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

Updated October 7, 2021
Congressional Research Service
https://crsreports.congress.gov
RL33153




China Naval Modernization: Implications for U.S. Navy Capabilities

Summary
In an era of renewed great power competition, China’s military modernization effort, including its
naval modernization effort, has become the top focus of U.S. defense planning and budgeting.
China’s navy, which China has been steadily modernizing for more than 25 years, since the early
to mid-1990s, has become a formidable military force within China’s near-seas region, and it is
conducting a growing number of operations in more-distant waters, including the broader waters
of the Western Pacific, the Indian Ocean, and waters around Europe.
China’s navy is viewed as posing a major chal enge to the U.S. Navy’s ability to achieve and
maintain wartime control of blue-water ocean areas in the Western Pacific—the first such
chal enge the U.S. Navy has faced since the end of the Cold War. China’s navy forms a key
element of a Chinese chal enge to the long-standing status of the United States as the leading
military power in the Western Pacific. Some U.S. observers are expressing concern or alarm
regarding the pace of China’s naval shipbuilding effort and resulting trend lines regarding the
relative sizes and capabilities of China’s navy and the U.S. Navy.
China’s naval modernization effort encompasses a wide array of ship, aircraft, and weapon
acquisition programs, as wel as improvements in maintenance and logistics, doctrine, personnel
quality, education and training, and exercises. China’s navy has currently has certain limitations
and weaknesses, and is working to overcome them.
China’s military modernization effort, including its naval modernization effort, is assessed as
being aimed at developing capabilities for addressing the situation with Taiwan militarily, if need
be; for achieving a greater degree of control or domination over China’s near-seas region,
particularly the South China Sea; for enforcing China’s view that it has the right to regulate
foreign military activities in its 200-mile maritime exclusive economic zone (EEZ); for defending
China’s commercial sea lines of communication (SLOCs), particularly those linking China to the
Persian Gulf; for displacing U.S. influence in the Western Pacific; and for asserting China’s status
as the leading regional power and a major world power.
Consistent with these goals, observers believe China wants its navy to be capable of acting as part
of a Chinese anti-access/area-denial (A2/AD) force—a force that can deter U.S. intervention in a
conflict in China’s near-seas region over Taiwan or some other issue, or failing that, delay the
arrival or reduce the effectiveness of intervening U.S. forces. Additional missions for China’s
navy include conducting maritime security (including antipiracy) operations, evacuating Chinese
nationals from foreign countries when necessary, and conducting humanitarian assistance/disaster
response (HA/DR) operations.
The U.S. Navy in recent years has taken a number of actions to counter China’s naval
modernization effort. Among other things, the U.S. Navy has shifted a greater percentage of its
fleet to the Pacific; assigned its most-capable new ships and aircraft and its best personnel to the
Pacific; maintained or increased general presence operations, training and developmental
exercises, and engagement and cooperation with al ied and other navies in the Indo-Pacific;
increased the planned future size of the Navy; initiated, increased, or accelerated numerous
programs for developing new military technologies and acquiring new ships, aircraft, unmanned
vehicles, and weapons; begun development of new operational concepts (i.e., new ways to
employ Navy and Marine Corps forces) for countering Chinese maritime A2/AD forces; and
signaled that the Navy in coming years wil shift to a more-distributed fleet architecture that wil
feature a smal er portion of larger ships, a larger portion of smal er ships, and a substantial y
greater use of unmanned vehicles. The issue for Congress is whether the U.S. Navy is responding
appropriately to China’s naval modernization effort.
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Contents
Introduction ................................................................................................................... 1
Issue for Congress ..................................................................................................... 1
Sources and Terminology............................................................................................ 1
Background.................................................................................................................... 2
Brief Overview of China’s Naval Modernization Effort ................................................... 2
Numbers of Ships; Comparisons to U.S. Navy ............................................................... 5
Ultimate Size and Composition of China’s Navy Not Publicly Known ......................... 5
Number of Ships Is a One-Dimensional Measure, but Trends in Numbers Can Be

of Value Analytically.......................................................................................... 5
Three Tables Showing Numbers of Chinese and U.S. Navy Ships ................................ 6
Selected Elements of China’s Naval Modernization Effort ............................................. 11
Anti-Ship Missiles .............................................................................................. 11
Submarines ....................................................................................................... 15
Aircraft Carriers ................................................................................................. 18
Surface Combatants ............................................................................................ 24
Amphibious Ships .............................................................................................. 29
Operations Away from Home Waters ..................................................................... 34
U.S. Navy Response ................................................................................................ 35
Overview .......................................................................................................... 35
Cooperation with Naval Forces of Al ies and Other Countries ................................... 35
Size of Navy, Fleet Architecture, and Operational Concepts ...................................... 36
Programs for Acquiring Highly Capable Ships, Aircraft, and Weapons........................ 38
Issues for Congress ....................................................................................................... 39
Overview .......................................................................................................... 39
Discussion......................................................................................................... 39

Legislative Activity for FY2022 ...................................................................................... 43
Coverage in Related CRS Reports .............................................................................. 44
FY2022 National Defense Authorization Act (H.R. 4350/S. 2792)................................... 44

House ............................................................................................................... 44
Senate .............................................................................................................. 46

Figures
Figure 1. DF-21D Anti-Ship Ballistic Missile (ASBM) ....................................................... 12
Figure 2. DF-26 Multi-Role Intermediate-Range Ballistic Missile (IRBM)............................. 12
Figure 3. Reported Image of Anti-Ship Cruise Missile (ASCM) ........................................... 13
Figure 4. Reported Image of Anti-Ship Cruise Missile (ASCM) ........................................... 14
Figure 5. Reported Image of Anti-Ship Cruise Missile (ASCM) ........................................... 15
Figure 6. Yuan (Type 039) Attack Submarine (SS).............................................................. 16
Figure 7. Shang (Type 093) Attack Submarine (SSN) ......................................................... 17
Figure 8. Jin (Type 094) Ballistic Missile Submarine (SSBN) .............................................. 17
Figure 9. Liaoning (Type 001) Aircraft Carrier................................................................... 19
Figure 10. Shandong (Type 002) Aircraft Carrier................................................................ 20
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Figure 11. Type 003 Aircraft Carrier Under Construction..................................................... 21
Figure 12. J-15 Flying Shark Carrier-Capable Fighter ......................................................... 23
Figure 13. Renhai (Type 055) Cruiser (or Large Destroyer) ................................................. 25
Figure 14. Renhai (Type 055) Cruiser (or Large Destroyer) ................................................. 26
Figure 15. Luyang III (Type 052D) Destroyer .................................................................... 27
Figure 16. Jiangkai II (Type 054A) Frigate ....................................................................... 28
Figure 17. Jingdao (Type 056) Corvette............................................................................ 29
Figure 18. Yuzhao (Type 071) Amphibious Ship ................................................................. 30
Figure 19. Type 075 Amphibious Assault Ship ................................................................... 31
Figure 20. Type 075 Amphibious Assault Ship ................................................................... 32
Figure 21. Notional Rendering of Possible Type 076 Amphibious Assault Ship....................... 33
Figure 22. Notional Rendering of Possible Type 076 Amphibious Assault Ship....................... 33

Tables
Table 1. Numbers of Certain Types of Chinese and U.S. Ships Since 2005 ............................... 8
Table 2. Numbers of Chinese and U.S. Navy Battle Force Ships, 2000-2030 .......................... 10
Table 3. Numbers of Chinese and U.S. Navy Ships, 2020-2040 ............................................ 11

Appendixes
Appendix A. Comparing U.S. and Chinese Numbers of Ships and Naval Capabilities .............. 47
Appendix B. U.S. Navy’s Ability to Counter Chinese ASBMs ............................................. 50

Contacts
Author Information ....................................................................................................... 55

Congressional Research Service

China Naval Modernization: Implications for U.S. Navy Capabilities

Introduction
Issue for Congress
This report provides background information and issues for Congress on China’s naval
modernization effort and its implications for U.S. Navy capabilities. In an era of renewed great
power competition,1 China’s military modernization effort, including its naval modernization
effort, has become the top focus of U.S. defense planning and budgeting.2 The issue for Congress
for this CRS report is whether the U.S. Navy is responding appropriately to China’s naval
modernization effort. Decisions that Congress reaches on this issue could affect U.S. and al ied
security, Navy capabilities and funding requirements, and the defense industrial base.
Another CRS report provides an overview of China’s military in general.3
Sources and Terminology
This report is based on unclassified open-source information, such as the annual Department of
Defense (DOD) report to Congress on military and security developments involving China,4 a
2019 Defense Intel igence Agency (DIA) report on China’s military power,5 a 2015 Office of
Naval Intel igence (ONI) report on China’s navy,6 published reference sources such as IHS Jane’s
Fighting Ships,7 and press reports.
For convenience, this report uses the term China’s naval modernization effort 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 bal istic 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.

1 For further discussion of the shift to an era of renewed great power competition, see CRS Report R43838, Renewed
Great Power Com petition: Im plications for Defense—Issues for Congress
, by Ronald O'Rourke.
2 See, for example, Mark Esper, “ T he Pentagon Is Prepared for China,” Wall Street Journal, August 24, 2020; T om
Rogan, “Defense Secretary Mark Esper: It ’s China, China, China,” Washington Examiner, August 28, 2019; Melissa
Leon and Jennifer Griffin, “ Pentagon ‘Very Carefully’ Watching China, It’s ‘No. 1 Priority,’ Defense Secretary Mark
Esper T ells Fox News,” Fox News, August 22, 2019; Missy Ryan and Dan Lamothe, “ Defense Secretary Wants to
Deliver on the Goal of Outpacing China. Can He Do It?” Washington Post, August 6, 2019; Sandra Erwin, “ New
Pentagon Chief Shanahan Urges Focus on China and ‘Great Power Competition,’ Space News, January 2, 2019; Ryan
Browne, “ New Acting Secretary of Defense T ells Pentagon ‘to Remember China, China, China,’” CNN, January 2,
2019; Paul McCleary, “Acting SecDef Shanahan’s First Message: ‘China, China, China,’” Breaking Defense, January
2, 2019.
3 CRS Report R46808, China’s Military: The People’s Liberation Army (PLA), by Caitlin Campbell.
4 Department of Defense, Annual Report to Congress, Military and Security Developments Involving the People’s
Republic of China 2020
, generated on August 21, 2020, released on September 1, 2020, 173 pp . Hereinafter 2020 DOD
CMSD
.
5 Defense Intelligence Agency, China Military Power, Modernizing a Force to Fight and Win , 2019, 125 pp.
Hereinafter 2019 DIA CMP.
6 Office of Naval Intelligence, The PLA Navy, New Capabilities and Missions for the 21st Century, undated but released
in April 2015, 47 pp.
7 IHS Jane’s Fighting Ships 2018-2019, 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.
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China Naval Modernization: Implications for U.S. Navy Capabilities

China’s military is formal y cal ed the People’s Liberation Army (PLA). Its navy is cal ed the
PLA Navy, or PLAN (also abbreviated as PLA[N]), and its air force is cal ed the PLA Air Force,
or PLAAF. The PLA Navy includes an air component that is cal ed the PLA Naval Air Force, or
PLANAF. China refers to its bal istic missile force as the PLA Rocket Force (PLARF).
This report uses the term China’s near-seas region to refer to the Yel ow Sea, East China Sea, and
South China Sea—the waters enclosed by the so-cal ed first island chain. The so-cal ed second
island chain
encloses both these waters and the Philippine Sea that is situated between the
Philippines and Guam.8
Background
Brief Overview of China’s Naval Modernization Effort
Key overview points concerning China’s naval modernization effort include the following:
 China’s naval modernization effort, which forms part of a broader Chinese
military modernization effort that includes several additional areas of emphasis,9
has been underway for more than 25 years, since the early to mid-1990s, and has
transformed China’s navy into a much more modern and capable force. China’s
navy is a formidable military force within China’s near-seas region, and it is
conducting a growing number of operations in more-distant waters, including the
broader waters of the Western Pacific, the Indian Ocean, and waters around
Europe.
 China’s navy is, by far, the largest of any country in East Asia, and within the
past few years it has surpassed the U.S. Navy in numbers of battle force ships
(meaning the types of ships that count toward the quoted size of the U.S. Navy),
making China’s navy the numerical y largest in the world.
 Some U.S. observers are expressing concern or alarm regarding the pace of
China’s naval shipbuilding effort and resulting trend lines regarding the relative
sizes and capabilities of China’s navy and the U.S. Navy.10 ONI states that at the

8 For a map showing the first and second island chains, see 2019 DIA CMP, p. 32.
9 Other areas of emphasis in China’s military modernization effort include space capabilities, cyber and electronic
warfare capabilities, ballistic missile forces, and aviation forces, as well as the development of emerging military -
applicable technologies such as hypersonics, artificial intelligence, robotics and unmanned vehicles, directed-energy
technologies, and quantum technologies. For a discussion of advanced military technologies, see CRS In Focus
IF11105, Defense Prim er: Em erging Technologies, by Kelley M. Sayler.
U.S.-China competition in military capabilities in turn forms one dimension of a broader U.S.-China strategic
competition that also includes political, diplomatic, economic, technological, and ideological dimensions.
10 See, for example, Alex Hollings, “ Just How Big Is China’s Navy? Bigger T han You T hink,” Sandboxx, July 28,
2021; Kyle Mizokami, “ China Just Commissioned T hree Warships in a Single Day , T hat’s Almost Half as Many as the
U.S. Will Induct in One Year,” Popular Mechanics, April 27, 2021; Geoff Ziezulewicz, “ China’s Navy Has More
Ships than the US. Does T hat Matter?” Navy Tim es, April 9, 2021; Dan De Luce and Ken Dilanian, “ China’s Growing
Firepower Casts Doubt on Whether U.S. Could Defend T aiwan, In War Games, China Often Wins, and U.S. Warships
and Aircraft Are Kept at Bay,” NBC News, March 27, 2021; Brad Lendon, “China Has Built the World’s Largest Navy.
Now What ’s Beijing Going to Do with It?” CNN, March 5, 2021; Andrew S. Erickson, “ A Guide to China’s
Unprecedented Naval Shipbuilding Drive,” Maritim e Executive, February 11, 2021; Stephen Kuper, “ Beijing Steps Up
Naval Shipbuilding Program with Eyes on Global Navy,” Defence Connect, January 11, 2021; James E. Fanell,
“China’s Global Navy—T oday’s Challenge for the United States and the U.S. Navy,” Naval War College Review,
Autumn 2020, 32 pp.; Ryan Pickrell, “ China Is the World's Biggest Shipbuilder, and Its Ability to Rapidly Produce
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end of 2020, China’s wil have 360 battle force ships, compared with a projected
total of 297 for the U.S. Navy at the end of FY2020. ONI projects that China wil
have 400 battle force ships by 2025, and 425 by 2030.11
 China’s naval ships, aircraft, and weapons are now much more modern and
capable than they were at the start of the 1990s, and are now comparable in many
respects to those of Western navies. ONI states that “Chinese naval ship design
and material quality is in many cases comparable to [that of] USN [U.S. Navy]
ships, and China is quickly closing the gap in any areas of deficiency.”12
 China’s navy is viewed as posing a major chal enge to the U.S. Navy’s ability to
achieve and maintain wartime control of blue-water ocean areas in the Western
Pacific—the first such chal enge the U.S. Navy has faced since the end of the
Cold War. China’s navy forms a key element of a Chinese chal enge to the long-
standing status of the United States as the leading military power in the Western
Pacific.
 China’s naval modernization effort encompasses a wide array of platform and
weapon acquisition programs, including anti-ship bal istic missiles (ASBMs),
anti-ship cruise missiles (ASCMs), submarines, surface ships, aircraft, unmanned
vehicles (UVs),13 and supporting C4ISR (command and control,
communications, computers, intel igence, surveil ance, and reconnaissance)
systems. China’s naval modernization effort also includes improvements in
maintenance and logistics, doctrine, personnel quality, education and training,
and exercises.14
 China’s military modernization effort, including its naval modernization effort, is
assessed as being aimed at developing capabilities for addressing the situation
with Taiwan militarily, if need be; for achieving a greater degree of control or
domination over China’s near-seas region, particularly the South China Sea; for

