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Faced in Developing and Implementing a Common Operational Picture' 
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United States Government Accountability Office: 
GAO: 

Testimony: 

Before the Subcommittee on Coast Guard and Maritime Transportation, 

Committee on Transportation and Infrastructure, House of 
Representatives: 

For Release on Delivery: 
Expected at 10 a.m. EDT:
July 31, 2013: 

Coast Guard: 

Observations on Progress Made and Challenges Faced in Developing and 
Implementing a Common Operational Picture: 

Statement of Stephen L. Caldwell, Director Homeland Security and 
Justice Issues: 

GAO-13-784T: 

GAO Highlights: 

Highlights of GAO-13-784T, a testimony before the Subcommittee on 
Coast Guard and Maritime Transportation, Committee on Transportation 
and Infrastructure, House of Representatives. 

Why GAO Did This Study: 

To facilitate its mission effectiveness through greater maritime 
situational awareness, the Coast Guard developed its COP—a map-based 
information system shared among its commands. The COP displays 
vessels, information about those vessels, and the environment 
surrounding them on interactive digital maps. COP information is 
shared via computer networks throughout the Coast Guard to assist with 
operational decisions. COP-related systems include systems that can be 
used to access, or provide information to, the COP. 

This statement summarizes GAO’s work on (1) the Coast Guard’s progress 
in increasing the availability of data sources and COP information to 
users and (2) the challenges the Coast Guard has experienced in 
developing and implementing COP-related systems. This statement is 
based on GAO’s prior work issued from July 2011 through April 2013 on 
various Coast Guard acquisition and implementation efforts related to 
the COP, along with selected updates conducted in July 2013. To 
conduct the selected updates, GAO obtained documentation on the Coast 
Guard’s reported status in developing COP-related acquisition planning 
documents. 

What GAO Found: 

The Coast Guard, a component of the Department of Homeland Security 
(DHS), has made progress in developing its Common Operational Picture 
(COP) by increasing the information in the COP and increasing user 
access to this information. The Coast Guard has made progress by 
adding internal and external data sources that allow for better 
understanding of anything associated with the global maritime domain 
that could affect the United States. The COP has made information from 
these sources available to more COP users and decision makers 
throughout the Coast Guard. For example, in 2006, the ability to track 
the location of Coast Guard assets, including small boats and cutters, 
was added to the COP. This capability—also known as blue force 
tracking—allows COP users to locate Coast Guard vessels in real time 
and establish which vessels are in the best position to respond to 
mission needs. In addition to adding information to the COP, the Coast 
Guard has also made the information contained in the COP available on 
more computers and on more systems, which, in turn, has increased the 
number of users with access to the COP. 

The Coast Guard has also experienced challenges in developing and 
implementing COP-related systems and meeting the COP’s goals for 
implementing systems to display and share COP information. These 
challenges have affected the Coast Guard’s deployment of recent COP 
technology acquisitions and are related to such things as the 
inability to share information as intended and systems not meeting 
intended objectives. For example, in July 2011, GAO reported that the 
Coast Guard had not met its goal of building a single, fully 
interoperable Command, Control, Communications, Computers, 
Intelligence, Surveillance, and Reconnaissance program (C4ISR) system—
a $2.5 billion project intended to enable the sharing of COP and other 
data among its new offshore vessels and aircraft. Specifically, GAO 
noted that the Coast Guard: (1) repeatedly changed its strategy for 
achieving the goal of the C4ISR system and (2) that not all vessels 
and aircraft were operating the same C4ISR system, or even at the same 
classification level and hence could not directly exchange data with 
one another as intended. GAO found similar challenges with other Coast 
Guard COP-related systems not meeting intended objectives. For 
example, in February 2012, GAO reported that the intended information-
sharing capabilities of the Coast Guard’s WatchKeeper software—-a 
major part of the $74 million Interagency Operations Center project 
designed to gather data to help port partner agencies collaborate in 
the conduct of operations and share information, among other things—-
met few port agency partner needs, in part because the agency failed 
to determine these needs when developing the system. Further, in April 
2013, GAO reported that, among other things, the Coast Guard 
experienced challenges when it deployed its Enterprise Geographic 
Information System (EGIS), a tool for viewing COP information that did 
not meet user needs. The challenges Coast Guard personnel experienced 
with EGIS included system slowness and displays of inaccurate 
information. 

