This is the accessible text file for GAO report number GAO-11-604 
entitled 'Nextgen Air Transportation System: Mechanisms for 
Collaboration and Technology Transfer Could Be Enhanced to More Fully 
Leverage Partner Agency and Industry Resources' which was released on 
July 8, 2011. 

This text file was formatted by the U.S. Government Accountability 
Office (GAO) to be accessible to users with visual impairments, as 
part of a longer term project to improve GAO products' accessibility. 
Every attempt has been made to maintain the structural and data 
integrity of the original printed product. Accessibility features, 
such as text descriptions of tables, consecutively numbered footnotes 
placed at the end of the file, and the text of agency comment letters, 
are provided but may not exactly duplicate the presentation or format 
of the printed version. The portable document format (PDF) file is an 
exact electronic replica of the printed version. We welcome your 
feedback. Please E-mail your comments regarding the contents or 
accessibility features of this document to Webmaster@gao.gov. 

This is a work of the U.S. government and is not subject to copyright 
protection in the United States. It may be reproduced and distributed 
in its entirety without further permission from GAO. Because this work 
may contain copyrighted images or other material, permission from the 
copyright holder may be necessary if you wish to reproduce this 
material separately. 

United States Government Accountability Office: 
GAO:  

Report to Congressional Requesters: 

June 2011: 

Nextgen Air Transportation System: 

Mechanisms for Collaboration and Technology Transfer Could Be Enhanced 
to More Fully Leverage Partner Agency and Industry Resources: 

NextGen Technology Transfer: 

GAO-11-604: 

GAO Highlights: 

Highlights of GAO-11-604, a report to congressional requesters.  

Why GAO Did This Study: 

The Federal Aviation Administration (FAA) is developing and 
implementing a broad transformation of the national airspace system 
known as the Next Generation Air Transportation System (NextGen). 
NextGen is a complex undertaking that requires new technologies and 
supporting infrastructure and involves the activities of several 
agencies as well as private industry.  

This report provides information on the effectiveness of (1) FAA’s and 
the federal partner agencies’ mechanisms for collaborating and 
leveraging resources to develop and implement NextGen, and (2) FAA’s 
mechanisms for working with and transferring technology to or from 
private industry. To do this, we assessed FAA and partner agency 
mechanisms against applicable agreements, the agencies’ own guidance 
for these activities, as well as applicable key practices that GAO has 
reported can enhance federal collaborative efforts.  

What GAO Found: 

Some mechanisms for FAA and partner agency collaboration are 
effective, though others fail to ensure research and technology from 
the partner agencies and industry are fully used by FAA. Some 
mechanisms used by FAA and the National Aeronautics and Space 
Administration (NASA) for coordinating research and transferring 
technology are consistent with several key practices in interagency 
coordination. For instance, FAA and NASA use research transition teams 
to coordinate research and transfer technologies from NASA to FAA. The 
design of these teams is consistent with several key practices GAO has 
identified in previous work that can enhance interagency coordination, 
such as identifying common outcomes, establishing a joint strategy to 
achieve that outcome, and defining each agency’s role and 
responsibilities. This allows the agencies to overcome differences in 
mission, culture, and ways of doing business. However mechanisms for 
collaborating with other partner agencies do not always ensure that 
FAA effectively leverages agency resources. For example, the 
mechanisms used by FAA, DOD, and DHS have not yet resulted in a full 
determination of what research, technology, or expertise FAA can 
leverage to benefit NextGen. Further, collaboration between FAA, DOD, 
and DHS may be limited by differing priorities. Finally, FAA and the 
Joint Planning and Development Office—an interagency organization 
created to plan and coordinate research for NextGen—have not fully 
coordinated the partner agencies’ research efforts, though they are 
working to address research gaps. A lack of coordination could result 
in a duplication of research or an inefficient use of resources.  

Numerous mechanisms are available to FAA to collaborate with industry 
to identify and transfer technology to advance NextGen, but some lack 
flexibility and outcomes can be unclear. Within its Acquisition 
Management System (AMS), FAA may use several mechanisms at various 
stages to conduct outreach, collaborate with private-sector firms, or 
transfer technology. In particular, FAA may use several types of 
research and development agreements between itself and the private 
sector as mechanisms to facilitate technology transfer. However, 
stakeholders said that the system can lack flexibility, in some 
circumstances, to consider alternative technologies or new ideas once 
the process is underway. GAO has made recommendations in the past to 
improve FAA’s AMS system. FAA has begun to implement these 
recommendations. FAA is beginning to use a new, possibly more 
flexible, contracting vehicle—Systems Engineering 2020—to acquire the 
research, development, and systems engineering support to integrate 
NextGen concepts. FAA also reviews unsolicited proposals as a 
mechanism for private industry to offer unique ideas or approaches 
outside of the competitive procurement process. However, FAA’s 
unsolicited proposal process is not a significant source of new 
technology for FAA. Other mechanisms such as outreach events with 
private industry and NextGen test facilities might enhance knowledge 
and result in technology transfer, but outcomes, such as specific 
benefits, from some of these mechanisms can be unclear.  

What GAO Recommends: 

GAO recommends that FAA and the Departments of Defense (DOD) and 
Homeland Security (DHS) work together to develop mechanisms that will 
enhance collaboration and technology transfer between the agencies. 
GAO and others have outstanding recommendations related to interaction 
with industry that FAA has begun to address and GAO makes no further 
recommendations in this report. DOD and DHS concurred with the 
recommendation, while FAA did not comment on whether or not it agreed.  

View [hyperlink, http://www.gao.gov/products/GAO-11-604] or key 
components. For more information, contact Gerald Dillingham, Ph.D., at 
(202) 512-2834 or dillinghamg@gao.gov.  

[End of section]  

Contents: 

Letter: 

Background: 

Some Mechanisms for Partner Agency Collaboration Are Effective, While 
Others Fail to Ensure Resources Are Being Leveraged: 

Numerous Mechanisms Are Available to Collaborate with Industry and to 
Identify and Transfer Technology, but Some Lack Flexibility and 
Outcomes Can Be Unclear: 

Conclusions: 

Recommendation for Executive Action: 

Agency Comments and Our Evaluation: 

Appendix I: Comments from the Department of Defense: 

Appendix II: Comments from the U.S. Department of Homeland Security: 

Appendix III: GAO Contact and Staff Acknowledgments: 

Tables: 

Table 1: Examples of Mechanisms to Facilitate Technology Transfer That 
May Be Used within Selected AMS Phases: 

Table 2: FAA's Four Most Commonly Provided Reasons for Not Accepting 
Unsolicited Proposals: 

Figures: 

Figure 1: Examples of Partner Agency Responsibilities for NextGen 
Technology Research and Development: 

Figure 2: Partner Agency and Private Sector Involvement in Weather 
Technologies: 

Abbreviations: 

AMS: Acquisition Management System: 

DHS: Department of Homeland Security: 

DOD: Department of Defense: 

FAA: Federal Aviation Administration: 

JPDO: Joint Planning and Development Office: 

NAS: national airspace system: 

NASA: National Aeronautics and Space Administration: 

NextGen: Next Generation Air Transportation System: 

NOAA: National Oceanic and Atmospheric Administration: 

SE 2020: Systems Engineering 2020: 

[End of section] 

United States Government Accountability Office: 
Washington, DC 20548:  

June 30, 2011: 

The Honorable John L. Mica:
Chairman:
Committee on Transportation and Infrastructure:
House of Representatives: 

The Honorable Thomas E. Petri:
Chairman:
Subcommittee on Aviation:
Committee on Transportation and Infrastructure:
House of Representatives: 

