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Cooperation Can Help Avoid Duplication among the Services' Programs' 
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United States Government Accountability Office: 
GAO: 

Report to Congressional Committees: 

December 2014: 

Ground Radar and Guided Munitions: 

Increased Oversight and Cooperation Can Help Avoid Duplication among 
the Services' Programs: 

GAO-15-103: 

GAO Highlights: 

Highlights of GAO-15-103, a report to congressional committees. 

Why GAO Did This Study: 

Over the past five years, GAO has found potential overlap or 
duplication in DOD weapon system investments. Overlap occurs when 
multiple agencies or programs are engaged in similar activities. 
Duplication occurs when two or more agencies or programs are engaged 
in the same activities. Senate Report 113-44 accompanying the fiscal 
year 2014 National Defense Authorization Act mandated that GAO examine 
the military services’ ground radar and air-to-ground precision guided 
munitions programs for potential duplication. Ground radars are 
sensors used to detect and track targets, and precision guided 
munitions are weapons intended to accurately engage and destroy enemy 
targets. 

This report examines the extent to which potential overlap or 
duplication exists across the military services' (1) ground radar and 
(2) air-to-ground precision guided munitions programs. GAO analyzed 
program documentation on system performance requirements and 
capabilities and interviewed DOD officials about potential duplication. 

What GAO Found: 

Several of the Department of Defense’s (DOD) active ground radar 
programs have overlapping performance requirements and two are 
potentially duplicative. In these instances, the military service 
pursued separate acquisition programs because other programs did not 
fully meet their performance requirements, among other reasons. 
Specifically, GAO found: 

* The Marine Corps’ Ground/Air Task Oriented Radar (G/ATOR) Block I 
and the Air Force’s Three-Dimensional Expeditionary Long-Range Radar 
(3DELRR) have some overlapping key requirements, such as range, and 
are potentially duplicative. The Joint Requirements Oversight Council 
(JROC), which validates requirements for DOD’s largest acquisition 
programs, did not find unnecessary redundancy, and Air Force officials 
stated that G/ATOR could not meet all of the 3DELRR’s requirements. 

* The Army’s AN/TPQ-53 Counterfire Radar and the Marine Corps’ G/ATOR 
Block II have some overlapping requirements, but the AN/TPQ-53 does 
not meet certain key G/ATOR Block II requirements, therefore reducing 
the risk that the programs are duplicative. In this case, urgent 
operational needs and different acquisition approaches also led the 
Army and Marine Corps to establish separate acquisition programs.
As a result of reviews conducted by the JROC and DOD’s Office of Cost 
Assessment and Program Evaluation (CAPE), which develops guidance for 
analyzing alternative ways to fulfill capability needs, the Air Force 
made positive changes to the 3DELRR program, such as reducing some 
requirements to improve program affordability. CAPE also expanded the 
alternatives considered on acquisition programs to minimize potential 
duplication. DOD missed an opportunity to assess whether the 
capabilities of the AN/TPQ-53 and G/ATOR Block II were unnecessarily 
redundant. The JROC did not review the AN/TPQ-53 requirements because 
it was initially fielded to meet an urgent need and did not meet the 
dollar threshold to automatically trigger a review. However, the 
AN/TPQ-53 transitioned to the traditional, non-urgent needs 
acquisition process at which point the JROC could have reviewed it. 
Ensuring that the JROC and CAPE review new ground radar acquisitions 
could help DOD avoid duplication. 

DOD’s active air-to-ground precision guided munitions programs are not 
duplicative, but potential for duplication exists in the future. The 
active programs share some capabilities, but characteristics such as 
the aircraft that can launch them distinguish them from one another. 
To the extent that overlapping capabilities exist, DOD officials said 
these capabilities provided needed flexibility for military 
operations. Cooperation among the military services contributed to the 
current lack of duplication. GAO found one example of potential future 
duplication. Both the Army and the Navy plan to buy the Advanced 
Precision Kill Weapon System through fiscal year 2015 to meet their 
guided rocket needs, but starting in fiscal year 2016, they may pursue 
separate, potentially duplicative, efforts. There are costs and 
benefits associated with both the Army and Navy’s acquisition 
approaches; however, if the Army and Navy fulfill their guided rocket 
needs separately instead of cooperatively, it could result in the 
inefficient use of weapon system investment dollars and a loss of 
buying power. 

What GAO Recommends: 

To address potential duplication, GAO recommends that DOD ensure that 
new ground radar acquisitions are reviewed by the JROC and CAPE and 
require the Army and Navy to jointly assess the possibility of using a 
single solution and a cooperative, preferably competitive, contracting 
strategy to meet their guided rocket needs. DOD partially agreed with 
GAO’s first recommendation, but stated it should not be mandatory. GAO 
believes the recommendation remains valid as discussed in its report. 
DOD agreed with the second recommendation. 

View [hyperlink, http://www.gao.gov/products/GAO-15-103]. For more 
information contact Michael J. Sullivan, (202) 512-4841 or 
sullivanm@gao.gov. 

[End of section] 

Contents: 

Letter: 

Background: 

Overlapping Performance Requirements and Potential Duplication Exist 
across Ground Radar Programs, but DOD Has Determined Any Redundancy Is 
Necessary: 

Air-To-Ground Precision Guided Munitions Programs Are Not Duplicative, 
but Potential for Duplication in the Future Exists: 

Conclusions: 

Recommendations for Executive Action: 

Agency Comments and Our Evaluation: 

Appendix I: Scope and Methodology: 

Appendix II: Description of Active Ground Radar Programs: 

Appendix III: Comparison of Select Active Air-to-Ground Precision 
Guided Munitions Capabilities: 

Appendix IV: Comments from the Department of Defense: 

Appendix V: GAO Contact and Staff Acknowledgments: 

Tables: 

Table 1: Military Services' Active Ground Radar Programs: 

Table 2: Select Active Air-to-Ground Precision Guided Munitions 
Programs: 

Figure: 

Figure 1: Notional Depictions of Ground Radars Performing Various 
Missions: 

Abbreviations: 

3DELRR: Three-Dimensional Expeditionary Long-Range Radar: 

AOA: analysis of alternatives: 

APKWS: Advanced Precision Kill Weapon System II: 

CAPE: Cost Assessment and Program Evaluation: 

DOD: Department of Defense: 

G/ATOR: Ground/Air Task Oriented Radar: 

GPS: Global Positioning System: 

JAGM: Joint Air-to-Ground Missile: 

JCIDS: Joint Capabilities Integration and Development System: 

JROC: Joint Requirements Oversight Council: 

JSOW: Joint Standoff Weapon: 

KPP: Key Performance Parameter: 

KSA: Key System Attribute: 

[End of section] 

United States Government Accountability Office: 
GAO:
441 G St. N.W. 
Washington, DC 20548: 

December 19, 2014: 

Congressional Committees: 

The Department of Defense (DOD) and the military services spend over 
$150 billion each year on the development and procurement of weapons 
and other defense systems to fulfill their roles and missions. These 
investment dollars are not always spent in the most efficient and 
effective way. We have previously found potential overlap or 
duplication in DOD's electronic warfare, tactical wheeled vehicles, 
and unmanned aircraft system investments, in which the military 
services pursued multiple acquisition efforts to develop similar or 
the same capabilities.[Footnote 1] Several factors contributed to the 
overlap or duplication, including the military services generating 
unique system requirements that justify multiple acquisitions to meet 
similar needs, the military services' authority to independently make 
resource allocation decisions that support their respective 
requirements, and the department's urgent needs processes--activities 
aimed at rapidly developing, equipping, and fielding solutions and 
critical capabilities to the warfighter--which have led to multiple 
entities responding to requests for similar capabilities. 

