Marine Corps Amphibious Combat Vehicle
(ACV) and Marine Personnel Carrier (MPC):
Background and Issues for Congress

Andrew Feickert
Specialist in Military Ground Forces
January 6, 2015
Congressional Research Service
7-5700
www.crs.gov
R42723


Marine Corps Amphibious Combat Vehicle (ACV) and Marine Personnel Carrier (MPC)

Summary
On January 6, 2011, after spending approximately $3 billion in developmental funding, the
Marine Corps cancelled the Expeditionary Fighting Vehicle (EFV) program due to poor reliability
demonstrated during operational testing and excessive cost growth. Because the EFV was
intended to replace the 40-year-old Amphibious Assault Vehicle (AAV), the Pentagon pledged to
move quickly to develop a “more affordable and sustainable” vehicle to replace the EFV. The
Amphibious Combat Vehicle (ACV) is intended to replace the AAV, incorporating some EFV
capabilities but in a more practical and cost-efficient manner. In concert with the ACV, the
Marines were developing the Marine Personnel Carrier (MPC) to serve as a survivable and
mobile platform to transport Marines when ashore. The MPC was not intended to be amphibious
like an AAV, EFV, or the ACV but instead would be required to have a swim capability for inland
waterways such as rivers, lakes, and other water obstacles such as shore-to-shore operations in the
littorals. Both vehicles are intended to play a central role in future Marine amphibious operations.
On June 14, 2013, Marine leadership put the MPC program “on ice” due to budgetary pressures
but suggested the program might be resurrected some 10 years down the road when budgetary
resources might be more favorable.
In what was described as a “drastic shift,” the Marines decided to “resurrect” the MPC in March
2014. The Marines designated the MPC as ACV Increment 1.1 and planned to acquire about 200
vehicles. The Marines also plan to develop ACV Increment 1.2, a tracked, fully amphibious
version, and to acquire about 470 vehicles and fund an ongoing high water speed study. Although
ACV Increment 1.1 will have a swim capability, a “connector” will be required to get the vehicles
from ship to shore.
In April 2014, the Marines issued a Request for Information (RFI) to industry for ACV Increment
1.1. This requirement calls for industry to deliver 16 prototype vehicles nine months after contract
award in April 2016 at a rate of four vehicles per month. The Marines estimate ACV Increment
1.1 will cost about $5 million to $6 million per vehicle, about $10 million less than what the
previous ACV version was expected to cost.
On November 5, 2014, it was reported the Marines released a draft RFP for ACV Increment 1.1.
The Marines are looking for information from industry regarding program milestones, delivery
schedules, and where in the program cost savings can be achieved. Plans are to issue a final RFP
in the spring of 2015 for two companies to build 16 prototype vehicles each for testing.
The Administration’s FY2015 budget request for the ACV is $105.7 million in Research,
Development, Testing and Evaluation (RDT&E) funding. S. 1847 authorizes full funding for the
ACV for FY2015.
A potential issue for Congress is the Marines’ new MPC/ACV acquisition strategy and its
associated challenges and risks. This report will be updated.

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Marine Corps Amphibious Combat Vehicle (ACV) and Marine Personnel Carrier (MPC)

Contents
Background ...................................................................................................................................... 1
Significance for Congress ................................................................................................................ 2
The Marines’ Justification for the ACV and MPC ........................................................................... 2
ACV ........................................................................................................................................... 2
MPC ........................................................................................................................................... 2
Desired Operational Capabilities ..................................................................................................... 3
ACV ........................................................................................................................................... 3
MPC ........................................................................................................................................... 3
Is There a Need for a Marine Corps Amphibious Assault Capability? ............................................ 4
Expeditionary Force 21 and “Finding the Seams” .................................................................... 5
The Shift Toward Connectors .................................................................................................... 7
Program Information........................................................................................................................ 7
2013 Decision to “Shelve” the MPC ......................................................................................... 7
Major Change to Marine Corps Modernization Strategy .......................................................... 8
Marines Release Request for Information (RFI) for ACV Increment 1.1 ................................. 8
Marines Release Draft Request for Proposal (RFP) for ACV Increment 1.1 ............................ 9
BAE Systems ...................................................................................................................... 9
General Dynamics Land Systems (GDLS) ......................................................................... 9
Lockheed Martin ................................................................................................................. 9
SAIC .................................................................................................................................... 9
Budget Activity .............................................................................................................................. 10
FY2015 Budget Request .......................................................................................................... 10
Rules Committee Print 113-58, House Amendment to the Text of S. 1847 ............................ 10
Potential Issue for Congress .......................................................................................................... 10
The Marines’ New ACV/MPC Acquisition Strategy ............................................................... 10