The Federal Aviation Administration (FAA) predicts that, by 2031, the 
annual number of airline passengers in the United States will increase 
78 percent--from 712.6 million in 2010 to about 1.27 billion in 2031. 
To meet these growing demands, while simultaneously improving safety, 
efficiency, and environmental performance, FAA is developing and 
implementing a broad transformation of the national airspace system 
(NAS), known as the Next Generation Air Transportation System 
(NextGen). NextGen is a complex undertaking that requires new 
technologies--including new integrated ground and aircraft systems--as 
well as new procedures, processes, and supporting infrastructure to 
create an air transportation system that will rely on satellite-based 
surveillance and navigation, data communications, and improved 
collaborative decision-making. Transforming the nation's air 
transportation system impacts and involves the activities and missions 
of several federal agencies. In recognition of this, NextGen was 
designed as an interagency effort to ensure coordination across 
agencies and leverage various agencies' expertise, research, 
technologies, and funding to advance NextGen while avoiding 
duplication. Federal partner agencies identified in NextGen's initial 
legislation[Footnote 1] include FAA; the Department of Commerce; the 
Departments of Defense (DOD) and Homeland Security (DHS); and the 
National Aeronautics and Space Administration (NASA). FAA is the lead 
implementer and its Joint Planning and Implementation Office (JPDO) is 
the primary agency planner. In addition to these federal partner 
agencies, NextGen was also intended to be developed in collaboration 
with the aviation and aeronautics industries and other private-sector 
stakeholders to facilitate coordinated research activities, to 
transfer technologies from FAA and partner agencies to the private 
sector, and to take advantage of research and technology developed by 
the private sector that could meet NextGen needs, as appropriate. 
[Footnote 2] 

FAA is currently implementing foundational systems and technologies 
that will create the NextGen midterm system through 2018.[Footnote 3] 
According to a senior FAA official, these planned NextGen improvements 
are estimated to cost the government $11 to 12 billion, and result in 
aircraft equipment costs to private aircraft operators of $5 to 7 
billion.[Footnote 4] While many of the specific capabilities and 
technologies for the midterm system have already been identified and 
some have been developed, additional knowledge, data, technologies, 
and integration of systems will be needed to finalize the midterm 
system. Furthermore, some specific capabilities and technologies that 
will make up the long-term vision for NextGen (beyond 2018) have yet 
to be decided. Technology transfer and transition efforts undertaken 
by FAA in coordination and collaboration with its partner agencies and 
private industry will help determine how NextGen evolves and develops 
over the mid-and long-term. Because JPDO, as the primary inter-agency 
planner, must coordinate the NextGen activities of six agencies, 
collaboration amongst these agencies is a key component to the 
successful implementation of NextGen. However, Congress and others 
have raised questions about whether FAA may be missing opportunities 
to leverage existing research and technologies being developed and 
used within the partner agencies and the private sector--opportunities 
that could potentially reduce the time frames, risks, and costs 
associated with NextGen development. 

You asked that we review how FAA coordinates with the NextGen partner 
agencies and private industry to research, develop, and transition the 
technologies needed to deliver NextGen capabilities. This report 
provides information about (1) the effectiveness of FAA's and the 
federal partner agencies' mechanisms for collaborating to research, 
develop, and transfer technologies for NextGen and leverage agency 
resources,[Footnote 5] and (2) the effectiveness of FAA's internal 
processes, outreach activities, and other mechanisms for working with 
and transferring technology to or from private industry. 

To understand FAA's mechanisms for collaborating with its federal 
partner agencies, we obtained and analyzed relevant supporting 
documentation from FAA, the partner agencies, and other organizations 
involved in NextGen research, development, and transfer. We 
interviewed officials from FAA, the partner agencies, and other 
relevant organizations, including the MITRE Corporation, Massachusetts 
Institute of Technology Lincoln Laboratories, and FAA's Research, 
Engineering, and Development Advisory Council. We also interviewed 
officials from JPDO, which was created to facilitate research 
coordination and technology transfer with partner agencies as well as 
the private sector. To provide information on the mechanisms FAA uses 
to work with private industry, we obtained and analyzed relevant 
documentation from FAA, JPDO, the NextGen Institute,[Footnote 6] and 
private-sector entities. We interviewed FAA officials in the Office of 
Research and Technology Development, officials involved in FAA's 
processes for evaluating unsolicited proposals from private industry, 
and officials from FAA's NextGen Solution Integration Group. To gather 
perspectives from the private sector, we interviewed representatives 
from various firms in the aviation and aeronautics industry, as well 
as industry associations, including the Boeing Company; Honeywell 
International Inc.; Raytheon Company; RTCA Inc.; the General Aviation 
Manufacturers Association; Lockheed Martin Corporation; the Aerospace 
Industries Association; AirDat LLC; ATH Group Inc.; Appareo Systems; 
Avidyne Corporation; Crown Consulting, Inc.; and L3 Communications 
Corporation. We also interviewed officials from six companies that 
submitted unsolicited proposals for aviation technologies to FAA, 
which FAA responded to in 2009 and 2010. To support both objectives, 
we visited and interviewed officials at the NASA North Texas Research 
Station and Embry Riddle Aeronautical University and interviewed the 
Director of the FAA Technical Center. These locations are all NextGen 
test facilities that FAA and industry use for the evaluation of 
NextGen concepts and technology and where technology integration and 
testing can take place without affecting day-to-day air traffic 
operations. 

For both objectives, we compared FAA and partner agency mechanisms to 
research, transition, and transfer technology against applicable laws 
and agreements, the agency's own criteria and guidance for these 
activities, and because effective transfer of research and technology 
requires effective collaboration, we applied key practices that GAO 
has reported can enhance and sustain federal collaborative efforts. 
These key practices include such things as (1) defining and 
articulating a common outcome; (2) establishing mutually reinforcing 
or joint strategies; (3) identifying and addressing needs by 
leveraging resources; (4) agreeing on roles and responsibilities; (5) 
establishing compatible policies, procedures and other means to 
operate across agency boundaries; (6) developing mechanisms to 
evaluate, monitor, and report on results; (7) reinforcing agency 
accountability for results; and (8) reinforcing individual 
accountability for results.[Footnote 7] We discuss these criteria to 
the extent that they apply to technology transfer-related stakeholder 
collaboration issues that we identified during our review. 

We performed our work from May 2010 to June 2011 in accordance with 
generally accepted government auditing standards. Those standards 
require that we plan and perform the audit to obtain sufficient and 
appropriate evidence to provide a reasonable basis for our findings 
and conclusions based on our audit objectives. We believe that the 
evidence obtained provides a reasonable basis for our findings and 
conclusions based on our audit objectives. 

Background: 

The NAS consists of a wide assortment of technologies operated by FAA, 
other federal agencies, such as DOD, and industry participants such as 
airlines. Technology transfer may be defined as the process by which 
technology or knowledge developed by one entity is applied and used by 
another. Technology transfer may involve the transfer of equipment, 
research, architecture, knowledge, procedures, or software code, or 
involve data integration. Technology transfer also encompasses the 
process by which research is transitioned from one entity and then 
developed and matured by another through testing and additional 
applied research until ultimately deployed. This report focuses on the 
mechanisms used to transfer research and technology between partner 
agencies and private industry and FAA, which can include the transfer 
of FAA and partner agency research to the private sector to develop a 
technology, or the transfer of research or technology developed by 
partner agencies or the private sector to FAA.[Footnote 8] 

Since the origination of the NextGen effort, several mechanisms 
intended to facilitate coordination and technology transfer among FAA 
and partner agencies have been established. Congress created JPDO 
within FAA as the primary mechanism for interagency and private-sector 
coordination for NextGen. JPDO's enabling legislation states that 
JPDO's responsibility with regard to technology transfer is 
"facilitating the transfer of technology from research programs such 
as the National Aeronautics and Space Administration program and the 
Department of Defense Advanced Research Projects Agency program to 
federal agencies with operational responsibilities and to the private 
sector."[Footnote 9] JPDO developed an Integrated Work Plan that 
recommends primary and support responsibilities to partner agencies 
for research and development of various technological aspects of 
NextGen.[Footnote 10] (See figure 1.) JPDO is also responsible for 
overseeing and coordinating NextGen research activities within the 
federal government and ensuring that new technologies are used to 
their fullest potential in aircraft and the air traffic control 
system. The memorandums of understanding among the partner agencies 
also require that the partner agencies have the mechanisms in place to 
coordinate and align their NextGen activities, including their NextGen-
related budgets, acquisitions, and research and development. The 
legislation also directed the Secretary of Transportation to establish 
a Senior Policy Committee, to be chaired by the Secretary, to provide 
NextGen policy guidance and review, and to facilitate coordination and 
planning of NextGen by the partner agencies. 