New Warships Would Be a ‘Huge Advantage’ in a Long Fight with the US, Experts Say,” Business Insider, September
8, 2020; Ryan D. Martinson, “ Deciphering China’s ‘World-Class’ Naval Ambit ions,” U.S. Naval Institute Proceedings,
August 2020; Dave Makichuk, “ China’s Navy Shipbuilders Are ‘Outbuilding Everybody,’” Asia Tim es, March 11,
2020; Jon Harper, “ Eagle vs Dragon: How the U.S. and Chinese Navies Stack Up ,” National Defense, March 9, 2020;
H. I. Sutton, “ T he Chinese Navy Is Building An Incredible Number Of Warships,” Forbes, December 15, 2019; Nick
Childs and T om Waldwyn, “ China’s Naval Shipbuilding: Delivering on Its Ambition in a Big Way,” International
Institute for Strategic Studies (IISS), May 1, 2018; James R. Holmes and T oshi Yoshihara, “ T aking Stock of China’s
Growing Navy: T he Death and Life of Surface Fleets,” Orbis, Spring 2017: 269-285.
For articles offering differing perspectives, see, for example, David Axe, “ T he Chinese Navy Can’t Grow Forever—
T he Slowdown Might Start Soon,” Forbes, November 12, 2020; Mike Sweeney, Assessing Chinese Maritim e Power,
Defense Priorities, October 2020, 14 pp.
11 Source for China’s number of battle force ships: Unclassified ONI information paper prepared for Senate Armed
Services Committee, subject “UPDAT ED China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans,
2020-2030,” February 2020, p. 3. Provided by Senate Armed Services Committee to CRS and CBO on March 4, 2020,
and used in this CRS report with the committee’s permission.
12 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 3. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission.
13 See, for example, Ryan Fedasiuk, “Leviathan Wakes: China’s Growing Fleet of Autonomous Undersea Vehicles,”
Center for International Maritime Security (CIMSEC), August 17, 2021.
14 See, for example, Roderick Lee, “T he PLA Navy’s ZHANLAN T raining Series: Supporting Offensive Strike on the
High Seas,” China Brief, April 13, 2020.
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enforcing China’s view that it has the right to regulate foreign military activities
in its 200-mile maritime exclusive economic zone (EEZ);15 for defending China’s
commercial sea lines of communication (SLOCs), particularly those linking
China to the Persian Gulf; for displacing U.S. influence in the Western Pacific;
and for asserting China’s status as the leading regional power and a major world
power.16
 Consistent with these goals, observers believe China wants its navy to be capable
of acting as part of a Chinese anti-access/area-denial (A2/AD) force—a force that
can deter U.S. intervention in a conflict in China’s near-seas region over Taiwan
or some other issue, or failing that, delay the arrival or reduce the effectiveness of
intervening U.S. forces. Additional missions for China’s navy include conducting
maritime security (including antipiracy) operations, evacuating Chinese nationals
from foreign countries when necessary, and conducting humanitarian assistance/
disaster response (HA/DR) operations.
 Until recently, China’s naval modernization effort appeared to be focused less on
increasing total platform (i.e., ship and aircraft) numbers than on increasing the
modernity and capability of Chinese platforms. Some categories of ships,
however, are now increasing in number. The planned ultimate size and
composition of China’s navy is not publicly known. In contrast to the U.S. Navy,
China does not release a navy force-level goal or detailed information about
planned ship procurement rates, planned total ship procurement quantities,
planned ship retirements, and resulting projected force levels.
 Although China’s naval modernization effort has substantial y improved China’s
naval capabilities in recent years, China’s navy currently is assessed as having
limitations or weaknesses in certain areas,17 including joint operations with other
parts of China’s military, antisubmarine warfare (ASW), long-range targeting, a
limited capacity for carrying out at-sea resupply of combatant ships operating far
from home waters,18 a limited number of overseas bases and support facilities,19 a
need to train large numbers of personnel to crew its new ships,20 and a lack of
recent combat experience.21 China is working to reduce or overcome such
limitations and weaknesses.22 Although China’s navy has limitations and

15 For additional discussion, see CRS Report R42784, U.S.-China Strategic Competition in South and East China Seas:
Background and Issues for Congress
, by Ronald O'Rourke.
16 For additional discussion, see Ryan D. Martinson, “Deciphering China’s ‘World-class’ Naval Ambitions,” U.S.
Naval Institute Proceedings
, August 2020.
17 For a discussion focusing on these limitations or weaknesses, see Mike Sweeney, Assessing Chinese Maritime
Power
, Defense Priorities, October 2020, 14 pp.
18 See, for example, Will Mackenzie, “ Commentary: It’s the Logistics, China,” National Defense, June 10, 2020.
19 See, for example, Kristin Huang, “ Size of China’s Navy May Be Closing Gap on US Fleet But What Can the PLA
Do with Just One Overseas Naval Base?” South China Morning Post, March 14, 2021.
20 See, for example, Minnie Chan, “ China’s Navy Goes Back to Work on Big Ambitions but Long-T erm Gaps
Remain,” South China Morning Post, August 22, 2020.
21 T he use of a dual command structure in the crews of larger Chinese ships, involving both a commanding officer and
a political officer, has also been raised as a source of potential reduced command effectiveness in certain tactical
situations. See “ Leadership: China Cripples Naval Officers,” Strategy Page, July 18, 2020. Some observers argue that
corruption in China’s shipbuilding companies may be a source of additional weaknesses in China’s naval
modernization effort. See, for example, Zi Yang, “ T he Invisible T hreat to China’s Navy: Corruption,” Diplomat, May
19, 2020. See also Frank Chen, “ Ex-PLA Navy Chief in Deep Water Amid War on Graft,” Asia Times, June 26, 2020.
22 For example, China’s naval shipbuilding programs were previously dependent on foreign suppliers for some ship
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weaknesses, it may nevertheless be sufficient for performing 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.
 In addition to modernizing its navy, China in recent years has substantial y
increased the size of its coast guard.23 China’s coast guard is, by far, the largest of
any country in East Asia. China also operates a sizeable maritime militia that
includes a large number of fishing vessels. China relies primarily on its maritime
militia and coast guard to assert and defend its maritime claims in its near-seas
region, with the navy operating over the horizon as a potential backup force.24
Numbers of Ships; Comparisons to U.S. Navy
Ultimate Size and Composition of China’s Navy Not Publicly Known
The planned ultimate size and composition of China’s navy is not publicly known. The U.S. Navy
makes public its force-level goal and regularly releases a 30-year shipbuilding plan that shows
planned procurements of new ships, planned retirements of existing ships, and resulting projected
force levels, as wel as a five-year shipbuilding plan that shows, in greater detail, the first five
years of the 30-year shipbuilding plan.25 In contrast, China does not release a navy force-level
goal or detailed information about planned ship procurement rates, planned total ship
procurement quantities, planned ship retirements, or resulting projected force levels. It is possible
that the ultimate size and composition of China’s navy is an unsettled and evolving issue even
among Chinese military and political leaders. One observer states that “it seems the majority of
past foreign projections of Chinese military and Chinese navy procurement scale and speed have
been underestimates…. Al military forces have a desired force requirement and a desired ‘critical
mass’ to aspire toward. Whether the Chinese navy is close to its desired force or not, is of no
smal consequence.”26
Number of Ships Is a One-Dimensional Measure, but Trends in Numbers Can
Be of Value Analytically

Relative U.S. and Chinese naval capabilities are sometimes assessed by showing comparative
numbers of U.S. and Chinese ships. Although the total number of ships in a navy (or a navy’s
aggregate tonnage) is relatively easy to calculate, it is a one-dimensional measure that leaves out
numerous other factors that bear on a navy’s capabilities and how those capabilities compare to
its assigned missions. As a result, as discussed in further detail in Appendix A, comparisons of

components. ONI, however, states that “almost all weapons and sensors on Chinese naval ships are produced in -
country, and China no longer relies on Russia or other countries for any significant naval ship systems. ” (Source:
Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED China:
Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, pp. 2-3. Provided by
Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission.) See also Ma Xiu and Peter W. Singer, “How China Steals US T ech to Catch Up in
Underwater Warfare,” Defense One, June 8, 2021.
23 For additional details, see 2020 DOD CMSD, p. 71, and 2019 DIA CMP, p. 78.
24 For additional discussion, see CRS Report R42784, U.S.-China Strategic Competition in South and East China Seas:
Background and Issues for Congress
, by Ronald O'Rourke.
25 For more information on the U.S. Navy’s force-level goal, 30-year shipbuilding plan, and five-year shipbuilding
plan, see CRS Report RL32665, Navy Force Structure and Shipbuilding Plans: Background and Issues for Congress,
by Ronald O'Rourke.
26 Rick Joe, “ Hints of Chinese Naval Procurement Plans in the 2020s,” Diplomat, December 25, 2020.
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the total numbers of ships in China’s navy and the U.S. Navy are highly problematic as a means
of assessing relative U.S. and Chinese naval capabilities and how those capabilities compare to
the missions assigned to those navies. At the same time, however, an examination of the trends
over time in these relative numbers of ships
can shed some light on how the relative balance of
U.S. and Chinese naval capabilities might be changing over time.
Three Tables Showing Numbers of Chinese and U.S. Navy Ships
Table Showing Figures from Annual DOD Reports
Table 1 shows numbers of certain types of Chinese navy ships from 2005 to the present (and the
number of China coast guard ships from 2017 to the present) as presented in DOD’s annual
reports on military and security developments involving China. DOD states that China “has the
largest navy in the world, with an overal battle force of approximately 350 ships and submarines
including over 130 major surface combatants. In comparison, the U.S. Navy’s battle force is
approximately 293 ships as of early 2020.”27 DIA states that “although the overal inventory has
remained relatively constant, the PLAN is rapidly retiring older, single-mission warships in favor
of larger, multimission ships equipped with advanced antiship, antiair, and antisubmarine
weapons and sensors and C2 [command and control] facilities.”28
As can be seen in Table 1, about 72% of the increase since 2005 in the number of Chinese navy
ships shown in the table (a net increase of 84 ships out of a total net increase of 117 ships)
resulted from increases in missile-armed fast patrol craft starting in 2009 (a net increase of 35
ships) and corvettes starting in 2014 (49 ships). These are the smal est surface combatants shown
in the table. The net 35-ship increase in missile-armed fast patrol craft was due to the construction
between 2004 and 2009 of 60 new Houbei (Type 022) fast attack craft29 and the retirement of 25
older fast attack craft that were replaced by Type 022 craft. The 49-ship increase in corvettes is
due to the Jingdao (Type 056) corvette program discussed earlier. ONI states that “a significant
portion of China’s Battle Force consists of the large number of new corvettes and guided-missile
frigates recently built for the PLAN.”30
As can also be seen in the table, most of the remaining increase since 2005 in the number of
Chinese navy ships shown in the table is accounted for by increases in cruisers and destroyers (12
ships), frigates (6 ships), and amphibious ships (15 ships). Most of the increase in frigates
occurred in the earlier years of the table; the number of frigates has changed little in the later
years of the table.
Table 1 lumps together less-capable older Chinese ships with more-capable modern Chinese
ships. In examining the numbers in the table, it can be helpful to keep in mind that for many of
the types of Chinese ships shown in the table, the percentage of the ships accounted for by more
capable modern designs was growing over time, even if the total number of ships for those types
was changing little.

27 2020 DOD CMSD, p. ii. See also p. 44, and 2019 DIA CMP, p. 63.
28 2019 DIA CMP, p. 69.
29 T he T ype 022 program was discussed in the August 1, 2018, version of this CRS report, and earlier versions.
30 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 4. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission.
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For reference, Table 1 also shows the total number of ships in the U.S. Navy (known technical y
as the total number of battle force ships), and compares it to the total number of the types of
Chinese ships that are shown in the table. The result is an apples-vs.-oranges comparison, because
the Chinese figures exclude certain ship types, such as auxiliary and support ships, while the U.S.
Navy figure includes auxiliary and support ships but excludes patrol craft. Changes over time in
this apples-vs.-oranges comparison, however, can be of value in understanding trends in the
comparative sizes of the U.S. and Chinese navies.
On the basis of the figures in Table 1, it might be said that the total number of Chinese navy ships
of the types shown in the table (which might be thought of as the principal combat ships of
China’s navy) surpassed the total number of U.S. Navy battle force ships (a figure that includes
both combat ships and auxiliary ships) in 2015. It is important, however, to keep in mind the
differences in composition between the two navies. The U.S. Navy, for example, has many more
aircraft carriers, nuclear-powered submarines, and cruisers and destroyers, while China’s navy
has many more diesel attack submarines, frigates, and corvet es.
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Table 1. Numbers of Certain Types of Chinese and U.S. Ships Since 2005
(Figures for Chinese ships taken from annual DOD reports on military and security developments involving China)
2020
change
from
Year of DOD report
2005 2006
2007 2008
2009 2010
2011 2012 2013
2014 2015
2016 2017
2018 2019
2020
2005
Bal istic missile submarines
1
1
1
1
2
2
2
2
3
3
4
4
4
4
4
4
+3
Nuclear-powered attack submarines
6
5
5
5
6
6
5
5
5
5
5
5
5
5
6
6
0
Diesel attack submarines
51
50
53
54
54
54
49
48
49
51
53
57
54
47
50
46
-5
Aircraft carriers
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
2
+2
Cruisers
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
+1
Destroyers
21
25
25
29
27
25
26
26
23
24
21
23
31
28
33
32
+11
Frigates
43
45
47
45
48
49
53
53
52
49
52
52
56
51
54
49
+6
Corvettes
0
0
0
0
0
0
0
0
0
8
15
23
23
28
42
49
+49
Missile-armed coastal patrol craft
51
45
41
45
70
85
86
86
85
85
86
86
88
86
86
86
+35
Amphibious ships: LSTs and LPDs
20
25
25
26
27
27
27
28
29
29
29
30
34
33
37
37
+17
Amphibious ships: LSMs
23
25
25
28
28
28
28
23
26
28
28
22
21
23
22
21
-2
Total of types above (does not
216
221
222
233
262
276
276
271
273
283
294
303
317
306
335
333
+117
include other types, such as
auxiliary and support ships
)
China Coast Guard ships
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
185
240
248
255
n/a
Total U.S. Navy battle force ships
291
282
281
279
282
285
288
284
287
285
289
271
275
279
286
296
+5
(which includes auxiliary and support
ships but excludes patrol craft)
Total U.S. Navy battle force ships
+75
+61
+59
+46
+20
+9
+12
+13
+14
+2
-5
-32
-42
-27
-49
-37
-112
compared to above total for certain
Chinese ship types
CRS-8


Source: Table prepared by CRS based on 2005-2019 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), and (for U.S. Navy ships) U.S. Navy data as presented in CRS Report RL32665, Navy Force Structure and
Shipbuilding Plans: Background and Issues for Congress
, by Ronald O'Rourke.
Notes: n/a means data not available in report. LST means tank landing ship; LPD means transport dock ship; LSM means medium landing ship. The DOD report
general y covers events of the prior calendar year. Thus, the 2019 edition covers events during 2018, and so on for earlier years. Similarly, for the U.S. Navy figures, the
2019 column shows the figure for the end of FY2018, and so on for earlier years.
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Table Showing ONI Figures from February 2020
Table 2 shows comparative numbers of Chinese and U.S. battle force ships (and figures for
certain types of ships that contribute toward China’s total number of battle force ships) from 2000
to 2030, with the figures for 2025 and 2030 being projections. The figures for China’s ships are
taken from an ONI information paper of February 2020. Battle force ships are the types of ships
that count toward the quoted size of the Navy. For China, the total number of battle force ships
shown excludes the missile-armed coastal patrol craft shown in Table 1, but includes auxiliary
and support ships that are not shown in Table 1. Compared to Table 1, the figures in Table 2
come closer to providing an apples-to-apples comparison of the two navies’ numbers of ships,
although it could be argued that China’s missile-armed coastal patrol craft can be a significant
factor for operations within the first island chain.
On the basis of the figures in Table 2, it might be said that China’s navy surpassed the U.S. Navy
in terms of total number of battle force ships sometime between 2015 and 2020. As mentioned
earlier in connection with Table 1, however, it is important to keep in mind the differences in
composition between the two navies. The U.S. Navy, for example, currently has many more
aircraft carriers, nuclear-powered submarines, and cruisers and destroyers, while China’s navy
currently has many more diesel attack submarines, frigates, and corvettes.
Table 2. Numbers of Chinese and U.S. Navy Battle Force Ships, 2000-2030
Figures for Chinese ships taken from ONI information paper of February 2020

2000
2005
2010
2015
2020
2025
2030
Bal istic missile submarines
1
1
3
4
4
6
8
Nuclear-powered attack submarines
5
4
5
6
7
10
13
Diesel attack submarines
56
56
48
53
55
55
55
Aircraft carriers, cruisers, destroyers
19
25
25
26
43
55
65
Frigates, corvettes
38
43
50
74
102
120
135
Total China navy battle force ships,
110
220
220
255
360
400
425
including types not shown above
Total U.S. Navy battle force ships
318
282
288
271
297
n/a
n/a
Source: Table prepared by CRS. Source for China’s navy: Unclassified ONI information paper prepared for
Senate Armed Services Committee, subject “UPDATED China: Naval Construction Trends vis-à-vis U.S. Navy
Shipbuilding Plans, 2020-2030,” February 2020, 4 pp. Provided by Senate Armed Services Committee to CRS and
CBO on March 4, 2020, and used in this CRS report with the committee’s permission. Figures are for end of
calendar year. Source for figures for U.S. Navy: U.S. Navy data; figures are for end of fiscal year.
Note: “n/a” means not available.
Table Showing U.S. Navy Figures from October 2020
Table 3 shows numbers of certain types of Chinese navy ships in 2020, and projections of those
numbers for 2025, 2030, and 2040, along with the total number of U.S. Navy battle force ships in
2020. The figures for China’s ships were provided by the Navy at the request of CRS. As with
Table 1, the result for 2020 is an apples-vs.-oranges comparison between the Chinese navy and
U.S. navy totals, because the Chinese total for 2020 excludes certain ship types, such as auxiliary
and support ships, while the U.S. Navy total for 2020 includes auxiliary and support ships.
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As shown in Table 3, the U.S. Navy projects that between 2020 and 2040, the total number of
Chinese ships of the types shown in the table wil increase by 94, or about 39%, with most of that
increase (77 ships out of 94) coming from roughly equal increases in numbers of large surface
combatants (cruisers and destroyers—39 ships) and smal surface combatants (frigates and
corvettes—38 ships). Numbers of bal istic missile submarines and nuclear-powered attack
submarines are each projected to more than double between 2020 and 2040, and the total number
of diesel attack submarines is projected to remain almost unchanged. The number of large surface
combatants is projected to almost double, and the number of smal surface combatants is
projected to increase by more than one-third. Numbers of larger (LHA- and LPD-type)
amphibious ships are projected to increase, and the number of smal er (LST-type) amphibious
ships is projected to decline, with the result that the total number of amphibious ships of al kinds
is projected to decline slightly.
Table 3. Numbers of Chinese and U.S. Navy Ships, 2020-2040
Figures for Chinese ships are from U.S. navy, reflecting data as of October 2020
2040
change
from
Ship type
2020
2025
2030
2040
2020
Bal istic missile submarines
4
6
8
10
+6
Nuclear-powered attack submarines
6
10
14
16
+10
Diesel attack submarines
47
47
46
46
-1
Aircraft carriers
2
3
5
6
+4
Cruisers and destroyers
41
52
60
80
+39
Frigates and corvettes
102
120
135
140
+38
LHA-type amphibious assault ships
0
4
4
6
+6
LPD-type amphibious ships
7
10
14
14
+7
LST-type amphibious tank landing ships
30
24
24
15
-15
TOTAL of types shown above
239
276
310
333
+94
TOTAL number of U.S. Navy battle force ships
297
n/a
n/a
n/a
n/a
Source: For Chinese navy ships: U.S. Navy data provided to CRS by Navy Office of Legislative Affairs, reflecting
data as of October 26, 2020.
Notes: “n/a” means not available.
Selected Elements of China’s Naval Modernization Effort
This section provides a brief overview of elements of China’s naval modernization effort that
have attracted frequent attention from observers.
Anti-Ship Missiles
Anti-Ship Ballistic Missiles (ASBMs)
China is fielding two types of land-based bal istic missiles with a capability of hitting ships at
sea—the DF-21D (Figure 1), a road-mobile anti-ship bal istic missile (ASBM) with a range of
more than 1,500 kilometers (i.e., more than 910 nautical miles), and the DF-26 (Figure 2), a
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road-mobile, multi-role intermediate range bal istic missile (IRBM) with a maximum range of
about 4,000 kilometers (i.e., about 2,160 nautical miles) that DOD says “is capable of conducting
both conventional and nuclear precision strikes against ground targets as wel as conventional
strikes against naval targets.”31
Figure 1. DF-21D Anti-Ship Ballistic Missile (ASBM)


Source: Cropped version of photograph accompanying Andrew S. Erickson, “China’s DF-21D Anti-Ship Bal istic
Missile (ASBM)—Official y Revealed at 3 September Parade—Complete Open Source Research Compendium,”
AndrewErickson.com, September 10, 2015, accessed August 28, 2019.
Figure 2. DF-26 Multi-Role Intermediate-Range Ballistic Missile (IRBM)


Source: Cropped version of photograph accompanying Missile Defense Project, “Dong Feng-26 (DF-26),”
Missile Threat, Center for Strategic and International Studies, January 8, 2018, last modified January 15, 2019 ,
accessed August 28, 2019.

