, and a description of the implications of those sales and transfers for the
security of the United States and its friends and allies in Asia. The information under this
paragraph shall include—
`(A) the extent of the People’s Republic of China’s knowledge, cooperation, or condoning of
sales or transfers of military hardware, expertise, or technology to receiving states;
`(B) the extent in each selling state of government knowledge, cooperation, or condoning of
sales or transfers of military hardware, expertise, or technology to the People’s Republic of
China;
`(C) an itemization of significant sales and transfers of military hardware, expertise, or
technology that have taken place during the reporting period;
`(D) significant assistance by any selling state to key research and development programs in
China, including programs for development of weapons of mass destruction and delivery
vehicles for such weapons, programs for development of advanced conventional weapons,
and programs for development of unconventional weapons;
`(E) significant assistance by the People’s Republic of China to the research and
development programs of purchasing or receiving states, including programs for
development of weapons of mass destruction and delivery vehicles for such weapons,
programs for development of advanced conventional weapons, and programs for
development of unconventional weapons;
`(F) the extent to which arms sales to or from the People’s Republic of China are a source of
funds for military research and development or procurement programs in China or the selling
state;
`(G) a discussion of the ability of the People’s Liberation Army to assimilate such sales or
transfers, mass produce new equipment, and develop doctrine for use; and
`(H) a discussion of the potential threat of developments related to such sales on the security
interests of the United States and its friends and allies in Asia.’; and
(2) by amending subsection (d) to read as follows:
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`(d) Combatant Commander Assessment- The report required under subsection (a) shall
include an annex, in classified or unclassified form, that includes an assessment of the
Commander of the United States Pacific Command on the following matters:
`(1) Any gaps in intelligence that limit the ability of the Commander to address challenges
posed by the People’s Republic of China.
`(2) Any gaps in the capabilities, capacity, and authorities of the Commander to address
challenges posed by the People’s Republic of China to the United States Armed Forces and
United States interests in the region.
`(3) Any other matters the Commander considers to be relevant.’.
Regarding Section 1232, S.Rept. 112-173 states:
Additional elements in annual report on military and security developments involving
the People’s Republic of China (sec. 1232)

The committee recommends a provision that would amend section 1202 of the National
Defense Authorization Act for Fiscal Year 2000 (Public Law 106–65), as amended, by
requiring the Secretary of Defense to include in the Annual Report on Military and Security
Developments Involving the People’s Republic of China, certain additional information
relating to cyberwarfare, space and nuclear activities, maritime activities, and China’s
foreign military transactions and military-to-military relationships. Although some of this
information has been included in past iterations of the annual report, the provision would
codify the requirement and provide more specificity regarding the details which the
committee would like to have included in future reports. (Pages 215-216)
The report also states:
Retirement of naval vessels (sec. 1021)
The committee recommends a provision that would require the Chief of Naval Operations to
produce a report that would set forth a comprehensive description of the current requirements
of the Navy for combatant vessels of the Navy, including submarines. The provision would
also require that, if the number of these vessels is less than 313 ships, the report would have
to include the justification of the Chief of Naval Operations for that smaller number, and an
explanation of how that smaller number is consistent with the recently revised strategic
guidance issued by the President and the Secretary of Defense in 2012.
Section 1021 of the National Defense Authorization Act for Fiscal Year 2010 (Public Law
111–84) conveyed the sense of Congress that “the Navy should meet its requirement for a
313-ship fleet until such time that modifications to the Navy’s ship fleet force structure are
warranted, and the Secretary of the Navy provides Congress with a justification of any
proposed modifications, supported by rigorous and sufficient warfighting analysis.” The
Chiefs of Naval Operations since 2006 have consistently stated that they need a fleet of 313
ships to do their jobs. Nevertheless, the Navy has not achieved this number of ships in the
fleet since falling below that level in the 1990s.
In testimony before the congressional defense committees and other public remarks, senior
Navy leaders, including the Secretary of the Navy, the Under Secretary of the Navy, and the
Chief of Naval Operations, have noted that the Navy is conducting a new review of Navy
force structure review. Navy officials say that they have not completed the review, but that it
will probably reduce the goal for fleet size to approximately 300 ships.
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The committee is concerned that the Navy or the Department of Defense (DOD) may
propose reductions in the Navy’s ship fleet force structure without sufficient justification.
The committee reminds the Navy and DOD that the statement of the sense of Congress
remains in effect, and that the committee expects that any proposed change in goal for the
size of the Navy’s fleet will be accompanied by rigorous and sufficient analysis that is
convincing.
The committee doubts that neither a strategy shifting DOD’s focus to the Pacific and Asia,
nor the demands of current operational requirements, nor increased investment by potential
adversaries in naval forces and anti-access and area-denial capabilities warrant a reduction in
the required Navy fleet size. (Pages 187-188)
FY2013 DOD Appropriations Act (H.R. 5856)
House
The House Appropriations Committee, in its report (H.Rept. 112-493 of May 25, 2012) on H.R.
5856 states:
SHIPBUILDING
The Navy’s shipbuilding program is the centerpiece of the Navy’s budget request. The
Nation’s fleet creates our forward presence, projects power, and maintains open sea lanes.
The Committee is well aware that the sight of a U.S. Navy ship on the horizon makes a
powerful strategic statement in any theater. The Committee strongly supports all actions to
maintain the standing of the United States Navy as the world’s preeminent sea power and a
global good neighbor when humanitarian relief is required. The Committee is therefore
puzzled by the Navy’s priorities in its shipbuilding plan.
As part of its new strategy, the Department of Defense has rebalanced toward the Asia-
Pacific and Middle East regions of the world. Despite these regions having a significantly
larger area of the world’s oceans, the Navy plans to accelerate the decommissioning of seven
guided missile cruisers, has reduced the shipbuilding budget by nearly eleven percent relative
to the fiscal year 2012 appropriated level, and is reducing the total number of ships required
to fulfill its requirements under this new strategy. The required fleet size has been reduced
from 313 ships to approximately 300 ships in the long term, but the Navy will maintain 285
ships in the near term. The Navy has also deferred the procurement of an attack submarine
and a guided missile destroyer, the backbone of the Navy’s combatant fleet, from fiscal year
2014 to future years and, in their place has inserted a vessel known as the Afloat Forward
Staging Base. This vessel would fill a very long standing (but never fulfilled) mission need.