In the Senate report 113-44 accompanying the National Defense 
Authorization Act for Fiscal Year 2014, the Senate Armed Services 
Committee raised questions about potential duplication within DOD's 
ground radar and air-to-ground precision guided munitions programs and 
directed DOD to provide briefings on each area. The report mandated 
that we examine these programs for potential duplication. This report 
examines the extent to which potential overlap or duplication exists 
across the military services' (1) ground radar and (2) air-to-ground 
precision guided munitions programs. 

To determine the extent of potential overlap or duplication across 
ground radar and air-to-ground precision guided munitions programs, we 
reviewed acquisition programs currently in development or production, 
which we also refer to in this report as active programs. We reviewed 
and analyzed documentation on system requirements, capabilities, and 
other distinguishing factors to determine if potential overlap or 
duplication exists. We interviewed DOD officials regarding any 
instances where we identified potential overlap or duplication. We 
also reviewed DOD analysis and interviewed DOD officials to identify 
instances in which DOD found potential overlap or duplication during 
acquisition and requirements reviews and what actions DOD took in 
response. Appendix I includes additional details on our scope and 
methodology. 

We conducted this performance audit from June 2014 to December 2014 in 
accordance with generally accepted government auditing standards. 
Those standards require that we plan and perform the audit to obtain 
sufficient, appropriate evidence to provide a reasonable basis for our 
findings and conclusions based on our audit objectives. We believe 
that the evidence obtained provides a reasonable basis for our 
findings and conclusions based on our audit objectives. 

Background: 

DOD and the military services invest in ground radars and air-to-
ground precision guided munitions. Ground radars are ground-based 
sensor systems used by the Army, Air Force, and Marine Corps to detect 
and track a variety of targets. These radars perform missions such as 
air surveillance, air defense, and counterfire target acquisition, 
among others. Ground radars that can perform multiple missions one at 
a time are called multi-role radars, and radars that can perform 
multiple missions simultaneously are called multi-mission radars. We 
focused on ground radars that perform the following missions, which 
are notionally depicted in figure 1: 

* Air surveillance--search, detect, and track cruise missiles, fixed 
and rotary wing aircraft, and unmanned aircraft systems. 

* Air defense--provide radar data that enables other weapon systems, 
such as air and missile defense or aircraft, to take offensive or 
defense actions against enemy cruise missiles, fixed and rotary wing 
aircraft, and unmanned aircraft systems. 

* Counterfire target acquisition--detect and track enemy rockets, 
artillery, and mortars to determine enemy firing positions and impact 
areas for incoming fire. 

Figure 1: Notional Depictions of Ground Radars Performing Various 
Missions: 

[Refer to PDF for image: 3 illustrations] 

Air surveillance: 
Ground radar; 
Enemy missile; 
Enemy aircraft; 
Enemy unmanned aircraft systems. 

Air defense: 
Ground radar; 
Enemy missile; 
Friendly missile. 

Counterfire target acquisition: 
Ground radar; 
Enemy missile; 

Source: GAO analysis of DOD documents. GAO-15-103. 

[End of figure] 

The military services have several active ground radar acquisition 
programs performing air surveillance, air defense, and counterfire 
target acquisition missions. These programs and their missions are 
presented in table 1. Appendix II provides additional information on 
the capabilities of these radar programs. 

Table 1: Military Services' Active Ground Radar Programs: 

Lead service: Army; 
System name: AN/TPQ-53 Counterfire Target Acquisition Radar System; 
Primary radar mission: Counterfire target acquisition; 
Program status: In production. 

Lead service: Air Force; 
System name: Three-Dimensional Expeditionary Long-Range Radar (3DELRR); 
Primary radar mission: Air surveillance, air defense; 
Program status: In development. 

Lead service: Marine Corps[A]; 
System name: AN/TPS-80 Ground/Air Task Oriented Radar (G/ATOR) Block 
I: Air Defense/Surveillance Radar; 
Primary radar mission: Air surveillance, air defense; 
Program status: In production. 

Lead service: Marine Corps[A]; 
System name: AN/TPS-80 G/ATOR Block II: Ground Weapons Locating Radar; 
Primary radar mission: Counterfire target acquisition; 
Program status: In development. 

Source: GAO analysis of program documents. GAO-15-103. 

Notes: We reviewed active ground radar programs used in land 
operations with primarily air surveillance, air defense, and 
counterfire target acquisition missions. Active programs are defined 
as those currently in development or production. It does not include 
systems only being developed or produced for foreign military sales. 

[A] The Marine Corps' G/ATOR is a multi-role radar. The Marine Corps 
is using an incremental approach to fielding G/ATOR capabilities. 
G/ATOR Block I will develop the basic hardware for the radar in all of 
its potential roles. G/ATOR Block II will be a software upgrade to 
provide counterfire target acquisition capabilities. 

[End of table] 

The House Armed Services Committee has previously raised questions 
about potential overlap in the ground radar area. For example, in 
2012, House report 112-479 accompanying the National Defense 
Authorization Act for Fiscal Year 2013 noted overlap with the Army and 
Marine Corps ground radar programs' missions and encouraged the Army 
and Marine Corps to collaborate and identify overlapping requirements 
and determine if they could procure a single system rather than having 
each service procuring and maintaining separate systems. 

Air-to-ground precision guided munitions are weapons launched from 
Army, Navy, Air Force, and Marine Corps aircraft that are intended to 
accurately engage and destroy enemy targets on the ground. These 
munitions include missiles, guided rockets, and laser guided bombs. 
[Footnote 2] Precision guided munitions contain a seeker, warhead, and 
fuze.[Footnote 3] The seeker detects electromagnetic energy reflected 
from a target and provides commands to a control system that guides 
the weapon to the target. Different seekers provide targeting 
capabilities for different environments, such as for clear weather 
only or all weather. Some precision-guided munitions are made up of a 
guidance kit attached to an unguided or "dumb" munition. Munitions are 
also made up of varying warheads with different capabilities and 
weights that make them optimized for different types of targets. The 
military services' active air-to-ground precision guided munitions are 
presented in table 2. 

Table 2: Select Active Air-to-Ground Precision Guided Munitions 
Programs: 

Lead service: Army; 

System name: Hellfire II Romeo variant; 
Type: Missile; 
Program status: In production. 

System name: Joint Air-to-Ground Missile (JAGM); 
Type: Missile; 
Program status: In development. 

Lead service: Navy; 

System name: Advanced Precision Kill Weapon System II (APKWS); 
Type: Rocket with Guidance Kit; 
Program status: In production. 

System name: Direct Attack Moving Target Capability; 
Type: Bomb with Laser Guidance Kit[A]; 
Program status: In production. 

System name: Joint Standoff Weapon (JSOW) C-1 variant; 
Type: Missile; 
Program status: In production. 

Lead service: Air Force; 

System name: Maverick Laser variant; 
Type: Missile; 
Program status: In production. 

System name: Small Diameter Bomb Increment II; 
Type: Guided Bomb; 
Program status: In development. 

Source: DOD data. GAO-15-103. 

Notes: Active systems are defined as those currently in development or 
production. They do not include systems only being developed or 
produced for foreign military sales. This table does not include 
precision guided munitions in certain specialized categories, such as 
anti-ship, anti-radiation, ballistic, and cruise missiles. It also 
does not include GPS-only guided munitions because these are not 
considered to be precision guided munitions by the Office of the Under 
Secretary of Defense for Acquisition, Technology, and Logistics, 
Strategic and Tactical Systems. 