Figure 1: Examples of Partner Agency Responsibilities for NextGen 
Technology Research and Development: 

[Refer to PDF for image: illustrated table]  

Federal Aviation Administration: 
Advanced Aviation Operations and Safety: 
* Applied research on advanced scheduling concepts in congested
airspace; 
* Applied research on effective surface management in various
weather conditions.  

Department of Homeland Security: 
Layered, Adaptive Security: 
Advanced Aviation Operations and Safety
* Applied research on secure information exchanges at command and
control facilities; 
* Development of a common situational awareness capability.  

NASA: 
Aeronautics Research and Technology: 
* Applied research on air and ground-based air traffic management
technologies for the entire gate-to-gate spectrum; 
* Applied research on vehicle safety and future generation vehicles
and propulsion systems.  

Department of Defense: 
Advanced Operations and Security: 
* Applied research on net-centric stakeholder access to NextGen
information; 
* Applied research on certification methods, requirements, and
standards for unmanned aircraft systems.  

Department of Commerce: 
Weather Information Services: 
* Applied research on the role of human forecasters and automated
systems.  

Source: GAO analysis of JPDO information.  

[End of figure] 

To help implement the responsibilities described in the legislation, 
each partner agency assigned a liaison to JPDO--as well as staff to 
JPDO in some cases. In addition, several working groups were created 
to facilitate collaboration between partner agencies and the private 
sector, and the NextGen Institute was created to be a forum for 
private industry involvement in NextGen planning and other activities. 
As initial NextGen planning was completed, and the focus turned to 
implementation, JPDO's role has changed to focus on long-term research 
past 2018. Furthermore, in 2010 a new JPDO Director was appointed (the 
office's fourth Director in its 7 years of existence) and JPDO was 
moved organizationally within FAA to raise its prominence within FAA 
and enable it to better serve as a mechanism for interagency 
collaboration. 

Because NextGen implementation also requires expertise, research, and 
technology from the private sector, FAA has developed processes and 
mechanisms for interacting with the private sector. FAA views its 
Acquisition Management System (AMS) as the primary mechanism for 
transferring research and technology from the private sector. FAA's 
AMS establishes policy and guidance for all aspects of the acquisition 
lifecycle, and the AMS contracting process is designed to help FAA 
procure products and services from sources offering the best value to 
satisfy FAA's mission needs. 

Some Mechanisms for Partner Agency Collaboration Are Effective, While 
Others Fail to Ensure Resources Are Being Leveraged: 

FAA and NASA Use a Variety of Mechanisms to Coordinate Research and 
Transfer Technology; Some Are Consistent with Key Practices in 
Interagency Coordination: 

FAA and NASA use research transition teams as a mechanism to 
coordinate research and transfer technologies and the design of these 
teams is consistent with several key practices of interagency 
coordination we have identified in previous work.[Footnote 11] NASA 
has historically been FAA's primary source of long-term air traffic 
management research and continues to lead research and development 
activities for many key elements of NextGen. JPDO has identified NASA 
as the lead agency responsible for 55 of the 222 identified research 
and development activities needed to create the system and as a 
supporting agency in an additional 81 activities. In 2007 FAA and 
NASA, facilitated by JPDO, created four research transition teams as 
mechanisms to transition the complicated technologies that do not fit 
within a single FAA office's purview under FAA's structure.[Footnote 
12] The teams cover approximately half of all research and development 
activities conducted by NASA's Airspace Systems Program--a group 
assigned to directly address fundamental NextGen needs. Each team 
addresses a specific issue area that (1) is considered a high 
priority, (2) has defined projects and deliverables, and (3) requires 
the coordination of multiple offices within FAA or NASA. Involving 
planning and operational personnel early is meant to avoid making 
decisions in isolation that may waste resources and time.  

[Side bar: 
Research transition teams’ technology products include: 
* Concepts, technologies, and decision support tools to detect and 
resolve conflicts between aircraft on runways and taxiways.  

* Decision support tools to handle the selection, assignment, and 
scheduling of aircraft to runways to simultaneously optimize 
operations across multiple airports.  

* Definition and evaluation of proposed concepts and methodologies for 
determining optimal airspace allocation to balance demand, capacity, 
and controller workload. End of side bar]  

Consistent with key practices that can help enhance and sustain 
interagency collaboration, these teams identify common outcomes, 
establish a joint strategy to achieve that outcome, and define each 
agency's role and responsibilities, allowing FAA and NASA to overcome 
differences in agency missions, cultures, and established ways of 
doing business. Each research transition team develops and documents a 
plan that defines the scope of its efforts and the products to be 
developed. The plans outline a delivery schedule and the maturity 
level to which products will be developed. They also identify how 
products will be used by FAA in its investment decision process, 
describe what NASA will provide to FAA, and what FAA's involvement 
will be related to the conduct of research. For example, one team's 
plan includes development of a decision support tool to help manage 
the assignment and scheduling of runways at multiple airports to 
optimize operations. For this product, NASA is scheduled to deliver 
technical papers in 2012 and a software prototype in 2013. At the time 
of the scheduled transition to FAA in 2014, the tool should be at a 
prescribed level of technical maturity[Footnote 13] and FAA will make 
an implementation decision later that year. 

Most of the four research transition teams have not yet delivered 
products and, while stakeholders are optimistic, whether technologies 
developed by these teams are ultimately implemented will largely 
depend on how well coordination occurs across multiple FAA offices 
involved in implementation. Research transition teams' products 
identified for development are expected to be transferred to FAA 
predominantly from 2012 through 2015. As of April 2011, NASA has 
delivered two final products[Footnote 14] and several interim 
informational products to FAA--including concept feasibility papers, 
an algorithm related to efficient flow in congested airspace, and data 
from a joint simulation. Going forward, stakeholders and participants 
with whom we spoke generally expressed optimism about the research 
transition teams' ability to transfer NASA work to FAA and into NAS. 
However, some stakeholders noted that success requires high-level 
commitment from each agency and effective team leads. Specifically, 
one NASA official noted that FAA's research transition team leads do 
not have the authority to make final decisions about the 
implementation of a given technology. Therefore, the success of the 
team's product will ultimately depend on that team lead's ability to 
work across various FAA offices to negotiate and coordinate a solution. 

FAA and NASA also use other technology transfer mechanisms--including 
interagency agreements and test facility demonstrations--which have 
historically faced challenges at the point where the technology is 
handed off from NASA to FAA, but have nonetheless resulted in 
successful transfer and implementation of technology. Past technology 
transfer efforts between NASA and FAA faced challenges at the transfer 
point between invention and acquisition, referred to as the "valley of 
death." At this point in the process, NASA has had limited funding at 
times to continue beyond fundamental research, but the technology was 
not matured to a level for FAA to assume the risks of investing in a 
technology that had not yet been demonstrated with a prototype or 
similar evidence. FAA and NASA officials have said the transition is 
still a challenge, but both are working to address this issue through 
interagency agreements that specify a commitment to a more advanced 
level of technological maturity of research than NASA has conducted at 
times in the past.[Footnote 15] Both interagency agreements and test 
facility demonstrations were used in the development and transfer of 
the Traffic Management Advisor, a program NASA developed, which uses 
graphical displays and alerts to increase situational awareness 
[Footnote 16] for air traffic controllers and traffic management 
coordinators. Through an interagency agreement, the two agencies 
established the necessary data feeds and two-way computer interfaces 
to support the program. NASA demonstrated the system's capabilities at 
the NextGen test facility in North Texas where it also conducted 
operational evaluations. NASA successfully transferred the program to 
FAA, which, after reengineering it for operational use, deployed it 
throughout the United States. 