The Committee applauds the Navy for finally fulfilling such a long standing need but is
confused by the timing of this action in an era of decreasing budgets and also by the fact that
a submarine and destroyer are not being procured in fiscal year 2014 in part to make funding
available for this new vessel. (Page 158)
The report also states:
SPECIAL OPERATIONS COMMAND UNDERSEA MOBILITY PROGRAM
The Committee is concerned that frequent program and strategy changes to the Undersea
Mobility Program have delayed the introduction of advanced capabilities for both wet
combat submersible replacement and dry combat submersible development. The current
program schedule for dry combat submersibles will not field an operational evaluation
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platform until early 2015 with extended integrated testing not taking place until 2016. Given
current dry combat submersible capability gaps and a potential shift in strategic emphasis to
the Asia-Pacific and other regions that present anti-access and area-denial challenges, the
Committee believes successful development and fielding of undersea mobility capabilities
are critical to meeting combatant commanders’ needs. Additionally, the Committee is
concerned that the highly perishable and technical operational expertise for wet and dry
combat submersibles resident within the Naval Special Warfare community have not been
fully exercised and utilized in recent years, thereby increasing capability gaps and risks to the
overall program.
The Committee recommends $35,000,000 above the request [for the Research, Development,
Test and Evaluation, Defense-Wide account] for the Undersea Mobility Program for the dry
combat submersible program to enable the program to undertake risk reduction activities,
thereby increasing the likelihood of delivery of a technically satisfactory system that meets
the warfighter’s requirements. (Pages 254-255)
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Appendix A. February 2012 Testimony of
Commander, U.S. Pacific Command

On February 28, 2012, Admiral Robert Willard, Commander of U.S. Pacific Command
(PACOM), testified that:
Seven major security challenges confront the U.S. across [the Asia-Pacific] region, which
encompasses half of the earth’s surface, including:...
• China’s military modernization—in particular its active development of capabilities in
the cyber and space domains—and the questions all these emerging military capabilities
raise among China’s neighbors about its current and long-term intentions...
China’s growing presence and influence in Asia, and the opportunities and uncertainties that
have resulted from it pose the greatest test for USPACOM among its seven challenge areas.
In January 2011, President Obama and Chinese President Hu Jintao agreed to “build a
cooperative partnership based on mutual interest and mutual respect,” which also included a
commitment to develop “continuous, stable, and reliable military-to-military relations.” To
meet this mandate, USPACOM is effectively positioned to contribute to advancing military
engagement with the PRC. However, military-to-military relations continue to lag well
behind other U.S.-China engagements for three main reasons: differences in philosophy
regarding the purpose of military-to-military relations in which China emphasizes strategic
dialogue and the U.S. seeks comprehensive military contact from the strategic to tactical
levels as a way to build confidence; China’s tendency to suspend military-to-military
following U.S. arms sales to Taiwan and, more generally, its linkage between certain U.S.
defense policies and continuous bilateral military relations; and inherent Chinese distrust of
U.S. regional intentions resulting in demands that perceived impediments to the relationship
be conceded before military relations can advance.
Despite these challenges, China’s increasing participation in regional and international
security activities and forums such as multi-lateral exercises, counter piracy operations, and
peacekeeping can foster informal, but useful U.S.-China military engagement.
Improvements in China’s military capabilities and the regional uncertainties this has created
also test USPACOM’s ability to manage the evolving security dynamics in the Asia Pacific.
Areas in which U.S. national interests or those of U.S. allies and partners are being
challenged include cyberspace and space as well as maritime security in the international
waters around China. China’s anti-access/area denial (A2/AD) capabilities extend well into
the SCS. China asserts these military developments are purely defensive in nature and that it
poses no threat to neighbors in the region. Yet, combined with broad maritime and
sovereignty claims and incidents with lawful operators in the SCS and ECS, there is ongoing
international concern regarding China’s activities in the South China Sea.190



190 Statement of Admiral Robert F. Willard, U.S. Navy, Commander, U.S. Pacific Command, Before the Senate Armed
Services Committee on U.S. Pacific Command Posture, February 28, 2012, pp. 3, 8-9.
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Appendix B. Background Information on Air-Sea
Battle Concept

This appendix provides additional background information on the Air-Sea Battle Concept.
Statements from DOD Officials
On November 9, 2011, the Air-Sea Battle Office released the following statement on the ASB
concept, which is printed here in its entirety:
Throughout the history of warfare, adversaries have endeavored to deny each other freedom
of action and access to areas where operations could be mounted that threaten campaign
objectives.
This fundamental of warfare was vividly highlighted during Operation DESERT STORM in
1991, when the access granted by allies and partners was exploited by the overwhelming
capabilities of the U.S. military to quickly liberate Kuwait from Iraqi occupation. In the
aftermath of DESERT STORM, it was apparent to many potential adversaries that it would
be inadvisable to oppose the U.S. in a force-on-force conflict, and they explored how to
disrupt U.S. power projection through means designed to complicate both movement to and
maneuver within an area of mutual interest. These two elements of an adversary’s
comprehensive warfare strategy are referred to as “anti-access” and “area denial” or
“A2/AD”.
Over the past two decades, the development and proliferation of advanced weapons,
targeting perceived U.S. vulnerabilities, have the potential to create an A2/AD environment
that increasingly challenges U.S. military access to and freedom of action within potentially
contested areas. These advanced systems encompass diverse capabilities that include ballistic
and cruise missiles; sophisticated integrated air defense systems; anti-ship weapons ranging
from high-tech missiles and submarines to low-tech mines and swarming boats; guided
rockets, missiles, and artillery, an increasing number of 4th generation fighters; low-
observable manned and unmanned combat aircraft; as well as space and cyber warfare
capabilities specifically designed to disrupt U.S. communications and intelligence systems.
In combination, these advanced technologies have the potential to diminish the advantages
the U.S. military enjoys in the air, maritime, land, space, and cyberspace domains today. If
these advances continue and are not addressed effectively, U.S. forces could soon face
increasing risk in deploying to and operating within previously secure forward areas—and
over time in rear areas and sanctuaries—ultimately affecting our ability to respond
effectively to coercion and crises that directly threaten the strategic interests of the U.S., our
allies, and partners.
Air-Sea Battle
Appreciating the need to address the growing challenge posed by the emerging A2/AD
environment, the Secretary of Defense directed the Department of the Air Force and the
Department of the Navy to develop an Air-Sea Battle Concept. In response, the services
designed an operational concept, focused on the ways and means necessary to neutralize
current and anticipated A2/AD threats, to ensure our Joint force maintains the ability to
project power and protect U.S. national interests.