What GAO Recommends: 

GAO has made recommendations in prior work to enhance the Coast 
Guard’s development and implementation of its COP-related systems. DHS 
generally concurred with the recommendations and has reported actions 
under way to address them. 

View GAO-13-784T. For more information, contact Stephen L. Caldwell at 
(202) 512-9610 or caldwells@gao.gov. 

Chairman Hunter, Ranking Member Garamendi, and Members of the 
Subcommittee: 

Thank you for the opportunity to discuss the status of the Coast 
Guard's progress in developing a Common Operational Picture (COP), and 
the challenges the agency has faced in managing this effort. As you 
know, maritime domain awareness (MDA)--which involves the effective 
understanding of anything in the maritime environment that could 
impact the security, safety, economy or environment of the United 
States--is critical to the Coast Guard's mission efforts. According to 
the Coast Guard, MDA played a key role in 2011 as it interdicted over 
100 tons of narcotics, intercepted over 2,400 alien migrants, detained 
over 190 suspected smugglers, boarded over 100 foreign vessels to 
suppress illegal fishing, and rescued over 3,800 persons. 

To enhance its situational awareness, the Coast Guard operates within 
a complex information-sharing network with its maritime partners. 
Specifically, as the lead agency in the Department of Homeland 
Security (DHS) for maintaining and improving MDA efforts, the Coast 
Guard works with its partners to facilitate the sharing and 
dissemination of a wide array of information and intelligence to 
secure the nation's maritime transportation system against potential 
threats. The level of information sharing among these partners is 
largely dependent on the information source and classification level. 
For example, the Coast Guard works directly with the Navy as a major 
part of its defense readiness mission. However, since the Navy's 
command and control system operates at the classified level, the Coast 
Guard must also be able to share information at the classified level. 
Similarly, because many of its mission-related interagency activities 
are with other federal, state, and local government agencies, as well 
as the private sector, the Coast Guard must also be able to 
communicate and share information at the unclassified level. As a 
result, the Coast Guard operates in both the classified and 
unclassified environment.[Footnote 1] 

To facilitate this information sharing for mission effectiveness and 
situational awareness with all of its partners, in 1998 the Coast 
Guard began developing its COP--an interactive map-based information 
system that can be shared among Coast Guard commands--that displays 
vessels and information about those vessels and the environment 
surrounding them. In general, the Coast Guard's COP can be described 
as an information display that provides the position and additional 
information on vessel and aircraft contacts (called tracks) to the 
Coast Guard and other decision makers. The Coast Guard's concept for 
the COP includes a complex interplay of data, assets, technology, and 
multiple organizations at multiple security levels helping to populate 
and share information within the COP. The COP can be a stand-alone 
presentation or part of mission-oriented Geographic Information System 
(GIS) displays that are linked to information sources.[Footnote 2] COP-
related systems include systems that can be used to access, or provide 
information, to the COP. 

My statement today is based on our prior work issued from July 2011 
through April 2013 on the Coast Guard's implementation of COP-related 
systems, and the challenges the Coast Guard has encountered in 
acquiring and implementing these systems, including selected updates 
conducted in July 2013 related to the Coast Guard's acquisition 
strategy of COP-related systems. This statement discusses (1) the 
Coast Guard's progress in increasing data sources and the availability 
of COP information to users and (2) the challenges the Coast Guard has 
experienced in developing and implementing COP-related systems. For 
our previous reports we analyzed Coast Guard documentation, such as 
pertinent provisions of the Coast Guard's Common Operational Picture 
Concept of Operations, and interviewed Coast Guard officials, 
including headquarters officials responsible for managing the COP's 
development and requirements and field personnel who use the COP. More 
detailed information on our scope and methodology appears in our 
published work.[Footnote 3] For the selected updates, we obtained 
documentation on the Coast Guard's reported status in developing 
acquisition planning and technical documents for COP-related systems. 
All of our work was conducted in accordance with generally accepted 
government auditing standards. Those standards require that we plan 
and perform the audit to obtain sufficient, appropriate evidence to 
provide a reasonable basis for our findings and conclusions based on 
our audit objectives. We believe the evidence obtained provides a 
reasonable basis for our findings and conclusions based on our audit 
objectives. 

Background: 

According to the Coast Guard, the COP became operational in 2003 and 
is comprised of four elements: 

* Track data feeds: The primary information included in the Coast 
Guard's COP is vessel and aircraft position information--or tracks--
and descriptive information about the vessels, their cargo, and crew. 
Track information may be obtained from a variety of sources depending 
on the type of track. For example, the COP includes track information 
or position reports of Coast Guard and port partner vessels. 