Contacts
Author Contact Information........................................................................................................... 11

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Marine Corps Amphibious Combat Vehicle (ACV) and Marine Personnel Carrier (MPC)

Background
U.S. Code, Title 10, Section 5063, United States Marine Corps: Composition and Functions,
dated October 1, 1986, states:
The Marine Corps will be organized, trained and equipped to provide an amphibious and
land operations capability to seize advanced naval bases and to conduct naval land
campaigns.
In this regard, the Marines are required by law to have the necessary equipment to conduct
amphibious operations and land operations. The ACV and MPC are considered integral systems
by the Department of Defense (DOD) and Marine Corps to meet this legal requirement.
On January 6, 2011, after spending approximately $3 billion in developmental funding, the
Marine Corps—with “encouragement” from DOD—cancelled the Expeditionary Fighting Vehicle
(EFV) program. The EFV was intended to replace the 40-year-old Amphibious Assault Vehicle
(AAV), which currently transports Marines from ships to shore under hostile conditions. The EFV
was cancelled due to excessive cost growth and poor performance in operational testing.
Recognizing the need to replace the AAV, the Pentagon pledged to move quickly to develop a
“more affordable and sustainable” vehicle to take the place of the EFV. The Amphibious Combat
Vehicle (ACV) is intended to replace the AAV, incorporating some EFV capabilities but in a more
practical and cost-efficient manner.
In concert with the ACV, the Marines were developing the Marine Personnel Carrier (MPC) to
serve as a survivable and mobile platform to transport Marines when ashore. At present, the
Marines do not have a wheeled armored fighting vehicle that can operate as a dedicated infantry
carrier with Marine maneuver forces inland. The MPC was not intended to be amphibious like an
AAV, EFV, or the ACV but instead would be required to have a swim1 capability for inland
waterways such as rivers, lakes, and other water obstacles such as shore-to-shore operations in the
littorals. Because of a perceived amphibious “redundancy,” some have questioned the need for
both the ACV and MPC. In June 2013, citing budgetary pressures, the Marines reportedly put the
MPC program “on ice” and suggested that it might not be resurrected for about 10 years.2
With the Marines involved in decades-long land conflicts in Iraq and Afghanistan and
proliferating anti-access technologies such as guided missiles, some analysts questioned if the
Marines would ever again be called on to conduct a large-scale amphibious assault operation. In
response to these questions and the perceived need to examine the post-Iraq and Afghanistan
Marine Corps, the Department of the Navy and DOD studied the requirement to conduct large-
scale amphibious operations and in early 2012 released a strategic vision for how amphibious
operations will be conducted in the future. The primary assertion of this study is that the Marine
Corps’ and Navy’s amphibious capabilities serve a central role in the defense of the global
interests of a maritime nation. The need to maintain an amphibious assault capability is viewed by
Marine Corps leadership as establishing the requirement for the ACV and MPC.

1 An amphibious capability generally refers to a vehicle’s ability to debark from a ship offshore at a considerable
distance and then move under fire to shore. A swim capability refers to a vehicle’s ability to traverse limited water
obstacles such as streams, rivers, and smaller bodies of inland water.
2 Lee Hudson, “Marines Put Marine Personnel Carrier on Shelf Due to Budget Constraints,” InsideDefense.com, June
14, 2013.
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Significance for Congress
Congress is responsible for authorizing and appropriating funds for all weapon systems programs,
including the ACV and the MPC. In its oversight role, Congress is concerned about how the ACV
and MPC would enable the Marines to conduct not only amphibious operations but also
operations ashore. Given past problems associated with EFV development, as well as current and
future budgetary constraints, Congress is actively looking at the necessity, viability, and
affordability of both programs.
The Marines’ Justification for the ACV and MPC
ACV
At present, the Marines use the AAV-7A1 series amphibious assault vehicle to move Marines
from ship to shore. The Marines have used the AAV since 1971 and will continue to use it until
replaced by the ACV or a similar vehicle. Over the years, the Marines claim the AAV has become
increasingly difficult to operate, maintain, and sustain. As weapons technology and threat
capabilities have evolved over the preceding four decades, the AAV—despite upgrades—is
viewed as having capabilities shortfalls in the areas of water and land mobility performance,
lethality, protection, and network capability. The AAV’s two-mile ship-to-shore range is viewed
by many as a significant survivability issue not only for the vehicle itself but also for naval
amphibious forces.
MPC
While the AAV has some armor protection and can operate inland to a limited extent, it is not
intended for use as an infantry combat vehicle. The Marines do have the LAV-25, Light Armored
Vehicle-25, an eight-wheeled armored vehicle that carries a crew of three and six additional
Marines. The LAV-25 is armed with a 25 mm chain gun and a 7.62 mm machine gun but is not
fully amphibious as it cannot cross a surf zone and would get to the beach via some type of
connector such as the Landing Craft, Air Cushioned (LCAC). The LAV-25 has been in service
since 1983. According to the Marine Program Executive Office (PEO) Land Systems, the LAV is
not employed as an armored personnel carrier and usually carries a four-person Marine
scout/reconnaissance team in addition to its crew.3 In this regard, the MPC was viewed as
necessary by Marine leadership for the transport and enhanced armor protection of Marine
infantry forces.