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The Air-Sea Battle Concept centers on networked, integrated, attack-in-depth to disrupt,
destroy and defeat (NIA-D3) A2/AD threats. This approach exploits and improves upon the
advantage U.S. forces have across the air, maritime, land, space and cyberspace domains,
and is essential to defeat increasingly capable intelligence gathering systems and
sophisticated weapons systems used by adversaries employing A2/AD systems. Offensive
and defensive tasks in Air-Sea Battle are tightly coordinated in real time by networks able to
command and control air and naval forces in a contested environment. The air and naval
forces are organized by mission and networked to conduct integrated operations across all
domains.
The concept organizes these integrated tasks into three lines of effort, wherein air and naval
forces attack-in-depth to disrupt the adversary’s intelligence collection and command and
control used to employ A2/AD weapons systems; destroy or neutralize A2/AD weapons
systems within effective range of U.S. forces; and defeat an adversary’s employed weapons
to preserve essential U.S. Joint forces and their enablers. Through NIA-D3, air and naval
forces achieve integrated effects across multiple domains, using multiple paths to increase
the resilience, agility, speed and effectiveness of the force.
Air-Sea Battle is a limited operational concept designed to address an adversary’s A2/AD
capabilities. It is not a concept aimed at any particular potential adversary, nor a campaign
plan designed to accomplish a specific national objective. Instead, it is a concept that will
spark innovation and development of the means to support future operations. The Air-Sea
Battle Concept identifies the actions needed to defeat A2/AD threats and the materiel and
non-materiel solutions required to execute those actions.
Implementing the Air-Sea Battle Concept
There are three key components to implementation of the Air-Sea Battle Concept by the
Department of Defense. The first is institutionalizing the concept. An enduring Air-Sea
Battle Office, manned by representatives from all four services, has been established to
facilitate further concept exploration, refinement and validation. The second component is
service alignment, which will be achieved through adherence to the concept’s operational
design and description of how capabilities shall be integrated to defeat A2/AD threats. The
final component of implementation is the completion of ASB Concept initiatives, comprised
of Doctrine, Organization, Training, Materiel, Leadership & Education, Personnel, and
Facilities (DOTMLPF) solutions that have been collaboratively developed. These carefully
considered initiatives, once implemented, will provide capabilities which are complementary
where appropriate, redundant when mandated by capacity requirements, and fielded with
integrated acquisition strategies that seek efficiencies where they can be achieved.
While Air-Sea Battle is fiscally informed, the concept was not prompted by fiscal
constraints. Prudent efficiencies are a consideration of Air-Sea Battle, but some redundancy
and overmatch is necessary in specific areas to lower risk to mission and to forces
conducting those missions. The Air Force and Navy Departments would likely have pursued
Air-Sea Battle solutions independently, but the accelerating A2/AD threat to global stability
demands a smarter, more integrated approach. Air-Sea Battle Concept solutions must and
will be collaboratively implemented by the Air Force and Navy Departments.
Regardless of anticipated advancements in A2/AD threats, implementation of the Air-Sea
Battle Concept will ensure the U.S. can gain access and project power in defense of U.S.
interests and those of our allies and partners.191

191 “The Air-Sea Battle Concept Summary,” accessed February 8, 2011, at http://www.navy.mil/search/display.asp?
(continued...)
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In a February 20, 2012, journal article, General Norton Schwartz, the Chief of Staff of the Air
Force, and Admiral Jonathan Greenert, the Chief of Naval Operations, stated the following about
the ASB concept:
When U.S. and coalition forces ejected Saddam Hussein’s army from Kuwait in 1991, a new
American era of military power projection began. During the Cold War, America’s military
became an increasingly static force, forward based around the world to deter warfare,
dampen regional security competitions and contain Soviet expansion. With the collapse of
the Soviet Union, and the end of its moderating grip on aggressive client states, U.S. forces
made adjustments designed to maximize their ability to project power to “hot spots” where
armed conflict could threaten allies and friends. The goal was to reassure allies and others
concerning the safety and stability of an increasingly interconnected system of global trade
and security. Today, these core expeditionary missions are increasingly jeopardized by the
advancing military capabilities and strategic orientation of other states. In response, the
Departments of the Air Force and Navy have developed the “Air-Sea Battle” concept to
ensure that U.S. forces remain able to project power on behalf of American interests
worldwide.
The transformation of U.S. power projection in the immediate aftermath of the Cold War
was dramatic. Less than ten days after Iraqi military forces entered Kuwait, the U.S. military
responded with five Air Force fighter squadrons, two aircraft carrier strike groups, dozens of
airborne warning aircraft and two battleships. By the end of Operation Desert Storm about
six months later, airlift had moved more than 500,000 troops and 540,000 tons of cargo into
the theater, and sealift transported an additional 2.4 million tons of equipment. The
magnitude of this accomplishment comes into better focus when we consider that it took the
Allies nearly two years to position forces for the D-Day invasion during World War II.
Operations Desert Shield and Desert Storm not only heralded a new epoch in U.S. power
projection; they also reflected the new post-Cold War security reality. A static focus on the
Fulda Gap, or on any other fixed geographical location on land or at sea, was rendered
obsolete. Since security challenges to core U.S. interests could now arise in any of several
regions, including some in which prepositioned U.S. forces were not at hand, the U.S.
military reduced its reliance on large, expensive, Cold War-era overseas garrisons, fleet
stations and forward air bases, focusing instead on developing the means to rapidly deliver
combat power whenever and wherever U.S. strategy required. This transformation delivered
remarkable successes over the next two decades, as demonstrated in Operations Deliberate
Force, Allied Force, Enduring Freedom, Iraqi Freedom and Odyssey Dawn.
Potential adversaries were clearly mindful of this transformation. They observed the inability
of Soviet-era doctrine and weapons to blunt American power and reconsidered their
approach to resisting U.S. military intervention. Competitors with the will and means
gradually shifted from planning to fight American forces when they arrived and instead
focused on denying U.S. access to the theater. The fruits of these modernization efforts,
many of which incorporate technologies developed by the United States and allied countries,
are now materializing. Today, the development, proliferation and networking of advanced
weapon systems specifically built to circumvent U.S. defenses threaten America’s freedom
of action and its ability to project military power in strategically significant regions. This
development could erode the credibility of U.S. security commitments to partners and allies,
and with it their political stability and economic prosperity. Air-Sea Battle responds to this
concern.

(...continued)
story_id=63730.
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After a decade of war in Afghanistan and Iraq, the United States finds itself at a strategic
turning point not unlike that at the end of the Cold War. When Secretary of Defense Leon
Panetta introduced the new strategic guidance for the Department of Defense, he stated that
the “smaller and leaner” Joint Force of the future must be prepared, in conjunction with allies
and partners, to confront and defeat aggressors anywhere in the world, “including those
seeking to deny our power projection.” The new strategic guidance directs U.S. forces to
maintain the “ability to project power in areas in which our access and freedom to operate is
challenged” and to be “capable of deterring and defeating aggression by any potential
adversary.” As service chiefs, we are responsible for organizing, training and equipping air
and maritime forces so that current and future combatant commanders can effectively
execute this power projection mandate in support of U.S. national strategy.