In some instances, the mechanisms FAA and NASA use to collaborate and 
transfer technologies have resulted in implementation of that 
technology in the NAS--as with Traffic Management Advisor; in others, 
the mechanisms have resulted in less tangible outcomes but nonetheless 
represent successful transfer in our view. For example, according to 
NASA officials, much of what is transferred between NASA and FAA is 
technical knowledge (e.g., an informational report or an algorithm) as 
opposed to a piece of hardware or new software. These products may not 
necessarily lead to immediate deployments, but the knowledge 
transferred may inform future decisions, lead to applied research, or 
be the precursors to future operational trials. 

In other instances, these mechanisms may produce a proven technology 
that is ultimately not implemented by FAA, but can be successfully 
transferred to the private sector. For example, NASA developed a 
decision support tool intended to assist controllers in identifying 
the most optimal route given wind conditions.[Footnote 17] Though 
operational evaluation testing was successful, FAA chose not to pursue 
full-scale development of the capability because it ultimately did not 
consider the capability to be a controller function. However, Boeing 
has since leveraged NASA's work to develop Boeing Direct Routes, a 
service that uses advanced software algorithms to automatically alert 
an airline's operations centers and flight crew when a simple, more 
fuel-efficient path is available, permitting the operations center to 
propose those routes to FAA controllers for approval. Boeing predicts 
that the service will result in measurable decreases in aircraft fuel 
usage and emissions. In this case, even though FAA--NASA's intended 
customer--did not deploy the technology, it was successfully 
transferred to the private sector and will be used in the NAS to 
produce anticipated benefits consistent with NextGen goals. 

FAA and Commerce Have Made Progress in Developing Mechanisms to 
Coordinate on Research and Transfer Technologies:  

Collaboration between FAA and Commerce, specifically the National 
Oceanic and Atmospheric Administration (NOAA),[Footnote 18] has been 
facilitated by the creation of the NextGen Executive Weather Panel 
(the Executive Panel). Weather has a tremendous impact on aviation 
operations and accounts for approximately 70 percent of all air 
traffic delays. Assimilating weather information into air-traffic 
management decisions so that decision-makers can better identify areas 
where and when aircraft can fly safely is a key goal of NextGen. It 
also requires significant collaboration and coordination across 
agencies and the private sector to transfer the data, knowledge, and 
technology necessary. (See sidebar and figure 2.)  

In order to improve communication and coordination related to NextGen 
weather, the Senior Policy Committee approved the Executive Panel to 
act as the primary policy and decision-making body for NextGen weather 
issues. The Executive Panel is composed of high-level representatives 
from FAA, NOAA, DOD, NASA, and JPDO. According to one JPDO official, 
the Executive Panel is akin to the research transition team construct 
used by FAA and NASA in that it provides senior executive level 
oversight and coordination of interagency activities related to 
delivering NextGen weather capabilities. While the Executive Panel 
provides a forum for senior level direction, it has not connected 
researchers from NOAA with program and operation staff at FAA or 
identified specific technology development transition plans as the FAA 
and NASA teams have.  

[Side bar: 
FAA is primarily responsible for the air traffic management-weather 
integration process and for directing research and development of
aviation-specific weather information and functionality.  

NOAA is the lead for development and implementation of the weather 
database and will support FAA by providing weather interpretation and 
integration expertise.  

DOD is expected to share weather-related developments, tool, 
methodologies, and data.  

NASA is involved as a major developer of air traffic management tools 
and techniques, and weather integration methodologies.  

Federal partners are also to involve the private sector in decisions 
that may affect them.  

Commercial vendors can provide weather observations, analyses, and 
forecasts. End of side bar]  

Figure 2: Partner Agency and Private-Sector Involvement in Weather 
Technologies: 

[Refer to PDF for image: illustration]  

Weather data and observation sources: 
DOD; 
FAA; 
NOAA; 
Commercial vendors.  

4-D Weather Cube: 
Continuously updated weather-state information related to convection,
turbulence, icing, wind, visibility, clouds, volcanic ash, and space 
weather suitable for use by human or machine aviation decision
making procedures and processes.  

Weather Single Authoritative Source: 
The subset of the weather-state data from the NextGen 4-D Weather Cube 
used by FAA air traffic service providers to make operational 
decisions collaboratively with airlines and pilots when the 
commonality of such data among the parties is essential to
the collaborative decision process.  

FAA air traffic management decision-makers: 
Use tools, techniques, and methodologies developed by NASA and FAA
that integrate weather information.  

Source: GAO analysis of FAA, JPDO, and NOAA information.  

[End of figure] 

Progress is also being made in defining each agency's roles and 
responsibilities, though this task has not been completed. For 
instance, FAA and NOAA have a memorandum of understanding from 2004 
that generally establishes the responsibilities of each agency for 
meeting aviation weather requirements, and in 2010, the agencies 
jointly completed an integrated management plan for NextGen Network- 
Enabled Weather and the NextGen 4-D Weather Data Cube. In addition, 
the two have come to agreements on financial responsibility for some 
weather projects. For example, FAA and Commerce have come to an 
overall agreement that the National Weather Service will fund the 
development of the NextGen 4-D Weather Data Cube and FAA will fund the 
development of the NextGen Network-Enabled Weather capability, which 
is expected to connect to the Cube for weather data. There is also 
agreement that funding for any research and development or 
capabilities that are aviation unique (e.g., turbulence forecasting) 
would need to be negotiated between the two agencies. However, FAA and 
Commerce have not developed an overarching strategy that would 
identify those specific capabilities in advance. Development of a 
research management plan is one step expected to facilitate the 
process to meet NextGen weather needs by the partner agencies, clarify 
roles and responsibilities, and improve the process for transitioning 
FAA weather research into National Weather Service operations. Similar 
to other agencies, any lack of coordination between FAA and Commerce 
could result in duplicative research and inefficient use of resources 
at both agencies. 

FAA and Commerce use additional mechanisms to coordinate their 
research and have transitioned some weather technology. For instance, 
FAA, NOAA, and NASA have held joint research program reviews in each 
of the last 2 years to enhance collaboration and identify duplications 
in efforts, according to FAA. Researchers from several of NOAA 
laboratories and forecast centers have also collaborated with FAA in 
research planning, development, and assessment as well as 
implementation of research results through interagency agreements. 
According to NOAA officials, it has worked with FAA to coordinate and 
align program goals and requirements to meet NextGen weather needs and 
in the last 2 years, FAA transitioned two weather technologies to 
NOAA's National Weather Service.[Footnote 19] In addition, a team from 
FAA and NOAA's National Weather Service, sponsored by JPDO, has begun 
to develop the functional requirements for NextGen aviation weather 
systems and continue to work together on additional weather-related 
planning efforts. 

Mechanisms for Collaborating on Research and Technology Development 
Efforts with DOD and DHS Do Not Ensure That Resources Are Fully 
Leveraged: 

FAA and DOD Mechanisms Have Yet to Fully Determine What Research, 
Technology, or Expertise DOD Has to Support NextGen Activities: 

DOD has not completed an inventory of its research and development 
portfolio related to NextGen, impeding FAA's ability to identify and 
leverage potentially useful research, technology, or expertise from 
DOD. JPDO has recommended that DOD have primary responsibility for 6 
research and development activities and provide support for an 
additional 47. In December 2007, DOD designated the Air Force as the 
lead service for the agency's NextGen involvement, and, in the formal 
agreement that established roles and responsibilities for JPDO and the 
partner agencies, DOD agreed to develop mechanisms to align its 
NextGen-related research and development efforts with JPDO's 
Integrated Work Plan. Air Force officials expected to have completed a 
comprehensive list of DOD's NextGen-related research and development 
activities and programs, as well as a roadmap to facilitate technology 
transfer by November 2009. In June 2010, the DOT Office of the 
Inspector General recommended that FAA develop a plan to identify 
research and technologies from DOD's research and development 
portfolio that could be used for NextGen and establish a mechanism to 
coordinate and transfer that information to the appropriate FAA 
program or development offices.[Footnote 20] According to JPDO, it has 
established contacts with various DOD organizations, but has only 
begun to develop a plan to review and identify DOD research and 
technologies potentially useful for NextGen. As of March 2011, DOD had 
compiled a preliminary but incomplete list of its NextGen-related 
research and development. According to DOD officials, the office 
underestimated the size and complexity of the task. As a result of 
progress made during 2010 and 2011, it has become clear that the 
original tasking was not the ideal approach. Instead, DOD plans to 
form technical teams with representatives from the research and 
development bodies within each agency to identify critical NextGen 
research and development needs and using that list of specific needs, 
identify programs that may address them. This process is currently 
being applied to the area of unmanned aircraft systems in an 
interagency effort led by JPDO. 