3 Program Executive Office (PEO) Land Systems Marine Personnel Carrier Fact Sheet, 2010.
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Desired Operational Capabilities
ACV4
The Marines’ 2011 Request for Information (RFI)5 to industry provides an overview of the
operational requirements for the ACV. These requirements include the following:
• The proposed vehicle must be able to self-deploy from amphibious shipping and
deliver a reinforced Marine infantry squad (17 Marines) from a launch distance at
or beyond 12 miles with a speed of not less than 8 knots in seas with 1-foot
significant wave height and must be able to operate in seas up to 3-foot
significant wave height.
• The vehicle must be able to maneuver with the mechanized task force for
sustained operations ashore in all types of terrain. The vehicle’s road and cross-
country speed as well as its range should be greater than or equal to the M-1A1.
• The vehicle’s protection characteristics should be able to protect against direct
and indirect fire and mines and improvised explosive device (IED) threats.
• The vehicle should be able to accommodate command and control (C2) systems
that permit it to operate both at sea and on land. The vehicle, at a minimum,
should have a stabilized machine gun in order to engage enemy infantry and light
vehicles.
MPC6
The Marine Corps’ 2011 Request for Information (RFI)7 to industry provided an overview of the
operational requirements for the MPC. These requirements included the following:
• The vehicle must accommodate nine Marines and two crew members and have a
“robust tactical swim capability (shore-to-shore [not designed to embark from an
amphibious ship]) and be capable of operating at 6 knots in a fully developed
sea.”8

4 Unless otherwise noted, information in this section is taken from the Amphibious Vehicle Request for Information
(RFI) issued by the Marine Corps Systems Command on February 11, 2011.
5 The Federal Acquisition Regulation defines an RFI as “a document used to obtain price, delivery, other market
information, or capabilities for planning purposes when the Government does not presently intend to issue a
solicitation. [FAR 15.202(e)].”
6 Unless otherwise noted, information in this section is taken from Annex A: Marine Personnel Carrier (MPC) Family
of Vehicles (FOV) Requirements Set to the Marine Personnel Carrier Request for Information (RFI), February 17,
2011.
7 The Federal Acquisition Regulation defines an RFI as “a document used to obtain price, delivery, other market
information, or capabilities for planning purposes when the Government does not presently intend to issue a
solicitation. [FAR 15.202(e)].”
8 Annex A: Marine Personnel Carrier (MPC) Family of Vehicles (FOV) Requirements Set to the Marine Personnel
Carrier Request for Information (RFI), February 17, 2011.
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• The vehicle must be able to operate on land with M-1A1s in mechanized task
forces across the Marine Corps’ mission profile.
• The vehicle shall provide protection for the occupants from the blasts, fragments,
and incapacitating effects of attack from kinetic threats, indirect fire, and
improvised explosive devices and mines.
• The vehicle shall be capable of firing existing Marine anti-structure and anti-
armor missiles and should be able to accommodate existing command and
control (C2) systems.
Is There a Need for a Marine Corps Amphibious
Assault Capability?

