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Program Management Has Improved, but Continued Monitoring Is Warranted' 
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United States Government Accountability Office:

GAO: 

Report to Congressional Requesters:

April 2006:

Coast Guard:

Changes to Deepwater Plan Appear Sound, and Program Management Has 
Improved, but Continued Monitoring Is Warranted:

GAO-06-546:

GAO Highlights:

Highlights of GAO-06-546, a report to congressional requesters.

Why GAO Did This Study:

The Deepwater program was designed to produce aircraft and vessels that 
would function in the Coast Guard’s traditional at-sea roles. After the 
terrorist attacks of September 11, 2001, however, the Coast Guard began 
taking on additional homeland security missions, and so it revised the 
Deepwater implementation plan to provide assets that could better meet 
these new responsibilities. While many acknowledge that the Coast 
Guard’s aging assets need replacement or renovation, concerns exist 
about the approach the Coast Guard adopted in launching the Deepwater 
program. The subsequent changes in the program’s asset mix and delivery 
schedules only increased these concerns. This report (1) compares the 
revised Deepwater implementation plans with the original plan in terms 
of the assets to be replaced or modified, and the time frames and costs 
for doing so; (2) assesses the degree to which the operational 
effectiveness model and other analytical methods used by the Coast 
Guard to develop the revised Deepwater asset mix are sound and 
appropriate for such a purpose; and (3) assesses the progress made in 
implementing GAO’s prior recommendations regarding program management

What GAO Found:

The revised Deepwater implementation plans change the balance between 
new and legacy assets, alter the delivery schedule for some assets, 
lengthen the overall acquisition schedule by 5 years, and increase the 
projected program cost from $17 billion to $24 billion. The higher cost 
generally relates to upgrading assets to reflect added homeland 
security mission requirements. Upgrades to vessels account for the 
single largest area of increase; with upgrades to the command, control, 
communications and other capabilities being second highest. In 
contrast, because the revised plans upgrade rather than replace most 
legacy aircraft and reduce the number of unmanned aircraft, the cost 
for Deepwater aircraft drops. The revised plans, like the original 
plan, are heavily dependent on receiving full funding each year. Coast 
Guard officials state that a shortfall in funding in any year could 
substantially increase total costs. 

The Coast Guard’s analytical methods were appropriate for determining 
if the revised asset mix would provide greater mission performance and 
whether the mix is appropriate for meeting Deepwater missions. GAO and 
other independent experts found the Coast Guard’s methods were reliable 
for assessing the effects of changing the asset mix and a Department of 
Defense review board facilitated accreditation of the Coast Guard’s 
approach. Because the model has proved useful for guiding Coast Guard 
decisions on the proper asset mix for achieving Deepwater performance 
goals, the Coast Guard is considering ways to expand the model to guide 
decisions on meeting its Coast Guard-wide performance goals.

Actions by the Coast Guard and the system integrator have fully 
implemented three of the eight GAO recommendations that were not fully 
addressed during GAO’s review in 2005, and three more recommendations 
appear to be nearly implemented. The remaining two have unresolved 
concerns, but the Coast Guard is taking steps to resolve them. A 
program of this size, however, will likely experience other challenges 
beyond those that have emerged so far, making continued monitoring by 
the Coast Guard important.

What GAO Recommends:

GAO is not making any new recommendations in this report. 

[Hyperlink, www.gao.gov/cgi-bin/getrpt?GAO-06-546].

To view the full product, including the scope
and methodology, click on the link above.
For more information, contact Margaret Wrightson at (415) 904-2200 or 
wrightsonm@gao.gov. 

[End of Section]

Contents:

Letter:

Results in Brief:

Background:

Model Used to Determine Revised Asset Mix Is Reliable, and the Coast 
Guard Hopes to Expand Its Use:

Progress Continues in Making Recommended Improvements:

Concluding Observations:

Agency Comments: 

Contacts and Staff Acknowledgments:

Appendix I: Objectives, Scope, and Methodology:

Appendix II: GAO Contacts and Staff Acknowledgments:

GAO Related Products:

Tables:

Table 1: Key Changes in Asset Capabilities between the Original and 
Revised Deepwater Implementation Plans:

Table 2: Number of Deepwater Aircraft and Vessels Currently in 
Operation Compared to Those Planned under the Original and Revised 
Deepwater Implementation Plans:

Table 3: Summary of Cost Differences between the Original Deepwater 
Implementation Plan and the 2005 and 2005 Revised Plans:

Table 4: Projected Performance of the Asset Mix from the Revised 
Implementation Plans Compared to the Asset Mix from the Original 
Deepwater Plan Based on Latest DMOES Modeling:

Table 5: Deepwater Missions, Performance Metrics, and Assessment 
Results from Fiscal Year 2004:

Table 6: Status of GAO Recommendations to the U.S. Coast Guard 
Regarding Management of the Deepwater Program:

Figures:

Figure 1: Comparison of the Delivery Schedules for Aircraft under the 
Original (2002) and the 2005 and 2006 Revised Deepwater Implementation 
Plans:

Figure 2: Comparison of the Delivery Schedules for Vessels under the 
Original (2002) and the 2005 and 2006 Revised Deepwater Implementation 
Plans:

Abbreviations:

ASI: Acquisitions Solutions, Inc.

DHS: Department of Homeland Security:

DMOES: Deepwater Maritime Operational Effectiveness Simulation:

DOD: Department of Defense:

GPRA: Government Performance and Results Act:

IPT: integrated product teams:

MSMP: Modeling and Simulation Master Plan:

PGA: performance gap analysis:

TOC: total ownership cost:

United States Government Accountability Office:
Washington, DC 20548:

April 28, 2006:

The Honorable Olympia J. Snowe: 
Chairwoman: 
Subcommittee on Fisheries and the Coast Guard: 
United States Senate:

The Honorable Maria Cantwell: 
Ranking Member: 
Subcommittee on Fisheries and the Coast Guard: 
United States Senate:

The nation's new homeland security realities have affected plans for 
modernizing the Coast Guard's fleet of aircraft and vessels. For about 
a decade, the Coast Guard has been developing an Integrated Deepwater 
System (or Deepwater) acquisition program, a long-term plan to replace 
or modernize this fleet. Many of these legacy assets are at or 
approaching the end of their estimated service lives.[Footnote 1] As 
originally conceived, Deepwater was designed around producing aircraft 
and vessels that would function in the Coast Guard's traditional at-sea 
roles, such as interdicting illicit drug shipments or rescuing mariners 
from difficulty at sea. After the terrorist attacks on September 11, 
2001, however, these aircraft and vessels began taking on additional 
missions related to protection of ports, waterways, and coastal areas. 
As a result, the Coast Guard began revising the Deepwater 
implementation plan to provide replacement assets that could better 
address these added responsibilities. To do so, the Coast Guard used an 
operational effectiveness model and other methods to help determine 
what mix of assets it needed and what their capabilities should 
be.[Footnote 2] In August 2005, the Coast Guard issued the revised 
Deepwater implementation plan detailing the assets it planned to modify 
or acquire, along with the proposed cost and schedule for doing so. 
Then, in February 2006, the Coast Guard again updated its Deepwater 
plan to align with its fiscal year 2007 budget submissions.

While there is widespread acknowledgment that many of the Coast Guard's 
aging assets need replacement or renovation, concerns also exist about 
the acquisition approach the Coast Guard adopted in launching the 
Deepwater program. From the outset, we have expressed concern about the 
risks involved with the Coast Guard's acquisition strategy, which 
involves relying on a prime contractor (or system integrator) to 
identify the assets needed and then using tiers of subcontractors to 
design and build the actual assets. The subsequent changes in the 
Deepwater asset mix and delivery schedules only increase these 
concerns. In 2004 we reported that well into the contract's second 
year, key components needed to manage the program and oversee the 
system integrator's performance had not been effectively 
implemented.[Footnote 3] Accordingly, we made 11 recommendations to 
address three broad areas of concern: improving program management, 
strengthening contractor accountability, and promoting cost control 
through greater competition among potential subcontractors.

This report, prepared at your request, examines the changes the Coast 
Guard has made in the Deepwater program to address its broader scope, 
as well as addressing the concerns we raised in 2004. More 
specifically, it:

* compares the revised Deepwater implementation plan issued in August 
2005 and the February 2006 updated plan with the original (August 2002) 
plan in terms of the assets to be replaced or modified, and the time 
frames and costs for doing so;

* assesses the degree to which the operational effectiveness model and 
other analytical methods used by the Coast Guard to develop the revised 
Deepwater asset mix are sound and appropriate for such a purpose; and:

* assesses the progress made in implementing our prior recommendations 
regarding Deepwater program management.

Our work included extensive reviews and analyses of (1) the original 
and revised Deepwater implementation plans, (2) the Coast Guard's 
operational effectiveness models and other analytical tools used for 
determining the proposed Deepwater asset mix, and (3) documentation 
provided by the Coast Guard on its progress in addressing our 
recommendations. We supplemented our document reviews and analyses with 
extensive discussions with officials at the Deepwater Program Executive 
Office, as well as with interviews of key Coast Guard operations and 
maintenance officials, contract monitors, and representatives of the 
system integrator. We conducted our work between August 2005 and March 
2006 in accordance with generally accepted governmental auditing 
standards. Appendix I describes our objectives, scope, and methodology 
in greater detail.

Results in Brief:

To reflect added homeland security responsibilities based on the 
terrorist attacks of September 11, 2001, the Coast Guard's August 2005 
revision and February 2006 update to the Deepwater implementation plan 
change the balance between new assets to be acquired and legacy assets 
to be upgraded and alter the schedule for delivering many of these 
assets. Overall, the acquisition schedule has been lengthened by 5 
years, with the final assets scheduled for delivery in 2027. Further, 
the revised plans increase overall program costs from the original 
estimate of $17 billion to $24 billion. The higher costs of the revised 
plans relate generally to upgrading the Deepwater assets to reflect 
post September 11, 2001 mission requirements and include such things as 
improved capabilities to operate in conditions of chemical, biological, 
and radiological contamination; greater antiterrorism weaponry; 
development of airborne use of force capabilities; improved 
communications systems; and enhanced flight decks. Costs for enhancing 
and upgrading the capabilities of the planned Deepwater replacement 
vessels account for the largest portion of the $7 billion increase. 
Specifically, vessels account for $5.5 billion of the increase in the 
2005 plan and for $5.9 billion in the 2006 plan. Further, upgrades to 
the command, control, communications, computers, intelligence, 
surveillance, and reconnaissance (C4ISR) and maritime domain awareness 
capabilities of the Deepwater assets account for the second largest 
portion of the increase, accounting for an increase of $1.1 billion in 
the 2005 revised plan and $663 million in the 2006 plan. In contrast, 
because the revised plans call for upgrading many of the legacy 
aircraft rather than replacing them with new assets, as called for in 
the original plan, and acquisitions of unmanned aerial vehicles have 
been scaled back, the overall costs for Deepwater aviation assets have 
dropped in the revised plans--by about $600 million in the 2005 plan 
and by about $400 million in the 2006 plan. Affordability, however, 
continues to be a risk for the Deepwater program. Like the original 
plan, the revised Deepwater plans are heavily dependent on receiving a 
sustained level of funding at planned levels over the life of the 
program. Coast Guard officials stated that a shortfall in funding in 
any given year--for example, because of competing budget priorities-- 
could cause costs for the Deepwater program to rise substantially.

The operational effectiveness model and other analytical methods the 
Coast Guard used have proved useful for guiding decisions on the 
revised Deepwater asset mix. The primary tool the Coast Guard used for 
determining the revised asset mix was a computer simulation model that 
projected the operational effectiveness of a variety of potential 
Deepwater force structures. Using this tool, the Coast Guard determined 
that the revised asset mix would provide greater mission performance. 
In performing our review of the Coast Guard's model, we reviewed 
computer simulation model criteria developed by an authority in the 
field of simulation modeling and found that the model successfully 
addressed these criteria. Further, a Department of Defense review board 
facilitated accreditation of the model and another group with expertise 
in this type of modeling has studied the Coast Guard's approach and 
concluded that it is reliable. Because the model has proved useful for 
guiding Coast Guard decisions on the proper asset mix for enhancing the 
mission performance of the Deepwater assets, the Coast Guard is 
considering ways to expand the model to guide decisions on meeting 
Coast Guard-wide performance goals.