[A] Direct Attack Moving Target Capability is a laser guidance kit 
attached to a Joint Direct Attack Munition, which is a bomb guided by 
a Global Positioning System (GPS) - Inertial Navigation System. 

[End of table] 

DOD's requirements and acquisition policies contain provisions to help 
avoid redundancy and consider existing alternatives before starting 
new acquisition programs. DOD's Joint Capabilities Integration and 
Development System (JCIDS) guidance states that when validating key 
requirements documents, the chair of the group responsible for that 
capability area is also certifying that the proposed requirements and 
capabilities are not unnecessarily redundant to existing capabilities 
in the joint force.[Footnote 4] In some cases, redundancy may be 
advisable for operational reasons. The validation authority for a 
requirements document depends on factors such as the potential dollar 
value of a program, and determines the level of oversight a 
requirement document receives.[Footnote 5] The Joint Requirements 
Oversight Council (JROC) is the validation authority for documents 
with a "JROC Interest" designation. A military service can be the 
validation authority for lower level designations. 

DOD's Instruction 5000.02, which establishes policies for the 
management of all acquisition programs, requires the military services 
to complete an analysis of alternatives (AOA) to assess potential 
materiel solutions, including existing and planned programs, which 
could satisfy validated capability requirements. DOD's Office of Cost 
Assessment and Program Evaluation (CAPE) approves study guidance, 
which provides direction on what the AOA must include, for acquisition 
category I programs. Under DOD's Interim Instruction 5000.02, which 
was effective as of November 2013, CAPE also develops and approves 
study guidance for programs for which the JROC is the validation 
authority, regardless of the acquisition category of the program. 
[Footnote 6] It also states that the Milestone Decision Authority can 
designate non-major defense acquisition programs as "special 
interest." A "special interest" program is a program that meets 
certain criteria, such as being a potential joint acquisition program, 
and as a result, receives higher level oversight.[Footnote 7] The 
Under Secretary of Defense for Acquisition, Logistics, and Technology 
serves as Milestone Decision Authority for "special interest" programs. 

Overlapping Performance Requirements and Potential Duplication Exist 
across Ground Radar Programs, but DOD Has Determined Any Redundancy Is 
Necessary: 

Our analysis of DOD's active ground radar programs found evidence of 
overlapping performance requirements and potential duplication in 
certain mission areas. However, the JROC and Joint Staff have 
determined that any redundancies across the programs they reviewed 
were necessary. The JROC did not review one of the programs in our 
analysis. The military services pursued separate ground radar 
acquisition programs for several reasons: other programs did not fully 
meet their performance requirements; the timelines for other programs 
did not align with their needs; and they made different decisions on 
whether to pursue multi-role or single role radars. DOD has taken 
steps to encourage collaboration in the ground radar area by asking 
the services to consider joint acquisition programs, developing joint 
requirements, and requiring the services to include existing radar 
programs in their AOAs, with mixed success. 

Ground Radar Programs for Air Surveillance and Air Defense Have Some 
Key Overlapping Requirements and Are Potentially Duplicative: 

Based on our analysis of program requirements documents, we found that 
the Marine Corps' Ground/Air Task Oriented Radar (G/ATOR) Block I and 
Air Force's Three-Dimensional Expeditionary Long-Range Radar (3DELRR) 
acquisition programs have some key overlapping requirements and 
provide similar capabilities in their air surveillance and air defense 
roles.[Footnote 8] However, the JROC ultimately determined that any 
redundancy between requirements was necessary. During the JROC 
validation process, the proposed performance requirements for the 
3DELRR program were reduced in several areas, including range. These 
reductions brought the 3DELRR requirements closer to the G/ATOR Block 
I requirements, thus increasing the extent of overlap across the 
programs' requirements and the risk of potential duplication. In other 
areas, 3DELRR requirements still exceeded those for G/ATOR Block I. 
The JROC validated the 3DELRR requirements document in 2013. The JROC 
approved the latest G/ATOR Block I requirements document in 2012. 

Due to the Marine Corps and Air Force pursuing different radar systems 
with overlapping key performance requirements, the G/ATOR Block I and 
3DELRR acquisition programs are potentially duplicative. The Marine 
Corps' G/ATOR program, which is further along in the acquisition 
process and has recently entered initial production, is based on 
Northrop Grumman's AN/TPS-80 radar. The Air Force's 3DELRR program 
recently entered system development, and the Air Force awarded a 
contract to Raytheon on October 6, 2014, to develop and produce a 
separate radar.[Footnote 9] Prior to entering system development, the 
Air Force conducted two studies as a result of DOD inquiries on 
whether G/ATOR could meet the Air Force's long-range radar 
requirements.[Footnote 10] According to Air Force officials, each of 
these studies confirmed that no other existing radar could meet all of 
the 3DELRR requirements, and supported the decision to start a new 
development program. One of these studies was an AOA update that 
considered reductions in the 3DELRR range requirements and both 
studies considered the introduction of a more capable gallium nitride 
semiconductor technology into the G/ATOR program.[Footnote 11] Our 
review of these studies and a related CAPE analysis showed that G/ATOR 
could be capable of meeting some key 3DELRR performance requirements. 
In addition, a CAPE official, who reviews radar programs, stated the 
Air Force could use about 90 percent of the work the Marine Corps has 
already done to develop G/ATOR for 3DELRR and that additional research 
and development would primarily be required to develop software for 
the system. 

Ground Radar Programs for Counterfire Target Acquisition Have Some 
Overlapping Requirements, but Other Factors Justified Separate 
Programs: 

Based on our analysis of program requirements documents, we found that 
the Army's AN/TPQ-53 Counterfire Radar and the Marine Corps' G/ATOR 
Block II have some overlapping requirements.[Footnote 12] Both radar 
systems detect, track, classify, and locate the origin of enemy 
projectiles, including mortar, artillery, and rocket systems and are 
to replace existing Army and Marine Corps Firefinder radars that 
perform counterfire target acquisition missions.[Footnote 13] However, 
while many of the requirements overlap, the AN/TPQ-53 does not meet 
the G/ATOR Block II detection range requirements for multiple target 
types. 

In addition to some unique requirements, urgent operational needs and 
different acquisition approaches led the Army and Marine Corps to 
establish separate acquisition programs for counterfire target 
acquisition radars. The Army's AN/TPQ-53 started in 2006 as an upgrade 
program to increase the capabilities of existing radar to meet urgent 
needs that had been identified in overseas operations. According to 
Army and Marine Corps officials, the Army's timeframes required it to 
field its new capability before the G/ATOR development program would 
transition to production. After the Army met its urgent needs with an 
initial procurement of upgraded radars, the program continued through 
the traditional or non-urgent needs acquisition process and held a new 
production decision review in 2012. However, by this point, the Army 
and the Marine Corps had adopted different acquisition approaches for 
meeting their ground radar needs. The Army moved from a strategy of 
developing one multi-mission radar for air surveillance, air defense, 
and counterfire target acquisition to a strategy of buying the AN/TPQ-
53 and upgrading other radars as needed. The Marine Corps, on the 
other hand, is developing G/ATOR as a multi-role and potentially a 
multi-mission radar. Despite these different approaches, the Army and 
Marine Corps have cooperated in certain areas related to these 
acquisitions. For example, according to Army and Marine Corps 
officials, the Army and Marine Corps have discussed using common 
software for the AN/TPQ-53 and G/ATOR Block II counterfire target 
acquisition capabilities. 