As previously noted, Title 10 requires the Marines to have an amphibious and land operations
capability. Marine involvement in protracted land campaigns in Iraq and Afghanistan and the
growing acquisition of anti-access technologies, such as guided missiles, by both state and non-
state actors, led some influential military thinkers to question if the Marines would ever again be
called upon to conduct large-scale amphibious assault operations.9 In a May 2010 speech, then
Secretary of Defense Robert Gates noted rogue nations and non-state movements such as
Hezbollah possessed sophisticated anti-ship guided missiles, such as the Chinese-designed C-802,
which could destroy naval ships and force them to stay far off shore, thereby making an
amphibious assault by Marines highly dangerous.10 These and similar pronouncements by some
defense analysts led to questioning the need for dedicated amphibious assault capabilities in light
of growing “anti-access” technologies and weapon systems available to both hostile nations and
non-state actors. This debate resulted in a series of DOD and academic studies examining the
need for an amphibious assault capability.
In early 2012, DOD published the results of studies and supporting concepts that it asserted
affirmed the need for the Marine Corps to maintain an amphibious assault capability. In March
2012, the Army and Marine Corps issued Gaining and Maintaining Access: An Army-Marine
Corps Concept
, which expressed the views of the two services on how they would project and
sustain military power world-wide in the face of growing challenges to access and entry.11 The
two services note:
Marine Corps forces embarked on amphibious shipping are specifically designed to provide
multi-domain capabilities that are employed from the sea. U.S. Army forces may also
operate from the sea in some scenarios. Sea-based forces utilize littoral maneuver (via
surface and/or vertical means) to exploit gaps and seams in enemy defenses, deceive
adversaries, and maneuver directly to key objectives ashore.12

9 Tony Perry and Julian E. Barnes, “U.S. Rethinks a Marine Corps Specialty: Storming Beaches,” Los Angeles Times,
June 21, 2010.
10 Ibid.
11 Information in this section was taken from “Gaining and Maintaining Access: An Army-Marine Corps Concept,”
authored by the United States Army’s Army Capabilities Integration Center and the United States Marine Corps Marine
Corps Combat Development Command, March 2012.
12 Ibid., pp 9-10.
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In April 2012, the Marine Corps published the results of an Amphibious Capabilities Working
Group study on naval amphibious capability. The study, Naval Amphibious Capability in the 21st
Century: Strategic Opportunity and a Vision for Change
, contends the United States is a maritime
nation with critical maritime interests, noting 90% of global commerce that travels by sea is most
vulnerable where sea meets land in the littorals.13 The study further finds “for a maritime nation
with global interests, a minimal two brigade amphibious force represents a sound investment in
ensuring access for the rest of the joint force.”14 While the study did not explicitly call for the
development of the ACV or MPC—the study recommendations are characterized as resource-
informed, program-neutral
—the ACV and MPC are used in the study for evaluating the ability to
project power ashore. While large-scale, World War II-type amphibious operations might no
longer be the norm, the study suggests there are other roles for the ACV and MPC. Noting that
emerging battlefield capabilities could mean that small teams might now have the ability to
generate effects once associated with larger forces, the Marines propose that company landing
teams (CLTs) might now be a more appropriately sized force for most amphibious operations.15
CLTs are viewed as being small enough to be inserted in a single wave but large enough to
provide a capable force immediately. Another alternative to large scale amphibious operations are
small-scale amphibious raids described as “an historical forte of the Marine Corps.”16 These raid
forces go ashore only for the duration of the operation and then return to the sea. These raids
could be useful in denying terrorist sanctuary, securing potential weapons of mass destruction
(WMD) sites, destroying pirate safe havens, or destroying threat capabilities in port.17 In this
sense, Naval Amphibious Capability in the 21st Century: Strategic Opportunity and a Vision for
Change
might be viewed as redefining thinking about the role of amphibious operations and
making an argument for the need for the ACV and MPC.
Expeditionary Force 21 and “Finding the Seams”
Navy and Marine Corps thinking on amphibious assault continues to evolve, most recently
articulated in March 2014’s Expeditionary Force 21 - Forward and Ready: Now and in the
Future
.18 Regarding amphibious assault operations, Expeditionary Force 21 notes:
After World War II, the Marine Corps pursued the development of the helicopter as a tactical
means to avoid fixed defenses, but the “Hogaboom Board” soon recognized that vertical
maneuver capabilities alone would not fully replace surface maneuver, owing to weight and
volume constraints. Since then, the Naval services have sought to develop complementary
means of conducting vertical and surface littoral maneuver from increased distances, and via
multiple penetration points, using the sea as maneuver space to offset the range and precision
of modern weapons. In recent years, we have been very successful regarding vertical
maneuver capabilities, but less so in the realm of surface maneuver. The Landing Craft Air
Cushion (LCAC) has been effective but is nearing the end of its service life. Our recent
attempts to field an affordable, high-speed, long-range amphibious vehicle capable of