The Coast Guard, in conjunction with its system integrator, has taken 
steps to fully implement three of the eight recommendations that were 
not sufficiently addressed as of our last review in 2005. These deal 
with putting in place a human capital plan to help ensure adequate 
staffing for the Deepwater program, improving input from Coast Guard 
representatives who assess the system integrator's performance to 
Deepwater program managers, and holding the system integrator 
accountable for improving the effectiveness of integrated product 
teams. Three other recommendations appear close to being fully 
implemented in that the actions taken appear to be sufficient, but 
results are not yet known or final procedural steps (such as issuing a 
policy currently in draft form) have not been completed. The remaining 
two recommendations, both of which deal with implementing effective 
program management and contractor oversight, remain problematic. For 
example, effective management of the Deepwater program depends heavily 
on strong collaboration among the Coast Guard, the system integrator, 
and the subcontractors. However, despite a number of Coast Guard 
actions to facilitate communication to and collaboration with the 
system integrator and subcontractors, Coast Guard Deepwater performance 
monitors note that collaboration among subcontractors remains 
inconsistent. The Coast Guard has initiated the steps needed to address 
this issue, but it is too early to tell if these will effectively 
eliminate the problems.

We provided a draft copy of this report to the Department of Homeland 
Security and the U.S. Coast Guard for review. The U.S. Coast Guard 
provided technical comments, which have been incorporated where 
appropriate.

Background:

As the lead federal agency for maritime homeland security within the 
Department of Homeland Security, the Coast Guard is responsible for a 
variety of missions, including ensuring security in ports and waterways 
and along coastlines, conducting search and rescue missions, 
interdicting drug shipments and illegal aliens, enforcing fisheries 
laws, and responding to reports of pollution. The Deepwater fleet, 
which currently consists of 186 aircraft and 88 vessels of various 
sizes and capabilities, plays a critical role in all of these missions.

Some Coast Guard Deepwater vessels were built in the 1960s. 
Notwithstanding extensive overhauls and other upgrades, a number of the 
vessels are nearing the end of their estimated service lives. 
Similarly, while a number of the Deepwater legacy aircraft have 
received upgrades in engines, operating systems, and sensor equipment 
since they were originally built, they too have limitations in their 
operating capabilities. The Integrated Deepwater System acquisition 
program, which the Coast Guard began developing in 1996, is its major 
effort to replace or modernize these aircraft and vessels. This 
Deepwater program is designed to replace some assets--such as 
deteriorating vessels--with new assets, and to upgrade other assets-- 
such as some types of helicopters--so they can meet new performance 
requirements.

The Deepwater program represents a unique approach to a major 
acquisition in that the Coast Guard is using a prime contractor--the 
system integrator--to identify and deliver the assets needed to meet a 
set of mission requirements the Coast Guard has specified.[Footnote 4] 
In 2002, the Coast Guard awarded a contract to Integrated Coast Guard 
Systems (ICGS), a joint venture of Lockheed Martin and Northrop 
Grumman, as the system integrator for the Deepwater program. Lockheed 
Martin and Northrop Grumman, as the two main subcontractors, in turn 
contract with other subcontractors. Rather than using the traditional 
approach of replacing classes of ships or aircraft through a series of 
individual acquisitions, the Coast Guard chose to employ a system-of- 
systems acquisition strategy that would replace its deteriorating 
Deepwater assets with a single, integrated package of new or modernized 
assets. This system-of-systems approach is designed to provide an 
improved, integrated system of aircraft, vessels, and unmanned aerial 
vehicles to be linked effectively through systems that provide command, 
control, communications, computer, intelligence, surveillance, 
reconnaissance, and supporting logistics. The Deepwater program's three 
overarching goals are to maximize operational effectiveness, minimize 
total ownership cost,[Footnote 5] and satisfy the customer--the 
operational commanders, aircraft pilots, cutter crews, maintenance 
personnel, and others who will use the assets.

We have been reviewing the Deepwater program for several years, 
pointing out successes as well as difficulties and expressing concern 
over a number of facets comprising the program. In 2001, we identified 
several areas of risk for Deepwater.[Footnote 6] First, the Coast Guard 
faced potential risk in the overall management and day-to-day 
administration of the contract. At the time, we reported on the major 
challenges in developing and implementing plans for establishing 
effective human capital practices, having key management and oversight 
processes and procedures in place, and tracking data to measure system 
integrator performance. In addition, we expressed concerns about the 
potential lack of competition during the program's later years and the 
reliance on a single system integrator for procuring the Deepwater 
assets. We also reported there was little evidence that the Coast Guard 
had analyzed whether the approach carried any inherent risks for 
ensuring the best value to the government and if so, what to do about 
them.

We reviewed the Deepwater program again in 2004 and found many of the 
same concerns.[Footnote 7] Specifically, we reported that key 
components needed to manage the program and oversee the system 
integrator's performance had not been effectively implemented. The 
Coast Guard's primary tool for overseeing the system integrator, 
integrated product teams (IPT), were struggling to effectively 
collaborate and accomplish their missions because of changing 
membership, understaffing, insufficient training, and inadequate 
communication among members. Also, the Coast Guard had not adequately 
addressed the frequent turnover of personnel in the program and the 
transition from existing assets to those assets that will be part of 
the Deepwater program moving forward. Further, the Coast Guard's 
assessment of the system integrator's performance in the first year of 
the contract lacked rigor, and the factors that formed the basis for 
the award fee were unsupported by quantifiable measures. This resulted 
in the system integrator receiving an award fee of $4.0 million out of 
a maximum of $4.6 million despite documented problems in schedule, 
performance, cost controls, and contract administration.

At the time of our 2004 report, the Coast Guard had begun to develop 
models to measure the extent to which Deepwater was achieving 
operational effectiveness and had reduced total ownership cost, but it 
had not made a decision as to which specific models would be used. 
Further, Coast Guard officials were not able to project a time frame 
for when the Coast Guard would be able to hold the contractor 
accountable for progress toward the goals of maximizing operational 
effectiveness, minimizing total ownership cost, and increasing customer 
satisfaction. Additionally, the Coast Guard had not measured the extent 
of competition among suppliers of Deepwater assets or held the system 
integrator accountable for taking steps to achieve competition. At the 
time, the Coast Guard's lack of progress on these issues had 
contributed to our concerns about the Coast Guard's ability to rely on 
competition as a means to control future programmatic costs. In 
response to these concerns, we made a number of recommendations to 
improve Deepwater management and oversight of the system integrator. In 
2005, we reported that the Coast Guard had fully addressed three of the 
recommendations and had actions underway on others.[Footnote 8]

For the past several years, the Coast Guard has been revising its 
Deepwater plan to incorporate expanded homeland security requirements 
it received after the terrorist attacks of September 11, 2001. On May 
31, 2005, the Coast Guard submitted a revised implementation plan to 
the House Subcommittee on Homeland Security, Committee on 
Appropriations, which included both a 20-year and a 25-year plan. The 
House Appropriations Committee directed the Department of Homeland 
Security and the Coast Guard to select a single revised implementation 
plan to accompany the Deepwater fiscal year 2006 budget request. In 
compliance with the Committee's direction, the Coast Guard Commandant 
testified on July 21, 2005 to the 25-year revised Deepwater 
implementation plan. Further, in February 2006, the Coast Guard 
submitted an updated Deepwater implementation plan to align with its 
fiscal year 2007 budget submission. These 2005 and 2006 revised plans 
are the ones we are using to compare to the Coast Guard's August 26, 
2002, original implementation plan.[Footnote 9] 

Inclusion of More Homeland Security Responsibilities Affects Deepwater 
Assets to Be Acquired, Acquisition Schedule, and Overall Costs:

To reflect added homeland security responsibilities based on the 
terrorist attacks of September 11, 2001, the August 2005 revision and 
February 2006 update to the Deepwater implementation plan change the 
balance of upgraded legacy versus new assets, the delivery schedules, 
and program costs from the original 2002 plan. For aircraft, the 
revised plans include upgrading many of the legacy aircraft rather than 
replacing them with new assets as called for in the original plan. For 
vessels, the revised plans maintain the original plan's strategy of 
replacing all of the legacy vessels, but include some changes in the 
number of small boats being acquired. Overall, the revised plan (1) 
increases the program length by 5 years, to a total of 25 years; (2) 
changes the delivery schedules for a number of assets; and (3) 
increases overall costs to $24 billion, $7 billion more than earlier 
estimates. The program's higher costs largely reflect the Coast Guard's 
expanded homeland security responsibilities and cover such changes as 
greater weaponry, improved communications systems, and greater 
operating capabilities. Coast Guard officials caution, however, that 
this 25-year program is heavily dependent on receiving the anticipated 
budget amount each fiscal year. If full funding is not available in any 
given year--for example, because of competing budget priorities--the 
shortfall could have cascading effects on overall costs for the 
Deepwater program.

Terrorist Attacks Have Led to Increased Emphasis on Homeland Security 
and Enhanced Deepwater Asset Capabilities:

The original Deepwater plan, while published in 2002, was developed 
before the terrorist attacks of September 11, 2001. It reflected an 
emphasis on the Coast Guard's traditional Deepwater missions, such as 
conducting search and rescue operations at sea, preventing and 
mitigating oil spills and other threats to the marine environment, 
inspecting foreign vessels, protecting important fishing grounds, and 
stemming the flow of illegal drugs and migrants into the United States. 
After the events of September 11, 2001, the revised plans took into 
account the increased security threats by incorporating a new mission 
to provide greater security for ports, waterways, and coastal areas and 
enhancing the capabilities of the Deepwater assets to better meet the 
increased threats. In particular, the revised plans call for equipping 
Deepwater helicopters to provide warning and disabling weapons fire at 
sea and in ports, waterways, and coastal areas. Further, while the 
original plan called for assets to have Deepwater interoperability-- 
meaning that all Deepwater aircraft and vessels could communicate with 
one another--the revised plans call for Deepwater assets to also have 
interoperability with assets from the Departments of Homeland Security 
and Defense, as well as with the Coast Guard's Rescue21 (R21) 
project.[Footnote 10] According to Coast Guard officials, this 
increased interoperability involves such things as adding circuits and 
data transmission capability to allow for more reliable and secure 
communication. Table 1 provides further information on some of the key 
differences between Deepwater asset capabilities in the original and 
revised plans.

Table 1: Key Changes in Asset Capabilities between the Original and 
Revised Deepwater Implementation Plans:

Deepwater asset: Aircraft; 
HC-130 Long-Range Surveillance Aircraft; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders[A]; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; Equipment installed for enhancing maritime patrol 
surveillance capabilities; 
* Increased ability to provide nationwide strategic airlift 
capabilities.

Deepwater asset: Aircraft; 
CN-235 Medium-Range Surveillance Aircraft; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; 
* Equipment installed for enhancing maritime patrol surveillance 
capabilities.

Deepwater asset: Aircraft;  
HH-60 Medium-Range Recovery Helicopter; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; Equipment installed for enhancing maritime patrol 
surveillance capabilities; 
* Upgraded to provide airborne use of force and vertical insertion and 
delivery capabilities.

Deepwater asset: Aircraft;  
HH-65 Multi-Mission Cutter Helicopter; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; 
* Equipment installed for enhancing maritime patrol surveillance 
capabilities; Upgraded to provide airborne use of force and vertical 
insertion and delivery capabilities.

Deepwater asset: Aircraft; 
HV-911 Vertical Takeoff and Landing Unmanned Aerial Vehicle; 
Key changes in asset capabilities: 
* Equipment installed for detecting chemical, biological, and 
radiological dangers.

Deepwater asset: Aircraft; 
RQ-4A High-Altitude Endurance Unmanned Aerial Vehicle; 
Key changes in asset capabilities: 
* No changes from the original plan.

Deepwater asset: Vessels; 
National Security Cutter; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; 
* Flight deck increased and enhanced to accommodate DOD and DHS 
helicopters; 
* Weapon systems upgraded; 
* Improved classified communication capabilities; 
* Underwater detection capabilities enhanced.

Deepwater asset: Vessels; 
Offshore Patrol Cutter; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; 
* Flight deck increased and enhanced to accommodate DOD and DHS 
helicopters; 
* Weapon systems upgraded; 
* Improved classified communication capabilities; 
* Cruising speed increased from 22 to 28 knots.

Deepwater asset: Vessels; 
Fast Response Cutter; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders; 
* Equipment installed for detecting chemical, biological, and 
radiological dangers; 
* Use of 40-year composite hull rather than steel hull; 
* Underwater detection capabilities enhanced; 
* Increase in transit speed from 28 to 30 knots.