* Information data sources: The information data sources provide 
supplementary information on the vessel tracks to help COP users and 
operational commanders determine why a track might be important. The 
COP includes data from multiple information sources that originate 
from the Coast Guard as well as from other government agencies and 
civilian sources.[Footnote 4] 

* Command and control systems: These systems collect, fuse, 
disseminate, and store information for the COP. Since the COP became 
operational in 2003, the Coast Guard has provided COP users with 
various systems that have allowed them to view, manipulate and enhance 
their use of the COP. These systems have included the Global Command 
and Control System (GCCS), Command and Control Personal Computer 
(C2PC), and Hawkeye.[Footnote 5] In addition to the technology needed 
to view the COP, the Coast Guard has also developed technology to 
further enhance the information within the COP and its use to improve 
mission effectiveness. This has occurred in part through its former 
Deepwater[Footnote 6] Command, Control, Communications, Computers, 
Intelligence, Surveillance, and Reconnaissance (C4ISR) program system 
improvements.[Footnote 7] 

* COP management procedures: These procedures address the development 
and the use of the COP. This would include, for example, the Concept 
of Operations document, which identifies the basic components, use, 
and exchange of information included in the COP and the requirements 
document, which identifies the essential capabilities and associated 
requirements needed to make the COP function. These procedures also 
include other documents such as standard operating procedures on how 
the Coast Guard uses the COP, agreements with others using the COP on 
how information is to be shared or exchanged, and rules for how data 
are correlated and how vessels are flagged as threats or friends. 

Figure 1 depicts the Coast Guard's vision of the COP with Coast Guard 
internal and external users. 

Figure 1: The Coast Guard's Vision of the Common Operational Picture: 

[Refer to PDF for image: illustration] 

United States Coast Guard Common Operating Picture: 

Deep water assets (cutters and aircraft); 
Joint Harbor Operations Center; 
Air stations; 
Maritime Intelligence Fusion Centera; 
Department of Defense components. 

Coast Guard districts and sectors; 
Other Department of Homeland Security components; 
Other federal, state, tribal, and local partners; 
International partners. 

Source: Coast Guard (photos and logo); DHS (logo); DOD (logo); Map 
Resources (map); Art Explosion (clip art). 

[A] The Coast Guard's two Maritime Intelligence Fusion Centers serve 
as the central hubs for fusion, analysis, and dissemination of 
maritime intelligence and information at the operational and tactical 
level. 

[End of figure] 

The Coast Guard Has Made Progress in Adding Data Sources and the 
Availability of COP Information to Users: 

In April 2013, we reported that since the COP became operational in 
2003, the Coast Guard has made progress in adding useful data sources 
and in increasing the number of users with access to the COP.[Footnote 
8] In general, the COP has added internal and external data sources 
and types of vessel-tracking information that enhance COP users' 
knowledge of the maritime domain. Vessel tracking information had been 
available previously to Coast Guard field units located in ports 
through a Vessel Tracking Service--that is, a service that provides 
active monitoring and navigational advice for vessels in confined and 
busy waterways to help facilitate maritime safety.[Footnote 9] 
However, adding it to the COP provided a broader base of situational 
awareness for Coast Guard operational commanders. For example, before 
automatic identification system (AIS)[Footnote 10] vessel-tracking 
information was added to the COP, only Coast Guard units specifically 
responsible for vessel-tracking, were able to easily track large 
commercial vessels' positions, speeds, courses, and destinations. 
According to Coast Guard personnel, after AIS data were added to the 
COP in 2003, any Coast Guard unit could access such information to 
improve strategic and tactical decision making. In 2006, the ability 
to track the location of Coast Guard assets, including small boats and 
cutters, was also added to the COP. This capability--also known as 
blue force tracking--allows COP users to locate Coast Guard vessels in 
real time and establish which vessels are in the best position to 
respond to mission needs. Similarly, blue force tracking allows the 
Coast Guard to differentiate its own vessels from commercial or 
unfriendly vessels. 

Another enhancement to the information available in the COP was 
provided through the updating of certain equipment on Coast Guard 
assets that enabled them to collect and transmit data. Specifically, 
the Coast Guard made some data collection and sharing improvements, 
including the installation of commercial satellite communications 
equipment and AIS receivers, onboard its older cutters. This added 
capability made the COP information more robust by allowing Coast 
Guard vessels at sea to receive, through AIS receivers, position 
reports from large commercial vessels and then transmit this 
information to land units where it would be entered into the COP. This 
equipment upgrade on older Coast Guard cutters added information into 
the COP that is generally not available through other means. 