13 Information in this section was taken from “Naval Amphibious Capability in the 21st Century: Strategic Opportunity
and a Vision for Change,” a report of the Amphibious Capabilities Working Group, April 27, 2012.
14 Ibid., p. 12.
15 Ibid., p. 48.
16 Ibid., p. 49.
17 Ibid.
18 Department of the Navy, Headquarters United States Marine Corps, “Expeditionary Force 21 - Forward and Ready:
Now and in the Future,” March 4, 2014.
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maneuver at sea and on land have not met the requirement. Fielding high-speed, long-range
high-capacity system of connectors, amphibious vehicles, and boats are a critical necessity
for amphibious operations.
We will continue to conduct future amphibious operations at the time and place of our
choosing. We will maneuver through the littorals to positions of advantage, employ
disaggregated, distributed and dispersed forces to secure entry points that allow us to rapidly
build our combat power ashore and allow for the quick introduction of follow-on
joint/coalition forces to maintain momentum and expand the area of operation. Mindful of
limitations on resources, we need to develop a viable combination of connectors, landing
craft, amphibious vehicles, and boats, as well as the ships—to include the well decks or
davits—that project them exploring a mix of surface maneuver options that:
- Are deployable, employable and sustainable given the power projection means available.
- Operate with reduced signature to multiple penetration points.
- In coordination with the Navy, employ low-signature landing craft and boats with increased
range and speed, as well as the ability to penetrate an unimproved coastline.
- Provide the means to conduct surface maneuver from amphibious ships beyond 65 nm
offshore.
- Provide the capability to maneuver through the complex terrain of the littorals.
- Provide a mechanism to identify, bypass, and if required breach shore-laid obstacle belts
(explosive and non-explosive) to secure entry points.
- Provide maneuver options to extend operations within constraints of fuel resupply
resources.
- Increase ability to work with space assets and develop capabilities within the cyber
realm.19
Marine leadership has emphasized the need for high-speed connectors—surface and air vehicles
that can transport Marines, vehicles, and equipment from ships to shore—to accomplish these
goals. Instead of confronting an enemy “head on,” Marine leadership envisions using high-speed
connectors and associated vehicles such as the MPC to “side step the full force of an enemy,
instead penetrating its seam.”20 This concept of “finding” the seams is viewed as necessary to
avoid confronting a growing array of “anti-access” technologies and weapon systems available to
both hostile nations and non-state actors that could pose a significant threat to connectors
associated with Marine amphibious operations.

19 Ibid., pp. 21-22.
20 Lara Seligman, “Glueck: Marines Will Penetrate Enemy’s “Seam” with Connector Strategy,” InsideDefense.com,
June 27, 2014.
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The Shift Toward Connectors21
The Navy and Marines continue to refine their respective thinking on the changing nature of
amphibious warfare. As the threat from long-range precision weapons continues to evolve, stand-
off distances for naval vessels participating in amphibious operations could be as much as 100
nautical miles from shore. At these distances, ship-to-shore connectors take on a much more
prominent role in amphibious operations and ACVs will no longer need to be as capable in the
water, as they are expected to traverse shorter distances to shore. With this being the case, the cost
of producing ACVs would likely be less than originally envisioned.
This increased dependence on connectors could prove problematic as current connectors—such
as the Landing Craft Air Cushion (LCAC), Landing Craft Utility 1600, and even the Joint High-
Speed Vessel (JHSV)—are mostly unprotected and would be vulnerable to enemy fire and need to
operate outside the range of an enemy’s small arms fire. Even the Navy’s future Ship-to-Shore
Connector (SSC)—the LCAC’s replacement—is not planned to have the enhanced protection
needed to operate close enough to shore to debark ACVs for a beach assault. This suggests the
protection requirements for next generation connectors could play a prominent role in the
development of future connectors.
Program Information
2013 Decision to “Shelve” the MPC
As previously noted, in June 2013, citing budgetary pressures, the Marines reportedly put the
MPC program “on ice” and suggested it might not be resurrected for about 10 years.22 At the time
of the decision, the Marines acquisition priorities were refocused to the ACV as well as the Joint
Light Tactical Vehicle (JLTV).23 While the Marines refocused budgetary resources to the ACV,
difficulties in developing an affordable high water speed capability for the ACV continued to
confront Marine leadership.24