Deepwater asset: Vessels; 
Long-Range Interceptor; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders.

Deepwater asset: Vessels; 
Short-Range Prosecutor; 
Key changes in asset capabilities: 
* Interoperability expanded to include DOD, DHS, Rescue-21 assets, and 
local first responders. 

Source: GAO analysis of documentation provided by the U. S. Coast Guard:

[A] Local first responders include police, firefighters, and emergency 
medical professionals.

[End of table]

Revised Plans Propose Replacing Fewer Aircraft and Adjusting the Mix of 
Vessels to Be Acquired:

The revised plans change the final mix of Deepwater aircraft more 
significantly than the mix of vessels. For example, the original plan 
called for replacing all 41 HH-60 Medium-Range Recovery Helicopters 
with 34 AB-139 helicopters. Under the revised plans, the Coast Guard 
will upgrade the HH-60s and not purchase any AB-139 helicopters. Coast 
Guard officials said they elected to retain the HH-60s because they 
determined that the AB-139 aircraft was unsuitable to meet new 
requirements for weaponry and for tactical operations. Retaining and 
upgrading HH-60 helicopters cost $500 million less than replacing them. 
Another major change in aircraft involved retaining more HC-130s to 
meet long-range surveillance, search and rescue, and airlift needs. For 
vessels, the revised plans retain the original plan's approach of 
replacing all cutters and patrol boats. The only change to the number 
of vessels is that the revised plans include nine additional 25-foot 
short range boats and nine fewer 35-foot long range boats than were 
included in the original plan. Table 2 compares the number and types of 
Deepwater assets under the original and revised plans.

Table 2: Number of Deepwater Aircraft and Vessels Currently in 
Operation Compared to Those Planned under the Original and Revised 
Deepwater Implementation Plans:

Aircraft: HC-130 Long-Range Surveillance Aircraft; 
Current[A]: 27; 
Under original plan: 6; 
Under 2005 and 2006 revised plans: 22.

Aircraft: HU-25 Medium-Range Surveillance Aircraft; 
Current[A]: 23; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 0.

Aircraft: HH-60 Medium-Range Recovery Helicopter; 
Current[A]: 41; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 42.

Aircraft: HH-65 Multi-Mission Cutter Helicopter; 
Current[A]: 95; 
Under original plan: 93; 
Under 2005 and 2006 revised plans: 95.

Aircraft: CN-235 Medium-Range Surveillance Aircraft; 
Current[A]: 0; 
Under original plan: 35; 
Under 2005 and 2006 revised plans: 36.

Aircraft: AB-139 Medium-Range Recovery Helicopter; 
Current[A]: 0; 
Under original plan: 34; 
Under 2005 and 2006 revised plans: 0.

Aircraft: HV-911 Vertical Takeoff and Landing Unmanned Aerial Vehicle; 
Current[A]: 0; 
Under original plan: 69; 
Under 2005 and 2006 revised plans: 45.

Aircraft: RQ-4A High-Altitude Endurance Unmanned Aerial Vehicle; 
Current[A]: 0; 
Under original plan: 7; 
Under 2005 and 2006 revised plans: 4.

Aircraft: Aircraft totals; 
Current[A]: 186; 
Under original plan: 244; 
Under 2005 and 2006 revised plans: 244.

Vessels: 

Vessels: 378-foot High-Endurance Cutter; 
Current[A]: 12; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 0.

Vessels: 425-foot National Security Cutter[B]; 
Current[A]: 0; 
Under original plan: 8; 
Under 2005 and 2006 revised plans: 8.

Vessels: 270-foot Medium-Endurance Cutter; 
Current[A]: 13; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 0.

Vessels: 350-foot Offshore Patrol Cutter[B]; 
Current[A]: 0; 
Under original plan: 25; 
Under 2005 and 2006 revised plans: 25.

Vessels: 210-foot Medium-Endurance Cutter; 
Current[A]: 14; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 0.

Vessels: 140-foot Fast Response Cutter[B]; 
Current[A]: 0; 
Under original plan: 58; 
Under 2005 and 2006 revised plans: 58.

Vessels: 110-foot and 123-foot Patrol Boats; 
Current[A]: 49; 
Under original plan: 0; 
Under 2005 and 2006 revised plans: 0.

Vessels: 35-foot Long-Range Interceptor[B]; 
Current[A]: 0; 
Under original plan: 42; 
Under 2005 and 2006 revised plans: 33.

Vessels: 25-foot Short-Range Prosecutor[B]; 
Current[A]: 0; 
Under original plan: 82; 
Under 2005 and 2006 revised plans: 91.

Vessels: Vessel totals; 
Current[A]: 88; 
Under original plan: 215; 
Under 2005 and 2006 revised plans: 215. 

Source: Developed by GAO from data provided by the U.S. Coast Guard.

Note: The number of assets did not change between the 2005 and 2006 
revised plans.

[A] As of February 2006.

[B] The length of all new vessels Is subject to change based on the 
maturity of the design.

[End of table]

Delivery Schedules for Deepwater Assets Have Changed:

Estimated delivery schedules for the Deepwater assets have changed. For 
some of the aircraft, deliveries have been projected for later years 
than were estimated in the original plan. For example, the Coast Guard 
now plans for delivery of its first 3 CN-235 Medium-Range Surveillance 
Aircraft during calendar year 2008. Under the original plan, the Coast 
Guard had anticipated delivery of the first 12 in 2006, with a total of 
18 delivered by the end of 2008. Final deliveries of the CN-235s under 
the 2006 revised plan are now scheduled for 2027, as opposed to 2012 
under the original plan. According to the Coast Guard, the delivery 
schedule for the CN-235 Medium-Range Surveillance Aircraft was delayed 
because the Coast Guard did not receive the anticipated level of 
funding in fiscal years 2002 and 2003, which required renegotiations. 
Figure 1 shows the original and revised delivery schedules for 
Deepwater aircraft.

Figure 1: Comparison of the Delivery Schedules for Aircraft under the 
Original (2002) and the 2005 and 2006 Revised Deepwater Implementation 
Plans:

[See PDF for image] 

Source: GAO(analysis), U.S. Coast Guard(data).

[End of figure]

For vessels, the revised plans generally spread out deliveries of each 
class of vessel over a larger number of years, as shown in figure 2. 
For example, the original plan called for delivery of 58 of the 140- 
foot Fast Response Cutters between 2018 and 2022. The revised plans 
call for delivering the first Fast Response Cutter in 2007 or 2008, 
with additional cutters being delivered every year from 2009 through 
2027--a span of 21 years. The Coast Guard originally planned to convert 
its legacy 110-foot patrol boats to 123-foot patrol boats and, 
beginning in 2018, replace the 123-foot patrol boats with 140-foot Fast 
Response Cutters. However, the patrol boat conversion project was 
halted after the first 8 patrol boats because the 123-foot patrol boats 
could not meet post September 11, 2001 mission requirements and were 
experiencing technical difficulties. Because of this, the Coast Guard 
needed to advance the delivery of the Fast Response Cutters.

Figure 2: Comparison of the Delivery Schedules for Vessels under the 
Original (2002) and the 2005 and 2006 Revised Deepwater Implementation 
Plans:

[See PDF for image] 

Source: GAO(analysis), U.S. Coast Guard(data).

[End of figure]

Estimated Cost of Revised Deepwater Plans is $7 Billion Higher, Largely 
Reflecting Increased Homeland Security Mission Requirements:

The total estimated cost of the revised Deepwater plans increased by $7 
billion over the original plan--from $17 billion to $24 billion. 
According to the Coast Guard, most of the $7 billion increase is due to 
enhanced homeland security mission requirements brought about by the 
events of September 11, 2001. In particular, data provided by the Coast 
Guard show that most of the $7 billion increase is attributable to 
costs for enhancing and upgrading the capabilities of the planned 
Deepwater replacement vessels. More specifically, as shown in table 3, 
upgrades to the Deepwater vessels account for about $5.5 billion of the 
increase in the 2005 plan, and $5.9 billion in the 2006 update.

Beyond the increases related solely to vessels, upgrades to the C4ISR 
and maritime domain awareness capabilities to improve interoperability 
between the Coast Guard and other Department of Homeland Security 
components, as well as with the Department of Defense, account for the 
second largest category of cost increases--increasing by $1.1 billion 
in the 2005 revised plan, and by $663 million in the 2006 plan. In 
contrast, because the revised plans include upgrading the HC-130 
aircraft and the HH-60 helicopter rather than replacing them as called 
for in the original plan and for scaling back on the number of unmanned 
aerial vehicles to be acquired, costs for Deepwater aircraft decreased 
from the original plan to the revised plan. Overall, costs for 
Deepwater aircraft were reduced by about $600 million in the 2005 plan 
and by about $400 million in the 2006 plan from the amount included in 
the original plan.

Table 9: Summary of Cost Differences between the Original Deepwater 
Implementation Plan and the 2005 and 2005 Revised Plans:

Deepwater asset Aircraft: HC-130 Long-Range Surveillance Aircraft; 
FY 2002 original plan[A]: 48.1; 
FY 2005 revised plan: $392.6; 
Change from original plan: $344.5; 
FY 2006 revised plan: $380.5; 
Change from original plan: $332.4.

Deepwater asset Aircraft: CN-235 Medium-Range Surveillance Aircraft; 
FY 2002 original plan[A]: 1,270.4; 
FY 2005 revised plan: $1,590.2; 
Change from original plan: $319.8; 
FY 2006 revised plan: $1,637.7; 
Change from original plan: $367.3.

Deepwater asset Aircraft: AB-139 Medium-Range Recovery Helicopter; 
FY 2002 original plan[A]: 896.6; 
FY 2005 revised plan: [Empty]; 
Change from original plan: $(896.6); 
FY 2006 revised plan: [Empty]; 
Change from original plan: $(896.6).

Deepwater asset Aircraft: HH-60 Medium-Range Recovery Helicopter; 
FY 2002 original plan[A]: 100.1; 
FY 2005 revised plan: $446.1; 
Change from original plan: $346.0; 
FY 2006 revised plan: $454.0; 
Change from original plan: $353.9.

Deepwater asset Aircraft: HH-65 Multi-Mission Cutter Helicopter; 
FY 2002 original plan[A]: 1,140.3; 
FY 2005 revised plan: $575.0; 
Change from original plan: $(565.3); 
FY 2006 revised plan: $560.6; 
Change from original plan: $(579.7).

Deepwater asset Aircraft: HV-911 Vertical Takeoff and Landing Unmanned 
Aerial Vehicle; 
FY 2002 original plan[A]: 624.8; 
FY 2005 revised plan: $503.3; 
Change from original plan: $(121.5); 
FY 2006 revised plan: $521.0; 
Change from original plan: $(103.8).

Deepwater asset Aircraft: Airborne Use of Force (HH-60/HH-65); 
FY 2002 original plan[A]: N/A[B]; 
FY 2005 revised plan: [B]; 
Change from original plan: $90.2; 
FY 2006 revised plan: $90.2; 
Change from original plan: N/A.

Deepwater asset Aircraft: Aircraft subtotals; 
Change from original plan: ($0.6 billion); 
Change from original plan: ($0.4 billion).

Vessels: National Security Cutter; 
FY 2002 original plan[A]: $1,838.1; 
FY 2005 revised plan: $2,875.1; 
Change from original plan: $1,037.0; 
FY 2006 revised plan: $2,875.9; 
Change from original plan: $1037.8.

Vessels: Offshore Patrol Cutter; 
FY 2002 original plan[A]: $4,204.2; 
FY 2005 revised plan: $7,055.7; 
Change from original plan: $2,851.5; 
FY 2006 revised plan: $7,228.0; 
Change from original plan: $3,023.8.

Vessels: 110-foot to 123-foot patrol boat conversion; 
FY 2002 original plan[A]: $363.3; 
FY 2005 revised plan: N/A; 
Change from original plan: $(363.3); 
FY 2006 revised plan: $178.5; 
Change from original plan: $(184.8).

Vessels: Fast Response Cutter; 
FY 2002 original plan[A]: $1,496.3; 
FY 2005 revised plan: $3,226.3; 
Change from original plan: $1,730.0; 
FY 2006 revised plan: $3,297.7; 
Change from original plan: $1,801.4.

Vessels: Small boats (Long-Range Interceptor and Short-Rang 
Prosecutor); 
FY 2002 original plan[A]: $130.3; 
FY 2005 revised plan: $78.9; 
Change from original plan: $(51.4); 
FY 2006 revised plan: $80.0; 
Change from original plan: $(50.3).