With Air-Sea Battle, we are reinvigorating the historic partnership between our two
departments to protect the freedom of the commons and ensure operational access for the
Joint Force. Air-Sea Battle provides the concepts, capabilities and investments needed to
overcome the challenges posed by emerging threats to access like ballistic and cruise
missiles, advanced submarines and fighters, electronic warfare and mines. By better
countering these military threats, Air-Sea Battle will improve the credibility and
effectiveness of the entire Joint force as a key element of Joint Operational Access Concept
implementation directed in the new defense guidance. Air-Sea Battle relies on highly
integrated and tightly coordinated operations across warfighting domains—for example,
using cyber methodologies to defeat threats to aircraft, or using aircraft to defeat threats on
and under the sea.
This level of integration requires that the Navy and the Air Force not only restore and
institutionalize their close interdependence in the field but also support Joint efforts to better
integrate the processes they use to develop, manage and prepare forces for deployment.
Those processes, in turn, must translate into effective organizational, operational and
acquisition strategies. Clearly, for U.S. military forces to continue protecting the freedom of
international waters, skies and cyberspace we must build on our collective service histories
and shared values to foster a more permanent and well-institutionalized partnership between
the departments. Air-Sea Battle does exactly that.
Preserving U.S. global freedom of action is increasingly important; American interests
remain expansive, even as American resources become more constrained. Autocratic states
and groups seeking to subvert the prevailing political and economic order are already
leveraging their geographic advantages to employ armed coercion and political action to
counter American presence and power projection, as well as to disrupt free access to key
areas in the air and maritime commons. As these revisionist strategies advance, America’s
friends will increasingly seek the security and stability provided by comprehensive U.S.
national power. If America appears unable or unwilling to counter an adversary’s anti-access
military capabilities, its friends and allies may find U.S. security assurances less credible,
leading some of them to seek accommodation with aggressors or alternate means of self-
defense, including weapons of mass destruction. Either course of action could lead to
dangerous regional security competitions. Meanwhile, downward pressure on U.S. national
defense spending complicates defense planning and weapon system recapitalization.
Through the Air-Sea Battle concept and its mandate for improved Air Force and Navy
integration, we aim to help address these challenges.
We know that increasing integration between our two services will not be easy. In a
challenging budget environment, the constituent parts of the defense establishment often
focus on furthering institutional self-interest, reflexively defending service prerogatives
based on traditional roles and missions. As service chiefs, we are dedicated to avoiding
debilitating parochialism. We will support those within our services who appreciate the
evolving international security dynamic and the necessity of Air-Sea Battle. Through greater
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service integration and interoperability, Air-Sea Battle will benefit our services, the joint
force, and more importantly, our country.
Service Integration in the Past
Air-Sea Battle does not mark the first time interservice integration was employed to solve a
difficult operational problem for the U.S. military. Today, the challenge of finding, tracking
and capturing or killing terrorists depends on increased integration between special
operations forces and their air and naval components. During the Cold War, the Army and
the Air Force partnered to develop NATO’s Follow-On Forces Attack concept and the
Army’s AirLand Battle doctrine to counter Soviet bloc numerical advantages. Whereas the
Red Army’s threat to Europe demanded an air- and land-centric focus, today’s paramount
challenges place a premium on preserving freedom of action in the air, maritime, space and
cyber domains.
Air and naval integration within the U.S. armed services has a long, albeit episodic, history.
To retaliate against the December 1941 Japanese attack on Pearl Harbor at a time when the
United States lacked forward military bases, Army Air Forces and naval aviators set aside
their polarizing interwar rhetoric to conceive the entirely novel 1942 Doolittle Raid, which
launched 16 B-25B medium bombers from the deck of the USS Hornet. Later that year, the
Army Air Force again partnered with the Navy to use specially modified B-24 Liberator
bombers to defend cargo-laden Allied ships from Kreigsmarine U-Boats lurking in the
Atlantic.
The rise of Soviet naval power in the late 1970s and early 1980s motivated a new Air Force-
Navy partnership, one that lasted for nearly a decade. Facing threats from Soviet “Backfire”
bombers armed with anti-ship “Kitchen” cruise missiles, the Navy looked to Air Force F-15
fighters and E-3 airborne surveillance and control aircraft to augment aircraft carrier air
defenses. The Air Force agreed to use long-range B-52 bombers to augment Navy sea-
mining capacity, and, as part of the Busy Observer program, to perform maritime
surveillance. The Navy also requested that the Air Force take a more active role in maritime
surface warfare. The Air Force initially elected to rely on standard bombs rather than
incorporating the Navy’s new Harpoon anti-ship missile. But the rapid advancement of
Soviet sea-based air defenses soon necessitated an anti-ship weapon that had longer range
than the Air Force could provide. As a result, by 1982 the Air Force decided to incorporate
the Harpoon, presenting an imposing threat to the Soviet navy. These efforts, however, were
discontinued after the Soviet Union disbanded and the Cold War ended.
These examples typify past Air Force and Navy integration efforts, which tended to be
episodic and ad hoc. Once the specific threat abated, the partnership dissolved almost as
quickly as it had formed. Today, however, we face a range of increasingly complex threats
that demand a more enduring, more deeply institutionalized approach. Air-Sea Battle
mitigates access challenges by moving beyond simply de-conflicting operations in each
warfighting domain, toward creating the level of domain integration necessary to defeat
increasingly varied and sophisticated threats. As these historical examples illustrate, this
integration needs to occur in the field—but it also needs to occur institutionally in our
service efforts to organize, train and equip the current and future force.
Growing Challenges to Security and Prosperity
The imperative behind Air-Sea Battle, as we have argued, stems from the importance of our
nation’s military capacity for protecting allies and partners as well as ensuring freedom of
access to key areas of international air, sea, space and cyberspace. Our military’s power
projection ability also allows U.S. statesmen to better manage the risks and uncertainties
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associated with changes in the distribution of power, especially when those changes
empower states who challenge important international norms.
Free access to the ungoverned “commons” of air, maritime, cyberspace and space is the
foundation of the global marketplace. More than two billion passengers and more than 35
percent of international trade by value transit international airspace annually. Ninety percent
of global trade by volume travels by sea, and 25 percent of that, approximately 50,000
vessels a year, travels through a 1.7-mile-wide sliver of ocean at the Strait of Malacca.