31 2020 DOD CMSD, p. 55.
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Until recently, reported test flights of DF-21s and SDF-26s have not involved attempts to hit
moving ships at sea. A November 14, 2020, press report, however, stated that an August 2020 test
firing of DF-21 and DF-26 ASBMs into the South China resulted in the missiles successfully
hitting a moving target ship south of the Paracel Islands.32 A December 3, 2020, press report
stated that Admiral Philip Davidson, the commander of U.S. Indo-Pacific Command, “confirmed,
for the first time from the U.S. government side, that China’s People’s Liberation Army has
successfully tested an anti-ship bal istic missile against a moving ship.”33 China reportedly is also
developing hypersonic glide vehicles that, if incorporated into Chinese ASBMs, could make
Chinese ASBMs more difficult to intercept.34
Observers have expressed strong concerns about China’s ASBMs, because such missiles, in
combination with broad-area maritime surveil ance and targeting systems, would permit China to
attack aircraft carriers, other U.S. Navy ships, or ships of al ied or partner navies operating in the
Western Pacific. The U.S. Navy has not previously faced a threat from highly accurate bal istic
missiles capable of hitting moving ships at sea. For this reason, some observers have referred to
ASBMs as a “game-changing” weapon.
Anti-Ship Cruise Missiles (ASCMs)
China’s extensive inventory of anti-ship cruise missiles (ASCMs) (see Figure 3, Figure 4, and
Figure 5 for examples of reported images) includes both Russian- and Chinese-made designs,
including some advanced and highly capable ones, such as the Chinese-made YJ-18.35
Figure 3. Reported Image of Anti-Ship Cruise Missile (ASCM)

Source: Detail of photograph accompanying Pierre Delrieu, “China Promotes Export of CM-302 Supersonic
ASCM,” Asian Military Review, July 3, 2017. (The article states “This is an article published in our December 2016

32 Kristin Huang, “ China’s ‘Aircraft-Carrier Killer’ Missiles Successfully Hit T arget Ship in South China Sea, PLA
Insider Reveals,” South China Morning Post, November 1,4 2020. See also Peter Suciu, “ Report: China’s ‘Aircraft -
Carrier Killer’ Missiles Hit T arget Ship in August ,” National Interest, November 15, 2020; Andrew Erickson, “ China’s
DF-21D and DF-26B ASBMs: Is the U.S. Military Ready?” Real Clear Defense, November 16, 2020.
33 Josh Rogin, “ China’s Military Expansion Will T est the Biden Administration,” Washington Post, December 3, 2020.
34 See, for example, Christian Davenport, “Why the Pentagon Fears the U.S. Is Losing the Hypersonic Arms Race with
Russia and China,” Washington Post, June 8, 2018; Keith Button, “Hypersonic Weapons Race,” Aerospace America,
June 2018.
35 2020 DOD CMSD, p. 59.
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Issue.”) The article states “According to Chinese news media reports, the China Aerospace Science and Industry
Corporation(CASIC) CM-302 missile is being marketed for export as “the world’s best anti-ship missile.” The
missile was showcased at the Zhuhai air show in the southern People’s Republic of China (PRC) in early
November [2016], and is advertised as [a] supersonic Anti-Ship Missile (AShM) [ASCM] which can also be used
in the land attack role. The report, published by the national newspaper China Daily, suggest[s] that the CM-302
is the export version of CASIC’s YJ-12 supersonic AShM, which is in service with the PRC’s armed forces.”)
Figure 4. Reported Image of Anti-Ship Cruise Missile (ASCM)

Source: Photograph accompanying “YJ-18 Eagle Strike CH-SS-NX-13,” GlobalSecurity.org, updated October 1,
2019. The article states “A grand military parade was held in Beijing on 01 October 2019 to mark the People’s
Republic of China’s 70th founding anniversary.… One weapon featured was a new generation of anti-ship missiles
cal ed YJ-18. China unveiled YJ-18/18A anti-ship cruise missiles in the National Day military parade in central
Beijing.”)
Although China’s ASCMs do not always receive as much press attention as China’s ASBMs
(perhaps because ASBMs are a more recent development), observers are nevertheless concerned
about them. As discussed later in this report, the relatively long ranges of certain Chinese ASCMs
have led to concerns among some observers that the U.S. Navy is not moving quickly enough to
arm U.S. Navy surface ships with similarly ranged ASCMs.

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Figure 5. Reported Image of Anti-Ship Cruise Missile (ASCM)

Source: Dennis M. Gormley, Andrew S. Erickson, and Jingdong Yuan, A Low-Visibility Force Multiplier, Assessing
China’s Cruise Missile Ambitions
, Published by National Defense University Press for the Center for the Study of
Chinese Military Affairs, Institute for National Strategic Studies, Washington, D.C., 2014. The image appears on
an unnumbered page fol owing page 14. The caption to the photograph states “YJ-83A/C-802A ASCM on display
at 2008 Zhuhai Airshow.” The photograph is credited to Associated Press/Wide World Photos.
Submarines
Overview
China has been steadily modernizing its submarine force, and most of its submarines are now
built to relatively modern Chinese and Russian designs.36 Qualitatively, China’s newest
submarines might not be as capable as Russia’s newest submarines,37 but compared to China’s
earlier submarines, which were built to antiquated designs, its newer submarines are much more
capable.

36 For a discussion of Russian military transfers to China, including transfers of submarine technology, see Paul
Schwartz, The Changing Nature and Im plications of Russian Military Transfers to China , Center for Strategic and
International Studies (CSIS), June 2021, 8 pp.
37 Observers have sometimes characterized Russia’s submarines as being the most capable faced by the U.S. Navy. See,
for example, Joe Gould and Aaron Mehta, “ US Could Lose a Key Weapon for T racking Chinese and Russian Subs,”
Defense News, May 1, 2019; Dave Majumdar, “ Why the U.S. Navy Fears Russia’s Submarines,” National Interest,
October 12, 2018; John Schaus, Lauren Dickey, and Andrew Metrick , “ Asia’s Looming Subsurface Challenge,” War
on the Rocks
, August 11, 2016; Paul McLeary, “ Chinese, Russian Subs Increasingly Worrying the Pentagon ,” Foreign
Policy
, February 24, 2016; Dave Majumdar, “ U.S. Navy Impressed with New Russian Attack Boat ,” USNI News,
October 28, 2014.
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Types and Numbers
Most of China’s submarines are non-nuclear-powered attack submarines (SSs). China also
operates a smal number of nuclear-powered attack submarines (SSNs) and a smal number of
nuclear-powered bal istic missile submarines (SSBNs). The number of SSNs and SSBNs may
grow in coming years, but the force wil likely continue to consist mostly of SSs. DOD states that
“The PLAN wil likely maintain between 65 and 70 submarines through the 2020s, replacing
older units with more capable units on a near one-to-one basis.”38 ONI states that “China’s
submarine force continues to grow at a low rate, though with substantial y more-capable
submarines replacing older units. Current expansion at submarine production yards could al ow
higher future production numbers.” ONI projects that China’s submarine force wil grow from a
total of 66 boats (4 SSBNs, 7 SSNs, and 55 SSs) in 2020 to 76 boats (8 SSBNs, 13 SSNs, and 55
SSs) in 2030.39
China’s newest series-built SS design is the Yuan-class (Type 039) SS (Figure 6), its newest SSN
class is the Shang-class (Type 093) SSN (Figure 7), and its newest SSBN class is the Jin (Type
094) class SSBN (Figure 8). In May 2020, it was reported that two additional Type 094 SSBNs
had entered service, increasing the total number in service to six.40
Figure 6. Yuan (Type 039) Attack Submarine (SS)

Source: Photograph accompanying “Type 039A Yuan class,” SinoDefence.com, July 10, 2018, accessed August
28, 2019.

38 2020 DOD CMSD, p. 45.
39 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 1. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission. See also H. I. Sutton, “ China Increases Production Of AIP Submarines With Massive New
Shipyard,” Naval News, February 16, 2021; H. I. Sutton, “ First Image Of China’s New Nuclear Submarine Under
Construction,” Naval News, February 1, 2021.
40 See, for example, Peter Suciu, “China Now Has Six T ype 094A Jin-Class Nuclear Powered Missile Submarines,”
National Interest, May 6, 2020.
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Figure 7. Shang (Type 093) Attack Submarine (SSN)

Source: Photograph accompanying SinoDefence.com, “Type 093 Shang Class,” July 1, 2018, accessed August 27,
2019, at http://sinodefence.com/type093_shang-class/.
Figure 8. Jin (Type 094) Ballistic Missile Submarine (SSBN)

Source: Cropped version of photograph accompanying Minnie Chan, “China Puts a Damper on Navy’s 70th
Anniversary Celebrations As It Tries to Al ay Fears Over Rising Strength,” South China Morning Post, April 23,
2019. The article credits the photograph to Xinhua.
DOD states that since the mid-1990s, “China’s shipyards have delivered 13 Song class SS units
(Type 039) and 17 Yuan class diesel-electric air-independent-powered attack submarine (SSP)
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(Type 039A/B). The PRC is expected to produce a total of 25 or more Yuan class submarines by
2025.”41 DOD states further:
Over the past 15 years, the PLAN has constructed twelve nuclear submarines—two Shang
I class SSNs (Type 093), four Shang II class SSNs (Type 093A), and six Jin class SSBNs
(Type 094), two of which were awaiting entry into service in late 2019. Equipped with the
CSS-N-14 (JL-2) submarine-launched ballistic missile (SLBM), the PLAN’s four
operational Jin class SSBNs represent the PRC’s first credible sea-based nuclear deterrent.
Each Jin class SSBN can carry up to 12 JL-2 SLBMs.…China’s next-generation Type 096
SSBN, which will likely begin construction in the early-2020s, will reportedly carry a new
type of SLBM. The PLAN is expected to operate the Type 094 and Type 096 SSBNs
concurrently and could have up to eight SSBNs by 2030….
By the mid-2020s, China will likely build the Type 093B guided-missile nuclear attack
submarine. This new Shang class variant will enhance the PLAN’s anti-surface warfare
capability and could provide a clandestine land-attack option if equipped with land-attack
cruise missiles (LACMs).”42
Submarine Weapons
China’s submarines are armed with one or more of the following: ASCMs, wire-guided and
wake-homing torpedoes, and mines. Wake-homing torpedoes can be very difficult for surface
ships to decoy. Each Jin-class SSBN is armed with 12 JL-2 nuclear-armed submarine-launched
bal istic missiles (SLBMs).43 A May 2, 2021, press report stated that China’s latest Jin-class
SSBN is armed with a new and longer-ranged SLBM cal ed the JL-3.44
Aircraft Carriers
Overview45
China’s first aircraft carrier, Liaoning (Type 001) (Figure 9), entered service in 2012. China’s
second aircraft carrier (and its first fully indigenously built carrier), Shandong (Type 002) (Figure
10) entered service on December 17, 2019. An April 2021 press report stated that Shandong

41 2020 DOD CMSD, p. 45.
42 2020 DOD CMSD, p. 45.
43 DOD estimates the range of the JL-2 at 7,200 km (2020 DOD CMSD, p. 58). Such a range 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, or
targets in all 50 states from mid-ocean locat ions east of Hawaii.
44 Minnie Chan, “ China’s New Nuclear Submarine Missiles Expand Range in US: Analysts,” South China Morning
Post
, May 2, 2021. T he article states that the JL-3 has a “ range [of] over 10,000km (6,200 miles), a source close to the
[Chinese] navy said.” Such a range could permit Jin-class SSBNs to attack larger portions of the United States from the
locations described in the previous footnote.
45 For an article providing a review of developments in China’s aircraft carrier and carrier-based aircraft programs, see
Rick Joe, “ 003 and More: An Update on China’s Aircraft Carriers,” Diplomat, September 29, 2020. Consistent with the
discussion in that article, this CRS report uses the following updated designations of China’s carriers: Chin a’s second
aircraft carrier, previously referred to as the T ype 001A, is now referred to as the T ype 002; the next aircraft carrier
design after that, previously referred to as the T ype 002, is now referred to as the T ype 003, and the potential design
that could follow, previously referred to as the T ype 003, is now referred to as the T ype 004.
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“might soon be heading out on the high seas as it continues its preparations to become combat-
ready.”46 Liaoning and Shandong launch fixed-wing aircraft using a “ski ramp” at the ship’s bow.
Figure 9. Liaoning (Type 001) Aircraft Carrier


Source: Cropped version of photograph accompanying China Power Team, “How Does China’s First Aircraft
Carrier Stack Up?” China Power (Center for Strategic and International Studies), December 9, 2015, updated
December 14, 2018, accessed August 28, 2019.
Compared with Liaoning and Shandong, U.S. Navy aircraft carriers are larger (about 100,000
tons full load displacement), nuclear powered (giving them greater cruising endurance than a
conventional y powered ship), able to embark and operate a larger number of aircraft (60 or
more), and launch fixed-wing aircraft using catapults, which can give those aircraft a
range/payload capability greater than that of aircraft launched with a ski ramp.
China’s third carrier, the Type 003 (Figure 11), is under construction; ONI expects it to enter
service by 2024.47 It is expected to be conventional y powered, closer in size to U.S. Navy aircraft
carriers, and equipped with catapults rather than a ski ramp for launching aircraft. China’s fourth
carrier reportedly may begin construction as early as 2021.48
ONI states that “China has two shipyards expected to be used for aircraft carrier production,
though several other large commercial yards could, in theory, also build carriers.” Observers have
speculated that China may eventual y field a force of four to six (or possibly more than six)
aircraft carriers. In late November 2019, it was reported that the Chinese government, while

46 Minnie Chan, “ China’s Shandong Aircraft Carrier Ready for High Seas T est, Insider Says,” South China Morning
Post
, April 8, 2021.
47 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 4. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020 , and used in this CRS report with the
committee’s permission.
48 Minnie Chan, “Chinese Navy Set to Build Fourth Aircraft Carrier, but Plans for a More Advanced Ship Are Put on
Hold,” South China Morning Post, November 28, 2019.
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deciding to proceed with the construction of the fourth carrier, had put on hold plans to build a
fifth carrier, known as the Type 004, which was to be nuclear-powered, due to budgetary and
technical considerations. Observers expect that it wil be some time before China masters carrier-
based aircraft operations on a substantial scale.
Figure 10. Shandong (Type 002) Aircraft Carrier


Source: Cropped version of photograph accompanying Daniel Brown, “China’s Newest Aircraft Carrier Is
Actual y Very Outdated—But Its Next One Should Worry the US Navy A Lot,” Business Insider, July 18, 2018.
The article credits the photograph to Reuters.
Liaoning (Type 001)
Liaoning
is a refurbished ex-Ukrainian aircraft carrier that China purchased from Ukraine in 1998
as an unfinished ship.49 It is conventional y powered, has an estimated full load displacement of
60,000 to 66,000 tons, and reportedly can accommodate an air wing of 30 or more fixed-wing
airplanes and helicopters, including 24 fighters. The Liaoning lacks aircraft catapults and instead
launches fixed-wing airplanes off the ship’s bow using an inclined ski ramp.
Some observers have referred to the Liaoning as China’s “starter” carrier. China has been using
Liaoning in part for pilot training. In May 2018, China reportedly announced that the aircraft
carrier group formed around Liaoning had reached initial operational capability (IOC),50 although
that term might not mean the same as it does when used by DOD in connection with U.S. weapon
systems.
Shandong (Type 002)
Shandong is a modified version of the Liaoning design that incorporates some design
improvements, including features that reportedly wil permit it to embark and operate a larger air

49 Prior to the dissolution of the Soviet Union in December 1991, Ukraine was a part of the Soviet Union and the place
where the Soviet Union built its aircraft carriers.
50 Andrew T ate, “Liaoning Carrier Group Reaches Initial Operational Capability, IHS Jane’s Defence Weekly, June 4,
2018. See also T ravis Fedschun, “China Says Carrier Group Reaches ‘Initial’ Combat Capability,” Fox News, May 31,
2018; “China’s First Aircraft Carrier Formation Capable of Systemic Combat Operation,” CGT V.com, May 31, 2018;
Global T imes, “Chinese Aircraft Carrier Forming All-Weather Combat Capability with Successful Night T akeoff and
Landing,” People’s Daily Online, May 29, 2018.
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wing of 40 aircraft that includes 36 fighters.51 Its displacement is estimated at 66,000 to 70,000
tons.
Type 003 Carrier
Earlier press reports had general y stated that China’s Type 003 carrier might have a displacement
of 80,000 tons to 85,000 tons. A November 29, 2020, press report, however, stated that satel ite
images of the ship under construction suggest that this estimate may be a bit low, and that the
Type 003 carrier might be closer in displacement to U.S. Navy aircraft carriers, which have a
displacement of about 100,000 tons.52 The Type 003 carrier is expected to be equipped with
electromagnetic catapults rather than a ski ramp, which wil improve the range/payload capability
of the fixed-wing aircraft that they operate. A July 14, 2021, blog post stated that the ship might
be launched (i.e., put into the water for the final stages of its construction) before the end of
2021.53
Figure 11. Type 003 Aircraft Carrier Under Construction


Source: Photograph accompanying Matthew P. Funaiole and Joseph S. Bermudez Jr., “Progress Report on
China’s Type 003 Carrier,” Center for Strategic and International Studies (CSIS), July 14, 2021.