Vessels: Legacy Cutter Sustainment; 
FY 2002 original plan[A]: $26.3; 
FY 2005 revised plan: $338.0; 
Change from original plan: $311.7; 
FY 2006 revised plan: $315.2; 
Change from original plan: $288.9.

Vessels: Vessels subtotals; 
FY 2002 original plan[A]: N/A; 
FY 2005 revised plan: N/A; 
Change from original plan: $5.5 billion; 
FY 2006 revised plan: N/A; 
Change from original plan: $5.9 billion.

Other: Technology Obsolescence Prevention; 
FY 2002 original plan[A]: $1,106.1; 
FY 2005 revised plan: $1,630.6; 
Change from original plan: $524.5; 
FY 2006 revised plan: $1,642.6; 
Change from original plan: $536.5.

Other: C41SR Capability/Maritime Domain Awareness; 
FY 2002 original plan[A]: $748.0; 
FY 2005 revised plan: $1,847.5; 
Change from original plan: $1,099,5; 
FY 2006 revised plan: $1,411.4; 
Change from original plan: $663.4.

Other: Integrated Logistics System; 
FY 2002 original plan[A]: $343.5; 
FY 2005 revised plan: $430.7; 
Change from original plan: $87.2; 
FY 2006 revised plan: $452.0; 
Change from original plan: $108.5.

Other: Systems Engineering and Integration; 
FY 2002 original plan[A]: $1,209.7; 
FY 2005 revised plan: $1,397.6; 
Change from original plan: $187.9; 
FY 2006 revised plan: $1,069.5; 
Change from original plan: $(140.2).

Other: Government Program Management; 
FY 2002 original plan[A]: $1,441.4; 
FY 2005 revised plan: $1,526.1; 
Change from original plan: $84.7; 
FY 2006 revised plan: $1,810.1; 
Change from original plan: $368.7.

Other: Other subtotals; 
FY 2002 original plan[A]: N/A; 
FY 2005 revised plan: N/A; 
Change from original plan: $2.0 billion; 
FY 2006 revised plan: N/A; 
Change from original plan: $1.5 billion.

Totals: 
FY 2002 original plan[A]: $17.0 billion; 
FY 2005 revised plan: $23.9 billion; 
Change from original plan: $6.9 billion; 
FY 2006 revised plan: $24.0 billion; 
Change from original plan: $7.0 billion. 

Source: GAO analysis based on documentation provided by the U. S. Coast 
Guard.

Notes: All costs are in millions of dollars unless otherwise noted.

The RQ-4A High-Altitude Endurance Unmanned Aerial Vehicle is not 
included in this table since this aircraft is not being acquired as a 
capital investment; rather the Coast Guard plans to procure the 
surveillance data that the aircraft will provide.

[A] The costs for the fiscal year 2002 plan reflected in this table 
were updated in fiscal year 2004 dollars to reflect the lack of funding 
enacted in fiscal years 2002 and 2003.

[B] The costs shown for Airborne Use of Force ($75.2 million) were 
included as part of the total costs for the HH-60 and HH-65 helicopters.

[End of table]

According to the Coast Guard, the primary elements of the enhanced 
homeland security mission requirements that contributed to the $7 
billion increase include the following:

* Chemical, biological, and radiological detection and defense. For 
this element, the additional capabilities included in the revised plans 
vary by asset. The most extensive are for the National Security Cutter, 
which is to have a sealed section within which crew can operate the 
ship in a contaminated environment for limited time periods. In the 
event an area is contaminated, such as from a terrorist attack, the 
crew can use radar, heat-seeking sensors, and other equipment to 
determine what is occurring--such as whether engines are operating, 
vessels are being moved, or people are alive. Other Deepwater vessels 
and aircraft are to be equipped with exposure suits and storage for 
those suits.

* Antiterrorism and force protection. The revised plans call for more 
powerful weapons for National Security Cutters, Offshore Patrol 
Cutters, and Fast Response Cutters. Manual gun mounts on cutters will 
be replaced with selected sensor-integrated, remote-operated, and semi- 
automated gun systems. This weaponry is to give the Coast Guard 
enhanced capabilities to protect its own cutters and other high value 
assets by, for example, providing cutters with the ability to stop 
terrorists who have taken control of a ship by disabling that ship's 
propulsion with precision fire.

* Airborne use of force and vertical insertion and delivery. The 
revised plans call for the Deepwater helicopters to be fitted with 
weapons and equipment that will enable armed teams to land on a vessel, 
such as in the event a hostile group has taken over the vessel. Crew 
members can use machine guns to provide cover while a team travels by 
rope from the hovering helicopter to the vessel's deck. Additionally, 
for certain terrorist and criminal scenarios, the helicopter can use 
disabling fire to stop an illegally operated boat. In the event of a 
terrorist attack and the right circumstances, the disabling fire can be 
changed to deadly fire if necessary to stop terrorists.

* Interoperability with the Departments of Defense and Homeland 
Security, as well as Rescue-21 equipment. All Deepwater vessels and 
aircraft are to receive C4ISR enhancements that make them interoperable 
with other DHS entities, DOD assets, and local first responders. These 
enhancements include added circuits and equipment that provide full 
voice communication and limited data communications between these 
entities.

* Extended/enhanced flight deck. The flight decks of the National 
Security Cutter and Offshore Patrol Cutter are to be enlarged so that 
helicopters from other Department of Homeland Security components and 
from DOD can land on the cutters.

Deepwater Costs Could Rise if Funding Deviates from Levels Called For 
in the Plans:

In May 2001, we reported that affordability was the biggest risk for 
the Deepwater program because the Coast Guard's contracting approach 
depends on a sustained level of funding each fiscal year over the life 
of the program.[Footnote 11] For the 2005 revised implementation plan, 
these funding levels average over $1 billion per year and range from 
$650 million to over $1.5 billion per year through fiscal year 2026. 
According to Coast Guard officials, any significant or sustained 
deviation from the planned funding levels would be costly to the Coast 
Guard in the short term and set off ripples affecting the acquisition 
of Deepwater equipment for years to come. The officials added that 
significant shortfalls would likely result in increased costs, late 
delivery of equipment, and degradation of Deepwater asset performance.

Model Used to Determine Revised Asset Mix Is Reliable, and the Coast 
Guard Hopes to Expand Its Use:

In revising the Deepwater asset mix to meet new mission demands, the 
Coast Guard undertook a series of analyses that used a computer 
simulation model to project the operational effectiveness of a variety 
of potential Deepwater force structures or asset mixes. We found that 
this model contains reliable information and is useful for guiding 
decisions on the revised Deepwater asset mix. Further, a Department of 
Defense review board facilitated accreditation of the model and another 
group with expertise in this type of modeling has studied the Coast 
Guard's approach and concluded that it is reliable. Through use of this 
model, the Coast Guard projects that the Deepwater asset mix in the $24 
billion revised implementation plan will provide greater mission 
performance than the asset mix in the original plan. Other factors 
beyond this model, such as decisions of internal working groups and 
projected funding, also contributed to the adoption of the revised 
Deepwater asset mix. Because the model has proved useful for guiding 
Coast Guard decisions on the proper asset mix for enhancing the mission 
performance of the Deepwater assets, the Coast Guard is considering 
ways to expand the model to guide decisions on meeting its Coast Guard- 
wide Government Performance and Results Act (GPRA) performance 
goals.[Footnote 12]

Computer-Based Model Used in Analyzing Capacity Gaps Is Credible:

After the events of September 11, 2001, the Coast Guard undertook a 
series of analyses intended to determine what capability and capacity 
gaps would exist if the asset mix in the original Deepwater plan were 
applied to the revised Deepwater missions. To conduct this analysis, 
the Coast Guard projected the performance of a variety of asset mixes 
using a computer-based operational effectiveness simulation model known 
as the Deepwater Maritime Operational Effectiveness Simulation 
(DMOES).[Footnote 13] Using three different capacity models, the Coast 
Guard generated three different versions of the asset mix needed to 
meet Coast Guard performance targets.[Footnote 14] The resulting force 
structures were then modeled in DMOES to project their operational 
effectiveness. The results of this assessment led the Coast Guard to 
change the asset mix for its revised Deepwater plan.

We found that DMOES, which provided important evidence for Deepwater 
operational effectiveness analyses, contains reliable information for 
decision making. Specifically, our review of various statistical 
aspects of DMOES indicates that the parameters used in the DMOES model-
-the targets, missions, weather events, and probability of target 
detection present in the Deepwater environment--appear to be the result 
of a thorough and rigorous process that enhanced the model's 
credibility. In performing our review of DMOES, we reviewed computer 
simulation model criteria developed by an authority in the field of 
simulation modeling and found that the DMOES model successfully 
addressed these criteria.[Footnote 15] For example, the parameters used 
were derived from historical events (e.g., target detection or weather 
events), which helped satisfy the criterion that interactions between 
the modeled system and the outside environment be considered. To ensure 
use of valid and current data for its major updates of DMOES, Coast 
Guard gathered updated historical data and compared these data to data 
from past events. Further, because the Coast Guard modeled target 
detection capabilities for the assets at less than their full 
potential, the asset's target detection capabilities do not appear to 
be overstated.

In addition, independent authorities, in their reviews of DMOES, have 
assessed the model and have accredited it for force structure planning. 
For example, the MITRE Corporation, in an independent analysis of the 
performance gap analysis process (of which DMOES was a key component), 
found that the process and the resulting analytic results were "likely 
the most complete and comprehensive campaign-level study conducted by 
any uniformed service in recent times."[Footnote 16] Further, the Coast 
Guard submitted DMOES to a verification, validation, and 
accreditation[Footnote 17] review monitored and facilitated by the 
Joint Accreditation Support Activity.[Footnote 18] The DMOES 
Accreditation Review Board, consisting of Coast Guard officials and 
external experts in the field of military force structure 
determinations and capability-based planning, conducted the actual 
review and accredited the DMOES model for acquisition support and force 
structure planning.

Other Factors Also Affected Revised Deepwater Asset Mix:

While the capability and capacity gaps identified in the performance 
gap analysis process were a key input into the decisions leading to the 
revised Deepwater asset mix, they were not the only factor. The Coast 
Guard also shaped the Deepwater asset mix based on budget 
considerations and information developed by an internal working group. 
In particular:

* Coast Guard officials stated that affordability was a key factor in 
shaping the revised Deepwater asset mix. According to the officials, 
Deepwater was never intended to be an unconstrained acquisition 
program, and the $24 billion force structure was determined through a 
process of modeling performance of anticipated asset mixes, weighed 
against expected funding levels over the life of the program, to come 
up with an optimal balance of performance and affordability. As a 
result, the revised Deepwater asset mix was developed to maximize the 
system's capabilities and capacities within this $24 billion budget. 
The officials added that while the $24 billion budget may not allow for 
all desired capabilities on each asset, capabilities are being designed 
for later refit, if applicable.

* Further, in April 2004, the Assistant Commandant for Operations 
Capability commissioned an Aviation Legacy Alternatives Working Group 
to analyze possible alternatives to the aviation force structure in the 
original Deepwater plan.[Footnote 19] This working group provided key 
data used to enhance the performance gap analysis process. For example, 
as a result of the working group's analyses, the Coast Guard decided to 
convert and upgrade two of its four legacy aircraft (HC-130 and HH-60) 
and replace only the HU-25. This strategy was deemed by the Coast Guard 
to be the most cost-effective solution for meeting Deepwater mission 
requirements.

According to the Coast Guard, other alternatives added significant 
capacity, but at a greater cost.[Footnote 20]

Model Indicates That the Revised Asset Mix Will Provide Improved 
Mission Performance over the Original Plan:

The most recent DMOES runs conducted by the Coast Guard, published in 
October 2005, project that the revised Deepwater asset mix will provide 
"a significant improvement in traditional Coast Guard mission 
performance" compared to the original Deepwater asset mix.[Footnote 21] 
This marked the first time that the Coast Guard used DMOES to model the 
operational effectiveness of the revised Deepwater asset mix. According 
to the Coast Guard, the projected improvement in the overall mission 
performance of the revised asset mix is due mainly to increased 
maritime surveillance aircraft and, more specifically, to the converted 
HC-130, which will be present in greater numbers and with greater 
capabilities than the comparable long-range surveillance aircraft from 
the original Deepwater plan. Table 4 provides a brief summary of the 
results of our analysis of the latest DMOES modeling in terms of how 
the revised asset mix is projected to improve performance for the Coast 
Guard's various Deepwater missions. Appendix I provides more details on 
our analysis of the latest DMOES modeling.