21 Information in this section is taken from Daniel Wasserbly, “Bridging the Gap: USMC Outlines Future Amphibious
Assault Strategies, Equipment,” Jane’s International Defence Review, September 2014, pp. 38-39.
22 Lee Hudson, “Marines Put Marine Personnel Carrier on Shelf Due to Budget Constraints,” InsideDefense.com, June
14, 2013.
23 For information on the JLTV see CRS Report RS22942, Joint Light Tactical Vehicle (JLTV): Background and Issues
for Congress
, by Andrew Feickert.
24 Christopher J. Castelli, “General: Marine Corps Could Shelve Development of High-Speed ACV,”
InsideDefense.com, October 25, 2013 and Jason Sherman, “Marine Corps Dials back ACV, Capability, Defers High
Water Speed Plans,” InsideDefense.com, March 25, 2014.
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Major Change to Marine Corps Modernization Strategy25
In what was described as a “drastic shift,” the Marines decided in March 2014 to “resurrect” the
MPC and designate it as ACV Increment 1.1 and initially acquire about 200 vehicles. The
Marines also plan to develop ACV Increment 1.2, a tracked version, and to acquire about 470
vehicles and fund an ongoing high water speed study. Although ACV Increment 1.1 will have a
swim capability, a connector will be required to get the vehicles from ship to shore.
Plans call for ACV Increment 1.1 to enter the acquisition cycle at Milestone B (Engineering and
Manufacturing Development) in FY2016, award prototype contracts leading to a down select to
one vendor in FY2018, and enter low-rate initial production. Marine budget documents do not
address ACV Increment 1.2 program timelines, thereby effectively delaying the development of a
fully amphibious assault vehicle.
Marines Release Request for Information (RFI) for ACV Increment
1.126

On April 23, 2014, the Marines released an RFI for ACV Increment 1.1. Some of the required
capabilities include:
... operate in a significant wave height of two feet and sufficient reserve buoyancy to enable
safe operations; a high level of survivability and force protection; operate in four to six feet
plunging surf with ship-to-shore operations and launch from amphibious ships as an
objective; land mobility, operate on 30 percent improved surfaces and 70 percent
unimproved surfaces; ability to integrate a .50 caliber remote weapon station (RWS) with
growth potential to a dual mount 40 mm/.50 caliber RWS or a 30 mm cannon RWS; carrying
capacity to include three crew and 10 embarked troops as the threshold, 13 embarked troops
as the objective, carry mission essential equipment and vehicle ammunition; and the ability
to integrate a command, control and communications suite provided as government furnished
equipment... 27
The RFI includes a requirement for industry to deliver 16 prototype vehicles nine months after
contract award in April 2016 at a rate of four vehicles per month.28 The Marines estimate ACV
Increment 1.1 will cost about $5 million to $6 million per vehicle, about $10 million less than
what the previous ACV version was expected to cost.29

25 Information in this section is taken from Department of Defense Fiscal Year (FY) 2015 Budget Estimates, Navy,
Justification Book, Volume 2, Research, Development, Test & Evaluation, Navy, Budget Activity 4, March 2014, pp.
417-421, and Lee Hudson, “Marine Corps Drastically Shifts Ground Vehicle Modernization Strategy,”
InsideDefense.com, March 14, 2014.
26 Lee Hudson, “Marines Release Amphib Vehicle RFI, Seek Accelerated Schedule,” InsideDefense.com, April 25,
2014.
27 Ibid.
28 Ibid.
29 Lee Hudson, “Next-Generation Amphibious Vehicle Estimated to Cost $5-$6M Per Copy,” InsideDefense.com, June
27, 2014.
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Marines Release Draft Request for Proposal (RFP) for ACV
Increment 1.130