51 See, for example, Liu Xuanzun, “China’s Second Aircraft Carrier Can Carry 50% More Fighter Jets T han Its First,”
Global Tim es, August 13, 2019; Liu Zhen, “ China’s New Aircraft Carrier to Pack More Jet Power T han the Liaoning,”
South China Morning Post, August 15, 2019.
52 See, for example, H. I. Sutton, “ China’s New Super Carrier: How It Compares T o T he US Navy’s Ford Class,”
Naval News, July 2, 2021; H. I. Sutton, “ China’s New Aircraft Carrier Is In Same League As US Navy’s Ford Class,”
Naval News, April 15, 2021. See also Ryan Pickrell, “ Satellite Photos Show China’s New Aircraft Carrier Coming
T ogether Quickly and Reveal More About its Design,” Business Insider, July 20, 2021.
53 Matthew P. Funaiole and Joseph S. Bermudez Jr., “ Progress Report on China’s T ype 003 Carrier,” Center for
Strategic and International Studies (CSIS), July 14, 2021. See also Ryan Pickrell, “ Satellite Photos Show China’s New
Aircraft Carrier Coming T ogether Quickly and Reveal More About its Design,” Business Insider, July 20, 2021;
Minnie Chan, “China’s T hird Aircraft Carrier Could Launch T his Year—But Still Needs the Right Jets,” South China
Morning Post
, July 16, 2021.
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The start of construction of the Type 003 carrier was announced in the Chinese press in
November 2018.54 A July 18, 2020, press report states
China is expected to launch55 its next-generation aircraft carrier within a year and
construction on a sister ship for the new giant vessel has been hastened, two sources close
to the projects said.
The Type 002 [now called Type 003] aircraft carrier—the country’s third carrier and the
second to be domestically developed—has started the final assembly process, two
independent sources told the South China Morning Post.
“Assembly of the new aircraft carrier has begun and is expected to be completed in the first
half of next year, because the Covid-19 pandemic slowed down progress,” said the first
source, who requested anonymity because of the sensitivity of the issue.
“Workers are also starting the keel-laying for the new carrier’s sister ship. Both ships have
been built by the Jiangnan Shipyard outside Shanghai.”56
China’s Fourth Carrier
Some sources have stated that China’s fourth aircraft carrier would be built to the Type 003
design. A March 13, 2021, press report, however, states that the ship is likely to be nuclear-
powered rather than conventional y powered.57
Possible Type 076 Catapult-Equipped Amphibious Assault Ship
See also the discussion of the possible catapult-equipped Type 076 amphibious assault ship
(Figure 21 and Figure 22) in the section on China’s amphibious ships.
Commercial Heavy-Lift Ship Reportedly Used in Exercise as Helicopter Carrier
In August 2020, it was reported that China had used a commercial heavy-lift ship in a military
exercise as a platform for operating at least two PLA Army helicopters.58

54 See, for example, Zhao Lei, “China Launches Work on T hird Aircraft Carrier, Xinhia Says,” China Daily, November
26, 2018; Liu Xuanzun (Global T imes), “China’s 3rd Aircraft Carrier Under Construction, to Be Equipped with New
T echnologies, People’s Daily Online, November 27, 2018.
55 T he term launch means that the ship is put into the water for the final stages of its construction.
56 Minnie Chan, “ China Steps Up Shipbuilding with T wo More Aircraft Carriers Under Construction T owards 2035
Navy Goal,” South China Morning Post, July 18, 2020. See also China Power T eam, “ T racking China’s T hird Aircraft
Carrier, China Power, Center for Strategic and International Studies (CSIS), May 6, 2019 (updated September 17,
2020), accessed Oct ober 28, 2020, at https://chinapower.csis.org/china-carrier-type-002/; Gerry Shih, “ China’s T hird
Aircraft Carrier T akes Shape, with Ambitions to Challenge U.S. Naval Dominance,” Washington Post, October 16,
2020; Liu Xuanzun, “ China’s 3rd Aircraft Carrier ‘Progressing Smoothly,” Global Tim es, September 13, 2020. See also
Ryan Pickrell, “ Photos of China's New Aircraft Carrier Are Leaking, and T hey Appear to Show a Modern Flattop in
the Making,” Business Insider, June 10, 2021; Matthew Funaiole, Joseph Bermudez Jr., and Brian Hart, “ China’s T hird
Aircraft Carrier T akes Shape: CSIS,” Breaking Defense, June 16, 2021; James Webb, “ China’s T ype 003 Aircraft
Carrier Will Be Advanced, But not a Game-Changer for US, Experts Say,” Military Tim es, September 2, 2021.
57 Minnie Chan, “ Chinese Military: Fourth Aircraft Carrier Likely to Be Nuclear Powered, Sources Say,” South China
Morning Post
, March 13, 2021. See also EurAsian T imes Desk, “ China Aims T o Deploy First -Ever ‘Nuclear-Powered
Aircraft Carrier’ By 2025 – Reports,” EurAsian Times, March 13, 2021.
58 David Axe, “ Surprise! T he Chinese Navy Just T ransformed T his Cargo Ship Into An Instant Helicopter Carrier ,”
Forbes, August 22, 2020; Dave Makichuk, “ PLA Army T ests Commercial Ships as Wartime Flight Decks,” Asia
Tim es
, August 25, 2020; John Dotson, “ Semi-Submersible Heavy Lift Vessels: A New “ Maritime Relay Platform” for
PLA Cross-Strait Operations?” Jamestown Foundation, August 31, 2020.
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Carrier-Based Aircraft
China’s primary carrier-based fighter aircraft is the J-15 or Flying Shark (Figure 12), an aircraft
derived from the Russian Su-33 Flanker aircraft design that can operate from carriers equipped
with a ski ramp rather than catapults, but which some observers have critiqued for its
range/payload limitations in carrier-based operations.59
Figure 12. J-15 Flying Shark Carrier-Capable Fighter

Source: Photograph accompanying “China Developing Elite New Variants of the J-15 Flying Shark to Deploy
from EMALS Equipped Future Carriers; Implications for the Balance of Power at Sea,” Military Watch Magazine,
August 17, 2018, accessed August 28, 2019.
China reportedly plans to develop a carrier-capable variant of its J-20 fifth-generation stealth
fighter and/or a carrier-capable variant of its FC-31 fifth-generation stealth fighter (reportedly
now designated J-35) to complement or succeed the J-15 on catapult-equipped Chinese carriers.60
China reportedly is also developing a carrier-based airborne early warning (AEW) aircraft, cal ed

59 For a discussion of the J-15, see, for example, Rick Joe, “ China’s J-15 Carrierborne Fighter: Sizing up the
Competition,” Diplom at, May 20, 2021.
60 See Ryan Pickrell, “China Is Working on a Next-Generation Fighter Jet for Its Growing Fleet of Aircraft Carriers and
Could Unveil It T his Year,” Business Insider, September 30, 2021; Zhao Lei, “ New AVIC Fighter Jet to Appear
‘Before Year’s End,’” China Daily, September 30, 2021; Reuben Johnson, “ China’s J-35 Carrier Fighter Appears; Step
T o ‘Most Powerful Navy’?” Breaking Defense, July 1, 2021; Reuben Johnson, “ COVID, Hacking, and Spying Helped
China Develop a New Stealth Fighter in Record T ime,” Bulwark, June 23, 2021; Mike Yeo, “ Stealth Fighter Mock-up
Appears at China’s Aircraft Carrier T esting Facility,” Defense News, June 9, 2021; H. I. Sutton, “ First Sighting Of New
Stealth Fighter For Chinese Navy’s Aircraft Carriers,” Naval News, June 8, 2021; Rick Joe, “T he FC-31, China’s
‘Other’ Stealth Fighter, A Look at the Jet with Many Names—and Its Carrier-Based Future,” Diplomat, February 18,
2021; Kris Osborn, “ Is China Building Its Own F-35 Fighter Jets for its Aircraft Carriers?” National Interest, July 3,
2020; Caleb Larson, “ FC-31: China’s Next Carrier Jet is Stolen and Stealthy ,” National Interest, April 18, 2020;
Sebastien Roblin, “China’s New Aircraft Carriers Are Getting Stealth Fighters,” National Interest, October 26, 2019;
Rick Joe, “Beyond China’s J-20 Stealth Fighter,” Diplomat, September 20, 2019; Minnie Chan, “China’s Navy ‘Set to
Pick J-20 Stealth Jets for Its Next Generation Carriers,’” South China Morning Post, August 27, 2019. See also T homas
Newdick, “ New Images Of China’s Elusive Catapult -Capable J-15T Carrier Fighter Emerge,” The Drive, November
18, 2020.
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the KJ-600, that is similar to the U.S. Navy’s carrier-based E-2 Hawkeye AEW aircraft,61 and
stealth drone aircraft.62
Roles and Missions
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
acquiring carriers primarily for their value in other kinds of operations, and to demonstrate
China’s status as a leading regional power and major world power. Chinese aircraft carriers could
be used for power-projection operations, particularly in scenarios that do not involve opposing
U.S. forces, and to impress or intimidate foreign observers.63
Chinese aircraft carriers could also be used for humanitarian assistance and disaster relief
(HA/DR) operations, maritime security operations (such as antipiracy operations), and
noncombatant evacuation operations (NEOs). Political y, 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.
Surface Combatants
Overview
China since the early 1990s has put into service numerous new classes of indigenously built
surface combatants, including a new cruiser (or large destroyer), several classes of destroyers and
frigates, a new class of corvettes (i.e., light frigates), and a new class of missile-armed patrol
craft.
These new classes of surface combatants demonstrate a significant modernization of PLA Navy
surface combatant technology. DOD states that China’s navy “remains engaged in a robust
shipbuilding program for surface combatants, producing new guided-missile cruisers (CGs),
guided-missile destroyers (DDGs) and corvettes (FFLs). These assets wil significantly upgrade
the air defense, anti-ship, and anti-submarine capabilities of China’s navy and wil be critical as
China’s navy expands its operations beyond the range of the PLA’s shore-based air defense
systems.”64 DIA states that “the era of past designs has given way to production of modern

61 See, for example, Liu Xuanzun, “ China's First Carrier-Based Early Warning Plane Continues Flight T ests: Report,”
Global Tim es, February 22, 2021; H. I. Sutton, “ First Image Of China’s New Carrier-Based AEW Plane,” Forbes,
August 29, 2020; Liu Xuanzun, “ China’s First Carrier-Based, Fixed-Wing Early Warning Aircraft Makes Maiden
Flight: Reports,” Global Tim es, September 1, 2020; Peter Suciu, “ T he Xian KJ-600 Could Make China’s Aircraft
Carriers Far More Powerful,” National Interest, September 5, 2020; Kris Osborn, “ KJ-600: China’s New Surveillance
Plane Will Make T heir Aircraft Carriers Even More Deadly ,” National Interest, September 8, 2020.
62 Minnie Chan, “China to Deploy Sharp Sword Stealth Drone for New T ype 001A Aircraft Carrier,” South China
Morning Post
, September 17, 2019.
63 For a discussion, see, for example, Bryan McGrath and Seth Cropsey, “T he Real Reason China Wants Aircraft
Carriers, China’s Carrier Plans T arget U.S. Alliances, Not Its Navy,” Real Clear Defense (www.realcleardefense.com),
April 10, 2014; Sebastien Roblin, “All of the Reasons Why the World Should Fear China’s Aircraft Carriers,” National
Interest
, October 24, 2017.
64 2020 DOD CMSD, pp. 45-46.
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multimission destroyer, frigate, and corvette classes as China’s technological advancement in
naval design has begun to approach a level commensurate with, and in some cases exceeding, that
of other modern navies.”65 China is also upgrading its older surface combatants with new
weapons and other equipment.66
Type 055 Cruiser/Large Destroyer
China is building a new class of cruiser (or large destroyer), cal ed the Renhai-class or Type 055
(Figure 13 and Figure 14), that reportedly displaces between 12,000 and 13,000 tons.67 A March
7, 2021, press report by a Chinese media outlet states that the ship displaces more than 12,000
tons.68 By way of comparison, the U.S. Navy’s Ticonderoga (CG-47) class cruisers and Arleigh
Burke (DDG-51) class destroyers (aka the U.S. Navy’s Aegis cruisers and destroyers) displace
about 10,100 tons and 9,300 tons, respectively, while the U.S. Navy’s three Zumwalt (DDG-
1000) class destroyers displace about 15,600 tons.
Figure 13. Renhai (Type 055) Cruiser (or Large Destroyer)

Source: Cropped version of photograph accompanying Kyle Mizokami, “Can the U.S. Navy Beat China’s New
Type 055 Destroyer In a Fight?” National Interest, September 29, 2019.
ONI states that Type 055 ships are being built by two shipyards, and that multiple ships in the
class are currently under construction.69 The first Type 055 ship was reportedly commissioned
into service on January 12, 2020, about two and a half years after it was launched (i.e., put into

65 2019 DIA CMP, p. 70.
66 See, for example, H. I. Sutton, “ China Increases Potency Of Anti-Carrier Capabilities,” Forbes, May 1, 2020; Peter
Suciu, “ Chinese Warships Are Now Armed with Supersonic Anti-Ship Missiles,” National Interest, May 10, 2020.
67 One article from a Chinse media outlet, for example, states: “ According to sources, it has a displacement of more
than 12,000 metric tons….” (China Daily, “ 2nd T ype 055 Destroyer Enters Service,” People’s Daily Online, March 10,
2021.) For a discussion of the T ype 055 design, see Sidharth Kaushal, “ T he T ype 055: A Glimpse into the PLAN’s
Developmental T rajectory,” Royal United Services Institute (RUSI), October 19, 2020.
68 Liu Xuanzun, “ China’s 2nd T ype 055 Large Destroyer Enters Naval Service,” Global Times, March 7, 2021.
69 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 4. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS re port with the
committee’s permission.
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the water for the final stages of its construction). The second and third ships in the class were
reportedly commissioned into service in March and April 2021, respectively.70 The sixth ship in
the class was reportedly launched in December 2019.71 In August 2020, it was reported that the
seventh ship in the class was delivered to the navy in May 2020,72 that the eighth ship in the class
was launched on August 30, 2020,73 and that the eighth ship “wil complete the first group of
Type 055 destroyers.”74
Figure 14. Renhai (Type 055) Cruiser (or Large Destroyer)

Source: Photograph accompanying Peter Suciu, “Chinese Navy to Launch 8th New Type 055 ‘Stealth’
Destroyer,” National Interest, August 22, 2020. The article credits the photograph to “Chinese Internet.”

70 iu Xuanzun, “ China’s 2nd T ype 055 Large Destroyer Enters Naval Service,” Global Times, March 7, 2021. See also
China Daily, “ 2nd T ype 055 Destroyer Enters Service,” People’s Daily Online, March 10, 2021; Xavier Vavasseur
“China’s 2nd T ype 055 Destroyer ‘Lhasa’ 拉萨 Commissioned With PLAN,” Naval News, March 7, 2021; Xavier
Vavasseur, “ China Commissions A T ype 055 DDG, A T ype 075 LHD And A T ype 094 SSBN In A Single Day ,”
Naval News, April 24, 2021.
71 Kristin Huang, “China Steps Up Warship Building Programme as Navy Looks to Extend Its Global Reach,” South
China Morning Post
, December 31, 2019. See also Liu Xuanzun, “ Chinese Navy Commissions First T ype 055
Destroyer,” Global Times, January 12, 2020. Another press report states that eight T ype 055 ships are expected to enter
service over the next four years, and that more than two dozen such ships might be in service by the late 2020s. (Franz -
Stefan Gady, “China’s Navy Commissions First -of-Class T ype 055 Guided Missile Destroyer,” Diplomat, January 13,
2020.)
72 Minnie Chan, “ Chinese Navy May Launch Eighth T ype 055 Stealth Destroyer Later T his Year,” South China
Morning Post
, August 20, 2020.
73 Liu Xuanzun, “PLA Launches New T ype 055, T ype 052D Destroyers After Decommissioning All T ype 051
Destroyers: Reports,” Global Tim es, August 30, 2020.
74 Minnie Chan, “ Chinese Navy May Launch Eighth T ype 055 Stealth Destroyer Later T his Year,” South China
Morning Post
, August 20, 2020. See also Peter Suciu, “ Chinese Navy to Launch 8th New T ype 055 ‘Stealth’
Destroyer,” National Interest, August 22, 2020. A November 18, 2020, press report that cited a November 16, 2020,
Chinese-language press report stated that “ China’s T ype 055 destroyer is equipped with a microwave anti-missile
system which can disable the electronic equipment of incoming enemy aircraft and missiles, and even burn the enemy’s
pilots.” (“ China Uses Microwave Weapons against India,” Chinascope, November 18, 2020, which cited the following
as its source: “ Lianhe Zaobao, November 16, 2020, https://www.zaobao.com.sg/realtime/china/story20201116-
1101404.”)
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Type 052 Destroyer
China since the early 1990s has put into service multiple new classes of indigenously built
destroyers, the most recent of which is the Luyang III (Type 052D) class (Figure 15), which
displaces about 7,500 tons and is equipped with phased-array radars and vertical launch missile
systems that outwardly are broadly similar to those on U.S. Navy cruisers and destroyers. Type
052D ships have been in serial production for some time, and the 25th such ship was reportedly
launched (i.e., put into the water for the final stages of its construction) on August 30, 2020.75
One observer states that “at present the PLAN fields 20 aegis-type [i.e., Type 052] destroyers in
service; however in four to five years it is likely that the PLAN wil field 39 aegis-type destroyers
in service (or 40, depending on whether a 26th 052D is built or not).”76 Press reports in March
2021 stated that China is now commissioning an upgraded version of the Type 052D, informal y
cal ed the Type 052DL, that incorporates an extended-length helicopter flight deck and a new
radar.77 A July 4, 2021, press report from a Chinese media outlet discussed what it said was the
fourth Type 052D destroyer to be commissioned into service during 2021.78
Figure 15. Luyang III (Type 052D) Destroyer