According to Coast Guard officials, in addition to adding information 
to the COP, the Coast Guard has also made the information contained in 
the COP available on more computers and on more systems, which, in 
turn, has increased the number of users with access to the COP. One of 
the key steps toward increasing the number of users with COP access 
occurred in 2004 with the implementation of C2PC, which made both the 
classified and unclassified COP available to additional Coast Guard 
personnel. According to Coast Guard officials, the advent of C2PC 
allowed access to the COP from any Coast Guard computer connected to 
the Coast Guard data network. Prior to C2PC, Coast Guard personnel had 
access to the COP through Coast Guard GCCS workstations. 

The Coast Guard Has Experienced Challenges in Developing and 
Implementing COP-related Systems: 

We previously reported that the Coast Guard has experienced challenges 
with COP-related technology acquisitions that resulted from the Coast 
Guard not following its own information technology acquisition 
guidance and processes. These challenges included poor usability and 
the inability to share information as intended, and ultimately 
resulted in the Coast Guard not meeting its goals for multiple COP-
related systems. For example, four COP-related systems have been 
affected by the Coast Guard not closely following its acquisition 
processes. 

C4ISR project. The C4ISR project was designed to allow the Coast 
Guard's newly acquired offshore vessels and aircraft to both add 
information to the COP using their own sensors as well as view 
information contained within the COP, thereby allowing these assets to 
become both producers and consumers of COP information.[Footnote 11] 
However, in July 2011, we reported that the Coast Guard had not met 
its goal of building the $2.5 billion C4ISR system.[Footnote 12] 
Specifically, we reported that the Coast Guard had repeatedly changed 
its strategy for achieving C4ISR's goal of building a single fully 
interoperable command, control, intelligence, surveillance, and 
reconnaissance system across the Coast Guard's new vessels and 
aircraft. Further, we found that not all aircraft and vessels were 
operating the same C4ISR system, or even at the same classification 
level, and hence could not directly exchange data with each other. For 
example, an aircraft operating with a classified system had difficulty 
sharing information with others operating on unclassified systems 
during the Deepwater Horizon oil spill incident. In addition, we 
reported at that time that the Coast Guard may shift away from a full 
data-sharing capability and instead use a system where shore-based 
command centers serve as conduits between assets while also entering 
data from assets into the COP. This approach could increase the time 
it takes for COP information, for example, gathered by a vessel 
operating with a classified system to be shared with an aircraft 
operating with an unclassified system. Because aircraft and vessels 
are important contributors to and users of COP information, a limited 
capability to quickly and fully share COP data could affect their 
mission effectiveness. We concluded that given these uncertainties, 
the Coast Guard did not have a clear vision of the C4ISR required to 
meet its missions. 

We also reported in July 2011 that the Coast Guard was managing the 
C4ISR program without key acquisition documents. At that time, the 
Coast Guard lacked an acquisition program baseline that reflected the 
planned program, a credible life-cycle cost estimate, and an 
operational requirements document for the entire C4ISR acquisition 
project. According to Coast Guard information technology officials, 
the abundance of software baselines could increase the overall 
instability of the C4ISR system and complexity of the data sharing 
among assets. We recommended, and the Coast Guard concurred, that it 
should determine whether the system-of-systems concept[Footnote 13] 
for C4ISR is still the planned vision for the program, and if not, 
ensure that the new vision is comprehensively detailed in the project 
documentation. In response to our recommendation, the Coast Guard 
reported in 2012 that it was still supporting the system-of-systems 
approach, and was developing needed documentation. We will continue to 
assess the C4ISR program through our ongoing work on Coast Guard 
recapitalization efforts. 

Development of WatchKeeper. Another mechanism that was expected to 
increase access to COP information was the DHS Interagency Operations 
Center (IOC) program, which was delegated to the Coast Guard for 
development.[Footnote 14] This $74 million program began providing COP 
information to Coast Guard agency partners in 2010 using WatchKeeper 
software. The IOCs were originally designed to gather data from 
sensors and port partner sources to provide situational awareness to 
Coast Guard sector[Footnote 15] personnel and to Coast Guard partners 
in state and local law enforcement and port operations, among others. 
Specifically, WatchKeeper was designed to provide Coast Guard 
personnel and port partners with access to the same unclassified GIS 
data, thereby improving collaboration between them and leveraging 
their respective capabilities in responding to cases. For example, in 
responding to a distress call, access to WatchKeeper information would 
allow both the Coast Guard unit and its local port partners to know 
the location of all possible response vessels, so they could allocate 
resources and develop search patterns that made the best use of each 
responding vessel. 