On November 5, 2014, it was reported that the Marines released a draft RFP for ACV Increment
1.1. The Marines are looking for information from industry regarding program milestones,
delivery schedules, and where in the program cost savings can be achieved. Plans are to issue a
final RFP in the spring of 2015 for two companies to build 16 prototype vehicles each for testing.
Companies reportedly31 expected to compete for the two contracts are as follows:
BAE Systems
BAE’s offering will likely be based on the IVECO Defense Vehicles Super AV, which holds the
most of any of the competing vehicles: 13 Marines in addition to the three-man crew. BAE
furthers notes that its 1.1 offering has a robust growth capability, extra buoyancy, and a robust
swim capability.
General Dynamics Land Systems (GDLS)
GDLS notes its entry will be part of its Stryker and Canadian LAV-3 family, which are already in
service with the Army and Marines. GDLS believes its ACV competitor will be the most
survivable vehicle it has produced and swims above expectations at 6.5 knots and has 25%
buoyancy.
Lockheed Martin
Lockheed Martin will reportedly team with Finnish company Patria for its ACV bid, and will
modify its existing 8x8 Armoured Modular Vehicle to create the Havoc vehicle. The Polish
military reportedly has used the Havoc vehicle in Afghanistan, and the vehicle can swim at 6
knots and transition from sea to land in sea state 2 conditions.32
SAIC
SAIC reportedly will partner with ST Kinetics and will offer a version of its Terrex vehicle,
which was originally manufactured in Singapore. SAIC is investigating ways to involve more
American suppliers for its offering as opposed to foreign companies.


30 Information in this section is taken from Megan Eckstein, “Marines Expect ACV RFP in Spring; Will Choose 2
Winners for Prototype Production, Testing,” Defense Daily, September 29, 2014, and Lee Hudson, “Marines Release
Next-Gen Amphibious Vehicle Draft Request for Proposal,” InsideDefense.com, November 6, 2014.
31 Megan Eckstein, “Marines Expect ACV RFP in Spring; Will Choose 2 Winners for Prototype Production, Testing,”
Defense Daily, September 29, 2014.
32 According to the Beaufort Sea State Scales (http://www.wdcs.org/submissions_bin/
WDCS_Shorewatch_Seastate.pdf), Sea State 2 Conditions are “[s]mall wavelets all over. No whitecaps. Wind Speed:
4-6 knots (wind felt on exposed skin and leaves rustle). Wave Height: 0.66 feet/20cm.”
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Budget Activity
FY2015 Budget Request33
The FY2015 budget request for the ACV is $105.7 million in RDT&E funding. Program activities
planned for FY2015 include manufacturing prototype vehicles, testing, and studies/technology
development to advance high water speed capability.
Rules Committee Print 113-58, House Amendment to the Text of S.
184734

S. 1847 authorizes full funding for the ACV for FY2015 (page 1610).
Potential Issue for Congress
The Marines’ New ACV/MPC Acquisition Strategy
Given Marine leadership’s decision to alter their vehicle modernization strategy and pursue the
MPC-based ACV Increment 1.1 in lieu of the ACV-based ACV Increment 1.2, Congress might
decide to examine this issue in greater detail. Potential questions include but are not limited to the
following:
• If the MPC is to become ACV Increment 1.1, what design changes will be
required to improve the MPC’s amphibious capability as the version previously
under development had limited amphibious capabilities?
• Because ACV Increment 1.1 is connector-dependent, are sufficient connectors
presently available to support amphibious assault operations in the near term?
• Based on the operational concepts put forward in Expeditionary Force 21 which
are heavily dependent on having future, next-generation connectors available, are
amphibious operations involving ACV Increment 1.1 at risk until a sufficient
number of advanced connectors are procured?
• Will the Navy and Marines prioritize the development of advanced connectors
and will sufficient budgetary resources be allocated to their rapid development?
• While DOD’s FY2015 budget request did not contain a program timeline for
ACV Increment 1.2, are there any planning dates for when the vehicle is
expected to enter service?

33 Office of the Undersecretary of Defense (Comptroller)/Chief Financial Officer, United States Department of Defense
Fiscal Year 2015 Budget Request, Program Acquisition Cost by Weapon System, March 2014, pp. 3-7.
34 Information in this section is taken from Rules Committee Print 113-58, House Amendment to the Text of S. 1847,
[Showing the text of the Carl Levin and Howard P. “Buck” McKeon National Defense Authorization Act for Fiscal
Year 2015], December 2, 2014.
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Marine Corps Amphibious Combat Vehicle (ACV) and Marine Personnel Carrier (MPC)

• What are the total planned procurement targets for ACV Increments 1.1 and 1.2?
• Could the potential use of foreign suppliers for the ACV outright or major
components of the vehicle cause difficulties in acquisition?


Author Contact Information

Andrew Feickert

Specialist in Military Ground Forces
afeickert@crs.loc.gov, 7-7673


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