The JROC did not review whether the capabilities of the Army's AN/TPQ-
53 and the Marine Corps' G/ATOR Block II were unnecessarily redundant 
or duplicative as part of the requirements validation process. The 
JROC did not validate the Army's AN/TPQ-53 performance requirements 
because it was initially an urgent wartime need and did not meet 
acquisition category I dollar thresholds. However, at the point the 
JROC could have reviewed the AN/TPQ-53 requirements, the program had 
transitioned to the more traditional acquisition process. Instead, the 
Joint Staff delegated the validation authority for the AN/TPQ-53 
requirements to the Army, which validated them in 2010. The JROC had 
previously validated the G/ATOR Block II requirements documents in 
2005, prior to the Army starting the AN/TPQ-53 program. Because the 
Joint Staff delegated the validation authority for the AN/TPQ-53 to 
the Army, the JROC may have missed an opportunity to review whether 
the capabilities of the AN/TPQ-53 and G/ATOR Block II were 
unnecessarily redundant or duplicative, or to encourage additional 
areas of cooperation between the Army and the Marine Corps. 

DOD Has Encouraged Collaboration on Ground Radars with Mixed Success: 

The Office of the Under Secretary of Defense for Acquisition, 
Technology, and Logistics and CAPE has taken steps to encourage the 
military services to collaborate on ground radar programs with mixed 
success. None of the efforts resulted in a joint acquisition program, 
primarily due to service funding decisions, but they have led to the 
development of joint requirements and broader analyses of acquisition 
alternatives. For example: 

* In 2009, the Under Secretary of Defense for Acquisition, Technology, 
and Logistics designated the Air Force's 3DELRR program and the TPS-59 
Product Improvement Program for the Marine Corps' long-range air 
surveillance radar as special interest programs and encouraged both 
services to collaborate on a single system that addressed their long-
range radar requirements. According to Air Force officials, this 
resulted in a 3DELRR requirements document that was developed jointly, 
and which still shares many of the Marine Corps' requirements. The 
Marine Corps decided to discontinue the TPS-59 Product Improvement 
Program due to budget constraints, but DOD officials said that 3DELRR 
may still be able to meet the Marine Corps' needs when it eventually 
decides to replace the TPS-59 ground radar. 

* In 2009, the Under Secretary of Defense for Acquisition, Technology, 
and Logistics designated G/ATOR as a special interest program, and 
directed the Marine Corps to collaborate with the Joint Staff and Army 
to work towards a joint capability to meet the services' multi-mission 
radar requirements. The Army later decided not to fund the Multi-
Mission Radar and has instead pursued the AN/TPQ-53 radar and other 
radar upgrades to meet its needs. 

* In 2011, CAPE issued AOA study guidance that required the Air Force 
to update a prior 3DELRR AOA and consider a broader range of 
alternatives, including other ground radar systems, such as G/ATOR. 
Because 3DELRR was proposed to address Air Force and Marine Corps long-
range radar requirements, the study guidance required Marine Corps 
participation in the development and review of the AOA. The AOA 
concluded that a new radar program was the optimum solution to meet 
3DELRR requirements. 

* The Army is looking to upgrade the radar system that supports the 
Patriot missile system. A CAPE official responsible for reviewing 
radar programs said that CAPE is working with the Army to develop its 
AOA study guidance for the radar upgrade effort and asked the Army to 
include systems, such as 3DELRR and G/ATOR in the analysis. 

Air-To-Ground Precision Guided Munitions Programs Are Not Duplicative, 
but Potential for Duplication in the Future Exists: 

Our analysis of DOD's active air-to-ground precision guided munitions 
found some munitions shared some capabilities, but after taking into 
consideration characteristics such as the aircraft that can launch 
them, we found the systems were not duplicative. To the extent 
overlapping capabilities exist, DOD officials said these capabilities 
provided needed flexibility for different military operations. 
However, there is potential for future duplication in the Army's and 
Navy's air-to-ground guided rocket acquisitions. While the Army and 
Navy have similar needs, the services' potential procurement 
strategies could lead to them procuring the same or very similar 
systems using different programs and contracts. 

Air-to-Ground Munitions Are Not Duplicative and Any Overlapping 
Capabilities Provide Flexibility for Military Operations: 

Based on our analysis of the target sets of DOD's air-to-ground 
precision guided munitions, the seeker capabilities, the aircraft 
platforms that can launch them, and cost, we did not find evidence 
that DOD's capabilities in this area were duplicative. Additionally, 
none of the DOD or military service requirements and acquisition 
organizations we spoke to identified unnecessary redundancy or 
duplication within air-to-ground precision guided munitions. In 
general, DOD officials described the air-to-ground precision guided 
munitions area as efficient in terms of the investments DOD has made. 
Appendix III provides a comparison of air-to-ground precision guided 
munition air platforms, seeker capabilities, and target sets. 

Our analysis of DOD's active air-to-ground precision guided munitions 
found evidence of overlapping target sets among the munitions, but 
unique factors such as what type of aircraft a munition can be 
launched from, the munition's seeker capability in varying weather 
conditions, and the cost of the munition for the desired effect 
clearly distinguish them from one another.[Footnote 14] In addition, 
where some overlap was found, DOD officials explained the overlap was 
necessary to provide flexibility for military operations. We found 
three illustrative examples of how platform, seeker capability, and 
the cost of the munition weigh into how air-to-ground precision guided 
munitions are used and how their capabilities complement one another: 

* Air-to-ground precision guided munitions are suitable for different 
types of aircraft platforms, or behave differently when fired from 
different types of platforms; therefore, the method of delivery, such 
as from a fixed wing fighter aircraft versus a rotary wing helicopter 
platform, can be critical to the operation. For example, the Joint Air-
to-Ground Missile (JAGM) and the Joint Standoff Weapon (JSOW) are both 
missiles optimized to hit moving and stationary targets.[Footnote 15] 
When JAGM replaces the Hellfire missile, it will, like Hellfire, be 
capable of launching from rotary helicopters and unmanned aircraft 
systems, whereas JSOW is a glide weapon with no motor, that must be 
launched from bomber and fighter aircraft. The JSOW also has a 
penetrating warhead that allows it to target deeply buried targets. 

* Differing seeker capabilities allow for flexibility in different 
operating environments. An all weather seeker capability allows a 
munition to reach its target regardless of weather conditions or other 
obscurants, such as smoke. For example, the Direct Attack Moving 
Target Capability was developed to hit moving targets, but it does not 
have the all weather seeker capability that would allow it to hit all 
moving targets in all weather conditions. The JAGM and the Small 
Diameter Bomb II munitions will have the capability to address moving 
targets in all weather conditions. This all-weather capability 
requires a more expensive seeker technology. 

* The unit cost of precision guided munitions varies and may be a 
determining factor in when they are used. For example, the Hellfire II 
Romeo missile and Advanced Precision Kill Weapon System II (APKWS), 
which is a guided rocket, both have the ability to hit unarmored and 
unhardened targets. However, the Hellfire II Romeo costs approximately 
$93,000 per unit and is optimized to hit armored and hardened targets, 
whereas the APKWS costs approximately $31,000 per unit and is only 
optimized for unarmored and unhardened targets. According to DOD 
officials, while the Hellfire II missile is effective against both 
armored and unarmored targets, it could be more optimal, depending on 
the range of the target, to use the smaller and less expensive APKWS 
system against unarmored targets. 