Table 4: Projected Performance of the Asset Mix from the Revised 
Implementation Plans Compared to the Asset Mix from the Original 
Deepwater Plan Based on Latest DMOES Modeling: 

Maritime safety:

Deepwater mission: Maritime safety;
Search and rescue; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Little improvement projected: Increased 
availability of fixed-and rotary-wing aircraft to provide event 
response.

Deepwater mission: Maritime safety; 
International ice patrol; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: No improvement projected: International ice patrol 
missions were not modeled because the assets did not change between the 
original and revised Deepwater plans. 

Maritime security:

Deepwater mission: Maritime security; 
General law enforcement; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Little to some improvement projected: Increased 
availability of fixed- and rotary-wing aircraft to provide event 
response, though performance could be decreased in the western United 
States because of the relocation of major cutters to other patrol areas 
and missions.

Deepwater mission: Maritime security; 
Alien migrant interdiction operations; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Some to moderate improvement projected: Increased 
availability of fixed-and rotary-wing aircraft to provide tactical 
surveillance and increased prosecution capabilities.

Deepwater mission: Maritime security; 
Drug interdiction; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Little to some improvement projected: Increased 
availability of fixed-and rotary-wing aircraft to provide tactical 
surveillance and increased prosecution capabilities.

Deepwater mission: Maritime security; 
Living marine resources enforcement-exclusive economic zones; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Moderate to good improvement projected: Increased 
availability of fixed-and rotary-wing aircraft to provide tactical 
surveillance and to conduct intercepts of identified targets of 
interest. Mission performance could be decreased in Alaska, however, 
because of a lack of strategic surveillance capability.

Deepwater mission: Maritime security; 
Maritime homeland security; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Moderate improvement projected: Increased 
availability of fixed-and rotary-wing aircraft to provide tactical 
surveillance as well as increased naval operational capabilities, such 
as the increased speed, endurance, and improved flight decks of the new 
cutters. This mission may have to be performed by non-Deepwater assets 
in some locations, however, because of competing priorities for the 
Deepwater assets. 

Protection of natural resources:

Deepwater mission: Protection of natural resources; 
Living marine resources enforcement (domestic); 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Little to some improvement projected: Increased 
fixed-wing surveillance capacity and increased prosecution 
capabilities. This mission may be negatively affected in some western 
locations, however, because of the reallocation of major cutter 
patrols, as well as the change in type and number of rotary-wing assets 
available to cover high-threat areas.

Deepwater mission: Protection of natural resources; 
Foreign vessel inspection; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: No improvement projected. This mission is largely 
served by non-Deepwater assets, so the impact of the Deepwater asset 
mix is limited under either plan.

Deepwater mission: Protection of natural resources; 
Lightering zone enforcement; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Some improvement projected: Increased rotary-wing 
aircraft availability.

Deepwater mission: Protection of natural resources; 
Maritime pollution enforcement and response; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: No improvement projected. This mission is largely 
served by non-Deepwater assets, so the impact of the Deepwater asset 
mix is limited under either plan. 

National Defense:

Deepwater mission: National defense; 
General defense operations Maritime Intercept operations Marine 
environmental response operations Port operations security and defense 
Coastal sea control operations; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Good improvement projected: Improved naval 
operational capabilities, such as increased speed, endurance, and 
improved flight decks of the new cutters. 

Deepwater mission: National defense; 
Theater security cooperation; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Good improvement projected: Improved naval 
operational capabilities, such as increased speed, endurance, and 
improved flight decks of the new cutters.

Non-Deepwater aviation demand/Maritime domain awareness:

Non-Deepwater aviation demand/Maritime domain awareness; 
Non-Deepwater aviation demand; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: No improvement projected. The data used to 
represent this mission demand in the model was not complete enough to 
truly capture all elements of demand; U.S. Coast Guard projects that 
more robust data in future model runs will show greater projected 
performance under the revised asset mix.

Non-Deepwater aviation demand/Maritime domain awareness; 
Maritime domain awareness; 
GAO assessment of the impact of the revised asset mix on Deepwater 
mission performance: Some improvement projected: Increased availability 
of fixed-wing aircraft to provide surveillance. 

Source: GAO analysis of data provided by the U.S. Coast Guard.

Notes: The categories of projected improvement of the revised Deepwater 
asset mix compared to the original Deepwater asset mix are based on GAO 
analysis of U.S. Coast Guard data and are as follows:

* 0% chance of improvement projected = No improvement projected; 
 
* 25% chance of improvement projected = Little improvement projected;  

* 50% chance of improvement projected = Some improvement projected;

* 75% chance of improvement projected = Moderate improvement projected; 

* 100% chance of improvement projected = Good improvement projected.

"Improvement" in this context indicates performance of the revised 
Deepwater asset mix that is one full standard deviation greater than 
that of the original Deepwater asset mix, as presented by the U.S. 
Coast Guard.

[End of table]

Coast Guard Is Exploring Options for Applying Further Modeling for 
Projecting Coast Guard-wide Performance Capabilities:

Though DMOES was an accredited, rigorous simulation model effective in 
supporting Deepwater force structure planning, it does not capture the 
impact of non-Deepwater asset contributions and, therefore, does not 
provide a means for the Coast Guard to estimate the extent to which its 
entire fleet of aircraft and vessels will allow it to meet Coast Guard-
wide GPRA performance targets. The Coast Guard is aware of this 
limitation and is exploring options for expanding DMOES to encompass 
all Coast Guard assets--both Deepwater and non-Deepwater--in an effort 
to provide for a true analysis of Coast Guard-wide mission performance 
capabilities. While this has not yet occurred, Coast Guard officials 
told us they were reasonably confident that the cumulative effect of 
merging the revised Deepwater assets with its non-Deepwater assets 
would allow the Coast Guard to meet GPRA targets for those missions 
involving Deepwater aircraft and vessels. In the interim, the Coast 
Guard has taken steps to measure the impact of Deepwater assets on 
Deepwater-related metrics. Since 2002, the Coast Guard has annually 
reviewed--and plans to continue reviewing--the most recent complete 
year's worth of data and estimates the Deepwater-only contribution 
toward meeting performance goals for seven particular performance 
metrics. These performance metrics and results for the most recent year 
available are shown in table 5.

Table 5: Deepwater Missions, Performance Metrics, and Assessment 
Results from Fiscal Year 2004:

Search and rescue; 
Percentage of lives saved after Coast Guard notification in cases with 
Deepwater participation; 
Performance goal: 93.0%; 
Performance results: 92.6%.

Cocaine seizure rate; 
Percentage of cocaine shipped through transit zone that is seized by 
Deepwater assets; 
Performance goal: 6.5%; 
Performance results: Not determined.

Illegal or undocumented migrant interdiction; 
Percentage of total migrant flow interdicted with Deepwater assets; 
Performance goal: 32.0%; 
Performance results: 41.9%.

Foreign fishing vessel interdiction; Percentage of foreign fishing 
vessels detected in U.S. Economic Enforcement Zone interdicted with 
Deepwater assets; 
Performance goal: 6.7%; 
Performance results: 4.5%.

Protection of living marine resources; 
Percentage of Deepwater living marine resources law enforcement 
boardings without significant violations; 
Performance goal: 97%; 
Performance results: 94.8%.

National defense/military readiness; 
Maintain 100 percent combined readiness of high-endurance cutters and 
patrol boats to support Department of Defense requirements; 
Performance goal: 100.0%; 
Performance results: 99.3%.

International ice patrol; 
Maintain 95 percent accuracy of all limits of all known ice 
broadcasts[A]; 
Performance goal: 98.0%; 
Performance results: 97.8%. 

Source: Analysis by GAO based on data provided by the U.S. Coast Guard.

[A] The Coast Guard regularly collects data on ice conditions whenever 
icebergs threaten primary shipping routes between Europe and the United 
States and Canada. The Coast Guard uses this information to predict the 
drift of icebergs along these shipping routes and broadcasts this 
information for the benefit of all vessels transiting the North 
Atlantic. These messages are referred to as the "limit of all known ice 
broadcasts."

[End of table]

Disaggregating performance data to reflect Deepwater-only contributions 
provides an estimate of the extent to which the Deepwater fleet is 
helping the Coast Guard meet these key targets on an annual basis. For 
example, as a result of these efforts, the Coast Guard determined that 
Deepwater assets saved 92.6 percent of lives at risk after Coast Guard 
notification in fiscal year 2004, which is slightly below the Deepwater 
asset target value of 93 percent.

Progress Continues in Making Recommended Improvements:

Our past concerns about the Deepwater program have been in three main 
areas--ensuring better program management and contractor oversight, 
ensuring greater accountability on the part of the system integrator, 
and creating sufficient competition to help act as a control on costs-
-and we made a total of 11 recommendations to address these concerns. 
During our 2005 review, we determined that the Coast Guard had 
addressed and fully implemented 2 of these 11 recommendations. The 
Coast Guard disagreed with and declined to implement a separate 
recommendation that pertained to updating its cost baseline to 
determine whether the Deepwater acquisition approach is costing more 
than a conventional acquisition approach. While we stand behind our 
original recommendation, we decided not to pursue it further because 
the Coast Guard determined that the cost to implement this 
recommendation was excessive. Thus, at the time we began our current 
review, 8 of the 11 recommendations were not yet fully implemented. On 
the basis of information we gathered for this review, we consider 3 of 
these 8 recommendations to be fully implemented. The Coast Guard is in 
the process of taking actions to implement 3 more recommendations, but 
full implementation is dependent on seeing results or completion of 
actions that are not yet in final form. The 2 remaining 
recommendations, both relating to overall program management and 
oversight, remain problematic. One relates to improving the 
effectiveness of integrated product teams, the other to providing field 
personnel with guidance and training on transitioning to new Deepwater 
assets. In each case, the Coast Guard has taken actions, but our review 
of program reports and our discussions with program and field personnel 
indicate the problems still remain. In all cases, however, the steps 
needed to fully implement these recommendations seem relatively clear.

Table 6 provides an overview of the 11 recommendations. The sections 
below discuss the recommendations made in each of the three areas of 
concern, describing the initial issue that led to the recommendation, 
the steps taken to date to address it, and our rationale for 
considering the recommendation as being fully implemented or not. Where 
we make a determination that a recommendation has not yet been 
implemented, we indicate what actions are needed.

Table 23: Status of GAO Recommendations to the U.S. Coast Guard 
Regarding Management of the Deepwater Program:

Areas of concern: Key components of management and oversight are not 
effectively implemented; 

* Recommendations to the U.S. Coast Guard: Put in place a human capital 
plan to ensure adequate staffing of the Deepwater program; 
Recommendation status: Implemented;

* Recommendations to the U.S. Coast Guard: Areas of concern: Improve 
integrated product teams responsible for managing the program by 
providing better training, approving charters, and improving systems 
for sharing information between teams; 
Recommendation status: Areas of concern: Partially implemented;

* Recommendations to the U.S. Coast Guard: Provide field personnel with 
guidance and training on transitioning to new Deepwater assets; 
Recommendation status: Partially implemented.

Areas of concern: Procedures for ensuring contractor accountability are 
inadequate; 
* Recommendations to the U.S. Coast Guard: Develop measurable award fee 
criteria consistent with guidance from the Office of Federal 
Procurement Policy; 
Recommendation status: Implemented[A]; 

* Recommendations to the U.S. Coast Guard: Provide for better input 
from U.S. Coast Guard performance monitors; 
Recommendation status: Implemented;

* Recommendations to the U.S. Coast Guard: Hold the system integrator 
accountable for improving effectives of the integrated product teams;  
Recommendation status: Implemented;

* Recommendations to the U.S. Coast Guard: Establish a baseline for 
determining whether the acquisition approach is costing the government 
more than the traditional asset replacement approach; 
Recommendation status: Will not be implemented.

* Recommendations to the U.S. Coast Guard: Establish a time frame for 
putting steps in place to measure contractor's progress toward 
improving operational effectiveness; 
Recommendation status: Partially implemented.

* Recommendations to the U.S. Coast Guard: Establish criteria to 
determine when to adjust the project baseline and document the reasons 
for change; 
Recommendation status: Partially implemented.