Source: Cropped version of photograph accompanying “Type 052D Luyang-III Class,” SinoDefence.com,
September 3, 2017, accessed August 28, 2019.
Type 054 Frigate
China since the early 1990s has also put into service multiple new classes of indigenously built
frigates, the most recent of which is the Jiangkai II (Type 054A) class (Figure 16), which

75 Liu Xuanzun, “PLA Launches New T ype 055, T ype 052D Destroyers After Decommissioning All T ype 051
Destroyers: Reports,” Global Tim es, August 30, 2020.
76 Rick Joe, “ T he Chinese Navy’s Destroyer Fleet Will Double by 2025. T hen What?” Diplomat, July 12, 2020. See
also Kris Osborn, “ Double the Destroyers: China Will Soon Have Almost 40 of T hese Modern Warships,” National
Interest
, July 17, 2020.
77 “Chinese Navy Commissions Upgraded Variation of the T ype 052D Destroyer,” Navy Recognition, March 3, 2021;
Liu Xuanzun, “ PLA’s 4th Improved T ype 052D Destroyer Makes Maiden Appearance in Maritime Exercise,” Global
Tim es
, March 30, 2021; Liu Zhen, “ Chinese Navy Sails New Destroyers in South China Sea Amid Military
Shipbuilding Spree,” South China Morning Post, June 15, 2021.
78 Liu Xuanzun, “ T ype 052D Destroyer Kaifeng Enters PLA Naval Service, Celebrates CPC Centennial with Drill,”
Global Tim es, July 4, 2021.
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displaces about 4,000 tons. ONI stated in February 2020 that 30 Type 054As entered service
between 2008 and 2019, and that no additional Type 054As were then under construction.79 An
August 2021 press report from a Chinse media outlet, however, stated that “China is reportedly
building another batch of Type 054A frigates for the People's Liberation Army Navy (PLA Navy)
after it had launched two new ships of this class over the past few months.” The press report
noted that a report from the Jane’s organization had stated that the 32nd Type 054A ship had
recently been launched (i.e., put into the water for the final stages of its construction).80
Figure 16. Jiangkai II (Type 054A) Frigate


Source: Cropped version of photograph from Chinese Military Review, “Type 054A (Jiangkai II class) FFG-546
Yancheng Guided Missile Frigate in Mediterranean,” undated (but with a URL suggesting that it was posted in
February of 2014), accessed August 29, 2018.
Type 056 Corvette
China has also built—in large numbers over a relatively short time period—a new type of
corvette (i.e., a light frigate, or FFL) cal ed the Jiangdao class or Type 056 (Figure 17), which
reportedly displaces 1,300 tons to 1,500 tons. Type 056 ships were built at a high annual rate in
four shipyards—the first was commissioned in 2013, and the 72nd and final ship of the type was
reportedly commissioned in early 2021, implying an average commisisoning rate of about eight

79 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 4. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission. For a press article discussing the potential features of China’s next frigate design beyond the
T ype 054A, see Rick Joe, “ What Will the Chinese Navy’s Next Frigate Look Like?” Diplomat, May 15, 2020.
80 Liu Xuanzun, “T ype 054A Frigate Good Choice to Expand PLA Naval Fleet and Boost Combat Preparedness:
Experts,” Global T imes, August 12, 2021.
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ships per year. DOD states that “by the end of 2019, more than 42 Jiangdao class FFLs had
entered service out of an expected production run of at least 70 ships.”81 ONI states that as of
February 2020, more than 50 had entered service and another 15 were under construction.82 In
February 2021, a Chinese media outlet reported that the final two Type 056 ships—the 71st and
72nd such ships—had been commissioned into service in January and February 2021, and that the
completion of Type 056 production could permit a shift to production of greater numbers of larger
warships.83 As shown in Table 1, the rapid growth in the number of Type 056 corvettes since
2013 accounts for a substantial share of the net increase in the total number of ships in China’s
navy since 2013.
Figure 17. Jingdao (Type 056) Corvette


Source: Cropped version of image included at Chinese Military Review, “Random Images of Chinese Type 056
Jiangdao Class Light Corvette,” undated (but with a URL suggesting that it was posted in October 2013),
accessed August 29, 2018.
Amphibious Ships84
Type 071 Amphibious Ship
China’s new Yuzhao or Type 071 amphibious ships (Figure 18) have an estimated displacement
of more than 19,855 tons,85 compared to about 25,900 tons for the U.S. Navy’s new San Antonio

81 2020 DOD CMSD, p. 46.
82 Source: Unclassified ONI information paper prepared for Senate Armed Services Committee, subject “ UPDAT ED
China: Naval Construction T rends vis-à-vis U.S. Navy Shipbuilding Plans, 2020-2030,” February 2020, p. 4. Provided
by Senate Armed Services Committee to CRS and CBO on March 4, 2020, and used in this CRS report with the
committee’s permission.
83 Liu Xuanzun, “PLA Navy Commissions Final T ype 056A Corvettes Specialized in Coastal Defense,” Global Times,
February 17, 2021. See also “ Chinese Navy PLAN Commissions Final T ype 056A Corvettes,” Navy Recognition,
February 18, 2021.
84 For an article providing a brief overview of China’s amphibious shipbuilding programs, see Yasmin T adjdeh, “China
Building Formidable Amphibious Fleet ,” National Defense, June 25, 2021.
85 Unless otherwise indicated, displacement figures cited in this report are full load displacements. IHS Jane’s Fighting
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(LPD-17) class amphibious ships. A May 6, 2021, press report states that the eighth Type 0721
ship “recently made its first publicly known maritime exercise appearance.”86
Figure 18. Yuzhao (Type 071) Amphibious Ship


Source: Cropped version of photograph from Chinese Military Review, “Jinggang Shan (999) Type 071
YUZHAO Class Amphibious Transport Dock,” undated (but with a URL suggesting that it was posted in
February 2012), accessed August 29, 2018.
Type 075 Amphibious Assault Ship
On September 25, 2019, China launched (i.e., put into the water for the final stages of its
construction) the first of a new type of amphibious assault ship87 cal ed the Yushen or Type 075
(Figure 19 and Figure 20) that has an estimated displacement of 30,000 to 40,000 tons,
compared to 41,000 to 45,000 tons for U.S. Navy LHA/LHD-type amphibious assault ships.88 On
April 11, 2020, it was reported that a fire had occurred on the ship.89 On August 5, it was reported

Ships 2017-2018, p. 156, does not provide a full load displacement for the T ype 071 class design. Instead, it provides a
standard displacement of 19,855 tons. Full load displacement is larger than standard displacement, so the full load
displacement of the T ype 071 design is more than 19,855 tons.
86 Liu Xuanzun, “China's Newly Commissioned Amphibious Landing Ship Joins Exercises, ‘to Form Powerful
Partnership with Amphibious Assault Ship,’” Global Tim es, May 6, 2021.
87 Amphibious assault ships, also referred to as helicopter carriers or (in British parlance) commando carriers, look like
medium-sized aircraft carriers. U.S. Navy amphibious assault ships are designated LHA or LHD.
88 See, for example, Rick Joe, “T he Future of China’s Amphibious Assault Fleet,” Diplomat, July 17, 2019; Sebastien
Roblin, “Bad News: China is Building T hree Huge Helicopter ‘Aircraft Carriers,’” National Interest, July 27, 2019;
T yler Rogoway, “China’s New Amphibious Assault Ship Is A Monster,” The Drive, August 22, 2019; Mike Yeo,
“Photos Reveal Progress on China’s Largest Amphibious Assault Ship,” Defense News, August 23, 2019. See also
Minnie Chan, “ Why China’s T ype 075 Warship Is More T han It Seems—the Secret Is in Its Hull Number,” South
China Morning Post
, May 9, 2021.
89 See, for example, “China Confirms Fire on Board T ype 075 Amphibious Assault Ship,” DefenseWorld.net, April 11,
2020; Xavier Vavasseur, “ China’s 1st T ype 075 LHD Caught On Fire During Fitting Out,” Naval News, April 12, 2020;
“Fire Breaks Out on China’s New Amphibious Assault Helicopter Carrier,” War Is Boring, April 13, 2020.
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that the ship had begun its first sea trial,90 suggesting that some or al of the damage caused by the
fire had been repaired. The ship was commissioned into service in April 2021.91
China reportedly launched (i.e., put into the water for the final stages of its construction) the
second Type 075 ship on April 22, 2020,92 and the third on January 29, 2021.93
Figure 19. Type 075 Amphibious Assault Ship

Source: Photograph accompanying David Axe, “China Is Finishing Its First Large Helicopter Assault Ship,”
National Interest, October 29, 2019.


90 Mallory Shelbourne, “ China’s New T ype-075 Amphibious Warship Kicks Off Sea T rials,” USNI News, August 5
(updated August 13), 2020; Xavier Vavasseur “ China’s First T ype 075 Landing Helicopter Dock Started Sea T rials,”
Naval News, August 5, 2020. See also Liu Zhen, “ Chinese Military’s First T ype 075 Amphibious Assault Ship Begins
Sea T rial,” South China Morning Post, August 7, 2020; Liu Xuanzun, “ PLA 1st Amphibious Assault Ship Appears on
Maiden Voyage, Photos Show,” Global Tim es, August 5, 2020.
91 See, for example, Mike Yeo, “ China simultaneously commissions three warships on Navy anniversary ,” Defense
News
, April 26, 2021.
92 Liu Zhen, “ China Launches Second T ype 075 Amphibious Helicopter Assault Ship,” South China Morning Post,
April 23, 2020; Elizabeth Shim, “ China Launches Second T ype 075 Assault Ship,” UPI, April 22, 2020; Caleb Larson,
“China Just Launched T heir Second T ype 075 Assault Carrier—Here’s Why Everyone Is Worried,” National Interest,
April 22, 2020; Andrew T ate, “ China’s Second T ype 075 Amphibious Assault Ship Launched in Shanghai,” Jane’s,
April 22, 2020.
93 Global T imes, “ China Launches T wo New Warships, One for Pakistan,” Global Times, January 29, 2021.
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Figure 20. Type 075 Amphibious Assault Ship

Source: Photograph accompanying Liu Zhen, “Chinese Military’s First Type 075 Amphibious Assault Ship Begins
Sea Trial,” South China Morning Post, August 7, 2020. The article credits the photograph to Weibo. Possible Type
076 Catapult-Equipped Amphibious Assault Ship
In July 2020, it was reported that China might be planning to build the first of a new class of
amphibious assault ships, cal ed the Type 076 by observers (Figure 21 and Figure 22), that
would be equipped with electromagnetic catapults, which would enhance its ability to support
operations by fixed-wing aircraft and make it somewhat more like an aircraft carrier.94

94 H. I. Sutton, “ Stealth UAVs Could Give China’s T ype-076 Assault Carrier More Firepower,” Forbes, July 23, 2020;
Kathrin Hille, “ China Plans Hybrid Assault Vessel to Strengthen Overseas Power,” Financial Times, July 24, 2020;
Minnie Chan, “Chinese Shipbuilder Planning Advanced Amphibious Assault Ship,” South China Morning Post, July
27 (updated July 28), 2020; Rick Joe, “ Whispers of 076, China’s Drone Carrying Assault Carrier ,” Diplom at, August
21, 2020.
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Figure 21. Notional Rendering of Possible Type 076 Amphibious Assault Ship

Source: Il ustration accompanying H. I. Sutton, “Stealth UAVs Could Give China’s Type-076 Assault Carrier
More Firepower,” Forbes, July 23, 2020.
Figure 22. Notional Rendering of Possible Type 076 Amphibious Assault Ship

Source: Il ustration accompanying Minnie Chan, “Chinese Shipbuilder Planning Advanced Amphibious Assault
Ship,” South China Morning Post, July 27 (updated July 28), 2020.
Amphibious Ship Roles and Missions
Although larger amphibious ships such as the Type 071 and Type 075 would be of value for
conducting amphibious landings in Taiwan-related conflict scenarios, some observers believe that
China is building such ships as much for their value in conducting other operations, such as
operations for asserting and defending China’s claims in the South and East China Seas,
humanitarian assistance/disaster relief (HA/DR) operations, maritime security operations (such as
antipiracy operations), and noncombatant evacuation operations (NEOs). Political y, amphibious
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ships can also be used for naval diplomacy (i.e., port cal s and engagement activities) and for
impressing or intimidating foreign observers.95
Potential Use of Commercial Ships
In assessing China’s capacity for conducting an amphibious invasion of Taiwan, some observers
have focused on China’s potential for using civilian ferries and other commercial ships to
augment the transport and landing capacity of China’s amphibious ships. Reported Chinese
exercises indicate that China is exploring and testing this concept.96
Operations Away from Home Waters
Although China’s navy operates primarily in China’s home waters, Chinese navy ships are
conducting increasing numbers of operations away from China’s home waters, including the
broader waters of the Western Pacific, the Indian Ocean, and the waters surrounding Europe,
including the Mediterranean Sea and the Baltic Sea. A November 23, 2019, DOD news report
quoted Admiral Philip Davidson, the commander of the U.S. Indo-Pacific Command, as stating
that China’s navy had conducted more global naval deployments in the past 30 months than it had
in the previous 30 years.97
While many of China’s long-distance naval deployments have been for making diplomatic port
cal s, some of them have been for other purposes, including conducting training exercises and
carrying out antipiracy operations in waters off Somalia. China has been conducting antipiracy
operations in waters off Somalia since December 2008 via a succession of more than 30
rotational y deployed naval escort task forces. China’s distant naval operations are supported in
part by China’s military base in Djibouti, which China official y opened in August 2017 as its
first overseas military base.98

95 See, for example, Grant Newsham, “China’s Amphibious Force Emerges,” Asia Times, November 5, 2019.
96 See, for example, Michael Dahm and Conor M. Kennedy, “Civilian Shipping: Ferrying the People’s Liberation Army
Ashore,” Center for International Maritime Security (CIMSEC), September 9, 2021; Chris Horton, “ China Mobilizes
Civilian Ferries for T aiwan Invasion Drills,” Nikkei Asia, August 25, 2021; Andrew T ate, “ Chinese Military Using
Commercial Ro-Ro Shipping to Enhance Its Amphibious Capabilities,” Jane’s, August 23, 2021; T homas Shugart,
“Mind the Gap: How China’s Civilian Shipping Could Enable a T aiwan Invasion,” War on the Rocks, August 16, 2021;
Mike Yeo, “ China Reportedly Converted Civilian Ferries for Amphibious Assault Operations,” Defense News, August
4, 2021; David Hambling, “ China Converts Car Ferries For Amphibious Assault ,” Forbes, July 27, 2021; Courtney
Mabeus, “ Chinese Navy Using Commercial Car Ferries to Launch Amphibious Landing Craft ,” USNI News, July 26,
2021; Conor Kennedy, “ Ramping the Strait: Quick and Dirty Solutions to Boost Amphibious Lift ,” China Brief, July
16, 2021.
97 David Vergun, “Freedom of Navigation in South China Sea Critical to Prosperity, Says Indo-Pacific Commander,”
DOD News, November 23, 2019.
98 For a brief discussion of Djibouti and other potential Chinese military bases outside China, see 2020 DOD CMSD,
pp. x, 48, 80, and 128-130. For a recent press report about China’s military base in Djibouti, see H. I. Sutton, “ Satellite
Images Show T hat Chinese Navy Is Expanding Overseas Base,” Forbes, May 10, 2020; Peter Suciu, “ China’s Naval
Base in Africa Is Getting Bigger. Is a Network of Bases Next?” National Interest, May 11, 2020; Staff writer, “ Chinese
Navy Expanding Base in Africa, Satellite Images Confirm,” War Is Boring, May 11, 2020; Jean-Pierre Cabestan,
“China’s Djibouti Naval Base Increasing Its Power,” East Asia Forum , May 16, 2020; Dave Makichuk, “China Builds
a Mega-Fortress on the Horn of Africa,” Asia Tim es, May 18, 2020; Michael Evans, “ Beijing’s African Port Ready for
Aircraft Carriers,” Tim es (UK), May 19, 2020.
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U.S. Navy Response
Overview
As mentioned earlier, China’s navy is viewed as posing a major chal enge to the U.S. Navy’s
ability to achieve and maintain wartime control of blue-water ocean areas in the Western
Pacific—the first such chal enge the U.S. Navy has faced since the end of the Cold War. China’s
navy forms a key element of a Chinese chal enge to the long-standing status of the United States
as the leading military power in the Western Pacific. Some U.S. observers are expressing concern
or alarm regarding the pace of China’s naval shipbuilding effort and resulting trend lines
regarding the relative sizes and capabilities of China’s navy and the U.S. Navy.
The U.S. Navy in recent years has taken a number of actions to counter China’s naval
modernization effort. Among other things, the U.S. Navy has
 shifted a greater percentage of its fleet to the Pacific;99
 assigned its most capable new ships and aircraft and its best personnel to the
Pacific;
 maintained or increased general presence operations, training and developmental
exercises, and engagement and cooperation with al ied and other navies in the
Indo-Pacific;
 increased the planned future size of the Navy;
 initiated, increased, or accelerated numerous programs for developing new
military technologies and acquiring new ships, aircraft, unmanned vehicles, and
weapons;
 begun development of new operational concepts (i.e., new ways to employ Navy
and Marine Corps forces) for countering Chinese maritime A2/AD forces; and
 signaled that the Navy in coming years wil shift to a more distributed fleet
architecture that wil feature a smal er portion of larger ships, a larger portion of
smal er ships, and a substantial y greater use of unmanned vehicles.
Some of the above items are discussed in more detail below.
Cooperation with Naval Forces of Allies and Other Countries
U.S. Navy efforts to increase cooperation with naval forces from al ies such as Japan and
Australia and other countries such India appear aimed in part at expanding existing bilateral
forms of naval cooperation (e.g., U.S.-Japan, U.S.-Australia, U.S.-India) into trilateral (e.g., U.S.-
Japan-Australia, U.S.-Australia-India) or quadrilateral (U.S.-Japan-Australia-India) forms that
could enhance the ability of the United States and its al ies in the Indo-Pacific region to balance
against China’s growing military capabilities and deter potential assertive actions by China.100