At the same time, DOD's ability to identify potentially useful 
research and technology may be impeded by FAA's inability to identify 
the scope of its needs. Though JPDO has identified the research and 
development activities needed to deliver NextGen, according to DOD 
officials, FAA has not provided, in some cases, enough specificity of 
its NextGen technological gaps, so that DOD can help identify where 
its research and development efforts and expertise may provide 
benefit. As we have previously reported, a key aspect of successful 
agency coordination is identifying and addressing needs by leveraging 
resources. Collaborating agencies can accomplish this by identifying 
the human, information technology, and physical and financial 
resources needed to initiate or sustain their collaborative effort. 
However, without an inventory, DOD, JPDO, and FAA have been unable to 
identify all the resources at DOD that may be useful for NextGen, or 
the budgetary resources that DOD puts toward NextGen-related 
activities.[Footnote 21] Lack of coordination between FAA and DOD 
could result in duplicative research and inefficient use of resources 
at both agencies. 

Although DOD has liaisons at FAA and JPDO, according to DOD and JPDO 
officials, communication challenges continue to impede coordination 
and collaboration between the agencies. DOD has assigned a liaison to 
JPDO with experience in net-centric operations, one of the areas in 
which stakeholders view DOD expertise as an important contribution to 
NextGen. DOD also co-chairs JPDO's Net-Centric Operations Working 
Group and contributes as a member of various other JPDO committees, 
boards, and working groups. In addition, in 2010 DOD assigned a 
liaison from the Air Force Research Laboratory to FAA's NextGen and 
Operations Planning, Research and Technology Development Office to act 
as a conduit into DOD's research base. We have previously reported 
that as agencies bring diverse cultures to collaborative efforts, it 
is important to address those differences in a way that will enable a 
cohesive working relationship and create the mutual trust required to 
enhance and sustain such a collaborative effort. In particular, 
according to DOD officials, differences in terminology and culture 
across agencies create communication challenges between FAA and DOD. 
DOD research plans were developed according to DOD needs, using DOD's 
terminology, not with potential connection to NextGen and civil 
aviation in mind. To understand the extent to which DOD research can 
address NextGen needs, DOD officials stated that subject matter 
experts from both FAA and DOD with extensive knowledge of DOD research 
and NextGen would need to review the existing research, determine what 
connections exist to NextGen plans, and develop a method of 
communicating and translating how DOD research supports NextGen 
activities. Existing mechanisms for collaboration between FAA and DOD 
are not currently designed or equipped to accomplish this task. 

DHS's Collaboration with FAA and JPDO on NextGen Has Been Limited in 
Certain Areas of NextGen Research, and the Agencies Have Yet to Fully 
Determine What Can Be Leveraged to Support NextGen: 

DHS's collaboration is important in several areas of NextGen research, 
particularly related to unmanned aircraft systems and cyber security; 
however, thus far, DHS's participation has been limited in these key 
areas. DHS plans to use unmanned aircraft systems to monitor the 
nation's borders and plays a key role in the initiative to safeguard 
federal government systems from cyber threats and attacks, including 
conducting and coordinating cyber security research and development. 
DHS has collaborated with the partner agencies on NextGen as the co- 
chair of JPDO's Aviation Security Working Group, one of nine working 
groups that JPDO established to solve problems and make fact-based 
recommendations to be integrated into NextGen. According to DHS 
officials, it helped develop the security component of NextGen 
planning and has been an active participant, since JPDO's inception, 
through the working group it co-chairs. DHS has also been involved in 
NextGen integrated surveillance planning and coordination efforts in 
collaboration with FAA and DOD. Though these are steps toward 
identifying common outcomes and joint strategies, in other important 
areas DHS has had limited participation in NextGen. JPDO has 
recommended that DHS be the agency with primary responsibility for 19 
research and development activities and provide support for an 
additional 18. Many of the activities for which DHS is primarily 
responsible are related to baggage screening and other security 
functions, not air traffic management functions where FAA would be the 
implementer. However, like DOD, DHS has not identified and aligned its 
NextGen-related research and development activities as it agreed to do 
in the formal agreement that established the roles and 
responsibilities of JPDO and the partner agencies, and has not 
identified the budget figures associated with NextGen activities. In 
addition, according to DHS officials and other partner agencies, DHS 
was not involved in early planning for activities at JPDO specifically 
related to cyber security. DHS officials commented that sometimes DHS 
does not participate in events either because it is not invited or 
because it does not choose to participate. Limited collaboration 
between DHS and FAA could result in conflicts in NextGen priorities 
and needs in the future. As we have previously reported, that lack of 
collaboration can result in marginalizing NextGen areas that affect 
DHS.[Footnote 22] Further, given DHS's responsibility for cyber 
security, lack of coordination in this area could result in FAA not 
fully leveraging technologies developed by DHS. 

DHS and JPDO collaboration efforts may improve with the assignment of 
a new executive representative. In October 2010 DHS's executive 
representative to JPDO left the agency, and DHS did not initially 
identify a replacement. According to one JPDO official, participation 
in work on integrated surveillance began to lag at that point, 
although according to DHS, its efforts through JPDO's Aviation 
Security Working Group continued. DHS assigned a new executive 
representative and back-up in January 2011 and integrated surveillance 
work has resumed. 

FAA and Partner Agencies Are Working to Address Research Gaps: 

FAA and partner agencies are working to address previously identified 
research gaps, though coordination is an issue in some areas. In 2008 
JPDO conducted a cross-agency gap analysis intended to identify major 
differences between NextGen planning documents and partner agency 
plans and budgets. JPDO identified gaps in key research and 
implementation focus areas that are critical to NextGen and involved 
joint agency missions and expenditures. The areas where gaps were 
identified included unmanned aircraft systems, human factors, and 
airspace security. According to FAA's chief scientist for NextGen 
development, efforts are underway in each of these areas. For 
instance, FAA, in partnership with JPDO, and the partner agencies are 
defining the research and development needs for operating unmanned 
aircraft systems in domestic airspace and are developing a joint 
concept of operations and research roadmap. In late 2010, JPDO 
sponsored a workshop on unmanned aircraft systems that brought 
together subject-matter experts and executives from FAA, JPDO, DOD, 
and NASA. The workshop focused on critical and cross cutting long-term 
research and development issues and was a step toward JPDO's goal of 
having the technologies, procedures, standards, and policies in place 
to achieve full integration of unmanned aircraft systems. However, 
DHS, which will be one of the primary operators of these systems in 
domestic airspace, did not participate. A lack of coordination could 
result in a duplication of research or an inefficient use of resources. 

With regard to human factors, as we have previously reported, FAA and 
NASA are coordinating their NextGen human factors research using a 
variety of mechanisms--including research advisory committees, 
interagency agreements, and research transition teams. In addition, 
FAA has also created a human factors portfolio to identify and address 
priority human factors issues. In addition, in February 2011, FAA and 
NASA completed a cross-agency human factors plan as JPDO and we 
recommended. Finally, with respect to airspace security, according to 
FAA, it is engaging with both DOD and DHS through JPDO sponsored 
events. However, FAA is unable to move forward with some of its 
airspace security research and development because DHS has not 
involved the appropriate personnel needed to move the issue area 
beyond the concept development phase. 