Financial traders around the world conduct secure banking transactions involving more than
$4 trillion per day using intercontinental communications traveling through underwater
cables and precise timing signals from the space-based Global Positioning System.
Interconnected systems of trade, finance, information and security enable global prosperity
and have helped lift almost a billion people out of poverty since World War II. But this
interconnectedness also makes the global economy more susceptible to disruption. The
fragility of chokepoints in air, space, cyberspace and on the sea enable an increasing number
of entities, states and non-state actors alike to disrupt the global economy with small
numbers of well-placed, precise attacks. Today, for example, Iran regularly threatens transit
access through the Strait of Hormuz in response to international sanctions.
Moreover, these strategies and the weapons that support them are also no longer the
exclusive province of large states. Pirates, terrorists and insurgents are increasingly able to
disrupt free transit in the air, on land and at sea. The United States must be prepared to
respond to these contingencies, to defend U.S. interests abroad and to preserve the freedom
and security of the global commons in this rapidly changing environment.
New Threats to American Power Projection
When the Soviet Union dissolved, so did the predictability that guided U.S. force
development and force posture for decades. Our predecessors recognized, however, that new
adversaries would inevitably rise to challenge our national interests. They developed an
improved model of expeditionary warfare demonstrated in Desert Storm, one that capitalized
on and sustained American freedom of action. Thanks to their foresight and effort, the U.S.
military today can surge aircraft, ships, troops and supplies from locations within the United
States and across the globe to any region of concern. If conflict erupts and if called on by the
U.S. national leadership, the U.S. military can seize air, maritime and space superiority, and
exploit that advantage in follow-on operations.
Over the past twenty years we have executed this power projection model with great skill
and effectiveness—a fact not lost on states that once sought or now seek to challenge U.S.
influence. The leaders of these states believe they have found weaknesses in American
military strategy and are working to exploit them through an “anti-access and area-denial”
strategy focused on preventing U.S. forces and other legitimate users from transiting
international waters, skies, or space.1
Anti-access and area-denial strategies are not new. The ancient Greeks exploited
geographical advantages in the Strait of Salamis, scoring a decisive naval victory over the
invading Persians in 480 BCE before they could land their huge army. At Pearl Harbor in
1941, the Empire of Japan attacked America’s power projection capabilities in the Pacific in
an attempt to sever U.S. access to East Asia. And on the shores of France in 1944, Field
Marshall Erwin Rommel and the German High Command attempted to deny Allied troops
access to the European continent. Some of these strategies were more successful than others;
each, however, complicated their opponent’s decision calculus and made their efforts
considerably more costly in blood and treasure.
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Anti-access and area-denial strategies are also not exclusively combat operations. The Soviet
Army’s blockade around Berlin in June of 1948 was an area-denial strategy designed to
achieve its aim without combat. The Berlin Airlift, however, revealed the advantages of
being able to exploit freedom of maneuver in the air. That model was repeated during the
1973 Arab-Israeli war in Operation Nickel Grass, when airlifted American supplies sustained
isolated Israeli forces facing a two-front attack by Soviet-supplied Arab militaries. Threats
from North African states constrained airspace along the southern Mediterranean, so with
only a narrow corridor of international airspace to navigate, the Air Force turned to the
Navy’s Sixth Fleet for help. Breaking from traditional practices, the ships of the Sixth Fleet
dispersed along the flight path, stationing one ship every 300 miles along the air route to aid
in navigation, with an aircraft carrier every 600 miles to provide air defense for the stream of
Air Force transports that helped keep Israel in the war.
As in the past, America’s adversaries today are embracing a strategy of access denial to
counter American power projection. Unlike the past, however, state and non-state
competitors are increasingly able to combine geographic, political and military impediments
into a congruent strategy that extends across all domains to counter American power
projection. This comprehensive approach is empowered by the growing national power of
countries with expanding economies, increasingly sophisticated long-range precision
weapons, space and cyberspace attack capabilities, and the increasing vulnerability and
fragility of the global economy.
Some rising powers that appear to be seeking regional hegemony hope to employ access
denial strategies to isolate other regional actors from American military intervention,
enabling them to more effectively intimidate and coerce neighboring states. As already
suggested, absent credible U.S. security assurances, the victims of coercion, including
historic American allies, may become unable or unwilling to resist an adversary’s growing
influence; or they might engage in a destabilizing arms race that could include weapons of
mass destruction. If this process continues, U.S. political influence will recede, aggression
against our allies and partners will become more likely, and U.S. national power will degrade
as our alliances weaken.
Of particular concern is the sustained effort by certain states to develop, stockpile and
proliferate advanced long-range precision weapons. These advanced weapons can be
networked and integrated with sophisticated over-the-horizon surveillance systems. Long-
range anti-ship ballistic missiles such as the Chinese DF-21D, long-range cruise missiles like
the Chinese DH-10, and improved mobile ballistic and air defense missiles, including the
Russian S-300/400/500 and Chinese HQ-9 variants, allow potential adversaries to threaten
air and naval freedom of movement hundreds of miles from their shores. In maritime
chokepoints such as the Straits of Hormuz and Malacca, adversaries could attempt to deny
access with shorter-range missiles, integrated air defenses, fast attack boats and mines.
More sophisticated adversaries can further expand the range of the denied area with growing
fleets of diesel submarines, improved fighter and bomber aircraft, and surface combatants
with advanced air defense and electronic warfare systems. With this expanded anti-access
envelope, adversaries can threaten U.S. aircraft, forward airfields and ports. Anticipated
improvements in remote sensing and weapons guidance, maneuverable and terminally
guided ballistic missile warheads, growing anti-satellite capabilities and cyber attack will
amplify the military anti-access and area-denial challenge, further testing America’s ability
to sustain regional security.
States are not the only actors exploiting the proliferation of these weapon systems.
Hezbollah’s successful C-802 anti-ship cruise missile launch against an Israeli naval vessel
in 2006 demonstrated that non-state actors can acquire advanced weapons and employ them
against a capable military.
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An American Response
Air-Sea Battle is designed to sustain America’s freedom of action in the face of these
developments. Although Air-Sea Battle aims to create a more credible fighting force, our
vision should not be mistaken for a one-dimensional combat plan against specific
adversaries. Air-Sea Battle’s purpose is to guide our services’ efforts to organize, train and
equip our forces by describing how to ensure freedom of action for the entire Joint Force.
Operational plans building on the Air-Sea Battle concept will not be developed in the
Pentagon but by the combatant commanders themselves. Our focus is on how to provide
combatant commanders the capabilities needed to gain and maintain access as part of their
plans.