Areas of concern: Control of future costs through competition remains 
at risk because of week oversight; 
* Recommendations to the U.S. Coast Guard: For subcontracts over $5 
million awarded by the system integrator to the two major 
subcontractors, require notification to the Coast Guard about decision 
to perform the work in-house rather than contracting it out; 
Recommendation status: Implemented[A].

* Recommendations to the U.S. Coast Guard: Develop a comprehensive plan 
for holding the system integrator accountable for ensuing adequate 
competition among suppliers; 
Recommendation status: Partially implemented. 

Source: GAO analysis.

[A] Determined to be implemented during work performed in 2005 for GAO-
05-757.

[End of table]

Coast Guard's Efforts to Improve Oversight and Program Management Show 
Mixed Results:

We continue to see mixed results in the Coast Guard's efforts to 
improve oversight and management of the Deepwater program. The Coast 
Guard has put in place a human capital plan to help ensure adequate 
staffing of the Deepwater program and has taken actions to improve the 
effectiveness of integrated product teams. However, subcontractor 
collaboration and provision of guidance on transitioning to new 
Deepwater assets to field personnel, particularly as it pertains to 
maintenance and logistics responsibilities, continue to need additional 
attention.

Put in Place a Human Capital Plan to Ensure Adequate Staffing of the 
Deepwater Program:

Original issue: As early as 2001, we noted that difficult human capital 
challenges would need to be addressed, including the need to recruit 
and train sufficient staff to manage and oversee the Deepwater 
contract.[Footnote 22] Reviewing this matter again in 2004, we found 
that the Coast Guard had not funded the number of staff requested by 
the Deepwater program and had not adhered to the processes outlined in 
its human capital plan for addressing turnover of Deepwater officials, 
particularly Coast Guard personnel.[Footnote 23] These staffing 
shortfalls contributed to problems in making timely decisions and 
keeping pace with the workload.

Steps taken: The Coast Guard took several steps to address this issue. 
Its initial steps involved hiring contractors to assist with program 
support functions, shifting some positions from being staffed by 
military personnel to civilian personnel to mitigate turnover risk, and 
identifying the hard-to-fill positions and developing recruitment plans 
specifically for them. Subsequent to these changes, the Deepwater 
program's executive officer (1) approved a revised human capital plan 
in February 2005 emphasizing workforce planning and (2) is developing 
ways to leverage institutional knowledge as staff rotate out of the 
Deepwater program. The Coast Guard plans to review the human capital 
plan annually to ensure continual alignment between human capital 
management and actual program performance. The Coast Guard has also 
placed added emphasis on staffing when formulating the program's budget 
request--for example, in adding contracting officers and specialists. 
Finally, the Coast Guard has worked closely with the Department of 
Homeland Security and the Defense Acquisition University to provide 
training for Deepwater personnel.

Recommendation status: The steps the Coast Guard has taken appear 
sufficient to address matters related to adequately staffing the 
Deepwater program and mitigating turnover, and therefore we consider 
this recommendation to be fully implemented.

Strengthening Integrated Product Teams:

Original issue: Effective management of the Deepwater program depends 
heavily on strong collaboration among the Coast Guard, the system 
integrator, and the subcontractors. Integrated product teams (IPTs), 
the Coast Guard's primary tool for managing the Deepwater program, 
overseeing contractor activities, and ensuring collaboration have 
experienced difficulty from the outset. IPTs, which are generally 
chaired by a subcontractor representative and consist of members 
representing the subcontractors and the Coast Guard, are responsible 
for overall program planning and management, asset integration, and 
overseeing delivery of specific Deepwater assets. In 2004, we reported 
these teams were struggling to carry out their missions because of four 
major issues: lack of timely charters to provide authority needed for 
decision making, inadequate communication among team members, high 
turnover, and insufficient training.

Steps taken: In 2005, we found that all IPTs had charters and their 
members had received entry-level training. Decision making, however, 
continued to be largely compartmented. Since then, the Coast Guard has 
established domain management teams to serve as oversight and conflict 
resolution entities for the IPTs. According to Coast Guard officials, 
these teams are also to enhance collaboration on issues that cut across 
several IPTs. Monthly assessments show IPTs have continued to improve 
their effectiveness across all performance measures.

Recommendation status: While the Coast Guard has taken some actions, we 
do not believe the actions are sufficient to consider the 
recommendation to be fully implemented because there are indications 
that collaboration among subcontractors remains inconsistent. Last year 
we pointed out that ICGS's two major subcontractors, Lockheed Martin 
and Northrop Grumman, were operating under their own management systems 
and that this approach could lessen the likelihood that a system-of- 
systems outcome would be successfully achieved. During our current 
review, Coast Guard performance monitors and the program's executive 
officer reported that collaboration among the subcontractors continues 
to be problematic and that ICGS wields little influence to compel 
decisions among them. For example, when dealing with proposed design 
changes to assets under construction, ICGS submits the changes as two 
separate proposals from both first-tier subcontractors rather than 
coordinating the separate proposals into one coherent plan. According 
to Coast Guard performance monitors, this approach complicates the 
Coast Guard's review of the needed design change because the two 
proposals often carry overlapping work items, thereby forcing the Coast 
Guard to act as the system integrator in these situations.

The Coast Guard has undertaken efforts to address these problems. Coast 
Guard officials said they have improved communication with ICGS in this 
area so that requirements are more easily discernable. Further, the 
Coast Guard is beginning to take steps to collaborate with the system 
integrator and the first-tier subcontractors with greater frequency, 
but it is too early to tell if these will effectively eliminate the 
problems.

Providing Field Personnel with Guidance and Training on Transitioning 
to New Deepwater Assets:

Original issue: In 2004, we found the Coast Guard had not effectively 
communicated decisions on (1) how new Deepwater and existing assets are 
to be integrated during the transition and (2) whether Coast Guard or 
contractor personnel (or a combination of the two) will be responsible 
for maintenance of the Deepwater assets. For example, Coast Guard field 
personnel, including senior-level operators and naval engineering 
support command officials, said they had not received information about 
how they would be able to continue accomplishing their missions using 
existing assets while also being trained on the new assets.

Steps taken: The Coast Guard has taken some steps to improve the level 
of communication between the Deepwater program and field operators and 
maintenance personnel. A November 2004 analysis of the Deepwater 
program's communication process, conducted in coordination with the 
National Graduate School, found that the communication and feedback 
process was inadequate. Since then, the Coast Guard has placed more 
emphasis on outreach to field personnel, including surveys, face- to-
face meetings, and presentations. More recently, officials from the 
Atlantic and Pacific Area Commands, Maintenance and Logistics Commands, 
and the Aircraft Repair and Supply Center agreed that Deepwater program 
officials have significantly improved the frequency and types of 
information flowing from the program office to the field. In addition, 
field personnel are members of several IPTs and working groups, and 
ICGS has placed liaisons at several field locations.

Recommendation status: While the Coast Guard has taken some actions, 
there are indications that the actions are not yet sufficient to 
consider the recommendation to be fully implemented. In particular, our 
review of relevant documents and our discussions with key personnel 
make clear that field operators and maintenance personnel are still 
concerned that their view are not adequately acknowledged and 
addressed, and have little information about maintenance and logistics 
plans for the new Deepwater assets. For example, though the first 
National Security Cutter is to be delivered in August 2007, field and 
maintenance officials have yet to receive information on plans for crew 
training, necessary shore facility modifications, or how maintenance 
and logistics responsibilities will be divided between the Coast Guard 
and ICGS. According to Coast Guard officials, many of these decisions 
need to be made and communicated very soon in order to allow for proper 
planning and preparation in advance of the cutter's delivery.

More Time Needed to Determine Adequacy of Steps Taken to Improve System 
Integrator Accountability:

Unlike actions on the previous recommendations, Coast Guard actions to 
provide better input from Coast Guard performance monitors and to hold 
the system integrator more accountable for performance appear to be 
largely sufficient. We cannot determine whether the Coast Guard has 
implemented several of our recommendations in this area, however, until 
more Deepwater assets are delivered and the results of these actions 
can be assessed.

Providing Better Input from Coast Guard Performance Monitors:

Original issue: In 2004, we reported that the Coast Guard's award fee 
evaluation of the first year of ICGS's performance was based on 
unsupported calculations and relied heavily on subjective judgments. 
Rating procedures used by Coast Guard performance monitors were 
inconsistent, as were procedures for calculating scores, leading to 
questions about whether the award fee decision was well supported.

Actions taken: The Coast Guard has provided additional guidance and 
training to performance monitors, better allowing them to link their 
comments with specific examples within their respective areas of 
responsibility. The Coast Guard has also improved the consistency of 
the format that performance monitors use to provide input about the 
system integrator's performance and revised assessment criteria to more 
clearly differentiate between objective measures (that is, developed 
using automated tools and compared against defined standards) and 
subjective evaluations. Weights have been assigned to each set of 
evaluation factors, and the Coast Guard continues to adjust these 
factors to achieve an appropriate balance between automated results and 
eyewitness observations.

Recommendation status: The Coast Guard's efforts to provide better 
guidance and training, improve the consistency of the format for 
performance monitors' input, and clarify performance assessment 
criteria appear sufficient for addressing the issue, and therefore we 
consider this recommendation to be fully implemented.

Holding the System Integrator Accountable for Improving Effectiveness 
of the Integrated Product Teams:

Original issue: In 2004, we found that the system integrator, whose 
subcontractors chaired the IPT working groups, was not being held 
accountable for IPT effectiveness in its performance assessments. 
Actions taken: The Coast Guard changed award fee measures to place 
additional emphasis on the system integrator's responsibility for 
making the IPTs effective. Award fee criteria now incorporate the 
administration, management commitment, collaboration, training, and 
empowerment of these teams.

Recommendation status: With IPTs' performance now included in the 
criteria for measuring the system integrator's performance, we consider 
this recommendation to be fully implemented.

Establishing a Time Frame for Putting Steps in Place to Measure 
Contractor's Progress toward Improving Operational Effectiveness:

Original issue: In 2001, the Coast Guard set a goal of developing 
measures, within 1 year after contract award, to conduct annual 
assessments of the system integrator's progress toward achieving the 
three overarching goals of the Deepwater program, including increased 
operational effectiveness. In 2004, we found that the time frame for 
the first review of the contractor's performance against the Deepwater 
goals had slipped. The former Deepwater chief contracting officer told 
us that he anticipated that the metrics would be in place in the fourth 
year of the contract, the same year the Coast Guard would decide 
whether or not to extend the contract.

Steps taken: The Coast Guard has since developed modeling capabilities--
namely the DMOES model discussed earlier--to simulate the effect of the 
new assets' capabilities on the Coast Guard's ability to meet its 
missions. Coast Guard officials told us that they are now beginning to 
track the operational effectiveness of the Deepwater program using both 
the DMOES model and actual mission performance data. Further, at the 
Coast Guard's request, the Center for Naval Analyses developed a tool 
to measure the "presence" of Deepwater assets--that is the number of 
square miles of ocean in which Deepwater aircraft and vessels can 
detect, identify, and prosecute targets. In addition, Coast Guard 
officials have also begun using mission performance data from 2004, the 
most recent year of complete information, to measure the contribution 
provided by Deepwater systems or assets in seven mission areas: search 
and rescue, cocaine seizure rate, illegal or undocumented migrant 
interdiction, foreign fishing vessel interdiction, protection of living 
marine resources, national defense/military readiness, and 
international ice patrol. Coast Guard officials acknowledge that this 
is difficult, though, because the data on mission results and 
accomplishments do not differentiate between Deepwater assets and non- 
Deepwater assets. Coast Guard officials said doing so should become 
easier as more Deepwater assets come on line and as analytical tools 
are refined.

Recommendation status: Although the models have been developed and are 
being refined to measure operational effectiveness, there are too few 
Deepwater assets currently in operation to effectively measure the 
system integrator's actual performance in improving operational 
effectiveness. As a result, we do not consider this recommendation to 
be fully implemented.

We recognize, though, that as more Deepwater assets and systems come on 
line, the amount of data will increase and the analytical tools will be 
more refined so that the Coast Guard should be in a better position to 
(1) discern the Deepwater program's contribution to operational 
effectiveness and (2) fully implement this recommendation.