In February 2012, we reported that the Coast Guard had increased 
access to its WatchKeeper software by allowing access to the system 
for Coast Guard port partners.[Footnote 16] However, the Coast Guard 
had limited success in improving information sharing between the Coast 
Guard and local port partners and did not follow its established 
guidance during the development of WatchKeeper--a major component of 
the $74 million Interagency Operations Center acquisition project. By 
not following its guidance, the Coast Guard failed to determine the 
needs of its users, define acquisition requirements, or determine cost 
and schedule information. Specifically, prior to the initial 
deployment of WatchKeeper, the Coast Guard had made limited efforts to 
determine port partner needs for the system. For example, we found 
that Coast Guard officials had some high level discussions, primarily 
with other DHS partners, but that port partner involvement in the 
development of WatchKeeper requirements was primarily limited to 
Customs and Border Protection because WatchKeeper had grown out of a 
system designed for screening commercial vessel arrivals--a Customs 
and Border Protection mission. However, according to the Interagency 
Operations Process Report: Mapping Process to Requirements for 
Interagency Operations Centers, the Coast Guard identified many port 
partners as critical to IOCs, including other federal agencies (e.g., 
the Federal Bureau of Investigation) and state and local agencies. 

We also determined that because few port partners' needs were met with 
WatchKeeper, use of the system by port partners was limited. 
Specifically, of the 233 port partners who had access to WatchKeeper 
for any part of September 2011 (the most recent month for which data 
were available at the time of our report), about 18 percent had ever 
logged onto the system and about 3 percent had logged on more than 
five times. Additionally, we reported that without implementing a 
documented process to obtain and incorporate port partner feedback 
into the development of future WatchKeeper requirements, the Coast 
Guard was at risk of deploying a system that lacked needed 
capabilities, which would continue to limit the ability of port 
partners to share information and coordinate in the maritime 
environment. We concluded, in part, that the weak management of the 
IOC acquisition project increased the program's exposure to risk. In 
particular, fundamental requirements-development and management 
practices had not been employed; costs were unclear; and the project's 
schedule, which was to guide program execution and promote 
accountability, had not been reliably derived. Moreover, we reported 
that with stronger program management, the Coast Guard could reduce 
the risk that it would have a system that did not meet Coast Guard and 
port partner user needs and expectations. As a result, we recommended, 
and the Coast Guard concurred, that it collect data to determine the 
extent to which (1) sectors are providing port partners with 
WatchKeeper access and (2) port partners are using WatchKeeper; then 
develop, document, and implement a process to obtain and incorporate 
port-partner input into the development of future WatchKeeper 
requirements; and define, document, and prioritize WatchKeeper 
requirements. As of April 2013, we had not received any reports of 
progress on these recommendations from the Coast Guard. 

Coast Guard Enterprise Geographic Information System (EGIS). In April 
2013, we also reported that Coast Guard personnel we interviewed who 
use EGIS--an important component, along with its associated viewer, 
for accessing COP information--stated that they had experienced 
numerous challenges with the system after it was implemented in 2009. 
[Footnote 17] Our site visits to area, district, and sector command 
centers in six Coast Guard field locations, and discussions with 
headquarters personnel, identified numerous examples of user concerns 
about EGIS.[Footnote 18] Specifically, the Coast Guard personnel we 
interviewed who used EGIS stated that it was slow, did not always 
display accurate and timely information, or degraded the performance 
of their computer workstations--making EGIS's performance generally 
unsatisfactory to them. For example, personnel from one district we 
visited reported losing critical time when attempting to determine a 
boater's position on a map display because of EGIS's slow performance. 
Similarly, personnel at three of the five districts we visited 
described how EGIS sometimes displayed inaccurate or delayed vessel 
location information, including, for example, displaying a vessel 
track indicating a 25-foot Coast Guard boat was located off the coast 
of Greenland--a location where no such vessel had ever been. Personnel 
we met with in two districts did not use EGIS at all to display COP 
information because doing so caused other applications to crash. 