99 Efforts in this regard began at least as far back as 2006: T he final report on the 2006 Quadrennial Defense Review
(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.” (U.S.
Department of Defense, Quadrennial Defense Review Report. Washington, 2006. February 6, 2006, p. 47.) Subsequent
to this directive, the Navy announced an intention to increase to 60% (from a starting point of about 55%) the
percentage of the fleet as a whole that is assigned to the Pacific.
100 For additionla discussion, see, CRS In Focus IF11678, The “Quad”: Security Cooperation Among the United States,
Japan, India, and Australia
, coordinated by Emma Chanlett -Avery.
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A June 15, 2021, press report stated:
The Pentagon is considering establishing a permanent naval task force in the Pacific region
as a counter to China’s growing military might, according to two people familiar with
internal discussions.
The plan would also involve creating a named military operation for the Pacific that would
enable the defense secretary to allocate additional dollars and resources to the China
problem, said the people, who requested anonymity to discuss pre-decisional plans.
The two initiatives, which are not yet finalized, would add muscle to President Joe Biden’s
tough talk on China and send a signal that the new U.S. administration is serious about
cracking down on Beijing’s military buildup and aggressive behavior in the Pacific region.
The news comes as NATO leaders are increasingly aligning themselves with Washington’s
confrontational stance on Beijing. Four years after former President Donald Trump made
countering China a top foreign policy priority, NATO allies this week declared Beijing a
security challenge and said the Chinese are working to undermine global order.
The discussions grew out of work by the Pentagon’s China Task Force, which Biden
commissioned in March to examine the department’s China-related policies and processes.
The group, led by Ely Ratner, the nominee to serve as the Pentagon’s top Indo-Pacific
policy official, recently completed its work and presented recommendations to Defense
Secretary Lloyd Austin.
A defense official, responding to a request for comment, stressed that none of the plans
stemming from the China task force are finalized….
The naval task force would be modeled on a construct NATO launched in Europe leading
up to and during the Cold War, the Standing Naval Forces Atlantic, the people familiar
with the discussions told POLITICO. The squadron was an immediate reaction force that
could rapidly respond to a crisis but spent most of its time steaming around the region,
participating in scheduled exercises and making goodwill port calls. Six to 10 ships from
multiple NATO nations — destroyers, frigates and auxiliaries — were typically attached
to the force for up to six months.
The European task force allowed those nations to “maximize their influence at sea and to
specialize their investments simultaneously,” said Jerry Hendrix, an analyst for consulting
firm Telemus Group and the author of "To Provide and Maintain a Navy". He noted that
an effective Pacific task force would also include European allies such as Britain and
France, who are increasing their Pacific naval presence, as well as Japan and Australia.
The proposed initiative would be a “deterrent because it demonstrates a unity of effort in
countering Chinese excessive threats to the concept of a free sea and free trade with their
large territorial sea claims,” Hendrix said.
It’s not yet clear whether the task force would involve only U.S. ships, or include other
nations’ militaries as well, the people said.101
Size of Navy, Fleet Architecture, and Operational Concepts
As discussed in greater detail in another CRS report,102 the Navy’s existing force-level goal,
which the Navy released on December 15, 2016, cal s for achieving and maintaining a fleet of
355 ships—an increase of 47 ships over the previous 308-ship force-level goal of March 2015.

101 Lara Seligman, “ Pentagon Considering Permanent Naval T ask Force to Counter China in the Pacific,” Politico, June
15, 2021.
102 CRS Report RL32665, Navy Force Structure and Shipbuilding Plans: Background and Issues for Congress, by
Ronald O'Rourke.
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The Navy and DOD have been working since 2019 to develop a new force-level goal to replace
the 355-ship force-level goal. Remarks from Navy and DOD officials since 2019 have indicated
that the Navy’s next force-level goal wil introduce a once-in-a-generation change in fleet
architecture, meaning basic the types of ships that make up the Navy and how these ships are
used in combination with one another to perform Navy missions. This new fleet architecture is to
be more distributed than the fleet architecture reflected in the 355-ship goal or previous Navy
force-level goals. In particular, the new fleet architecture is expected to feature
 a smal er proportion of larger ships (such as large-deck aircraft carriers, cruisers,
destroyers, large amphibious ships, and large resupply ships);
 a larger proportion of smal er ships (such as frigates, corvettes, smal er
amphibious ships, smal er resupply ships, and perhaps smal er aircraft carriers);
and
 a new third tier of surface vessels about as large as corvettes or large patrol craft
that wil be either lightly manned, optional y manned, or unmanned, as wel as
large UUVs.
Navy and DOD leaders believe that shifting to a more distributed fleet architecture is
operationally necessary, to respond effectively to the improving maritime anti-
access/area-denial (A2/AD) capabilities of other countries, particularly China;103
technically feasible as a result of advances in technologies for UVs and for
networking widely distributed maritime forces that include significant numbers
of UVs; and
affordable—no more expensive, and possibly less expensive, than the current
fleet architecture for a given level of overal fleet capability, so as to fit within
expected future Navy budgets.
Regarding the first point above, shifting to a more distributed force architecture, Navy and
Marine Corps officials have indicated, wil support implementation of the Navy and Marine
Corps’ new overarching operational concept, cal ed Distributed Maritime Operations (DMO), and
a supporting Marine Corps operational concept cal ed Expeditionary Advanced Base Operations

103 See, for example, David B. Larter, “With China Gunning for Aircraft Carriers, US Navy Says It Must Change How
It Fights,” Defense News, December 6, 2019; Arthur H. Barber, “Redesign the Fleet,” U.S. Naval Institute Proceedings,
January 2019. Some observers have long urged the Navy to shift to a more distributed fleet architecture, on the grounds
that the Navy’s current architecture—which concentrates much of the fleet’s capability into a relatively limited n umber
of individually larger and more expensive surface ships—is increasingly vulnerable to attack by the improving A2/AD
capabilities (particularly anti-ship missiles and their supporting detection and targeting systems) of potential
adversaries, particularly China. Shifting to a more distributed architecture, these observers have argued, would

complicate an adversary’s targeting challenge by presenting the adversary with a larger number of Navy units
to detect, identify, and track;

reduce the loss in aggregate Navy capability that would result from the destruction of an individual Navy
platform;

give U.S. leaders the option of deploying USVs and UUVs in wartime to sea locations that would be
tactically advantageous but too risky for manned ships; and

increase the modularity and reconfigurability of the fleet for adapting to changing mission needs.
For more on China’s maritime A2/AD capabilities, see CRS Report RL33153, China Naval Modernization:
Im plications for U.S. Navy Capabilities—Background and Issues for Congress
, by Ronald O'Rourke.
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(EABO).104 A key aim of DMO and EABO is to improve the ability of the Navy and Marine
Corps to counter China’s improving maritime military capabilities.
Some elements of the Navy’s new, more distributed fleet architecture are reflected in the Navy’s
FY2021 and FY2022 budget submissions, including the following:
 procurement of Constel ation (FFG-62) class frigates;105
 development of a smal er amphibious warship cal ed the Light Amphibious
Warship (LAW);106
 development of a smal er resupply ship cal ed the Next-Generation Medium
Logistics Ship;107
 development of two types of larger USVs—Large USVs (LUSVs) and Medium
USVs (MUSVs);108 and
 procurement of large UUVs cal ed Extra Large UUVs (XLUUVs).109
On December 9, 2020, the Navy released a long-range Navy shipbuilding document that
presented the Trump Administration’s emerging successor to the 355-ship force-level goal. The
document cal ed for a Navy with a more distributed fleet architecture, including 382 to 446
manned ships and 143 to 242 large UVs.110
On June 17, 2021, the Navy released a long-range Navy shipbuilding document that presents the
Biden Administration’s emerging successor to the 355-ship force-level goal. The document cal s
for a Navy with a more distributed fleet architecture, including 321 to 372 manned ships and 77
to 140 large UVs.111
Programs for Acquiring Highly Capable Ships, Aircraft, and Weapons
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 A2/AD capabilities. Examples of new technologies being developed by the

104 For more on DMO, see, for example, Edward Lundquist, “DMO is Navy’s Operational Approach to Winning the
High-End Fight at Sea,” Seapower, February 2, 2021. For more on EABO, see CRS Report R46374, Navy Light
Am phibious Warship (LAW) Program : Background and Issues for Congress
, by Ronald O'Rourke.
105 For more on the FFG-62 program, see CRS Report R44972, Navy Constellation (FFG-62) Class Frigate Program:
Background and Issues for Congress
, by Ronald O'Rourke.
106 For more on the LAW program, see CRS Report R46374, Navy Light Amphibious Warship (LAW) Program:
Background and Issues for Congress
, by Ronald O'Rourke.
107 For more on the next -generation Medium Logistics Ship, see, for example, Megan Eckstein, “ Navy Researching
New Class of Medium Amphibious Ship, New Logistics Ships,” USNI News, February 20, 2020; Rich Abott, “ FY 2021
Request Starts Work on Future Amphibs and Logistics Ships,” Defense Daily, February 20, 2020; Justin Katz, “ Navy
Announces ‘Next Generation Logistics Ship’ Program with June 25 Industry Day,” Inside Defense, May 14, 2020; Paul
McLeary, “ No Shipbuilding Plan, But Navy Works On New Ships T o Counter China,” Breaking Defense, May 18,
2020.
108 For more on the LUSV and XLUUV programs, see CRS Report R45757, Navy Large Unmanned Surface and
Undersea Vehicles: Background and Issues for Congress
, by Ronald O'Rourke.
109 For more on the XLUUV program, see CRS Report R45757, Navy Large Unmanned Surface and Undersea
Vehicles: Background and Issues for Congress
, by Ronald O'Rourke.
110 U.S. Navy, Report to Congress on the Annual Long-Range Plan for Construction of Naval Vessels, December 2020,
23 pp.
111 U.S. Navy, Report to Congress on the Annual Long-Range Plan for Construction of Naval Vessels for Fiscal Year
2022
, June 2021, 16 pp.
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Navy that might be of value in countering Chinese maritime A2/AD capabilities include large
unmanned vehicles112 and lasers.113
Issues for Congress
Overview
The overal issue for Congress is whether the U.S. Navy is responding appropriately to China’s
naval modernization effort. Within this overal issue, specific issues include the following:
 the current and potential future U.S.-China balance of naval power in general,
and in specific geographic areas, particularly the South China Sea;
 whether the planned size of the Navy wil be appropriate for countering China’s
naval modernization effort in coming years while also permitting the Navy to
perform other missions, including countering Russian military forces and
defending U.S. interests in the Middle East;
 whether Navy shipbuilding plans and Navy plans for keeping existing Navy ships
in service are consistent with the goal of increasing the size of the Navy toward a
total of 355 ships or a successor force-level goal;
 whether the Navy should shift to a more-distributed fleet architecture so as to
improve the Navy’s ability to avoid and withstand attack from Chinese maritime
A2/AD forces—and if so, what that new architecture should look like, and how
quickly the Navy should shift to it;
 whether the Navy is doing enough to
 improve its ability to counter China’s ASBMs or some of China’s other
maritime A2/AD weapons, such as its wake-homing torpedoes;
 develop and procure new ASCMs with ranges that match or exceed those of
China’s longer-ranged ASCMs;
 increase the operating range of Navy carrier air wings, so as to improve the
ability of carriers and their air wings to achieve effects while operating at
longer distances from Chinese ASBMs and other A2/AD weapons; and
 whether Congress should modify acquisition policies or the metrics for judging
the success of acquisition programs so as to facilitate faster development of new
technologies and weapons for the Navy—and if so, how those policies or metrics
should be modified.
Discussion
Regarding the U.S.-China balance of naval power in general, U.S. and other observers general y
assess that while the United States today has more naval capability overal , China’s naval
modernization effort since the 1990s has substantial y reduced the U.S. advantage, and that if
current U.S. and Chinese naval capability trend lines (such as those shown in Table 1 and Table

112 For more on these efforts, see CRS Report R45757, Navy Large Unmanned Surface and Undersea Vehicles:
Background and Issues for Congress
, by Ronald O'Rourke.
113 For more on Navy laser programs, see CRS Report R44175, Navy Lasers, Railgun, and Gun-Launched Guided
Projectile: Background and Issues for Congress
, by Ronald O'Rourke.
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2) do not change, China might eventual y draw even with or surpass the United States in overal
naval capability.
Regarding the current U.S.-China naval balance of power specifical y in the South China Sea,
some observers are concerned that China has already drawn even with or even surpassed the
United States. U.S. Navy Admiral Philip Davidson, in responses to advance policy questions from
the Senate Armed Services Committee for an April 17, 2018, hearing before the committee to
consider nominations, including Davidson’s nomination to become Commander, U.S. Pacific
Command (PACOM),114 stated that “China is now capable of controlling the South China Sea in
al scenarios short of war with the United States.”115 A January 18, 2020, press report quotes
James Kraska of the Naval War College as stating that “the US has lost advantage throughout the
spectrum of operations, from low-level interaction against China’s maritime militia to higher-end
conflict scenarios,” and that “in other words, China has escalation dominance, because it has the
power to deter any US turn towards escalation. The US is outmatched in al of the scenarios.”116 A
March 5, 2020, press report stated:
China is on track to overtake the United States as the most powerful military in the Pacific
within the decade -- potentially as soon as 2026 -- with the wherewithal sooner than
previously expected to establish permanent, regional primacy, the top U.S. military official
in the Asia-Pacific region warned March 4.
Adm. Phil Davidson, head of U.S. Indo-Pacific Command, said a potential shift in the
balance of military power between Beijing and Washington could come much sooner than
U.S. officials have previously said.117
A March 6, 2021, press report stated:
China could soon be emboldened to try to “forcely change” the existing order in the western
Pacific, the head of U.S. Indo-Pacific Command said.
As its rapidly advancing military approaches “overmatch” with the United States in the
region, and absent a convincing deterrent, China could make a move this decade.
“Make no mistake about it, China seeks a new world order—one with Chinese
characteristics as they have often said where Chinese national power is more important
than international law,” Adm. Phil Davidson said during an American Enterprise Institute
forum Thursday [March 4]….
“The most important thing I'd like you all to take away from the discussions |is a
fundamental understanding that the period between now and 2026—this decade—is the
time horizon in which China is positioned to achieve overmatch in its capability,” the
Oahu-based commander said.
That's when Beijing could—and he emphasized “could”—“choose to forcibly change the
status quo in the region.”

114 T he name of the command has since been changed to the U.S. Indo -Pacific Command (INDOPACOM).
115 Advance Policy Questions for Admiral Philip Davidson, USN Expected Nominee for Commander, U.S. Pacific
Command, p. 18. See also pp. 8. 16. 17. 19, and 43.
116 John Power, “Has the US Already Lost the Battle for the South China Sea?” South China Morning Post, January 18,
2020. See also Gregory B. Poling, “T he Conventional Wisdom on China’s Island Bases Is Dangerously W rong,” War
on the Rocks
, January 10, 2020; Kerry K. Gershaneck and James E. Fanell, “ T his Is How China’s [Military] Will Fight
And Win A War In T he South China Sea,” National Interest, January 18, 2020.
117 Jason Sherman, “ Davidson: China on T rack to Unseat U.S. as Dominant Military in the Pacific As Soon As 2026,”
Inside Defense, March 5, 2021.
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Davidson didn't specify what action China might take, but he said with the growing military
imbalance comes greater risk that China could move “before our forces might be able to
deliver an effective response.”
Carl Schuster, a retired Navy captain, former director of operations at U.S. Pacific
Command's Joint Intelligence Center and an adjunct professor at Hawaii Pacific
University, said he shares Davidson's concerns.
Chinese President Xi Jinping “has accelerated China's military buildup, modernization and
combat readiness,” Schuster said. “They outnumber us in terms of seaborne missile
shooters and, of course, shore-based air power. While I don't think they will be ready to
conduct an amphibious assault on Taiwan itself by 2025, I do think Xi is hoping to establish
the power ratio and capability to give us pause if he decides to create an incident.”…
China has conducted circumnavigations of Guam and the Northern Mariana Islands with
surface ships and submarines and conducted bomber runs in the Philippine Sea, creating a
360-degree threat from cruise and ballistic missiles, Davidson said….
Schuster said Chinese surface combatant numbers are growing at five times the rate of
those of the United States.
“Those ships’ combat capabilities are nearly equal to ours—if not equal to ours—and they
are concentrated in the western Pacific, potentially giving them 'local superiority' at a
moment of their choosing,” Schuster said.118
Skeptics of assessments like those above might argue that they do not give adequate weight to
relative U.S. strengths (and corresponding Chinese relative weaknesses and limitations) in areas
such as undersea warfare; personnel quality, training, and initiative; operational experience
(particularly in combat situations); joint operations with other U.S. military services; and
potential support from al ies and partners, particularly Japan and Australia. A March 5, 2021,
press report, for example, states:
While China is expected to field 400 ships by 2025, the goal of the current US Navy
shipbuilding plan, a goal with no fixed date, is for a fleet of 355 -- a substantial numerical
disadvantage.
That's not to say the US Navy has seen its days as the world's premier fighting force come
to an end.
When counting troops, the US Navy is bigger, with more than 330,000 active duty
personnel to China's 250,000.
Analysts point out several other factors in Washington's favor.
The US Navy still fields more tonnage—bigger and heavier armed ships like guided-
missile destroyers and cruisers—than China. Those ships give the US a significant edge in
cruise missile launch capability.
The US has more than 9,000 vertical launch missile cells on its surface ships to China's
1,000 or so, according to Nick Childs, a defense analyst at the International Institute for
Strategic Studies.
Meanwhile, the US attack submarine fleet of 50 boats is entirely nuclear powered, giving
it significant range and endurance advantages over a Chinese fleet that has just seven
nuclear-powered subs in its fleet of 62.119