Establishing Criteria to Determine When to Adjust the Project Baseline 
and Document the Reasons for Change:

Original issue: Establishing a solid baseline against which to measure 
progress in lowering total ownership cost (TOC) is critical to holding 
the system integrator accountable. However, during our 2004 review, we 
found that the Coast Guard's Deepwater TOC baseline had been 
significantly changed from what had been originally envisioned and that 
further changes could be made as a result of variables such as fuel 
costs or vessels' operating tempo. At the time, Coast Guard officials 
explained that proposed changes to the baseline would be approved by 
the program executive officer on a case-by-case basis, though the Coast 
Guard had not developed criteria for potential upward or downward 
adjustments to the baseline.

Steps taken: In response to our concerns, the Coast Guard began using 
criteria from its Major Systems Acquisition Manual as the basis for 
adjusting the TOC baseline. These criteria allow the baseline to be 
adjusted based on significant changes in mission requirements, schedule 
changes, or project funding, or for specific congressional actions. 
Coast Guard officials also told us that they have also added criteria 
for making changes to the baseline, such as:

* insufficient program funding or inflationary pressure that exceeds 
the assumptions and:

* natural disasters or periods of national emergency that require a 
deviation from the baseline's cost, schedule, or performance parameters.

Coast Guard officials said that approval of revisions to the program's 
overall baseline must come through approved decision memorandums from 
the Agency Acquisition Executive, who is the Vice Commandant of the 
Coast Guard. The Deepwater Program Executive Officer still has 
authority to approve baseline revisions at the asset and domain level. 
Depending on their severity, baseline changes now are also subject to 
review and approval by the Department of Homeland Security (DHS), the 
Coast Guard's parent agency. The Coast Guard is required to submit 
Deepwater program baseline information to DHS on a quarterly basis, and 
the project is subject to an annual review by the DHS Investment Review 
Board. According to DHS officials, a baseline breach of 8 percent or 
more would require that the Coast Guard provide information on the 
causal factors and propose corrective actions to rectify the 
breach.[Footnote 24] The officials added that, if the baseline breach 
is considered significant, the Office of Management and Budget is to be 
notified that the program will have to undergo a rebaselining and its 
funding profile will need to be altered. Further, as a result of its 
latest review of the Deepwater program, the DHS Investment Review Board 
has asked that, in addition to overall program baseline information, 
the Coast Guard also provide baseline information for each of the 
Deepwater assets. This will provide DHS with more insight into the 
program's cost, schedule, and performance.

Recommendation status: The Coast Guard's steps, combined with DHS's 
oversight requirements, should be sufficient to resolve this issue. At 
present, however, DHS's policy directive is only in draft form. We will 
consider this recommendation to be fully implemented when the 
management directive is finalized.[Footnote 25]

Effects of Steps Taken to Control Future Costs through Competition Will 
Take Time to Assess:

The Coast Guard has taken a number of actions to address the remaining 
recommendation in this area, which relates to holding the system 
integrator accountable for ensuring competition among subcontractors. 
However, until the effects of these actions are more apparent, we are 
not able to consider the recommendation as being implemented.

Developing a Plan for Holding the System Integrator Accountable for 
Ensuring Adequate Competition among Suppliers:

Original issue: Competition is a key component for controlling costs in 
the Deepwater program and a guiding principle for DHS's major 
acquisitions. In 2004, we found that beyond the initial 5- year 
contract period, the Coast Guard had no way to ensure competition was 
occurring because it did not have mechanisms in place to measure the 
extent of competition or to hold the system integrator accountable for 
steps taken to achieve competition. Shortly before, the system 
integrator had adopted Lockheed Martin's "open business model" as a 
corporate policy to help ensure competition and keep costs under 
control.[Footnote 26] However, the open business model is not a formal 
policy involving specific decision points to ensure that competition 
will be considered. Further, the first-tier subcontractors, Lockheed 
Martin and Northrop Grumman, have largely continued to follow their own 
procurement procedures and guidance for determining whether competition 
will occur and the suppliers who will be invited to compete for 
Deepwater assets.

Steps taken: To address our recommendation about ensuring out-year 
competition among second-tier suppliers, the Coast Guard contracted 
with Acquisitions Solutions, Inc. (ASI), to assess the amount of second-
tier competition conducted by ICGS during 2004. ASI issued a report in 
May 2005 that, among other things, found that the open business model 
had not been fully embraced by Northrop Grumman despite its being an 
ICGS corporate policy.[Footnote 27] The report made nine 
recommendations aimed at improving competition throughout the Deepwater 
program. According to Deepwater officials, ICGS developed a plan to 
adopt all nine recommendations by March 1, 2006, and is providing 
training on use of the open business model to Northrop Grumman 
personnel working on the Deepwater program. Further, Coast Guard 
officials reported that competition will be assessed as a part of the 
award fee assessment subjective criteria for the fifth year of the 
contract and the Coast Guard will specifically examine the system 
integrator's ability to control costs by assessing the degree to which 
competition is fostered at the major subcontractor level during the 
award term decision process later this year.[Footnote 28]

Recommendation status: While steps already under way appear to be 
sufficient to resolve our concerns, we cannot consider this 
recommendation as being fully implemented until the Coast Guard has 
addressed the ASI recommendations and results of the next award term 
assessment are known.

Concluding Observations:

The Coast Guard has done a commendable job of adapting the Deepwater 
program to post-September 11 realities. Our analysis shows that Coast 
Guard officials used sound analytical methods to assess the revised 
needs for aircraft and vessels. Coast Guard officials have also taken 
strong efforts to address concerns about program management and 
contract performance and have largely implemented or are in the process 
of implementing steps that would help mitigate these concerns. We agree 
that the Coast Guard would be well served to continue developing ways 
to use its computer modeling to establish clear relationships between 
its mix of assets--aircraft and vessels--and its Deepwater and agency- 
level performance goals. We have pointed out in past reports that the 
Coast Guard lacks clear measures of how its resources are linked to 
achieving performance goals, so these steps should help resolve this 
concern. We realize that this ongoing effort will likely take some time 
to complete. While the Coast Guard has made good progress in addressing 
our recommendations, there are aspects of the Deepwater program that 
will require continued attention. First, the Deepwater program 
continues to face a degree of underlying risk, in part because of the 
unique approach involving a system-of-systems approach with the 
contractor acting as overall integrator, and in part because it so 
heavily tied to precise year-to-year funding requirements over the next 
two decades. Further, a project of this magnitude will likely continue 
to experience other concerns and challenges beyond those that have 
emerged so far. It will be important for Coast Guard managers to 
continue careful monitoring of contractor performance and to continue 
addressing program management concerns as they arise.

Agency Comments:

We requested comments on a draft of this report from the Department of 
Homeland Security and the U.S. Coast Guard. The U.S. Coast Guard 
provided technical comments, which have been incorporated into the 
report as appropriate.

We are providing copies of this report to the Secretary of the 
Department of Homeland Security, the Commandant of the U.S. Coast 
Guard, and interested congressional committees. The report will also be 
made available to others upon request. In addition, the report will be 
available at no charge on GAO's Web site at [Hyperlink, 
http//www.gao.gov].

If you or your staff have any questions about this report, please 
contact me on (415) 904-2200 or wrightsonm@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 II.

Signed By: 

Margaret T. Wrightson: 
Director: 
Homeland Security and Justice Issues:

[End of section]

Appendix I: Objectives, Scope, and Methodology:

This report, which focuses on the Coast Guard's Deepwater management 
challenges, provides details on three issues: (1) a comparison of the 
revised Deepwater implementation plan issued in August 2005 with the 
original (August 2002) plan in terms of cost, time frames, and the 
balance of legacy and replacement assets; (2) an assessment of the 
degree to which the operational effectiveness model and other 
analytical methods used by the Coast Guard to develop the revised 
Deepwater asset mix are sound and appropriate for such a purpose; and 
(3) an assessment of the progress made in implementing our prior 
recommendations regarding Deepwater program management.

To compare the revised Deepwater implementation plans issued in August 
2005 and February 2006 with the original (August 2002) Deepwater 
implementation plan in terms of cost, time frames, and the balance of 
legacy and replacement assets, we analyzed the original and revised 
Deepwater implementation plans and related guidance. We also reviewed 
and analyzed relevant Coast Guard documentation on changes in missions, 
costs, asset mix, asset capabilities, and asset delivery schedules. We 
supplemented the documentation reviews and analyses with discussions 
with officials from the Deepwater Program Executive Office. Finally, we 
discussed the risks associated with the Deepwater program's reliance on 
a sustained level of funding through 2027 and the implications of these 
risks.

To assess the degree to which the operational effectiveness models and 
other analytical methods used to develop the revised Deepwater asset 
mix are sound and appropriate for such a purpose, we reviewed the 
capacity and operational effectiveness models used in determining the 
current Deepwater asset mix to ensure that the approach was sound and 
that appropriate assumptions were made in the models' use. This review 
involved assessing Coast Guard documentation on how its models were 
developed and executed, determining the views of knowledgeable 
independent parties on the Coast Guard's operational effectiveness 
model, and interviewing cognizant Coast Guard officials. These 
interviews also included discussions of how these models, and other 
factors, were used in developing the current Deepwater asset mix, as 
well as whether the Coast Guard has developed an approach for 
determining the extent to which the Deepwater asset mix will allow it 
to meet its performance targets.

In assessing the Coast Guard's modeling and other analytical methods 
used for developing the revised Deepwater asset mix, we paid particular 
attention to the most recent performance gap analysis (PGA) study (PGA 
IV), which compared the projected performance of the revised Deepwater 
asset mix to that of the original Deepwater asset mix--so that we could 
gain a better understanding of how these results were used in 
developing the revised Deepwater asset mix. Specifically, we reviewed 
the report's methodology and requested additional clarifying 
information to help determine if the analytic work supported the 
report's conclusions. As part of our assessment, we developed an 
analysis that departs from what the Coast Guard describes in its report 
in two important ways. First, and most important, the Coast Guard 
assigned a linear scale ranging from 1 to 5 to five statistical 
categories describing the distribution of the analysis data. This range 
assigned numerical values to the degree to which the revised asset mix 
was projected to outperform (or underperform) the original asset mix, 
with 1 representing projected performance two or more standard 
deviations below that of the original asset mix, up to 5, representing 
projected performance two or more standard deviations above that of the 
original asset mix. It is our opinion that this type of linear scale is 
not appropriate for capturing the variations in projected performance. 
Accordingly, we used a weighting scheme for these categories (known as 
z-scores) that better reflects the relationship among these categories. 
The z-scores take into account the statistical property that being two 
standard deviations away from the mean value is almost five times more 
difficult than being one standard deviation away from the mean. Second, 
we compared our calculated performance measure weights to a standard in 
order to assess if our weighting scheme would affect the study's 
conclusions. Since the methodology identified three mission 
significance categories and four regional mission priority categories, 
we compared our recalculated weights based upon the z-score with the 
weights we would expect to see if all mission performance measures 
across all mission priorities for the four modeled regions had exceed 
one standard deviation above the mean in improvement. Despite the 
different methodologies used, our results generally aligned with what 
the Coast Guard reported in PGA IV.

To determine the status of the Coast Guard's implementation of our 
prior recommendations for improving program management, strengthening 
contractor accountability, and controlling costs, we reviewed and 
analyzed briefings and relevant documentation provided by the Deepwater 
Program Executive Office on actions taken to address our concerns. We 
reviewed and analyzed documentation on the Coast Guard's assessment of 
the contractor's system integration and management performance in the 
first period of the fourth year of the contract, including written 
comments by the performance monitors. We also reviewed and analyzed 
information on Deepwater integrated product teams, including membership 
lists and briefings provided by the Coast Guard on measures of 
effectiveness for the teams. We analyzed the Coast Guard's plans to 
increase communications to field operators, and documentation from 
field operators and maintenance personnel regarding these 
communications. Further, we analyzed the February 2005 Deepwater 
revised Human Capital Plan to identify changes that have been made and 
discussed Deepwater Program Office staffing plans with Coast Guard 
officials. To supplement our analyses of the relevant documentation, we 
held several meetings with the Deepwater Program Executive Officer, the 
Deputy Program Executive Officer, and a number of Deepwater staff, 
including contracting officials and representatives from the system 
integrator. We also held discussions with Coast Guard Deepwater 
performance monitors to discuss their written comments to the latest 
award fee assessment. We also held discussions with officials from the 
Pacific Area Command and Pacific Area Maintenance and Logistics Command 
in Alameda, California; the Atlantic Area Command and Atlantic Area 
Maintenance and Logistics Command in Norfolk, Virginia; and the 
Aircraft Repair and Supply Center in Elizabeth City, North Carolina. 
Further, we reviewed acquisition guidance and spoke with officials from 
the Department of Homeland Security regarding their oversight of the 
Deepwater acquisition program baseline.