In addition to user-identified challenges, we reported in April 2013 
that Coast Guard information technology (IT) officials told us they 
had experienced challenges largely related to insufficient 
computational power on some Coast Guard work stations, a lack of 
training for users and system installers, and inadequate testing of 
EGIS software before installation. For example, according to Coast 
Guard IT officials, Coast Guard computers are replaced on a regular 
schedule, but not all at once, and EGIS's viewer places a high demand 
on the graphics capabilities of computers. They added that this demand 
was beyond the capability of the older Coast Guard computers used in 
some locations. Moreover, Coast Guard IT management made EGIS 
available to all potential users without performing the tests needed 
to determine if capability challenges would ensue. In regard to 
training, Coast Guard officials told us that they had developed online 
internal training for EGIS, and classroom training was also available 
from the software supplier. However, Coast Guard IT officials stated 
that they did not inform users that this training was available. This 
left the users with learning how to use EGIS on the job. Similarly, 
the installers of EGIS software were not trained properly, and many 
cases of incomplete installation were later discovered. These 
incomplete installations significantly degraded the capabilities of 
EGIS. Finally, the Coast Guard did not pre-test the demands of EGIS on 
Coast Guard systems in real world conditions, according to Coast Guard 
officials. Tests conducted later, after users commented on their 
problems using EGIS, demonstrated the limitations of the Coast Guard 
network in handling EGIS. According to Coast Guard officials, some of 
these challenges may have been avoided if they had followed 
established acquisition processes for IT development. If these 
problems had been averted, users may have had greater satisfaction and 
the system may have been better utilized for Coast Guard mission needs. 

Poor communication by, and among, Coast Guard IT officials led to 
additional management challenges during efforts to implement a 
simplified EGIS technology called EGIS Silverlight. According to Coast 
Guard officials, the Coast Guard implemented EGIS Silverlight to give 
users access to EGIS data without the analysis tools that had been 
tied to technical challenges with the existing EGIS software. Coast 
Guard personnel from the Office of the Chief Information Officer (CIO) 
stated that EGIS Silverlight was available to users in 2010; however, 
none of the Coast Guard personnel we spoke with at the field units we 
visited mentioned awareness of or use of this alternative EGIS option 
when asked about what systems they used to access the COP. According 
to CIO personnel, it was the responsibility of the system sponsor's 
office to notify users about the availability of EGIS Silverlight. 
However, personnel from the sponsor's office stated that they were 
unaware that EGIS Silverlight had been deployed and thus had not taken 
steps to notify field personnel of this new application that could 
have helped to address EGIS performance problems. These Coast Guard 
officials were unable to explain how this communication breakdown had 
occurred. 

Coast Guard One View (CG1V). In April 2013, we reported that the Coast 
Guard had not followed its own information technology development 
guidance when developing its new COP viewer, known as Coast Guard One 
View, or CG1V.[Footnote 19] The Coast Guard reported that it began 
development of CG1V in April 2010 to provide users with a single 
interface for viewing GIS information, including the COP, and to align 
the Coast Guard's viewer with DHS's new GIS viewer.[Footnote 20] 
However, in 2012, during its initial development of CG1V, the agency 
did not follow its System Development Life Cycle (SDLC) guidance which 
requires documents to be completed during specific phases of product 
development.[Footnote 21] Specifically, 9 months after CG1V had 
entered into the SDLC the Coast Guard either had not created certain 
required documents or had created them outside of the sequence 
prescribed by the SDLC. For example, the SDLC-required tailoring plan 
is supposed to provide a clear and concise listing of SDLC process 
requirements throughout the entire system lifecycle, and facilitate 
the documentation of calculated deviations from standard SDLC 
activities, products, roles, and responsibilities from the outset of 
the project. Though the SDLC clearly states that the tailoring plan is 
a key first step in the SDLC, for CG1V it was not written until after 
documents required in the second phase were completed. Coast Guard 
officials stated that this late completion of the tailoring plan 
occurred because the Coast Guard's Chief Information Officer had 
allowed the project to start in the second phase of the SDLC because 
they believed CG1V was a proven concept. However, without key phase 
one documents, the Coast Guard may have prematurely selected CG1V as a 
solution without reviewing other viable alternatives to meet its 
vision, and may have dedicated resources to CG1V without knowing 
project costs. In October 2012, Coast Guard officials acknowledged the 
importance of following the SDLC process and stated their intent to 
complete the SDLC-required documents. Clarifying the application of 
the SDLC to new technology development would better position the Coast 
Guard to maximize the usefulness of the COP. In our April 2013 report, 
we recommended that the Commandant of the Coast Guard direct the Coast 
Guard Chief Information Officer to issue guidance clarifying the 
application of the SDLC for the development of future projects. The 
Coast Guard concurred with the recommendation and reported that it 
planned to mitigate the risks of potential implementation challenges 
of future technology developments for the COP by issuing proper 
guidance and clarifying procedures regarding the applicability of the 
SDLC. The Coast Guard estimated that it would implement this 
recommendation by the end of fiscal year 2013. 