Numerous Mechanisms Are Available to Collaborate with Industry and to 
Identify and Transfer Technology, but Some Lack Flexibility and 
Outcomes Can Be Unclear: 

FAA's Acquisition Management System Provides a Framework for 
Technology Identification, Development, and Transfer, but Can Lack 
Flexibility: 

Broadly speaking, FAA's Acquisition Management System (AMS) provides a 
framework for FAA to undertake research and development of concepts 
and technologies, progress that technology to a point where FAA can 
define the requirements to meet its needs, and then either identify 
existing technology that meets those needs or request proposals from 
industry to develop the technology.[Footnote 23] Within the AMS, FAA 
may use several mechanisms at various stages to conduct outreach, 
collaborate with private sector firms, and transfer technology. (See 
table 1.) In particular, FAA may use several types of research and 
development agreements between itself and the private sector as 
mechanisms to facilitate technology transfer. These agreements include 
cooperative research and development agreements, memorandums of 
agreement, memorandums of understanding, and other transaction 
authority. Cooperative research and development agreements allow FAA 
to share facilities, equipment, services, or other resources with 
private industry, academia, or state and local government agencies and 
are part of meeting FAA's technology transfer program requirements. 
[Footnote 24] Within FAA's Research and Technology Development Office, 
as of January 6, 2011, there are over 20 such agreements with 
industry or academia.[Footnote 25] Prior to pursuing an acquisition, 
the agency is required under the AMS to conduct a market analysis to 
determine if the needed capability exists in the marketplace or has 
to be obtained through the acquisition process. A market analysis 
may be conducted as FAA moves forward with an acquisition. FAA may 
publicly request proposals from private industry to develop the 
technology, and any private sector entity can submit its proposal 
for meeting FAA's requirements and compete against other entities 
for the contract award. 

Table 1: Examples of Mechanisms to Facilitate Technology Transfer That 
May Be Used within Selected AMS Phases: 

AMS Phase: Service Analysis--determines what capabilities must be in 
place now and in the future to meet agency goals and the needs of 
customers; 
Examples of Mechanisms Used to Facilitate Technology Transfer That May 
Be Used in This Phase: Industry days, symposiums, technical 
interchange meetings, interagency agreements, cooperative research and 
development agreements, memorandums of agreement, requirement setting, 
prototype demonstrations, SE 2020 contract, NextGen Institute. 

AMS Phase: Concept and Requirements Definition--involves FAA 
undertaking research or using research by other agencies or industry 
to define an operational concept, develop preliminary requirements, or 
achieve customer buy-in to potential solutions to mission need; 
Examples of Mechanisms Used to Facilitate Technology Transfer That May 
Be Used in This Phase: Cooperative research and development 
agreements, memorandums of agreement, requirement setting, 
prototyping, demonstrations, operational trials at test facilities, SE 
2020 contract, NextGen Institute. 

AMS Phase: Initial Investment Analysis--designed to provide 
information to decision makers to select the best technological 
alternative that meets the required performance and offers the 
greatest value; 
Examples of Mechanisms Used to Facilitate Technology Transfer That May 
Be Used in This Phase: Market research analysis, industry days, 
requirement setting, prototyping, demonstrations, and operational 
trials at test facilities. 

AMS Phase: Final Investment Analysis--provides detailed planning for 
the technological alternative selected for implementation; 
Examples of Mechanisms Used to Facilitate Technology Transfer That May 
Be Used in This Phase: Market research analysis, industry days, 
requirement setting, prototyping, demonstrations, and operational 
trials at test facilities. 

Source: GAO analysis of FAA information. 

Note: Many of the mechanisms listed occur in multiple AMS phases.  

[End of table]  

However, under some circumstances, stakeholders said that AMS can lack 
flexibility for FAA to consider alternative technologies or new ideas 
for certain technologies or sub-systems within an acquisition once the 
process is underway. According to several industry stakeholders we 
spoke with, if they have a technology they believe is worth 
considering to improve some aspect or meet some need of a system that 
is being developed at FAA--such as a piece of software or some data 
that may be relevant to improve decision-making--there is no clear 
entry gate for getting that technology considered. Other stakeholders 
said that FAA has difficulty considering technologies that cut across 
programs and offices, and one stakeholder said that such ideas may not 
be considered because there is no clear "home" or "champion" within 
FAA for the technology. Similar issues have been encountered for 
technologies that NASA developed, which resulted in the creation of 
the research transition teams discussed previously. In the past, we 
have recommended that FAA improve its ability to manage portfolios of 
capabilities across program offices.[Footnote 26] However, on the 
other hand, at a certain point, FAA must be able to commit resources, 
finalize plans, and stop considering alternatives in order to move 
forward with implementing a new system. Furthermore, according to 
these officials, once FAA makes a decision to pursue a particular 
technological path, it can become costly to change course; therefore, 
any benefits of changing course must be weighed against the costs. 
Nonetheless, industry stakeholders suggested that additional avenues 
to consider alternative technologies could be made available and could 
result in technologies that enable FAA to meet its mission more 
efficiently. We have made recommendations to FAA over the years to 
improve its AMS process.[Footnote 27] 

To address this issue at least in part, FAA has recently designed 
another contracting tool to provide it with research and development 
and systems engineering support to integrate NextGen concepts, 
procedures and technologies into the NAS, which may provide some 
additional flexibility for collaboration and technology transfer with 
industry. The Systems Engineering 2020 (SE 2020) contracts are a set 
of multiple award, up to 10-year umbrella contracts worth 
approximately $6.4 billion. Under SE 2020, FAA will be able to have 
participating firms support NextGen implementation activities such as 
concept exploration, modeling and simulation, and prototype 
development. By pooling engineering expertise under a single 
contracting vehicle, FAA believes it will be able to more quickly 
obligate funds and issue task orders, which is intended to result in 
implementing NextGen more quickly. FAA officials believe that this 
process, by structuring the umbrella contract to include small 
businesses, would encourage the participation of more small businesses 
in its efforts to implement NextGen. Firms that have not been selected 
will not be able to participate in the SE 2020 program.[Footnote 28] 
However, according to some industry officials, the program's ability 
to more quickly obligate funds and issue and complete task orders has 
yet to be fully demonstrated, and stakeholders we spoke with expressed 
concerns about whether FAA's efforts to expedite the work will mean 
missing out on the expertise of excluded companies. 

FAA also has an unsolicited proposal evaluation process that is 
designed as a mechanism for private industry to offer unique ideas or 
approaches outside FAA's competitive procurement process; however, it 
has not proven to be a significant source of new technology for FAA. 
From 2008 to 2010, FAA received 56 unsolicited proposals from private 
industry and rejected all but one of them. The most common reasons for 
rejection, according to FAA, were that the proposals were not unique 
and innovative or that FAA already had an effort in place to meet that 
requirement. (See table 2.) In general, we found that FAA's reasons 
for rejecting proposals met FAA's established criteria for evaluating 
unsolicited proposals. However, FAA evaluators told us that FAA's 
"unique and innovative" criterion for an unsolicited proposal was a 
difficult criterion to meet for proposals, because technologies often 
build on previous technologies. Furthermore, if a firm submitting an 
unsolicited proposal is to receive a sole source contract, competitive 
procurement principles require that it must be found that no other 
company can provide the technology but the company submitting the 
unsolicited proposal. If this is not the case, competitive proposals 
must be sought. Some participants told us that technologies should not 
be eliminated from consideration even if their application is not 
entirely unique and contracts to implement them might have to be 
awarded competitively. FAA evaluators commented that there was little 
guidance on how to interpret the criteria, including the unique and 
innovative criterion in particular, for evaluating unsolicited 
proposals. Some suggested that additional guidance on applying 
criteria or a review panel could be set up to assist in reviewing the 
ideas contained in these proposals. 