118 William Cole, “ China Could Soon Outgun US in Western Pacific, Indo-Pacific Chief Says,” Honolulu Star-
Advertiser
, March 6, 2021.
119 Brad Lendon, “ China Has Built the World’s Largest Navy. Now What’s Beijing Going to Do with It?” CNN, March
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As noted earlier, the above-listed issues of the planned size of the Navy and the shift to a more-
distributed fleet architecture are discussed in detail in other CRS reports.120 The issue of the
Navy’s ability to counter China’s ASBMs is discussed in detail in this report in Appendix B. The
issue of the Navy’s ability to counter wake-homing torpedoes may have been made more pressing
by the reportedly poor performance of an anti-torpedo torpedo that the Navy was developing as a
means for Navy surface ships to counter hard-to-decoy wake-homing torpedoes and other
torpedoes. The Navy now reportedly plans to remove the anti-torpedo torpedo system from the
ships that were equipped with it.121
The Navy in recent years has initiated efforts to develop and procure longer-ranged ASCMs, but
some observers have expressed frustration that these efforts are not moving quickly enough.122 In
support of its efforts, the Navy testified in June 2021 that
Strike Weapons
The Department continues to support a wider, more systematic approach towards
delivering offensive weapons balance. By preserving the readiness and capacity of our key
strike weapons inventories, pursuing strike weapon capability enhancements, and
developing next-generation strike missile capabilities, the DON will increase overall force
effectiveness to address emerging threats.
Tomahawk
In the FY 2022 budget request, the Department sustains the Tomahawk as the nation's
premier all-weather, long-range, survivable deep strike offensive weapon to include new
production and recertification of current inventory. For Maritime Strike Tomahawk (MST),
the FY 2022 budget request provides continuation of initial shipboard and shore-side
mission planning and funds software builds to support first test of all MST system segments
at NSWC in the first quarter of FY 2022. FY 2022 MST Test and Evaluation (T&E) plans
include missile functional ground testing and missile test flights from a ground launcher
apparatus to assess seeker performance, mature and refine seeker algorithms, and provide
verification and validation data for Modeling and Simulation. MST IOC is planned for the
FY 2024.
Offensive Anti-Surface Warfare (OASuW) Increment 1/ Long Range Anti-Ship
Missile (LRASM)

OASuW Increment 1/LRASM provides Combatant Commander the ability to conduct
ASuW operations against near/mid-term high-value surface combatants protected by
Integrated Air Defense Systems with long-range Surface-to-Air-Missiles and to deny
adversaries sanctuary of maneuver. The program achieved Early Operational Capability on
the Air Force B-1B in early FY 2019 and on the Navy’s F/A-18E/F aircraft in early FY
2020. The FY 2022 President’s Budget Continuation of and completion of USN LRASM

5, 2021.
120 See CRS Report RL32665, Navy Force Structure and Shipbuilding Plans: Background and Issues for Congress, by
Ronald O'Rourke, and CRS Report R45757, Navy Large Unm anned Surface and Undersea Vehicles: Background and
Issues for Congress
, by Ronald O'Rourke.
121 For additional discussion, see Alex Lockie, “US Navy Admits Failure on $760 Million Weapon to Protect Its
Aircraft Carriers from An Age-Old T hreat,” Business Insider, February 5, 2019; Joseph T revithick, “The Navy Is
Ripping Out Underperforming Anti-T orpedo T orpedoes From Its Supercarriers,” The Drive, February 5, 2019.
122 See, for example, James T urnwall, “T he Navy Is Losing the Missile Arms Race,” U.S. Naval Institute Proceedings,
November 2019. For a similar discussion regarding U.S. and Chinese air -to-air missiles, see Douglas Barrie, “ Will
America’s Next Long-Range Air-to-Air Missile Match Up to China’s?” Defense One, October 22, 2019.
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1.1 development, which will deliver incremental upgrades to keep pace with emerging
threat capability and increase in LRASM quantities through the FYDP.
Advanced Anti-Radiation Guided Missile (AARGM) & AARGM Extended-Range
AARGM procurement completed in FY 2021 with deliveries continuing through FY 2024
in support of the transition to AARGM-ER. AARGM-ER provides the Department of the
Navy with a 5th Generation compatible extended range asset to project power and provide
Suppression of Enemy Air Defenses, both at-sea and on land. There have been 1218
AARGMs (All Up Rounds, Training Missiles, and Spares) delivered to the Fleet (as of 26
May 2021). Program of record delivery is 1803 missiles. The FY 2022 President’s Budget
supports an AARGM-ER ramp in production through FYDP and supports transition into
system-level developmental testing and operational testing of production representative
hardware.123
An April 19, 2021, press report stated: “Exposing a new layer of long-range striking power for the
U.S. Navy carrier battle group, a photo obtained by Aerospace DAILY shows what appears to be
a Raytheon RIM-174 SM-6 missile integrated on a left wing pylon of a Boeing F/A-18F Super
Hornet in flight.”124
The issue of the operating range of Navy carrier air wings is a key component of an ongoing
debate over the future survivability, utility, and cost-effectiveness of aircraft carriers and their air
wings, with critics arguing that the current operating range of Navy carrier air wings wil force
Navy aircraft carriers to operate wel within the ranges of Chinese ASBMs or other A2/AD
systems, which could put the carriers’ survivability at substantial risk, or alternatively require
carriers to operate beyond the range of those Chinese A2/AD systems, in locations that are safer
but so far away that the carriers and their air wings wil contribute little combat capability.
A key U.S. Navy program for increasing the operating range of Navy carrier air wings is the MQ-
25 Stingray program, which is a program to acquire a carrier-based unmanned aerial vehicle
(UAV) for use as a tanker for in-flight refueling of manned carrier-based aircraft (with a
secondary mission of intel igence, surveil ance, and reconnaissance). Some observers, while not
necessarily objecting to the MQ-25 program, argue that the Navy should do more to increase the
operating range of Navy carrier air wings, such as developing a stealthy, carrier-based UAV
capable of penetrating enemy air defenses and striking land targets at very long ranges.
The issue of acquisition policies and the metrics for judging their success is discussed in more
detail in another CRS report.125
Legislative Activity for FY2022
The Navy’s proposed FY2022 budget was submitted to Congress on May 28, 2021.

123 Statement of Frederick J. Stefany, Acting Assistant Secretary of the Navy for Research, Development and
Acquisition (ASN (RD&A)) and Vice Admiral James W. Kilby, Deputy Chief of Naval Operations, Warfighting
Requirements and Capabilities (OPNAV N9) and Lieutenant General Eric M. Smith, Deputy Commandant, Combat
Development and Integration, Commanding General, Marine Corps Combat Development Command, before the
Subcommittee on Seapower of the Senate Armed Services Committee on Department of the Navy Fiscal Year 2022
Budget Request for Seapower, June 8, 2021, pp. 26 -27.
124 “T he Weekly Debrief: Air-Launched, SM-6-Like Missile Exposed In New T est Photo,” Aviation Week, April 19,
2021.
125 See CRS Report R43838, Renewed Great Power Competition: Implications for Defense—Issues for Congress, by
Ronald O'Rourke.
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Coverage in Related CRS Reports
A variety of CRS reports cover U.S. Navy programs that in varying degrees can be viewed as
responses to, at least in part, China’s naval modernization effort. These reports include but are not
limited to the following:
 CRS Report RL32665, Navy Force Structure and Shipbuilding Plans:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report RL32418, Navy Virginia (SSN-774) Class Attack Submarine
Procurement: Background and Issues for Congress, by Ronald O'Rourke
 CRS In Focus IF11826, Navy Next-Generation Attack Submarine (SSN[X])
Program: Background and Issues for Congress, by Ronald O'Rourke
 CRS Report RS20643, Navy Ford (CVN-78) Class Aircraft Carrier Program:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report RL30563, F-35 Joint Strike Fighter (JSF) Program, by Jeremiah
Gertler (the JSF program is a joint DOD program with Navy participation)
 CRS Report RL32109, Navy DDG-51 and DDG-1000 Destroyer Programs:
Background and Issues for Congress, by Ronald O'Rourke
 CRS In Focus IF11679, Navy DDG(X) Next-Generation Destroyer Program:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report RL33745, Navy Aegis Ballistic Missile Defense (BMD) Program:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report R44972, Navy Constellation (FFG-62) Class Frigate (Previously
FFG[X]) Program: Background and Issues for Congress, by Ronald O'Rourke
 CRS Report R46374, Navy Light Amphibious Warship (LAW) Program:
Background and Issues for Congress, by Ronald O'Rourke
 CRS In Focus IF11674, Navy Next-Generation Logistics Ship (NGLS) Program:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report R45757, Navy Large Unmanned Surface and Undersea Vehicles:
Background and Issues for Congress, by Ronald O'Rourke
 CRS Report R44175, Navy Lasers, Railgun, and Gun-Launched Guided
Projectile: Background and Issues for Congress, by Ronald O'Rourke
FY2022 National Defense Authorization Act (H.R. 4350/S. 2792)
House
The House Armed Services Committee, in its report (H.Rept. 117-118 of September 10, 2021) on
H.R. 4350, states:
Mine Warfare
Given advances in mine warfare and the important role it could play in a high -intensity
conflict, the committee is concerned about the People’s Liberation Army Navy (PLAN) in
both mine warfare capability and capacity. The committee requires additional information
regarding the U.S. Navy’s own offensive and defensive mine warfare capabilities.
Therefore, the committee directs the Secretary of Defense to provide a briefing to the
House Committee on Armed Services, not later than March 1, 2022, detailing the projected
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impact to U.S. operational plans of PLAN mine warfare operations, including but not
limited to, a conflict over Taiwan. The briefing should examine the following questions:
(1) What would be the objectives of Chinese employment of mine warfare in an invasion
of Taiwan?
(2) Do present PLAN mine warfare capabilities allow the People’s Republic of China to
meet the objectives described in paragraph (1)?
(3) What countermeasures are Taiwan, the United States, and other partners able to employ
that might reduce the effectiveness of the PLAN’s mine warfare?
(4) What would be the optimal use of U.S. and Taiwanese offensive and defense mine
warfare capabilities to contribute to efforts to deny a fait accompli against Taiwan?
(5) Do either the U.S. or Taiwanese Navy currently maintain the capabilities described in
paragraph (4)? If not, what resources, platforms, or ordinances would be required to obtain
said capabilities?
(6) How would the additions described in paragraph (5) contribute to the ability of the
Department of Defense to execute its operational plans? (Page 245)
H.Rept. 117-118 also states:
PLA Civilian Strategic Mobility Capacity
The committee remains focused on deterring Chinese aggression, and particularly the
threat of military force against Taiwan. To that end, the committee is con cerned by the
recent reports surrounding the People’s Liberation Army Navy’s (PLAN’s) potential use
of civilian vessels to expand the size of its amphibious lift capacity as well as the potential
use of other non-military, stateowned or private assets to assist in the invasion of Taiwan.
Consequently, the committee directs the Commander of U.S. Indo -Pacific Command to
submit a report to the congressional defense committees no later than January 1, 2022,
including:
(1) An assessment of the People’s Liberation Army Navy amphibious transport capacity,
including an analysis of the role that commercial ferries and other relevant private or
publicly-owned vessels could play during an invasion of Taiwan;
(2) An assessment of the potential use of civilian airliners for military purposes, including
to support of an invasion of Taiwan;
(3) An analysis of how the capabilities outlined in paragraphs (1) and (2) could impact the
ability of the People’s Republic of China to execute a successful invasion of Taiwan, the
operational planning assumptions of Indo-Pacific command, and any required capability
or force structure changes to successfully prevent a fait accompli against Taiwan. (Page
247)
H.Rept. 117-118 also states:
Report on Anti-Ship Systems for Defense of Taiwan
The committee supports the strategic partnership between the United States and Taiwan,
and notes the importance of anti-ship systems in defending the territorial integrity of the
Government of Taiwan. The committee further notes the urgent need for ground-based
anti-ship cruise missiles, ground-based cruise missiles, and anti-ship mines to defend
United States and allied forces in the Indo-Pacific against growing threats and deter conflict
in the region. The committee strongly supports an effort to expand defense industrial
cooperation with the Government of Taiwan. Therefore, the committee directs the
Secretary of Defense to submit to the congressional defense committees a report by January
31, 2022, on what anti-ship systems and capabilities in the extant U.S. military hardware
inventory might be used to enhance the defense of Taiwan, and plans on how these systems
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and capabilities could be incorporated into the current milit ary of the Government of
Taiwan to enhance their self-defense capabilities. (Page 248)
Senate
The Senate Armed Services Committee, in its report (S.Rept. 117-39 of September 22 [legislative
day, September 21], 2021) on S. 2792, states:
Comparative assessment of naval shipbuilding costs
The committee believes that one aspect of defense strategy implementation is a detailed
understanding of the relative purchasing power for similar weapons systems among the
great power competitors. To this end, the committee desires a better understanding of the
comparative costs of naval shipbuilding in the United States, China, and Russia.
Therefore the committee directs the Secretary of the Navy to submit, not later than March
1, 2022, a report to the congressional defense committees on the comparative costs of naval
shipbuilding in the United States, China, and Russia. The report shall include a comparison
of the following costs in the United States, China, and Russia:
(1) The approximate end cost to construct an aircraft carrier, attack submarine, ballistic
missile submarine, large surface combatant, small surface combatant, and amphibious
ship. For each category of vessel, a description of the key quantitative and qualitative
differences of the vessels being assessed with associated cost implications shal be
included;
(2) The approximate cost of key commodities used in naval shipbuilding, including
one ton of steel;
(3) The approximate cost of key labor resources used in naval shipbuilding, including
one production labor hour, one electrician labor hour, and one design labor hour;
(4) The approximate cost of key combat s ubsystems used in naval vessels, including
air and missile defense radars, electronic warfare suites, anti-submarine capabilities,
and shipboard combat system software. For each category of subsystem, a description
of the key quantitative and qualitative differences of the subsystems being assessed
with associated cost implications shall be included;
(5) The approximate cost of key hull, mechanical, and electric subsystems used in
naval vessels, including main engines, electrical generators, shafting, and air
conditioning systems. For each category of subsystem, a description of the key
quantitative and qualitative differences of the subsystems being assessed with
associated cost implications shall be included; and
(6) Other cost drivers in naval shipbuilding, as identified by the Secretary, with the
associated costs.
The report shall be submitted in unclassified form and may include a classified annex.
(Pages 236-237)

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Appendix A. Comparing U.S. and Chinese Numbers
of Ships and Naval Capabilities
This appendix presents some additional discussion of factors involved in comparing U.S. and
Chinese numbers of ships and naval capabilities.
U.S. and Chinese naval capabilities are sometimes compared by showing comparative numbers of
U.S. and Chinese ships. Although the total number of ships in a navy (or a navy’s aggregate
tonnage) is relatively easy to calculate, it is a one-dimensional measure that leaves out numerous
other factors that bear on a navy’s capabilities and how those capabilities compare to its assigned
missions. One-dimensional comparisons of the total numbers of ships in China’s navy and the
U.S. Navy are highly problematic as a means of assessing relative U.S. and Chinese naval
capabilities and how those capabilities compare to the missions assigned to those navies, for the
following reasons:
A fleet’s total number of ships (or its aggregate tonnage) is only a partial
metric of its capability. Many factors other than ship numbers (or aggregate
tonnage) contribute to naval capability, including types 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. In light of this, 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 principal y on
the basis of easily observed factors such as ship numbers and tonnages has
become increasingly less reliable, and today is highly problematic.
Total numbers of ships of a given type (such as submarines or surface
combatants) can obscure potentially significant differences in the
capabilities of those ships, both between navies and within one country’s
navy.
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).
A focus on total ship numbers reinforces the notion that changes in total
numbers necessarily translate into corresponding or proportional changes in
aggregate capability.
For a Navy like China’s, which is modernizing by
replacing older, obsolescent ships with more modern and more capable ships, this
is not necessarily the case. As shown in Table 1 and Table 2, for example,
China’s attack submarine force today has only a slightly larger number of boats
than it had in 2000 or 2005, but it has considerably more aggregate capability
than it did in 2000 or 2005, because the force today includes a much larger
percentage of relatively modern designs.
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Comparisons of total numbers of ships (or aggregate tonnages) do not take
into account the differing global responsibilities and homeporting locations
of each fleet.
The U.S. Navy has substantial worldwide responsibilities, and a
substantial fraction of the U.S. fleet is homeported in the Atlantic. As a
consequence, only a certain portion of the U.S. Navy might be available for a
crisis or conflict scenario in China’s near-seas region, or could reach that area
within a certain amount of time. In contrast, China’s navy has more-limited
responsibilities outside China’s near-seas region, and its ships are al homeported
along China’s coast at locations that face directly onto China’s near-seas region.
In a U.S.-China conflict inside the first island chain, U.S. naval and other forces
would be operating at the end of general y long supply lines, while Chinese naval
and other forces would be operating at the end of general y short supply lines.
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 bal istic 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.
A 2015 RAND report attempted to take factors like those discussed above more fully into account
with the aim of producing a more comprehensive assessment of relative U.S. and Chinese
military capabilities for potential conflict scenarios involving Taiwan and the Spratly Islands in
the South China Sea. The report stated the following:
Over the past two decades, China’s People’s Liberation Army (PLA) has transformed itself
from a large but antiquated force into a capable, modern military. In most areas, its
technology and skill levels lag behind those of the United States, but it has narrowed the
gap. Moreover, it enjoys the advantage of proximity in most plausible scenarios and has
developed capabilities that capitalize on that advantage....
... four broad trends emerge:
• Since 1996, the PLA has made tremendous strides, and, despite improvements to the U.S.
military, the net change in capabilities is moving in favor of China. Some aspects of
Chinese military modernization, such as improvements to PLA ballistic missiles, fighter
aircraft, and attack submarines, have come extraordinarily quickly by any reasonable
historical standard.
• The trends vary by mission area, and relative Chinese gains have not been uniform across
all areas. In some areas, U.S. improvements have given the United States new options, or
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at least mitigated the speed at which Chinese military modernization has shifted the relative
balance.
• Distances, even relatively short distances, have a major impact on the two sides’ ability
to achieve critical objectives. Chinese power projection capabilities are improving, but
present limitations mean that the PLA’s ability to influence events and win battles
diminishes rapidly beyond the unrefueled range of jet fighters and diesel submarines. This
is likely to change in the years beyond those considered in this report, though operating at
greater distances from China will always work, on balance, against China.
• The PLA is not close to catching up to the U.S. military in terms of aggregate capabilities,
but it does not need to catch up to the United States to dominate its immediate periphery.
The advantages conferred by proximity severely complicate U.S. military tasks while
providing major advantages to the PLA. This is the central finding of this study and
highlights the value of campaign analysis, rather than more abstract assessments of
capabilities.
Over the next five to 15 years, if U.S. and PLA forces remain on roughly current
trajectories, Asia will witness a progressively receding frontier of U.S. dominance. The
United States would probably still prevail in a protracted war centered in virtually any area,
and Beijing should not infer from the above generalization that it stands to gain from
conflict. U.S. and Chinese forces would likely face losses on a scale that neither has
suffered in recent decades. But PLA forces will become more capable of establishing
temporary local air and naval superiority at the outset of a conflict. In certain regional
contingencies, this temporal or local superiority might enable the PLA to achieve limited
objectives without “defeating” U.S. forces. Perhaps even more worrisome from a military-
political perspective, the ability to contest dominance might lead Chinese leaders to believe
that they could deter U.S. intervention in a conflict between it and one or more of its
neighbors. This, in turn, would undermine U.S. deterrence and could, in a crisis, tip the
balance of debate in Beijing as to the advisability of using force....
Although trends in the military balance are running against the United States, there are
many actions that the United States could take to reinforce deterrence and continue to serve
as the ultimate force for stability in the Western Pacific.126
As mentioned earlier, while comparisons of the total numbers of ships in China’s Navy and the
U.S. Navy are highly problematic as a means of assessing relative U.S. and Chinese naval
capabilities and how those capabilities compare to the missions assigned to those navies, an
examination of the trends over time in the relative numbers of ships can shed some light on how
the relative balance of U.S. and Chinese naval capabilities might be changing over time.