Chairman Hunter, Ranking Member Garamendi, and Members of the 
Subcommittee, this completes my prepared statement. I would be happy 
to respond to any questions. 

GAO Contact and Staff Acknowledgments: 

For questions about this statement, please contact Stephen L. Caldwell 
at (202) 512-9610 or caldwells@gao.gov. Contact points for our Offices 
of Congressional Relations and Public Affairs may be found on the last 
page of this statement. Individuals making key contributions to this 
statement include Dawn Hoff (Assistant Director), Jonathan Bachman, 
Jason Berman, Laurier Fish, Bintou Njie, Jessica Orr, Lerone Reid, and 
Katherine Trimble. 

[End of section] 

Footnotes: 

[1] While the Department of Defense-managed classified COP provides 
important information for Coast Guard maritime operations, over the 
last 10 years, the Coast Guard has been building its unclassified COP 
for its personnel, other federal agencies, and non-federal partners. 

[2] Specifically, a GIS is an integrated collection of computer 
software and data used to view and manage information about geographic 
places, analyze spatial relationships, and model spatial processes, in 
order to share information related to the people, vessels, and 
facilities in a mapped display. 

[3] See GAO, Coast Guard: Clarifying the Application of Guidance for 
Common Operational Picture Development Would Strengthen Program. 
[hyperlink, http://www.gao.gov/products/GAO-13-321]; (Washington, 
D.C.: April 25, 2013); GAO, Maritime Security: Coast Guard Needs to 
Improve Use and Management of Interagency Operations Centers. 
[hyperlink, http://www.gao.gov/products/GAO-12-202]; (Washington, D.C: 
February 13, 2012); and GAO, Coast Guard: Action Needed As Approved 
Deepwater Program Remains Unachievable. [hyperlink, 
http://www.gao.gov/products/GAO-11-743]; (Washington, D.C.: July 28, 
2011). 

[4] Internal sources include intelligence inputs and Coast Guard 
databases such as the Marine Information for Safety and Law 
Enforcement (MISLE) and the Ship Arrival Notification System (SANS), 
among others. MISLE collects, stores, and disseminates data on 
vessels, cargo facilities, waterways, and parties (both individuals 
and organizations), as well as Coast Guard activities involving all of 
these entities. MISLE activities include law enforcement boardings, 
vessel sightings, marine inspections, marine safety investigations, 
response actions, search and rescue operations, operational controls, 
and enforcement actions. The SANS is a Coast Guard database populated 
with Notice of Arrival information that vessels are required to submit 
96 hours prior to entering U.S. territorial waters. Coast Guard 
command centers can access this database to gather vessel, crew, 
cargo, and company information concerning ships entering their area of 
responsibility. External sources include the Department of Defense and 
the National Oceanic and Atmospheric Administration. 

[5] C2PC is a Microsoft Windows-based system implemented in 2004 that 
displays the COP from a GCCS-based server that allows users to view 
near real-time situational awareness. Hawkeye is a system implemented 
in 2005 that monitors and tracks commercial vessels on the coast and 
in port areas using radar, cameras, and Automatic Identification 
System (AIS) sensors. AIS equipment transmits information such as the 
name of the vessel, its position, speed, course, and destination to 
receivers within range of its broadcast, allowing these vessels to be 
tracked. GCCS is a system developed in 2003 that provides commanders a 
single, integrated, scalable command and control system that fuses, 
correlates, filters, maintains and displays location and attribute 
information on friendly, hostile and neutral forces. It integrates 
this data with available intelligence and environmental information in 
support of command decision making. 

[6] The Coast Guard's acquisition program aimed at recapitalizing its 
surface, air, and, information technology capacity (formerly known as 
Deepwater) is an integrated effort to replace or modernize the 
agency's aging vessels and aircraft assets that are used for missions 
beyond 50 miles from shore. 