One of the reasons for the lack of duplication in air-to-ground 
precision guided munitions programs is that the military services 
cooperated on multiple systems and leveraged each other's investments. 
Three of the seven munitions programs we reviewed are joint 
development programs between at least two of the military services. In 
other cases, the military services procured each other's munitions 
systems. For example, all of the military services procure Hellfire 
missiles from the Army. 

Duplication in Guided Rockets Procurements Could Occur in the Future: 

There is potential for future overlap or duplication in the Army's and 
Navy's procurement of air-to-ground guided rockets, which could result 
in DOD not fully leveraging its buying power. Specifically, both the 
Army and Navy have validated requirements for air-to-ground guided 
rockets.[Footnote 16] The general requirement is for a guidance kit 
that attaches to the existing family of unguided Hydra-70 rockets. 
[Footnote 17] While the Army and Navy have similar needs, the 
services' current procurement strategies could lead to them procuring 
the same or very similar systems using different programs and 
contracts. APKWS is currently the only guided rocket system that has 
been integrated and fully qualified for use on a DOD platform. 
[Footnote 18] Defense contractors have developed other guided rocket 
systems, and there is at least one other system that the Army is 
considering to meet its future guided rocket needs. 

Both the Army and the Navy plan to buy APKWS through fiscal year 2015 
to meet their guided rocket needs, but starting in fiscal year 2016, 
they may pursue separate, potentially duplicative, efforts to meet 
their requirements. The Army plans to introduce competition for its 
Hydra-70 rocket guidance kit and consider other qualified systems 
besides APKWS. DOD acquisition policy and Better Buying Power 
initiatives to increase the efficiency of defense spending both 
emphasize the importance of sustaining a competitive environment at 
every stage in the acquisition process as a means to control and 
reduce cost.[Footnote 19] To do so, the Army is exploring various 
options to introduce competition for guided rockets to include an 
option that requires the Hydra-70 rocket prime contractor to 
competitively procure guidance kits and fully integrate them with 
Hydra-70 before delivering complete systems to the Army, which is 
different than the Navy's current approach. Alternatively, the Army 
could still jointly buy APKWS with the Navy. The Navy procures APKWS 
and Hydra-70 separately and integrates the components themselves in 
order to, among other things, allow for the flexibility to use the 
different combinations of rocket components based on mission needs. 

The Navy's current contract for APKWS, which was awarded on a sole 
source basis, expires in 2016. At that point, the Navy plans to 
negotiate another sole source contract because it does not believe 
that introducing competition to APKWS would be worth the investment of 
integrating and qualifying another Hydra-70 guided rocket on Marine 
Corps' H-1 helicopters.[Footnote 20] Navy officials stated that DOD 
invested $71 million to fully develop, integrate, and qualify APKWS on 
the H-1. According to the Army program officials, introducing 
competition for the Hydra guidance kit could reduce its current cost 
by as much as one-third. There are costs and benefits associated with 
both the Army and Navy's acquisition approaches; however, if the Army 
and Navy fulfill their guided rocket needs separately instead of 
through a single solution with a cooperative contracting strategy, it 
could result in the inefficient use of weapon system investment 
dollars and a loss of buying power. 

Conclusions: 

DOD will likely be at some risk for overlap and duplication in its 
weapon system acquisition programs, given the breadth and magnitude of 
its investments. While some overlap and duplication may provide 
necessary redundancy for military operations, in other cases, it is 
driven by the military services generating unique system requirements 
that meet similar needs, their authority to independently make 
resource allocation decisions, and the timing of acquisition programs. 
The 3DELRR program appears to be a case where the Air Force was 
focused on what made its requirements unique, instead of looking for 
ways to leverage the Marine Corps' development program for G/ATOR. We 
found these programs to be potentially duplicative. 

DOD currently relies on its requirements and acquisition processes and 
decision makers to ensure that capabilities and programs are not 
unnecessarily redundant or duplicative. Its experiences with ground 
radar programs suggest ways to make these processes more effective in 
the future. For example, DOD may have missed an opportunity to review 
whether the capabilities of the Army's AN/TPQ-53 Counterfire Radar and 
the Marine Corps' G/ATOR Block II were unnecessarily redundant or 
duplicative because the requirements document for the AN/TPQ-53 was 
validated by the Army, rather than the JROC, which has a broader 
perspective on DOD's capability needs. In another case, DOD was better 
positioned to encourage cooperation for Patriot radar upgrades. 
Because CAPE had visibility into the program, it was able to shape the 
Army's AOA to make sure existing radars, such as 3DELRR and G/ATOR, 
were considered. 

There may be other opportunities for increased service cooperation to 
meet future ground radar needs, but, in order for key decision makers 
such as the JROC, CAPE, and the Under Secretary of Defense for 
Acquisition, Technology, and Logistics to take advantage of them, it 
is important for them to have insight into ground radar programs, 
including upgrade programs and programs that do not meet the dollar 
thresholds that trigger a "JROC Interest" designation and automatic 
review. A "JROC Interest" designation provides the JROC the 
opportunity to review ground radar performance requirements and 
capabilities for potential duplication and CAPE with the opportunity 
to develop broad AOA guidance. This type of visibility would put DOD 
in a better position to take the actions necessary to make the most 
efficient use of its resources. 

Unlike the ground radar programs we examined, most of the air-to-
ground precision guided munitions programs were already being 
developed and procured jointly. This cooperation has helped DOD 
leverage its buying power. As new areas of potential cooperation 
emerge, the services should look to leverage those opportunities. 
Specifically, when the Army revalidated its air-to-ground guided 
rocket requirement, it opened up the possibility of cooperating with 
the Navy on jointly buying APKWS or holding a competition to find a 
system that can meet both services' needs when the Navy's current sole 
source contract expires in 2016. Either option seems preferable to the 
Army and Navy potentially procuring the same or similar systems to 
fill the same requirement under different program and contracts, which 
could lead to duplicative procurement activities in both services and 
a degradation in buying power. 

Recommendations for Executive Action: 

We recommend that DOD take the following two actions: 

* To provide the JROC the opportunity to review all ground radar 
programs for potential duplication and CAPE with the opportunity to 
develop broad analysis of alternative guidance, the Vice Chairman of 
the Joint Chiefs of Staff should direct the Joint Staff to assign all 
new ground radar capability requirement documents with a Joint Staff 
designation of "JROC Interest." 

* To address potential overlap or duplication in the acquisition of 
Hydra-70 rocket guidance kits, the Under Secretary of Defense for 
Acquisition, Technology, and Logistics should require the Army and 
Navy to assess whether a single solution and cooperative, preferably 
competitive, contracting strategy offers the most cost effective way 
to meet both services' needs. 

Agency Comments and Our Evaluation: 

We provided a draft of this report to DOD for review and comment. In 
its written comments, which are reprinted in full in appendix IV, DOD 
partially concurred with our first recommendation and concurred with 
our second recommendation. DOD also provided technical comments that 
were incorporated as appropriate. 

DOD partially concurred with our recommendation to assign all new 
ground radar capability requirement documents with a Joint Staff 
designation of "JROC Interest." DOD responded that although it is 
likely that new ground radar capability would be given the Joint 
Staffing Designator of "JROC Interest," the "JROC Interest" 
designation should not be a required designation because it ignores 
the tiered Joint Staff designation system process. DOD also noted that 
it would lessen the impact and importance of the Functional 
Capabilities Boards and their role to ensure minimization of 
duplication across the portfolio. 