Table 2: FAA's Four Most Commonly Provided Reasons for Not Accepting 
Unsolicited Proposals: 

Reason for non-acceptance provided by FAA: Not unique or innovative; 
2008 Reasons provided: 6; 
2009 Reasons provided: 10; 
2010 Reasons provided: 2; 
Total: 18. 

Reason for non-acceptance provided by FAA: The requirement has already 
been met or is being met; 
2008 Reasons provided: 4; 
2009 Reasons provided: 5; 
2010 Reasons provided: 2; 
Total: 11. 

Reason for non-acceptance provided by FAA: FAA does not have a 
requirement at this time; 
2008 Reasons provided: 3; 
2009 Reasons provided: 2; 
2010 Reasons provided: 3; 
Total: 8. 

Reason for non-acceptance provided by FAA: Does not meet FAA's mission; 
2008 Reasons provided: 3; 
2009 Reasons provided: 2; 
2010 Reasons provided: 2; 
Total: 7. 

Source: GAO analysis of FAA data. 

Note: Sometimes FAA provided multiple reasons for the rejection of a 
proposal.  

[End of table]  

Participants also told us that the process, in some cases, is not 
collaborative, which may hinder FAA from leveraging potentially 
valuable technologies. Other participants explained that FAA's written 
response sometimes did not reflect a full understanding of what a 
company was offering, so in these cases the companies would have liked 
an opportunity to clarify the merits of their proposal. Although FAA 
says that companies whose proposals are rejected can meet with the 
program offices to discuss reasons for rejection, some companies told 
us this opportunity was not always provided. Where there are 
disagreements between FAA and companies submitting unsolicited 
proposals over FAA's stated reason for rejection of a proposal, FAA is 
not required to discuss why a submission was rejected or how it might 
be improved. 

FAA's Mechanisms for Industry Collaboration Can Enhance Knowledge and 
Lead to Transferring Technology, but Outcomes Are Not Always Clear: 

Outreach Events with Private Industry: 

FAA conducts various outreach events with its research stakeholders, 
including those in industry, to exchange information among 
stakeholders currently engaged in collaborative technology projects 
and to communicate NextGen's direction to potential collaborators. 
From 2008 through 2010, over 300 outreach events were held during 
which FAA presented technical information focused on planned or on-
going NextGen projects and programs. Seminars, conferences, and 
industry days are designed to inform industry about where FAA is 
headed with regard to NextGen and any changes that may have occurred 
in NextGen's direction in the last year. The identification of 
technologies for use in NextGen is not necessarily a goal of many of 
these efforts. Although technology identification or transfer may not 
occur at these events, they can create and reinforce working and 
personal relationships between leading experts and researchers in the 
air traffic management research and development community, create 
opportunities to share available research results, and maintain 
consensus between FAA and industry on major issues. 

Some FAA and industry events, however, have had more of a 
collaborative purpose, creating opportunities for information and 
technical exchanges. Technical interchange meetings, workshops, and 
demos are designed to address select technical issues and have been 
used to try and identify existing technologies or to communicate to 
private sector stakeholders specific technological or research needs 
that they can address. These meetings can result in the identification 
of existing technologies that can be used by FAA to meet a specific 
need. For example, FAA's Global Navigation Satellite System Program 
Office recently sponsored a workshop for a broad range of industry and 
partner agency stakeholders to come together to discuss needs and 
potential solutions for a back-up system that could support the Global 
Positioning System if satellites became unavailable. The purpose of 
the workshop was to collaboratively work with partner agencies and 
industry to identify existing technologies and systems that can be 
modified to provide a viable backup system. One industry participant 
we spoke with told us that the workshop was highly collaborative and 
had positive results in terms of focusing on technology that could be 
leveraged by FAA. However, according to participants in other events, 
it is often unclear what happens after these events in terms of taking 
the next steps to transfer knowledge or technology or working with FAA 
to develop solutions. FAA keeps documentation of what occurs at these 
meetings, including information on outcomes from the event. Our review 
of this documentation found that few events documented concrete 
outcomes or identified next steps to further develop ideas or 
technologies identified and discussed at an event. 

NextGen Institute: 

JPDO is reassessing the role and structure of the NextGen Institute as 
a mechanism for collaboration and technology transfer with industry. 
The DOT Inspector General recommended in June 2010 that JPDO determine 
whether there is a continued need for the Institute and, if there is, 
to redefine its roles and responsibilities to avoid duplication with 
other private-sector organizations. The NextGen Institute was 
established in March 2005 as the mechanism through which JPDO would 
access private-sector expertise in a fair and balanced framework that 
embraces all individuals, industry, and user segments for application 
to NextGen activities and tasks. However, participation in the 
Institute diminished over time as funding was uncertain. Recently, a 
new Executive Director was named for the Institute, and the JPDO is 
working closely with the new Executive Director and the Institute 
Management Council--which oversees the policy, recommendations, and 
products of the NextGen Institute--to identify a course of action that 
is embraced by industry stakeholders. According to several private- 
sector stakeholders we spoke with, the NextGen Institute could serve 
as a valuable mechanism for FAA and industry collaboration if properly 
designed and structured. 

RTCA Efforts: 

While not necessarily a technology transfer mechanism, RTCA--a 
private, not-for-profit corporation that develops consensus-based 
recommendations within the aviation community on communications, 
navigation, surveillance, and air traffic management system issues--is 
a key source of FAA and industry collaboration. For example, in 2009 
RTCA convened the NextGen Midterm Implementation Task Force at the 
request of FAA, which brought together key stakeholders in the 
aviation community. The Task Force reached a consensus within the 
aviation community to focus on implementing capabilities in the NAS 
that take advantage of existing technologies and capabilities aboard 
aircraft. In addition, RTCA has recently created the NextGen Advisory 
Committee, which is comprised of top-level executives representing 
various parts of the aviation and aerospace industries, as well as 
airports, air traffic management, and various other public and private 
stakeholder groups. 

FAA's NextGen Test and Research Facilities: 

Some NextGen test facilities serve as a forum in which private 
companies may learn and partner with each other, and eventually, enter 
into technology acquisition agreements with FAA with reduced risk. The 
FAA Technical Center test facility in Atlantic City, New Jersey, and 
the Embry Riddle test facility in Daytona, Florida, provide places 
where integration and testing with industry can take place without 
affecting day-to-day air traffic operations. They also enable industry 
and government to ensure that new technologies will integrate with 
systems currently in the NAS and, according to a senior FAA official, 
allows FAA to leverage private sector funding, expertise, and 
technologies. For example, in November 2008, several companies, 
including Lockheed Martin and Boeing, were involved in an FAA 
demonstration at Embry Riddle on how current and forecasted weather 
information can be integrated into FAA's traffic management and en 
route automation systems. Also at Embry Riddle, Lockheed Martin is 
funding some work in conjunction with US Airways on a new time-based 
traffic flow management system designed to provide increased gate-to- 
gate air traffic predictability. 

The success of these test facilities as opportunities to leverage 
private-sector resources depends in large part on the extent to which 
the private sector perceives benefits to their participation. 
Representatives of firms participating in test facility activities 
told us that tangible results in terms of implementation of 
technologies developed were important to maintain private sector 
interest and that it was not always clear what happened to 
technologies that were successfully tested at these sites. In June 
2010, the DOT Inspector General also reported that demonstrations may 
not provide a clear path to implementation and are sometimes not 
outcome-focused. We have also reported that FAA should increase its 
focus on performance and outcomes.[Footnote 29] One of the 
difficulties cited by officials at these test facilities was that if a 
technology being tested did not have a place in one of the NAS 
Enterprise Architecture Infrastructure Roadmaps,[Footnote 30] then 
there was no implementation plan for that technology and no next steps 
to get that technology into the NAS. For example, NASA was developing 
the Precision Departure Release Capability, a software technology that 
links Traffic Management Advisor to other information to better plan 
flight departures by minimizing delays once passengers have boarded 
the plane. This technology, however, was not a capability or 
technology that was a part of the Enterprise Architecture Roadmap, and 
NASA had difficulty finding support for it, its merit and FAA's 
interest in pursuing it notwithstanding. According to NASA officials 
that worked on the capability, the process for getting a technology 
into a roadmap was not transparent to participants at the test 
facilities and it took considerable time and effort to eventually get 
the capability included in the roadmap and garner support. 