We performed our review from August 2005 to March 2006 in accordance 
with generally accepted government auditing standards.

[End of section]

Appendix II: GAO Contacts and Staff Acknowledgments:

GAO Contact:

Margaret T. Wrightson (415) 904-2200, wrightsonm@gao.gov:

Staff Acknowledgments:

In addition to the contact named above, Steven Calvo, Christopher 
Conrad, Adam Couvillion, Christine Davis, Art James, Julie Leetch, 
Michele Mackin, Stan Stenersen, and Linda Kay Willard made key 
contributions to this report.

[End of section]

GAO Related Products:

Coast Guard's Acquisition Management: Deepwater Project's Justification 
and Affordability Need to Be Addressed More Thoroughly, GAO/RCED-99-6 
(Washington, D.C.: Oct. 26, 1998).

Coast Guard: Budget Challenges for 2001 and Beyond, GAO/T-RCED-00-103 
(Washington, D.C.: March 15, 2000).

Coast Guard: Progress Being Made on Deepwater Project, but Risk Remain, 
GAO-01-564 (Washington, D.C.: May 2, 2001).

Coast Guard: Actions Needed to Mitigate Deepwater Project Risks, GAO- 
01-659T (Washington, D.C.: May 3, 2001).

Coast Guard: Strategy Needed for Setting and Monitoring Levels of 
Effort for All Missions, GAO-03-155 (Washington, D.C.: Nov. 12, 2002).

Coast Guard: Comprehensive Blueprint Needed to Balance and Monitor 
Resource Use and Measure Performance for All Missions, GAO-03-544T 
(Washington, D.C.: March 12, 2003).

Coast Guard: Challenges during the Transition to the Department of 
Homeland Security, GAO-03-594T (Washington, D.C.: April 1, 2003).

Contract Management: Coast Guard's Deepwater Program Needs Increased 
Attention to Management and Contractor Oversight, GAO-04-380 
(Washington, D.C.: March 9, 2004).

Coast Guard: Replacement of HH-65 Helicopter Engine, GAO-04-595 
(Washington, D.C.: March 24, 2004).

Coast Guard: Key Management and Budget Challenges for Fiscal Year 2005 
and Beyond, GAO-04-636T (Washington, D.C.: April 7, 2004).

Coast Guard: Deepwater Program Acquisition Schedule Update Needed, GAO-
04-695 (Washington, D.C.: June 14, 2004).

Coast Guard: Observations and Agency Priorities in Fiscal Year 2006 
Budget Request, GAO-05-364T (Washington, D.C.: March 17, 2005).

Coast Guard: Preliminary Observations on the Condition of Deepwater 
Legacy Assets and Acquisition Management Challenges, GAO-05-307T 
(Washington, D.C.: April 20, 2005).

Coast Guard: Preliminary Observations on the Condition of Deepwater 
Legacy Assets and Acquisition Management Challenges, GAO-05-651T 
(Washington, D.C.: June 21, 2005).

Coast Guard: Progress Being Made on Addressing Deepwater Legacy Asset 
Condition Issues and Program Management, but Acquisition Challenges 
Remain, GAO-05-757 (Washington, D.C.: July 22, 2005).

(440445): 

[End of Section]

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Simulation is a technology that allows the analysis of complex systems 
through statistically valid means. Through a software interface, the 
user creates a computerized version of a design or process, otherwise 
known as a "model." DMOES is a multi-mission "campaign-plus" level 
model. "Campaign" level models are used by the Department of Defense to 
tie together all aspects of a battlefield for a defined period of time. 
DMOES, as a "campaign-plus" level model, simulates Deepwater operations 
for a full year under multiple demand levels and is used to translate 
asset and capability contributions into system operational 
effectiveness. The model used program targets compiled in the Coast 
Guard's Modeling and Simulation Master Plan (MSMP). These targets were 
developed specifically for the purpose of judging effectiveness of the 
modeled force structures and, ultimately, operational effectiveness of 
the Deepwater asset mix acquisition. The MSMP targets are based on, but 
not identical to, the Coast Guard's GPRA targets and business plan 
goals. The Coast Guard has cited two reasons for setting different 
targets in the MSMP: (1) The MSMP targets project 25 to 40 years out 
and anticipate some performance growth, whereas the actual targets are 
revised year to year; and (2) because DMOES is a Deepwater-specific 
model and does not leverage non-Deepwater asset contributions reflected 
in Coast Guard-wide GPRA targets, the target values account for 
Deepwater asset contribution only.

Jim Ledin, Simulation Engineering, CMP Media (Lawrence, Kansas: 
September 2001).

MITRE, Center for Enterprise Modernization, Independent Assessment of 
U.S. Coast Guard Deepwater Performance Gap Analysis Process (McLean, 
Virginia: March 30, 2004). MITRE is a not-for-profit organization with 
expertise in systems engineering, information technology, operational 
concepts, and enterprise modernization, chartered to work in the public 
interest.

FOOTNOTES

[1] For purposes of this report, we use the term "legacy assets" to 
refer to the existing fleet of Deepwater aircraft and vessels. These 
legacy assets include the HC-130H and HU-25 fixed-wing aircraft, the HH-
60 and HH-65 rotary-wing aircraft, the 378-foot high-endurance cutters, 
the 210-foot and 270-foot medium-endurance cutters, and the 110-foot 
and 123-foot patrol boats. In addition, three other vessels are 
generally included as part of the Deepwater fleet--the 213-foot 
Acushnet, the 230-foot Storis, and the 282-foot Alex Haley.

[2] "Capacity" models produce a force size and mix of assets designed 
to meet a specified level of demand based on certain assumptions. The 
"operational effectiveness" model used by the Coast Guard simulated 
Deepwater operations and projected the extent to which the asset mix 
could meet specified program goals.

[3] GAO, Contract Management: Coast Guard's Deepwater Program Needs 
Increased Attention to Management and Contractor Oversight, GAO-04-380 
(Washington, D.C.: Mar. 9, 2004).

[4] The mission requirements include such things as he ability to (1) 
respond to 90 percent of all distress incidents within 2 hours; (2) 
detect and track targets of any material such that the probability of 
detection is at least 90 percent for small targets, such as a person in 
the water or a single-engine civil aircraft; and (3) respond to 
National Emergency Response Operations with 48 hours.

[5] Total ownership cost is the sum of all costs associated with the 
research, development, procurement, personnel, training, operation, 
logistical support, and disposal of the entire Deepwater system.

[6] GAO, Coast Guard: Progress Being Made on Deepwater Project, but 
Risks Remain, GAO-01-564 (Washington, D.C.: May 2, 2001).

[7] GAO, Coast Guard: Key Management and Budget Challenges for Fiscal 
Year 2005 and Beyond, GAO-04-636T (Washington, D.C.: Apr. 7, 2004); and 
GAO-04-380.

[8] GAO, Coast Guard: Progress Being Made on Addressing Deepwater 
Legacy Asset Condition Issues and Program Management, but Acquisition 
Challenges Remain, GAO-05-757 (Washington, D.C.: July 22, 2005).

[9] For purposes of this report, we will refer to the 2005 revised plan 
and the 2006 update of the implementation plan as revised plans.

[10] Rescue-21 is a coastal command and control communication system 
designed to improve search and rescue efforts and other missions, such 
as interdiction of drugs and migrants. The program includes very high- 
frequency-FM radios, communication towers, and communication centers.

[11] GAO, Coast Guard: Actions Needed to Mitigate Deepwater Project 
Risks, GAO-01-659T (Washington, D.C.: May 3, 2001).

[12] Government Performance and Results Act of 1993, Pub. L. No. 103- 
62: 107 Stat. 285 (1993). 

[13] Simulation is a technology that allows the analysis of complex 
systems throughstatistically valid means. Through a software interface, 
the user creates a computerizedversion of a design or process, 
otherwise known as a “model.” DMOES is a multi-mission “campaign-plus” 
level model. “Campaign” level models are used by the Department of
Defense to tie together all aspects of a battlefield for a defined 
period of time. DMOES, as a“campaign-plus” level model, simulates 
Deepwater operations for a full year under multiple
demand levels and is used to translate asset and capability 
contributions into system operational effectiveness. The model used 
program targets compiled in the Coast Guard’s Modeling and Simulation 
Master Plan (MSMP). These targets were developed specifically
for the purpose of judging effectiveness of the modeled forcestructures 
and, ultimately,operational effectiveness of the Deepwater asset mix 
acquisition. The MSMP targets are based on, but not identical to, the 
Coast Guard’s GPRA targets and business plan goals. The Coast Guard has 
cited two reasons for setting different targets in the MSMP: (1) The 
MSMP targets project 25 to 40 years out and anticipate some performance 
growth, whereas the actual targets are revised year to year; and (2) 
because DMOES is a Deepwater-specific model and does not leverage non-
Deepwater asset contributions reflected in Coast Guardwide
GPRA targets, the target values account for Deepwater asset 
contribution only.

[14] Capacity models produce a force size and mix designed to meet a 
specified level of demand, based on certain assumptions. The three 
capacity models, each with their own strengths and weaknesses, 
incorporated Coast Guard analyses of current and forecast performance 
capability and capacity gaps to develop proposed force structures for 
three levels of demand, using the capabilities of the asset types in 
the original Deepwater implementation plan.

[15] Jim Ledin, Simulation Engineering, CMP Media (Lawrence, Kansas: 
September 2001).

[16] MITRE, Center for Enterprise Modernization, Independent Assessment 
of U.S. CoastGuard Deepwater Performance Gap Analysis Process (McLean, 
Virginia: March 30, 2004). MITRE is a not-for-profit organization with 
expertise in systems engineering, information technology, operational 
concepts, and enterprise modernization, chartered to work in the
public interest.

[17] The simulation modeling criteria defines "verification and 
validation" as confirming that the model has been correctly implemented 
and that its behavior matches that of the modeled system to a 
reasonable degree.

[18] A Department of Defense resource that provides such services for 
modeling and simulation activities.

[19] This work was commissioned because, according to the Coast Guard, 
the original plan's asset mix would fall short in meeting the Coast 
Guard's minimum mission requirements for organic lift capability, 
maritime domain awareness, and search and rescue treaty coverage for 
fixed-wing aircraft, and airborne use of force, vertical insertion, and 
Federal Aviation Administration icing standards for rotary-wing 
aircraft. All alternative solutions considered by the working group 
would meet these requirements. GAO did not assess any of the analyses 
prepared by the working group.

[20] For example, one alternative reviewed involved aligning the 
Deepwater aircraft mix with capacity and capability levels identified 
in the performance gap analysis (PGA) process. This alternative would 
have contained greater capacity and capability than the selected 
alternative but, according to the Coast Guard, was not adopted because 
it would be too costly. This is an example of how potential solutions 
identified in the PGA process informed, but did not dictate, the Coast 
Guard's decision in adopting its asset mix.

[21] MicroSystems Integration, Inc., United States Coast Guard 
Integrated Deepwater System Capability and Capacity Performance Gap 
Analysis (PGA) IV Part 4 (Pawcatuck, Connecticut: October 17, 2005).

[22] GAO-01-564.

[23] GAO-04-380.

[24] According to DHS officials, a baseline breach occurs when a cost 
or schedule threshold is exceeded or when a performance threshold 
cannot be met.

[25] According to the Coast Guard, DHS considers this interim document 
final; however, because the documentation that supports the policy 
directive is still in draft form, we do not consider it to be final.

[26] The open business model is to encourage second-tier suppliers to 
remain innovative and competitive by directing the first-tier 
subcontractors to (1) generally avoid the use of teaming agreements 
with suppliers and prohibit teaming agreements based on guaranteed work 
share, (2) defer second-tier supplier decisions as long as practicable 
so that changes in the market place can be considered, and (3) actively 
solicit market information and new suppliers.

[27] U.S. Coast Guard, Program Executive Office, Integrated Deepwater 
System Program, Competition Assessment, as prepared by Acquisitions 
Solutions, Inc., May 27, 2005.

[28] During the award term process, the Coast Guard will decide whether 
to award the first five-year contract option.

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responsibilities and to help improve the performance and accountability 
of the federal government for the American people. GAO examines the use 
of public funds; evaluates federal programs and policies; and provides 
analyses, recommendations, and other assistance to help Congress make 
informed oversight, policy, and funding decisions. GAO's commitment to 
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