We acknowledge that the Joint Staff has a process for determining 
Joint Staff designations and for minimizing duplication across 
portfolios. However, as we point out in our report, DOD missed an 
opportunity to review whether the capabilities of the Army's AN/TPQ-53 
Counterfire Radar and the Marine Corps' G/ATOR Block II were 
unnecessarily redundant or duplicative because the requirements 
document for the AN/TPQ-53 was given a lower-level designation. The 
way to ensure this does not occur in the future is to make the "JROC 
Interest" designation mandatory for all new ground radar programs. 
Hence, we still believe without this designation for all new ground 
radar programs, the JROC and CAPE may not have the opportunity to 
review programs that do not meet the dollar threshold for an automatic 
"JROC Interest" designation and may miss additional opportunities to 
encourage collaboration across the military services. 

DOD concurred with our second recommendation to require the Army and 
Navy to assess whether a single solution and cooperative, preferably 
competitive, contracting strategy offers the most cost effective way 
to meet both services' needs if both services continue to pursue the 
acquisition of Hydra-70 rocket guidance kits. DOD noted that it has a 
process to consider redundancies across the services' programs, but it 
was unclear what actions it planned to take to assess if the services 
could use a single contracting strategy to meet its guided rocket 
needs. We continue to believe that DOD should assess this option as 
part of its consideration of potential redundancies. 

We are sending copies of this report to appropriate congressional 
committees; the Secretary of Defense; the Under Secretary of Defense 
for Acquisition, Technology, and Logistics; the Vice Chairman of the 
Joint Chiefs of Staff; and the Secretaries of the Army, Navy, and Air 
Force, and the Commandant of the Marine Corps. In addition, this 
report also is available at no charge on GAO's website at [hyperlink, 
http://www.gao.gov]. 

If you or your staff have any questions about this report, please 
contact me at (202) 512-4841 or sullivanm@gao.gov. Contact points for 
our Offices of Congressional Relations and Public Affairs may be found 
on the last page of this report. GAO staff who made major 
contributions to this report are listed in appendix V. 

Signed by: 

Michael J. Sullivan: 
Director: 
Acquisition and Sourcing Management: 

List of Committees: 

The Honorable Carl Levin: 
Chairman: 
The Honorable James Inhofe: 
Ranking Member: 
Committee on Armed Services: 
United States Senate: 

The Honorable Richard J. Durbin: 
Chairman: 
The Honorable Thad Cochran: 
Ranking Member: 
Subcommittee on Defense: 
Committee on Appropriations: 
United States Senate: 

The Honorable Howard P. "Buck" McKeon: 
Chairman: 
The Honorable Adam Smith: 
Ranking Member: 
Committee on Armed Services: 
House of Representatives: 

The Honorable Rodney Frelinghuysen: 
Chairman: 
The Honorable Pete Visclosky: 
Ranking Member: 
Subcommittee on Defense: 
Committee on Appropriations: 
House of Representatives: 

[End of section] 

Appendix I: Scope and Methodology: 

To determine the extent of potential overlap or duplication across (1) 
ground radar and (2) air-to-ground precision guided munitions 
programs, we reviewed acquisition programs currently in development or 
production, which does not include systems only being developed or 
produced for foreign military sales. We reviewed and analyzed 
documentation on system requirements, capabilities, and other 
distinguishing factors to determine if potential overlap or 
duplication exists. We interviewed Department of Defense (DOD) 
officials in the Joint Staff; Offices of the Under Secretary of 
Defense for Acquisition Technology, and Logistics and Director, Cost 
Assessment and Program Evaluation; and the Army, Navy, Air Force, and 
Marine Corps to discuss ground radar and air-to-ground precision 
guided munition programs as appropriate. We also reviewed DOD analysis 
and interviewed DOD officials to identify instances in which DOD found 
potential overlap or duplication during acquisition and requirements 
reviews and what actions DOD took, if any, in response to any 
identified potential overlap or duplication. 

For ground radar programs, we reviewed the mission, acquisition life 
cycle, and basic system characteristics of the military services' 
active ground radar programs, to determine which programs may have 
overlapping or duplicative requirements and capabilities. We focused 
on ground radar programs used in land operations with primarily air 
surveillance, air defense, and counterfire target acquisition 
missions. Our scope included two air surveillance and air defense 
ground radar systems--the Air Force's Three-Dimensional Expeditionary 
Long-Range Radar (3DELRR) and the Marine Corps' AN/TPS-80 Ground/Air 
Task Oriented Radar (G/ATOR) Block I Radar--and two counterfire target 
acquisition ground radar programs--the Army's AN/TPQ-53 Counterfire 
Radar and the Marine Corps' AN/TPS-80 G/ATOR Block II. We excluded the 
Army's AN/TPQ-50, which is in production, from our analysis because 
unlike the other radar system we reviewed, it is a lightweight, man 
portable radar. We also excluded Sentinel and Patriot from our 
analysis because these programs are fielded systems undergoing 
modification. Within our scope, we compared the common Key Performance 
Parameters (KPP) and Key System Attributes (KSA) found in the program 
requirements documents across the radars primarily performing air 
surveillance and air defense and counterfire target acquisition 
missions. KPPs are the performance attributes of a system considered 
critical to the development of an effective military capability. KSAs 
are the attributes or characteristics considered to be essential, but 
not critical enough to be designated a KPP. The KPPs and KSAs included 
range, probability of detection, search volume, reliability, 
availability, maintainability, and transportability/mobility, as 
appropriate. 

For air-to-ground precision guided munitions, we reviewed the type, 
acquisition life cycle, and select system characteristics of the 
military services' active air-to-ground precision guided munitions 
programs, to determine which programs may have overlapping or 
duplicative requirements and capabilities. We did not review munitions 
in certain specialized categories, such as anti-ship, anti-radiation, 
ballistic, or cruise missiles. Our scope included Advanced Precision 
Kill Weapon System II (APKWS), Direct Attack Moving Target Capability, 
Hellfire II Romeo variant, Joint Air-to-Ground Missile (JAGM), Joint 
Standoff Weapon (JSOW) C-1 variant, Maverick Laser variant, and Small 
Diameter Bomb II. Within our scope, we conducted an analysis comparing 
the precision guided munitions characteristics that we determined, in 
consultation with DOD subject matter experts, were most critical to 
assessing the system's capabilities. Based on information we gathered 
and corroborated with the military services, we compared munitions' 
air platforms, unit cost, all weather capability, and target sets: 
moving and stationary; armored and unarmored; hardened and unhardened. 

We conducted this performance audit from June 2014 to December 2014 in 
accordance with generally accepted government auditing standards. 
Those standards require that we plan and perform the audit to obtain 
sufficient, appropriate evidence to provide a reasonable basis for our 
findings and conclusions based on our audit objectives. We believe 
that the evidence obtained provides a reasonable basis for our 
findings and conclusions based on our audit objectives. 

[End of section] 

Appendix II: Description of Active Ground Radar Programs: 

Service: Army; 
Radar: AN/TPQ-53 Counterfire Target Acquisition Radar System; 
Description of capabilities: Highly mobile ground based radar set that 
automatically detects, classifies, tracks, and locates the point of 
origin of projectiles fired from rocket, artillery and mortar systems. 
The radar provides increased range and accuracy throughout a 90 degree 
search sector (stare mode) as well as 360 degree coverage (rotating) 
for locating firing positions. 