We will organize, train and equip, however, with increasingly constrained resources. We
cannot expect to defeat modern anti-access threats by building larger numbers of more
advanced, more expensive, less-integrated ships and aircraft. The emerging geopolitical
environment, the rapid expansion and proliferation of anti-access and area-denial weapons
capabilities, and looming domestic budgetary constraints dictate that we must improve our
power projection capabilities in smarter, more cost-effective ways.
We will of course continue to develop superior technology, but we must also focus on
improving the ability of existing platforms to operate or deliver effects in denied areas. This
will include new, more integrated weapons, sensors, cyber and electronic warfare, and
unmanned systems. These systems and payloads can evolve more quickly than their manned
host platforms, allowing more rapid exploitation of new technologies. This is an essential
element of Air Sea Battle capabilities.
We will also rely on a uniquely American capability that cannot be hacked or reverse-
engineered: our skilled sailors and airmen, our long histories of success, and our shared
values. We will foster a more permanent, well-institutionalized partnership, with
corresponding organizational structure, operational concepts, training, readiness and
acquisition strategies that will capitalize on our commonalities and maximize our collective
ingenuity.
The first steps to implement Air-Sea Battle are already underway here at the Pentagon. In our
FY 2012 and FY 2013 budgets we increased investment in the systems and capabilities we
need to defeat access threats. We also established a new Air-Sea Battle Office to improve
integration and inter-service communication. Institutionalizing these arrangements is a key to
fostering persistent and sustainable progress in Air-Sea Battle implementation and to
engender the “culture of change” highlighted in the new strategic guidance to the Department
of Defense. Much as AirLand Battle and its “31 Initiatives” influenced a generation of
airmen and soldiers, we want Air-Sea Battle to shape a new generation of airmen and sailors.
Active collaboration between our services will reveal untapped synergies in key areas such
as intelligence, surveillance and reconnaissance; electronic warfare; command and control;
and building and sustaining fruitful international partnerships with U.S. allies, partners and
friends.
Our future investment, doctrine development and innovation will be guided by employing
tightly integrated, cross-domain operations to defeat anti-access and area-denial threats and
restore our freedom of action. This central idea is embodied in the construct of “Networked,
Integrated Attack-in-Depth.” This construct is used to pursue three lines of effort to disrupt,
destroy and defeat adversary anti-access and area-denial capabilities:
• “Networked”: By establishing resilient communications networks and reinforcing the
links between people and organizations, air and naval forces will maintain decision
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advantage and effective cross-domain operations despite an adversary’s anti-access and
area-denial efforts.
• “Integrated”: Air and naval forces will tightly coordinate their operations across each
domain to defeat anti-access and area-denial threats. This will require new models for
command and control to allow, for example, cyber or undersea operations to defeat air
defense systems or air attacks to eliminate submarine or mine threats. Air and naval
force integration will also capitalize on multiple attack pathways to increase combat
efficiency and hold targets at risk that would otherwise be immune from attack.
• “Attack-in-Depth”: In traditional attrition models of warfare, forces attack the outer
layer of an enemy’s defenses and deliberately fight their way in. In contrast, under Air-
Sea Battle, forces will attack adversary systems wherever needed to gain access to
contested areas needed to achieve operational objectives.
Using “Networked, Integrated Attack-in-Depth”, American air and naval forces will conduct
operations along three main lines of effort:
• Disrupt. This category includes offensive operations to deceive or deny adversary battle
networks, particularly intelligence, surveillance and reconnaissance (ISR) and command
and control (C2) systems. This reduces the effective density of adversary anti-access
systems by forcing attacks against false targets, causing adversary hesitation in the face
of poor information, and preventing the cueing of adversary ships, missiles, electronic
warfare systems and aircraft.
• Destroy. Offensive operations to neutralize adversary weapon delivery platforms such as
ships, submarines, aircraft and missile launchers fall into this category. This also
prevents the adversary from extending the range of the denied area, and reduces the
density of anti-access and area-denial attacks.
• Defeat. Defensive operations to protect joint forces and their enablers from weapons
launched by an adversary are important to the Air-Sea Battle concept. Our efforts to
disrupt the enemy’s C2 and ISR will reduce the density of attacks to enhance the
effectiveness of our defensive systems.
The Air-Sea Battle operational concept will guide our efforts to train and prepare air and
naval forces for combat. We already train together and share joint doctrine. Under Air-Sea
Battle, we will take “jointness” to a new level, working together to establish more integrated
exercises against more realistic threats. Our people will practice coordinated operations
combining stealthy submarines, stealthy aircraft and remotely piloted vehicles. We will learn
to deliver full-motion video directly from Air Force remotely piloted aircraft to Navy ships
transiting high-threat regions. We will coordinate between Air Force and Navy operations
centers to create seamless and resilient command and control networks. We will learn how to
integrate naval forces into airfield defense, and we will train our Air Force aircrews to
defend ships at sea. To identify and exploit these synergies, commanders will promulgate
promising ideas across the services, and we will incorporate them into our budgeting,
acquisition, and development of doctrine and tactics. These efforts will sustain American
military credibility, enhance the expeditionary credibility of ground forces and bolster
international trust in critical areas where U.S. power projection capabilities underpin regional
stability and security.
We will also use Air-Sea Battle to guide collaborative efforts to develop and modernize our
air and naval forces. We have historically built magnificent platforms and capabilities
tailored to service-specific requirements, with the Air Force focusing on prevailing in the air
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and space, and the Navy in the maritime domains. However, modern technology has blurred
the historical distinction between the services’ traditional realms. Having a strong Air Force
no longer guarantees control of the air, and having a strong Navy no longer guarantees
control of the seas. Our respective warfighting domains have become intertwined such that
the ability to control and exploit one increasingly depends on control in the others. We have
already begun this collaboration with our work on the Global Hawk and Broad Area
Maritime Surveillance aircraft, the F-35 Lightning II, and a range of sensor, network and
weapon systems.
Our services will strive to institutionalize the pursuit of commonality, interoperability and
joint efficiencies through Air-Sea Battle. Rather than simply identifying gaps in service-
specific capabilities, we will survey our combined forces, searching for strengths and
shortfalls in our aggregate capability. There should be some appropriate redundancy between
the services to capitalize on the benefits of competition and the imperative to confront the
adversary with multiple challenges. But redundancies must result from conscious decisions
to develop capacity in key areas rather than a failure to integrate.