[7] C4ISR is the systems, procedures, and techniques used to collect 
and disseminate information. This includes intelligence collection and 
dissemination networks, command and control networks, and systems that 
provide the common operational/tactical picture. C4ISR also includes 
information assurance products and services, as well as communications 
standards that support the secure exchange of information by C4ISR 
systems (digital, voice, and video data to appropriate levels of 
command). This technology acquisition was intended to create an 
interoperable network of sensors, computer systems, and hardware to 
improve MDA. 

[8] [hyperlink, http://www.gao.gov/products/GAO-13-321]. 

[9] Vessel Tracking Services provide active monitoring and 
navigational advice for vessels in confined and busy waterways to help 
facilitate maritime safety. 

[10] The Maritime Transportation Security Act of 2002 mandates that 
most large commercial vessels operate an AIS while in U.S. waters. 46 
U.S.C. § 70114. On board vessels, AIS equipment transmits information 
such as the name of the vessel, its position, speed, course, and 
destination to receivers within range of its broadcast, allowing these 
vessels to be tracked when they are operating in coastal areas, on 
inland waterways, and in ports. Receivers may be installed on other 
vessels, land stations, or other locations. Coast Guard personnel 
monitor screens transmitting information on the tracked vessels. 

[11] In July 2011, we reported that the Coast Guard was developing 
C4ISR infrastructure that it expected to collect, correlate, and 
present information into a single COP to facilitate mission execution. 
See [hyperlink, http://www.gao.gov/products/GAO-11-743]. 

[12] [hyperlink, http://www.gao.gov/products/GAO-11-743]. 

[13] A system-of-systems is a set or arrangement of assets that 
results when independent assets are integrated into a larger system 
that delivers unique capabilities. 

[14] IOCs are facilities and systems designed to help port agencies 
collaborate in the conduct of operations; collaborate and jointly plan 
operations; share targeting, intelligence and scheduling information; 
developing real-time awareness, evaluate threats, and deploy 
resources; and minimize the economic impact from any disruption. In 
July 2007, the DHS Assistant Secretary for Legislative Affairs 
reported to Congress that the Coast Guard's acquisition project 
Command 21--later named the Interagency Operations Centers (IOC) 
project--would meet the Safety and Accountability For Every Port Act 
of 2006 (SAFE Port Act) provision that requires the establishment of 
IOCs. The SAFE Port Act requires IOCs to be incorporated in the 
implementation and administration of, among other things, maritime 
intelligence activities, information sharing, and short and long-range 
vessel tracking. Pub. L. No. 109-347, 120 Stat. 1884, 1892-93 (2006). 

[15] Coast Guard sectors run all Coast Guard missions at the local and 
port level, such as search and rescue, port security, environmental 
protection, and law enforcement in ports and surrounding waters, and 
oversee a number of smaller Coast Guard units, including small 
cutters, small boat stations, and Aids to Navigation teams. 

[16] [hyperlink, http://www.gao.gov/products/GAO-12-202]. 

[17] EGIS is a Coast Guard geographic information system used to view 
and manage information about geographic places, analyze spatial 
relationships, and model spatial processes. Much of the unclassified 
information contained in the COP is available through EGIS. EGIS can 
display this information on multiple viewers. See [hyperlink, 
http://www.gao.gov/products/GAO-13-321]. 

[18] Command Centers perform three primary functions: command and 
control, situational awareness, and information management for their 
area of responsibility. They coordinate activities between operational 
commanders and assets performing the missions. The specific 
differences among command centers depend on the primary missions 
performed by their command. 

[19] [hyperlink, http://www.gao.gov/products/GAO-13-321]. CG1V is a 
viewer under development that can be used to display information 
contained within the COP. It can also be used to receive, correlate, 
and analyze a variety of information from multiple sources to provide 
situational awareness. Specifically, these viewers interface with the 
COP and other systems to visually display data, on a map, to decision 
makers. 

[20] Coast Guard officials stated that CG1V development began in 2010 
but was delayed for 2 years because of the Coast Guard's response to 
the Deepwater Horizon oil spill and other unforeseen events that 
diverted Coast Guard resources. 

[21] In 2004, the Coast Guard implemented the SDLC process for non-
major IT acquisitions--those with less than $300 million dollars in 
life cycle costs--to help ensure IT projects are managed effectively 
and meet user needs. The SDLC process has seven major phases: (1) 
conceptual planning, (2) planning and requirements, (3) design, (4) 
development and testing, (5) implementation, (6) operations and 
maintenance activities, and (7) disposition. 

[End of section] 

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