Service: Air Force; 
Radar: Three-Dimensional Expeditionary Long-Range Radar (3DELRR); 
Description of capabilities: Long-range, three-dimensional, ground-
based radar for detecting, identifying, tracking, and reporting aerial 
targets. Responds to operational need to detect and report highly 
maneuverable, small radar cross section targets to enable battlefield 
awareness. 

Service: Marine Corps; 

Radar: AN/TPS-80 Ground/Air Task Oriented Radar (G/ATOR)[A]; 
Description of capabilities: Expeditionary, three-dimensional, high-
mobility, short/medium range multi-role radar designed to detect 
cruise missiles, air breathing targets, rockets, mortars, and 
artillery. 

Radar: G/ATOR Air Defense/Surveillance Radar -Block I; 
Description of capabilities: Service: 
* Provides expeditionary, day/night, adverse weather radar coverage 
and tracks aerial objects. Provides the baseline system for the Marine 
Corps short and medium range radar requirement. 

Radar: G/ATOR Ground Weapons Locating Radar - Block II; 
Description of capabilities: 
* Detects indirect fire from rockets, artillery, and mortar systems at 
greater range and provides greater accuracy, classification and 
deployability to support counterfire and counter battery missions. 

Source: Fiscal Year 2015 budget and program documents. GAO-15-103. 

Notes: We reviewed active ground radar programs used in land 
operations with primarily air surveillance, air defense, and counter 
target acquisition missions. Active programs are defined as those 
currently in development or production. 

[A] The Marine Corps' G/ATOR is a multi-role radar. The Marine Corps 
is using an incremental approach to fielding G/ATOR capabilities. 
G/ATOR Block I is to develop the basic hardware for the radar in all 
of its potential roles. G/ATOR Block II is to be a software upgrade to 
provide counterfire target acquisition capabilities. 

[End of table] 

[End of section] 

Appendix III: Comparison of Select Active Air-to-Ground Precision 
Guided Munitions Capabilities: 

System: Advanced Precision Kill Weapon System II; 
Platforms[A]: Rotary, Unmanned Aircraft Systems; 
Seeker capabilities: All weather: [Empty]; 
Moving targets[B]: 
Armored: [Empty]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Empty]; 
Unhardened: [Check]. 

System: Direct Attack Moving Target Capability; 
Platforms[A]: Attack/Fighter; 
Seeker capabilities: All weather: [Empty]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Check]; 
Unhardened: [Check]. 

System: Hellfire II Romeo variant; 
Platforms[A]: Rotary, Unmanned Aircraft Systems; 
Seeker capabilities: All weather: [Empty]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Check]; 
Unhardened: [Check]. 

System: Joint Air-to-Ground Missile (JAGM); 
Platforms[A]: Rotary[D]; 
Seeker capabilities: All weather: [Check]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Check]; 
Unhardened: [Check]. 

System: Joint Standoff Weapon C-1 variant; 
Platforms[A]: Attack/Fighter, Bomber; 
Seeker capabilities: All weather: [Empty]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Check]; 
Unhardened: [Check]. 

System: Maverick Laser variant; 
Platforms[A]: Attack/Fighter; 
Seeker capabilities: All weather: [Empty]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Check]; 
Unhardened: [Check]. 

System: Small Diameter Bomb II; 
Platforms[A]: Attack/Fighter; 
Seeker capabilities: All weather: [Check]; 
Moving targets[B]: 
Armored: [Check]; 
Unarmored: [Check]; 
Stationary targets[C]: 
Hardened: [Empty]; 
Unhardened: [Check]. 

Source: DOD data and GAO analysis. GAO-15-103. 

Notes: Active systems are defined as those currently in development or 
production. It does not include systems only being developed or 
produced for foreign military sales. This table does not include 
precision guided munitions in certain specialized categories, such as 
anti-ship, anti-radiation, ballistic, and cruise missiles. It also 
does not include Global Positioning System-only guided munitions 
because these are not considered to be precision guided munitions by 
the Office of the Under Secretary of Defense for Acquisition, 
Technology, and Logistics, Strategic and Tactical Systems. 

[A] Platforms that meet the system's threshold requirements or are 
being used with the system. 

[B] Targets for which the system was optimized. 

[C] Targets for which the system was optimized. 

[D] JAGM is also expected to be used on unmanned aircraft systems, but 
this is not a threshold requirement. 

[End of table] 

[End of section] 

Appendix IV: Comments from the Department of Defense: 

The Joint Staff: 
Washington, DC: 

Reply ZIP Code: 20318-0300: 

December 5, 2014: 

Mr. Michael J. Sullivan: 
Director, Acquisition, and Sourcing Management: 
U.S. Government Accountability Office: 
441 G Street, NW: 
Washington DC 20548: 

Dear Mr. Sullivan: 

This is the Department of Defense (DoD) response to the GAO Draft 
Report GAO-15-103, "Ground Radar and Guided Munitions: Increased 
Oversight and Cooperation Can Help Avoid Duplication among the 
Services' Programs," dated 5 November 2014 (GAO Code 121230). 

The Department is providing the enclosed official written comments for 
inclusion in the report. 

Sincerely, 

Signed by: 

David L. Goldstein, Lt Gen, USAF: 
Director, Joint Staff: 

Enclosure: As stated. 

The Joint Staff: 
Washington, D.C. 20318-8000: 

GAO Draft Report Dated November 5, 1014: 
GAO-15-103 (GAO Code lll230): 

"Ground Radar and Guided Munitions: Increased Oversight and 
Cooperation Can Help Avoid Duplication among the Services' Programs" 

Department Of Defense Comments To The GAO Recommendations: 

Recommendation 1: To provide the JROC the opportunity to review all 
ground radar programs for potential duplication and CAPE with the 
opportunity to develop broad analysis of alternative guidance, the 
Vice Chairman of the Joint Chiefs of Staff should direct the Joint 
Staff to assign all new ground radar capability to requirement 
documents with a Joint Staff designation of "JROC Interest." 

DoD Response; Partially Concur - While it is likely new ground radar 
capability would be given the Joint Staffing Designator (JSD) of "JROC 
Interest," this should not be a required designation. When a sponsor 
submits a requirements document for Joint review, the Joint Staff 
Gatekeeper actions include the assignment of the JSD based on
actual/potential Acquisition Category (ACAT) and Joint Staff equities 
which include necessity of specific certifications and endorsements, 
leadership guidance, and predecessor document JSD. Regardless of the 
JSD, the Functional Capabilities Board (FCB) is directly involved in 
the process, and serves to ensure minimization of duplication across 
the portfolio. 

Mandating that ground radar systems always receive a designation of 
"JROC Interest" defeats the purpose of a tiered JSD system and lessens 
the impact and importance of the Functional Capabilities Boards. 

Recommendation 2: To address potential overlap or duplication in the
acquisition of Hydra-70 rocket guidance kits, the Under Secretary of 
Defense for Acquisition, Technology, and Logistics should require the 
Army and Navy to assess whether a single solution and cooperative, 
preferably competitive, contracting strategy offers the most cost 
effective way to meet both services' needs. 

DoD Response; Concur. Under the Better Buying Power (BBP) initiative, 
there is a process to consider redundancies across the Services for 
Acquisition Category II & III programs. The Advanced Precision Kill 
Weapon System II, a HYDRA-70 rocket guidance kit falls under this 
process and will be reviewed when the Army commits to procuring a 
Hydra-70 rocket guidance kit. The Army currently has no definitive 
plans to procure guidance kits for Hydra-70 rockets beyond Fiscal Year 
2015. 