We are all too aware that as the Air-Sea Battle concept gains traction within the defense
establishment, it could fall victim to its own success. The concept could tempt military
leaders to market every new program or initiative under the banner of Air-Sea Battle. Not
every worthwhile innovation will be Air-Sea Battle related, nor should it be. There will be a
simple test to determine an initiative’s applicability: If an initiative does not promise any
improvement in the integrated and combined ability of air and naval forces to project power
in the face of anti-access and area-denial threats, then it’s not Air-Sea Battle.
Even without Air-Sea Battle, the Air Force and Navy would surely have tried to answer the
anti-access and area-denial challenge. But they would have done so through separate
acquisition programs, tactics and procedure development, and organizational changes.
Discrete Navy and Air Force partnerships might have formed, but the result would have been
an array of competing efforts with little cohesion, pursued energetically but inefficiently.
These traditional approaches will not work anymore. Constrained defense budgets, aging
hardware and accelerating anti-access and area-denial threats demand a more effective model
of developing and fielding capabilities. We cannot simply buy our way out of this
predicament by investing in new technologies. To meet the demands of the President’s
strategic direction to the Department of Defense and respond to the evolving security
environment, we must break bureaucratic chains, set aside parochialism and get down to the
business of collaboratively developing power projection capabilities for this new era.
While pursuing Air-Sea Battle seems like common sense, the way ahead will be challenging.
Some within the Pentagon may view our initiatives as existential threats to core service
identities and beliefs, heritages and traditions. We do not see it that way. Rather than
threatening service identities, we see Air-Sea Battle as strengthening them. Nobody does sea
control like the U.S. Navy, and the Air Force should collaborate with the Navy to enhance
American sea power. Similarly, no one does air and space control like the U.S. Air Force,
and the Navy should partner with its sister service to enhance those capabilities; all within a
larger joint and combined power projection context.
In a changing world that demands continued U.S. leadership, Air-Sea Battle is an essential
part of sustaining America’s military freedom of action and ability to project power. We will
institutionalize our development of doctrine, organization, training, personnel, leadership and
facilities, and ensure that Air-Sea Battle survives contact with the skeptics and entrenched
bureaucracy. Air-Sea Battle is not a silver-bullet solution to our security challenges, but it is
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a critical line of effort that we must pursue to sustain America’s military advantage, and with
it, our security and prosperity.192
Press Reports
An April 2012 press report that provides a historical account of the ASB concept states: “In truth,
the Air Sea Battle Concept is the culmination of a strategy fight that began nearly two decades
ago inside the Pentagon and U.S. government at large over how to deal with a single actor: the
People’s Republic of China.”193 A November 10, 2011, press report states:
Military officials from the three services told reporters during a [November 9, 2011, DOD]
background briefing that the concept is not directed at a single country. But they did not
answer when asked what country other than China has developed advanced anti-access arms.
A senior Obama administration official was more blunt, saying the new concept is a
significant milestone signaling a new Cold War-style approach to China.
“Air Sea Battle is to China what the [U.S. Navy’s mid-1980s] maritime strategy was to the
Soviet Union,” the official said.
During the Cold War, U.S. naval forces around the world used a strategy of global presence
and shows of force to deter Moscow’s advances.
“It is a very forward-deployed, assertive strategy that says we will not sit back and be
punished,” the senior official said. “We will initiate.”
The concept, according to defense officials, grew out of concerns that China’s new precision-
strike weapons threaten freedom of navigation in strategic waterways and other global
commons.
Defense officials familiar with the concept said among the ideas under consideration are:
• Building a new long-range bomber.
• Conducting joint submarine and stealth aircraft operations.
• New jointly operated, long-range unmanned strike aircraft with up to 1,000-mile ranges.
• Using Air Force forces to protect naval bases and deployed naval forces.
• Conducting joint Navy, Marine Corps and Air Force strikes inside China.
• Using Air Force aircraft to deploy sea mines.

192 Norton A. Schwartz and Jonathan W. Greenert, “Air-Sea Battle, Promoting Stability In An Era of Uncertainty,” The
American Interest
, February 20, 2012, accessed online at http://www.the-american-interest.com/article.cfm?piece=
1212.
193 Bill Gertz, “China’s High-Tech Military Threat and What We’re Doing About It,” Commentary, April 2012: 15-21.
The quoted passage is from page 16. See also Yoichi Kato, “Japan’s Response to New U.S. Defense Strategy:
“Welcome, But ... ” Asahi Shimbun, March 9, 2012, accessed online at http://ajw.asahi.com/article/behind_news/
politics/AJ201203090025.
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• Joint Air Force and Navy attacks against Chinese anti-satellite missiles inside China.
• Increasing the mobility of satellites to make attacks more difficult.
• Launching joint Navy and Air Force cyber-attacks on Chinese anti-access forces.194
An October 12, 2011, press report states that
The Pentagon is engaged in a behind-the-scenes political fight over efforts to soften, or
entirely block, a new military-approved program to bolster U.S. forces in Asia.
The program is called the Air Sea Battle concept and was developed in response to more
than 100 war games since the 1990s that showed U.S. forces, mainly air and naval power, are
not aligned to win a future war with China.
A senior defense official said Defense Secretary Leon E. Panetta is reviewing the new
strategy.
“We want to do this right,” the official said. “The concept is on track and is being refined to
ensure that we are able to implement it wherever we need to—including in the Asia-Pacific
region, where American force projection is essential to our alliances and interests.”
The official noted that the program is “the product of unprecedented collaboration by the
services.”
Pro-defense members of Congress aware of the political fight are ready to investigate. One
aide said Congress knows very little about the concept and is awaiting details.
Officially, the Pentagon has said the new strategy is not directed at China.
But officials familiar with the classified details said it is designed to directly address the
growing threat to the United States and allies in Asia posed by what the Pentagon calls
China’s “anti-access” and “area denial” weapons—high-technology arms that China has
been building in secret for the past several decades….
The U.S. response in the Air Sea Battle concept is said to be a comprehensive program to
protect the “global commons” used by the United States and allies in Asia from Chinese
military encroachment in places such as the South China Sea, western Pacific and areas of
Northeast Asia.
The highly classified program, if approved in its current form, will call for new weapons and
bases, along with non-military means. Plans for new weapons include a long-range bomber.
Other systems and elements of the program are not known….
However, defense officials said China’s government was alerted to some aspects of the
concept earlier this year when the Center for Strategic and Budgetary Assessments think tank
presented its own concept for a new warfighting strategy against China.
Andrew Krepinevich, the center’s director who recently left the Pentagon’s Defense Policy
Board, could not be reached for comment.