126 Eric Heginbotham, The U.S.-China Military Scorecard, Forces, Geography, and the Evolving Balance of Power,
1996-2017
, Santa Monica (CA), RAND Corporation, 2015 (RAND report RR-392), pp. xix, xxx-xxxii.
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Appendix B. U.S. Navy’s Ability to Counter
Chinese ASBMs
This appendix provides additional discussion of the issue of the U.S. 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.
Countering China’s projected ASBMs could involve employing a combination of active (i.e.,
“hard-kil ”) measures, such as shooting down ASBMs with interceptor missiles, and passive (i.e.,
“soft-kil ”) 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 “kil 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 kil 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,
and requirements, as stating in regard to Air Force planning that “We’ve taken [China’s] kil
chains apart to the ‘nth’ degree.”127
To attack the ASBM kil 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.128 The Navy could acquire weapons and systems
for disabling or jamming China’s long-range maritime surveil ance 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 the SM-3 midcourse BMD interceptor missile (including the new Block IIA

127 David A. Fulghum, “USAF: Slash And Burn Defense Cuts Will Cost Missions, Capabilities,” Aerospace Daily &
Defense Report
, September 30, 2011: 6.
128 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, T he 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 T hesis 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; Jon Solomon, “ Deception and the Backfire Bomber: Reexamining the Late
Cold War Struggle Between Soviet Maritime Reconnaissance and U.S. Navy Countertargeting,” Inform ation
Dissem ination
(www.inform ationdissem ination.net), October 27, 2014; John Solomon, “ Deception and the Backfire
Bomber, Part II,” Information Dissemination (www.informationdissemination.net), October 28, 2014; John Solomon,
“Deception and the Backfire Bomber, Part III,” Information Dissemination (www.informationdissemination.net),
October 29, 2014; John Solomon, “ Deception and the Backfire Bomber, Part IV,” Inform ation Dissem ination
(www.inform ationdissem ination.net), October 30, 2014.
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version), the SM-6 terminal-defense BMD interceptor missile,129 and accelerating development
and deployment of the hypervelocity projectile (HVP), electromagnetic rail gun (EMRG), and
solid state lasers (SSLs).130 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 or radar-opaque carbon-fiber clouds, that
could confuse an ASBM’s terminal-guidance radar.131
An October 4, 2016, press report states the following:
Several times in the past, [Chief of Naval Operations John] Richardson has stressed that
long range weapons developments from adversarial nations like Russia and China aren't
the end-all, be-all of naval conflicts.
Just because China’s “carrier-killer” missile has a greater range than the planes aboard a
US aircraft carrier doesn't mean the US would shy away from deploying a carrier within
that range, Richardson has stated on different occasions.
Again, Richardson challenged the notion that a so -called A2/AD zone was “an
impenetrable keep out zone that forces can only enter at extreme peril to their existence,
let alone their mission.”
Richardson took particular issue with the “denial” aspect of A2/AD, repeating his assertion
that this denial is an “aspiration” not a “fait accompli.” The maps so common in
representing these threats often mark off the limits of different system’s ranges with “red
arcs that extend off coastlines,” with the implication that military forces crossing these
lines face “certain destruction.”
But this is all speculation according to Richardson: “The reality is far more complex, it’s
actually really hard to achieve a hit. It requires the completion of a really complex chain of
events.... these arcs represent danger for sure... but the threats they are based on are not
insurmountable, and can be managed, will be managed.”
“We can fight from within these defended areas, and we will... this is nothing new and has
been done before,” said Richardson.
So while Russia and China can develop missiles and radars and declare their ranges on
paper, things get a lot trickier in the real world, where the US has the most and best
experience in operating.
“Potential adversaries actually have different geographic features like choke points,
islands, ocean currents, mountains,” said Richardson, who urged against oversimplifying
complicated, and always unique circumstances in so-called A2/AD zones.
“Have no doubt, the US navy is prepared to go wherever it needs to go, at any time, and
stay there for as long as necessary in response to our leadership’s call to project our
strategic influence,” Richardson concluded.

129 For more on the SM-3, including the Block IIA version, and the SM-6, see CRS Report RL33745, Navy Aegis
Ballistic Missile Defense (BMD) Program : Background and Issues for Congress
, by Ronald O'Rourke.
130 For more on HVP, EMRG, and SSLs, see CRS Report R44175, Navy Lasers, Railgun, and Gun-Launched Guided
Projectile: Background and Issues for Congress
, by Ronald O'Rourke.
131 Regarding electronic warfare, see, for example, Brett T ingley, “The Navy’ s Secretive And Revolutionary Program
T o Project False Fleets From Drone Swarms,” The Drive, November 7, 2019. Regarding the option of systems for
generating radar-opaque smoke clouds, T homas J. Culora, “ T he Strategic Implications of Obscurants,” Naval War
College Review
, Summer 2010: 73-84; Scott T ait, “ Make Smoke!” U.S. Naval Institute Proceedings, June 2011: 58 -63.
Regarding radar-opaque carbon-fiber clouds, see “ 7th Fleet T ests Innovative Missile Defense System,” Navy News
Services, June 26, 2014; Kevin McCaney, “Navy’s Carbon -Fiber Clouds Could Make Incoming Missiles Miss T heir
T argets,” Defense Systems (http://defensesystems.com), June 27, 2014. See also Sydney J. Freedberg Jr., “Cyber, EW
Are Secret Missile Defense Weapons T oo Secret T o Use,” Breaking Defense, December 4, 2015.
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Similarly, an August 29, 2016, press report states the following:
The United States Navy is absolutely confident in the ability of its aircraft carriers and
carrier air wings to fly and fight within zones defended by so-called anti-access/area denial
(A2/AD) weapons....
In the view of the U.S. Navy leadership, A2/AD—as it is now called—has existed since
the dawn of warfare when primitive man was fighting with rocks and spears. Overtime,
A2/AD techniques have evolved as technology has improved with ever-greater range and
lethality. Rocks and spears eventually gave way to bows and arrows, muskets and cannons.
Thus, the advent of long-range anti-ship cruise and ballistic missiles is simply another
technological evolution of A2/AD.
“This is the next play in that,” Adm. John Richardson, chief of naval operations, told The
National Interest on Aug. 25 during an interview in his office in the Pentagon. “This
A2/AD, well, it’s certainly a goal for some of our competitors, but achieving that goal is
much different and much more complicated.”
Indeed, as many U.S. Navy commanders including Richardson and Rear Adm. (Upper
Half) DeWolfe Miller, the service’s director of air warfare, have pointed out, anti-access
bubbles defended by Chinese DF-21D or DF-26 anti-ship ballistic missile systems or
Russian Bastion-P supersonic anti-ship missile systems are not impenetrable ‘Iron Domes.’
Nor do formidable Russian and Chinese air defense systems such as the S-400 or HQ-9
necessarily render the airspace they protect into no-go zones for the carrier air wing.
Asked directly if he was confident in the ability of the aircraft carrier and its air wing to
fight inside an A2/AD zone protected by anti-ship cruise and ballistic missiles as wel as
advanced air defenses, Richardson was unequivocal in his answer. “Yes,” Richardson
said—but he would not say how exactly how due to the need for operational security. “It’s
really a suite of capabilities, but I actually think we’re talking too much in the open about
some of the things we’re doing, so I want to be thoughtful about how we talk about things
so we don’t give any of our competitors an advantage.”...
Miller said that there have been threats to the carrier since the dawn of naval aviation. In
many ways, the threat to the carrier was arguably much greater during the Cold War when
the Soviet Union massed entire regiments of Tupolev Tu -22M3 Backfires and deployed
massive cruise missile-armed Oscar-class SSGN submarines to hunt down and destroy the
Navy’s flattops. The service developed ways to defeat the Soviet threat—and the carrier
will adapt to fight in the current environment.
“We could have had this interview twenty-years-ago and there would have been a threat,”
Miller said. “The nature of war and A2/AD is not new—that’s my point. I don’t want to
downplay it, but our improvements in information warfare, electronic warfare, payloads,
the weapons systems that we’ve previously talked about—plus our ability to train to those
capabilities that we have—we will create sanctuaries, we’ll fight in those s anctuaries and
we’re a maneuver force.”132
An October 18, 2017, blog post states the following:
Assuming the DF-21D is ready for battle, can America defend against China’s mighty
missile?

132 Dave Majumdar, “Chief of Naval Operations Richardson: US Aircraft Carriers Can Fight Inside A2/AD Zon es,”
National Interest, August 29, 2016. See also Ryan Pickrell, “ Navy Admirals Brush Aside Biggest Worry Of Modern
Naval Combat,” Daily Caller, August 31, 2016; Dave Majumdar, “Here Is Why the US Military Is Not In Panic Mode
Over China’s Carrier-Killer Missiles,” National Interest, June 20, 2016.
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While opinions are clearly mixed—in speaking to many sources over the last several years
on this topic—it seems clear there is great nervousness in U.S. defense circles. However,
as time has passed, initial fears have turned towards a more optimistic assessment....
In the end, the weapon might not be the great “game-changer” that many point it out to be,
but a great complicator.133
A January 28, 2021, press report states:
The U.S. Navy's top intelligence officer has said the service is watching closely as China
expands its anti-ship missile capabilities, particularly in and around the disputed South
China Sea, to include the ongoing development of long-range anti-ship ballistic missiles.
At the same time, he said he “hopes” that China's People's Liberation Army will continue
to invest significant resources into these efforts, hinting that the U.S. Navy already has
extensive measures to counter these threats already in use now or in development.
Navy Vice Admiral Jeffrey Trussler, the Deputy Chief of Naval Operations for Information
Warfare, made his remarks about China's anti-ship missile arsenal during an online event
put on by the non-profit Intelligence and National Security Alliance on Jan. 27, 2021….
… not only did Vice Admiral Trussler seem less concerned about PLA anti-ship missile
capabilities than one would expect, he made clear he was happy with them continuing to
pour time and resources into those efforts.
“I hope they just keep pouring money into that type of thing,” he said. “That may not be
how we win the next war.”
The clear indication here is that Trussler is aware of countermeasures, whether they be
certain systems or tactics, techniques, and procedures, that are either available now or in
development. The Vice Admiral did not offer any specific details about what the Navy is
doing to go along with these remarks….
We also know that, by 2019, warships assigned to the Navy's 7th Fleet, which is based in
Japan, were fitted with the AN/SLQ-59 Transportable Electronic Warfare Modules
(TEWM). TEWM is described as a “counter-terminal threat defensive system,” indicating
that it is designed to help defeat incoming anti-ship missiles, or other threats, such as
swarms of small drones, in the final phase of their attack on a ship. Based on the
information available, The War Zone previously assessed that the AN/SLQ-59 was most
likely acquired in response to growing cruise missile threats, and Chinese developments,
in particular, given its fielding first on ships forward-deployed in Japan.
The Navy has also been hard at work developing an entire networked electronic warfare
“ecosystem,” as part of its shadowy Netted Emulation of Multi-Element Signature against
Integrated Sensors program, or NEMESIS. The goal here has been to craft a ‘system of
systems’ comprising of various manned and unmanned ships, as well as submarines and
aircraft, equipped with electronic warfare systems that can work together cooperatively.
One of the key uses of these capabilities would be to generate signals that mimic real fleets
of ships and aircraft to distract and confuse opponents, making it difficult for them to
effectively spot and target real Navy assets. These networked electronic warfare platforms
could also employ other kinds of electronic warfare tactics across a broad area to protect
against various kinds of threats. You can read more about NEMSIS in detail in this past
War Zone feature.134

133 Harry J. Kazianis, “ Could China’s Aircraft Carrier Killer Missiles ‘Sink’ the U.S. Navy?” National Interest, October
18, 2017. See also Dick Mosier, “Breaking the Anti-Ship Missile Kill Chain,” Center for International Maritime
Security, February 26, 2018; Richard A. Bitzinger, “T he Myth of the ‘Game-Changer’ Weapon,” Asia T imes, April 26,
2018.
134 T he article linked at this point is Brett T ingley, “ T he Navy’s Secretive And Revolutionary Program T o Project False
Fleets From Drone Swarms,” The Drive, November 7, 2019.
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A highly adaptive and deeply networked electronic warfare ecosystem could be particularly
useful against long-range anti-ship missile strikes, especially using ballistic missiles, which
would require targeting information from offboard platforms and the ability to send
updated information to the weapon during the mid-course stage of flight….
The Navy does have Arleigh Burke class destroyers outfitted specifically for ballistic
missile defense, including the ability to launch the SM-3 Block IIA interceptor, which is
designed to knock down ballistic missiles during the mid -course portion of their flight.
Those ships are also slated to get interceptors designed to bring down hypersonic weapons
in the future as part of the Regional Glide Phase Weapon System (RGPWS) program….
The Navy, which has been looking to stop deploying Arleigh Burkes on dedicated missile
defense missions, could seek to make more widespread use of the SM -3 Block IIA in the
future. Those destroyers and other ships could gain additional missile defense capabilities
as the improved Block IB variant of the SM-6 missile begins to enter service. Existing
Block I and IA versions of the SM-6 already have the ability to intercept ballistic missiles
during the terminal phase of their flight, as well as engage various other aerial and surface
threats. The SM-6, in particular, potentially provides a potent defense against anti-ship
ballistic missiles, especially those that break through mid -course traditional ballistic
missile defenses, if mid-course ballistic missile defense assets are available at all.
There’s the possibility that Vice Admiral Trussler is aware of other developments in the
classified realm that could further mitigate some or all of these threats, as well. Beyond
that, there’s no discounting that his public comments, which are certain to be scrutinized
by the PLA itself, are a form of misinformation designed to prompt concerns within the
Chinese military that its priorities may be, in some way, seriously off base.
Whatever the case, the threat posed by China’s anti-ship missile arsenal, which continues
to grow in capability, including with the development of new anti-ship ballistic missiles, is
real. At the same time, while the Navy obviously knows this, the service seems to be
strongly hinting that it feels it making very good progress on getting around these
challenges, or at least wants to make the Chinese think so.135
Regarding the above-reported remarks by Vice Admiral Trussler, a January 29, 2021, press report
stated:
That confident [U.S. Navy] posture caught the attention of the Chinese military
establishment. “What Trussler is saying is that the U.S. has sufficient power to handle the
anti-ship missile threat from China,” former People’s Liberation Army instructor Song
Zhongping told the South China Morning Post on Friday [January 29]. “The U.S. is
emphasizing that threat and it will further boost its defenses against Chinese missiles.”136


135 Joseph T revithick, “Top Navy Intel Officer Hopes China Will Keep Dumping Money Into Anti-Ship Ballistic
Missiles, T he Navy Is Strongly Hinting that It Feels It Is Well on Its Way to Mitigating the Very Real T hreats Posed by
Anti-Ship Ballistic and Cruise Missiles,” The Drive, January 28, 2021. See also Mallory Shelbourne, “ U.S. Admiral:
China Can ‘Keep Pouring Money’ Into Anti-Ship Ballistic Missiles,” USNI News, January 27, 2021.
136 Joel Gehrke, “China’s ‘Carrier Killer’ and Military Won’t ‘Win the Next War,’ US admiral Says,” Washington
Exam iner
, January 29, 2021. T he South China Morning Post article being cited is T eddy Ng and Minnie Chan, “ US
Admiral Calls China’s Anti-Ship Ballistic Missiles a ‘Destabilising Effort’ that May Not Win a War,” South China
Morning Post
, January 29, 2021.
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Author Information

Ronald O'Rourke

Specialist in Naval Affairs



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