[End of section] 

Appendix V: GAO Contact and Staff Acknowledgments: 

GAO Contact: 

Michael J. Sullivan, (202) 512-4841 or sullivanm@gao.gov. 

Acknowledgments: 

In addition to the contact named above, the following individuals made 
key contributions to this report: Ronald E. Schwenn, Assistant 
Director; Danielle Greene; Laura Holliday; Heather Krause; John Krump; 
Zina Merritt; Paige Muegenburg; Erin Preston; Sylvia Schatz; Roxanna 
Sun; Hai Tran; and Oziel Trevino. 

[End of section] 

Footnotes: 

[1] Overlap occurs when multiple agencies or programs have similar 
goals, engage in similar activities or strategies to achieve them, or 
target similar beneficiaries. Duplication occurs when two or more 
agencies or programs are engaged in the same activities or provide the 
same services to the same beneficiaries. See GAO, Next Generation 
Jammer: DOD Should Continue to Assess Potential Duplication and 
Overlap As Program Moves Forward, [hyperlink, 
http://www.gao.gov/products/GAO-13-642] (Washington, D.C.: Aug. 20, 
2013); Airborne Electronic Attack: Achieving Mission Objectives 
Depends on Overcoming Acquisition Challenges, [hyperlink, 
http://www.gao.gov/products/GAO-12-175] (Washington, D.C.: Mar. 29, 
2012); 2012 Annual Report: Opportunities to Reduce Duplication, 
Overlap and Fragmentation, Achieve Savings, and Enhance Revenue, 
[hyperlink, http://www.gao.gov/products/GAO-12-342SP] (Washington, 
D.C.: Feb. 28, 2012); Warfighter Support: DOD's Urgent Needs Processes 
Need a More Comprehensive Approach and Evaluation for Potential 
Consolidation, [hyperlink, http://www.gao.gov/products/GAO-11-273] 
(Washington, D.C.: Mar. 1, 2011); and Defense Acquisitions: 
Opportunities Exist to Achieve Greater Commonality and Efficiencies 
among Unmanned Aircraft Systems, [hyperlink, 
http://www.gao.gov/products/GAO-09-520] (Washington, D.C.: July 30, 
2009). 

[2] According to the Office of the Under Secretary of Defense for 
Acquisition, Technology, and Logistics, Strategic and Tactical 
Systems, precision guided munitions do not include those weapons with 
only Global Positioning System (GPS) enabled guidance systems. As a 
result, we did not include munitions, such as the Joint Direct Attack 
Munition, even though the Air Force and Navy consider GPS-only systems 
to be precision guided munitions. 

[3] A fuze provides safe, reliable detonation of a munition at the 
desired time and place. It ensures safe separation of the munition 
from the delivery platform and triggers its detonation. 

[4] JCIDS is the process used by the Joint Requirements Oversight 
Council (JROC) to fulfill its advisory responsibilities to the 
Chairman of the Joint Chiefs of Staff in identifying, assessing, 
validating, and prioritizing joint military capability gaps and the 
requirements for the systems that are planned to address them. The 
JROC is chaired by the Vice Chairman of the Joint Chiefs of Staff and 
includes one senior leader from each of the military services, among 
others. 

[5] The JROC is the validation authority for all acquisition category 
I programs. Acquisition category I programs are major defense 
acquisition programs. Major defense acquisition programs are generally 
those identified by DOD with a dollar value for all increments 
estimated to require eventual total expenditure for research, 
development, test, and evaluation of more than $480 million, or for 
procurement of more than $2.79 billion, in fiscal year 2014 constant 
dollars. The Milestone Decision Authority is the designated individual 
with overall responsibility for a program and approves entry of a 
program into the next phase of the acquisition process. 

[6] DOD Interim Instruction 5000.02, Operation of the Defense 
Acquisition System (Nov. 25, 2013). 

[7] A joint acquisition program is any acquisition program with a 
strategy that includes funding by more than one DOD component during 
any phase of a system's life cycle. 

[8] The details of our analysis are not presented here because it was 
based on classified or For Official Use Only documents. To conduct our 
analysis, we compared common Key Performance Parameters (KPP) and Key 
System Attributes (KSA) in the programs' requirements documents, 
including range, probability of detection, search volume, reliability, 
availability, maintainability, and transportability/mobility, as 
appropriate. KPPs are the performance attributes of a system 
considered critical to the development of an effective military 
capability. KSAs are the attributes or characteristics considered to 
be essential to achieving a balanced solution or approach to a system, 
but not critical enough to be designated a KPP. 

[9] Lockheed Martin and Northrop Grumman also competed for this 
contract. 

[10] Headquarters, Air Combat Command, Directorate for Requirements, 
Command and Control, Intelligence, Surveillance, and Reconnaissance 
Division, Deployable, Tactical, Radar Replacement Analysis of 
Alternatives Update (DTR2AU) Final Report, Executive Summary Revision 
(Langley Air Force Base, Va.: Apr. 18, 2014) and MIT Lincoln 
Laboratory, 3DELRR Comparison to G/ATOR LRIP v2 (Lexington, Mass.: 
Dec. 22, 2010). 

[11] Gallium nitride semiconductor technology is used in radar 
transmit-receive modules--the individual radiating elements key to 
transmitting and receiving electromagnetic signals. Gallium nitride 
has the potential to provide higher efficiency with smaller power and 
cooling demands than legacy semiconductor technology. 

[12] The details of this analysis are not presented here because it 
was based on For Official Use Only documents. To conduct our analysis, 
we compared common KPPs and KSAs in the programs' requirements 
documents, including range, probability of detection, search volume, 
reliability, availability, maintainability, and 
transportability/mobility, as appropriate. 

[13] The Firefinder family of radars includes the Army's AN/TPQ-36, 
AN/TPQ-37, and Enhanced AN/TPQ-36, and the Marine Corps' TPQ-46. 

[14] Another important distinction is the lethality of the munitions, 
but this information is classified. 

[15] The JSOW C-1 variant is optimized to hit maritime targets such as 
ships. 

[16] The Army re-validated its requirement for a guided rocket 
capability in 2014. 

[17] Hydra-70 rockets are a family of unguided, modular rockets made 
up of a motor and a variety of warheads, including high explosive, 
illumination, and smoke, which are selected for use based on the 
warfighter's situational requirements and desired effects. 

[18] APKWS has been fully integrated and qualified by the Navy on the 
Marine Corps' H-1 helicopters. The Army has completed integration and 
airworthiness qualification testing of APKWS on their AH-64 
helicopters and is in the process of fully qualifying the system. 

[19] Interim DODI 5000.02, Operation of the Defense Acquisition System 
(Nov. 25, 2013); Office of the Under Secretary of Defense, 
Acquisition, Technology, and Logistics Memorandums: "Better Buying 
Power 2.0: Continuing the Pursuit for Greater Efficiency and 
Productivity in Defense Spending" (Nov. 13, 2012); "Implementation 
Directive for Better Buying Power - Obtaining Greater Efficiency and 
Productivity in Defense Spending" (Nov. 3, 2010); "Better Buying 
Power: Guidance for Obtaining Greater Efficiency and Productivity in 
Defense Spending" (Sept. 14, 2010); and "Better Buying Power: Mandate 
for Restoring Affordability and Productivity in Defense Spending" 
(June 28, 2010). 

[20] The Navy's June 2013 Justification and Approval for awarding a 
sole source contract for APKWS states that BAE Systems is the only 
responsible source and no other type of supplies or services will 
satisfy the agency requirements. 10 U.S.C. §2304(c)(1). 

[End of section] 

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