194 Bill Gertz, “Battle Concept Signals Cold War Posture On China,” Washington Times, November 10, 2011: 13.
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As a result of the disclosure, China launched a major propaganda and influence campaign to
derail it. The concept was raised in several meetings between Chinese and U.S. officials,
with the Chinese asserting that the concept is a sign the Pentagon does not favor military
relations and views China as an enemy.
Officials in the Obama administration who fear upsetting China also are thought to have
intervened, and their opposition led Mr. Panetta to hold up final approval.
The final directive in its current form would order the Air Force and the Navy to develop and
implement specific programs as part of the concept. It also would include proposals for
defense contractors to support the concept.195
An October 2011 magazine article stated:
AirSea Battle emerged from a memorandum between the air and sea services in 2009. The
Air Force and Navy realized sophisticated threats involving high technology, networked air
defenses, modern ballistic missile, and sea and air capabilities, and anti-space weapons
required the services to marry up many of their respective strengths. The plan, which has
received a great amount of attention since the 2010 Quadrennial Defense Review, mandated
the creation of an operations concept to protect US and allied access to certain areas in the
world while also protecting forward-based assets and bases….
Both services are said to be fully on board with the plan, and to weed out duplication,
officers from each branch have been cleared to see “all the black programs,” or classified
projects, of the other service as the ASB plan has matured….
The plan had been vetted by both services by June [2011], and is awaiting blessing from the
Office of the Secretary of Defense…. Service officials have been predicting a formal release
of more information on the doctrine for months as well.
As early as Feb. 17 [2011], Lt. Gen. Herbert J. Carlisle, the Air Force’s deputy chief of staff
for operations, plans, and requirements, had said a public document explaining the outlines
of ASB in detail would occur “possibly within two weeks.” The now-retired Chief of Naval
Operations Adm. Gary Roughead told reporters in Washington in March he expected to
release details on ASB in “a few weeks,” as the service Chiefs of the Marines Corps, USAF,
and Navy were “basically done” with their work on the concept. The majority of the plan
will remain classified, he added, “as it should be.”196
A sidebar to this magazine article stated:
The AirSea Battle rollout was repeatedly delayed over the course of 2011. According to
Office of the Secretary of Defense and Air Force officials, new Secretary of Defense Leon E.
Panetta is reviewing the ASB plan—a sort of executive summary of the overall operations
concept (which, as of early September, remains classified).
However, then-Vice Chief of Naval Operations Adm. Jonathan W. Greenert, now the CNO,
told the House Armed Services Committee in late July he expected a release of unclassified
portions of the plan soon.

195 Bill Gertz, “Inside the Ring,” Washington Times, October 12, 2011 (item entitled “Air Sea Battle Fight”).
196 Marc V. Schanz, “AirSea Battle’s Turbulent Year,” Air Force Magazine, October 2011: 32-33.
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The AirSea Battle concept was signed by the USAF, Navy, and Marine Corps service Chiefs,
and the Air Force and Navy Secretaries on June 2 and “forwarded to the [Secretary of
Defense] for approval,” the Air Force said in a brief official statement Aug. 2.
Previous Defense Secretary Robert M. Gates, who departed July 1, had the document in his
possession and had told senior Air Force officials he would sign it before his departure. In
late July, however, Air Force and DOD officials privately indicated the concept was held up
in OSD’s policy shop, and Gates did not sign the document before leaving the Pentagon.
Air Force and defense officials have indicated both publicly and privately that there are
strong international political considerations at play. Spin “concern” has likely contributed to
the delay in officially rolling out the AirSea Battle concept. In late July, USAF officials
privately indicated that there is a great deal of concern within OSD about how China will
perceive and react to the concept.197
A September 29, 2011, press report on a reported new DOD Defense Planning Guidance (DPG)
document (see “September 2011 Press Report About New Defense Planning Guidance” above)
quoted “a senior defense official” as stating: “It seems clear that there will be increased emphasis
on [the] AirSea Battle approach going forward.”198
A July 26, 2011, press report, stated:
U.S. Defense Secretary Leon Panetta is reviewing an Air Force-Navy battle concept that was
ordered by the Pentagon last year in response to China’s military buildup and Iran’s
advanced weapons, Vice Chief of Naval Operations Admiral Jonathan Greenert said today.
The Navy and Air Force have submitted to Panetta the equivalent of an executive summary
of the battle concept with the intent to release unclassified portions within weeks, depending
on Panetta’s reaction, Greener told a House Armed Services readiness panel and a
Bloomberg News reporter after the hearing.
The plan aims to combine the strengths of the Navy and Air Force to enable long-range
strikes. It may employ a new generation of bombers, a new cruise missile and drones
launched from aircraft carriers. The Navy also is increasing funding to develop new
unmanned submarines.199
A June 10, 2011, press report stated that “while defense officials publicly insist that the military’s
new AirSea Battle concept, a study meant to reshape the way the U.S. military fights future wars,
is not focused on China, one Navy team is quietly contradicting their claims. The group, called
the China Integration Team, is hard at work applying the lessons of the study to a potential
conflict with China, say sources familiar with the effort.” The report also stated that “though
sources familiar with the study have said that the first draft of the concept has been completed,
those same sources highlighted that the project is ongoing—something that official spokesmen
have stressed as well.”200 A January 10, 2011, press report stated that “the AirSea Battle concept

197 “An ASB Summer,” Air Force Magazine, October 2011: 33.
198 Christopher J. Castelli, “DOD Aims To Boos Investment In Capabilities For Major-Power War,” Inside the
Pentagon
, September 29, 2011.
199 Tony Capaccio, “Panetta Reviewing Air-Sea Battle Plan Summary, Greenert Says,” Bloomberg News, July 26,
2011.
200 Andrew Burt and Christopher J. Castelli, “Despite Improved Ties, China Weighs Heavily In Pentagon’s War
Planning,” Inside the Navy, June 13, 2011.
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study, meant to outline the future of Navy and Air Force operations in anti-access environments,
is near completion and is being briefed to Navy Secretary Ray Mabus and Air Force Secretary
Michael Donley this month, according to sources familiar with the study.”201

Author Contact Information

Ronald O'Rourke

Specialist in Naval Affairs
rorourke@crs.loc.gov, 7-7610



201 Andrew Burt, “Final AirSea Study Being Briefed To Mabus And Donley This Month,” Inside the Navy, January 10,
2011. See also David Fulghum, “Money Walks? Service Leaders Fight to Explain, Justify AirSea Battle Strategy,”
Aviation Week & Space Technology, June 4/11, 2012: 71; Philip DuPree and Jordan Thomas, “Air-Sea Battle: Clearing
the Fog,” Armed Forces Journal, June 2012.
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