To advance aviation partnerships and the development and transfer of 
aviation technologies, the concept for a Next Generation Aviation 
Research and Technology Park was developed through a collaborative 
effort by local, county, state, and federal agencies; academia; and 
private sector interests. As a result of this effort, the FAA entered 
into a lease and memorandum of understanding with the South Jersey 
Economic Development District to build a Next Generation Research and 
Technology Park adjacent to the William J. Hughes Technical Center 
near Atlantic City, N.J. The lease transfers control of 58 acres of 
FAA property for construction of the complex. The Park is a 
partnership that is intended to engage industry in a broad spectrum of 
research projects, with access to state-of-the-art federal 
laboratories. The establishment of this park will help encourage the 
transfer of scientific and technical information, data, and know-how 
to the private sector and is consistent with FAA's technology transfer 
program order. The park will offer a central location for the FAA's 
industry partners to perform research, development, testing, 
integration and verification of the technologies, concepts, and 
procedures required by NextGen. According to FAA, this private-sector 
engagement in research has the potential to save significant time and 
expense in bringing new products to market and reducing the time to 
deliver NextGen components. The Park is intended to complement the 
NextGen demonstration capabilities at Embry Riddle Aeronautics 
University in Daytona, Florida. Advanced NextGen technologies 
developed and tested at the Technical Center will be demonstrated in 
an operational environment at Daytona then returned to the Technical 
Center for integration with the current NAS and other components of 
NextGen. 

Conclusions: 

Transforming the nation's air transportation system is a technically 
complex undertaking that will affect FAA's activities and missions, 
and those of federal partner agencies and the private sector. 
NextGen's success is dependent, in significant part, on FAA's ability 
to leverage the research and technology efforts of these agencies and 
firms. While much has been done to develop mechanisms for effective 
research and technology transfer, some mechanisms have not been 
successful in ensuring that FAA is leveraging the research and 
technologies of its partners. In particular, FAA and DOD have yet to 
completely identify DOD's potentially beneficial research and 
technology. In addition, FAA and DHS's collaboration in identifying 
areas for joint research and technology development is limited. 

Effective transfer of research and technology requires effective 
collaboration, and we have previously found that interagency 
collaboration is enhanced when agencies, among other things, define 
common outcomes, identify and address needs, establish joint 
strategies, agree on roles and responsibilities, and establish 
compatible policies, procedures and other means to operate across 
agency boundaries. FAA's collaborative mechanisms with DOD and DHS 
fall short of fulfilling these criteria. FAA's ability to identify 
potentially useful DOD and DHS research and technology has been 
impeded because DOD and DHS have not completely identified research 
and development in their portfolios that is applicable to NextGen, 
while DOD's ability to identify potentially useful research and 
technology may be impeded because FAA has not made clear the scope of 
its needs with enough specificity. Further, communication between DOD 
and FAA has been hampered by differing vocabularies and terms, and 
mechanisms have not yet been developed to help the agencies work 
across agency boundaries. While we have noted these issues in several 
reports over the years and the DOT Inspector General has made 
recommendations for FAA to develop a plan to review DOD's research, we 
find that much remains to be done in this area to improve the 
communication and collaboration between the agencies. Unless FAA and 
its partner agencies communicate and jointly identify ongoing research 
and technology development that is relevant to NextGen efforts, FAA 
will not be able to fully leverage the potential of its partner 
agencies' research and technology development efforts. 

In this report, as well as in a previous report, we note that FAA and 
its partner agencies have struggled to develop an integrated budget 
document that tracks partner agencies' involvement in NextGen, 
determines whether funding is adequate for specific efforts, and 
tracks the overall cost of NextGen. Failure to complete this effort 
makes it difficult for FAA and the Congress to understand the extent 
to which FAA is leveraging the research efforts of its partners to 
achieve the NextGen vision. We have an open recommendation to FAA with 
regard to developing this integrated budget and are monitoring actions 
related to our recommendation. We are therefore not making 
recommendations in this report about this issue. 

We also discuss several issues throughout the report with respect to 
how FAA collaborates with the private sector to transfer research and 
technology. For example, while FAA conducts market analysis, holds 
numerous events with industry, enters into various collaborative 
agreements, and has numerous mechanisms--such as the NextGen 
Institute, demonstrations, and testing facilities--to collaborate with 
industry and provide opportunities for technology transfer, it is not 
always clear what comes out of these mechanisms, and some in industry 
have indicated that, despite all of these collaborative activities, it 
is not always evident what are the "entry points" to FAA for getting 
technologies or ideas considered. Nonetheless, numerous mechanisms 
exist, and additional mechanisms are being reconsidered, or are still 
under development, such as the NextGen Institute and the Research and 
Technology Park. We also found that FAA's AMS process can limit FAA's 
ability to consider alternatives in some cases, and that FAA has 
difficulty considering technology solutions that cut across several 
programs or offices at FAA. We have made several recommendations to 
FAA over the years to address these issues. We have recommended that 
FAA improve its AMS process, improve its ability to manage portfolios 
of capabilities across program offices, and increase its focus on 
performance and outcomes, which FAA has begun to implement Moreover, 
the DOT Inspector General made a recommendation in 2010 for FAA to 
reassess the current role and continued need for the NextGen Institute 
and to ensure that it is a useful resource and not duplicative with 
other mechanisms designed to work with private industry. We are 
therefore not making any further recommendations to FAA in these 
areas, but encourage FAA to continue its efforts to address existing 
recommendations. 

Recommendation for Executive Action: 

To more fully leverage the potential of NextGen partner agencies' 
research and technology development efforts, we recommend that the 
Secretary of Transportation direct the Administrator of the FAA to 
work with the Secretaries of Defense and Homeland Security to develop 
mechanisms that will further clarify NextGen interagency collaborative 
priorities and enhance technology transfer between the agencies. These 
mechanisms should focus on improving interagency communication about 
the specific needs, outcomes, and existing research that FAA has for 
NextGen, and the existing research and technology development 
portfolios that may be applicable to NextGen within DOD and DHS. These 
mechanisms should aim to improve the ability of the agencies to 
leverage resources or transfer knowledge or technology among each 
other consistent with the key practices for successful collaboration 
that we lay out in this report. 

Agency Comments and Our Evaluation: 

We provided a draft of this report to the Departments of 
Transportation, Defense, Homeland Security, and Commerce, NASA, and 
the Office of Science and Technology Policy. The Department of 
Transportation provided technical comments by e-mail, which we 
incorporated as appropriate, but did not comment whether or not it 
agreed with our recommendation. The Department of Defense provided 
written comments, which are reproduced in appendix I. DOD concurred 
with our recommendation and highlighted the existing mechanisms it has 
that support agency collaboration and technology transfer. The 
Department of Homeland Security provided written comments, which are 
reproduced in appendix II. DHS also concurred with our recommendation 
and mentioned a newly formed mechanism--the Air Domain Awareness 
Board--that will support technology transfer discussions among DHS, 
FAA, JPDO, and other stakeholders in relation to NextGen. These 
mechanisms are positive steps toward NextGen technology transfer among 
the partner agencies. However, as our recommendation further states, 
DOD and DHS should ensure that relevant research and development 
activities that could support NextGen are identified within these or 
other mechanisms, and that appropriate steps are taken to develop 
mechanisms to effectively transfer any identified research and 
technology. Because the mechanisms DOD and DHS identified have not yet 
demonstrated these results, we believe that fully implementing the 
recommendation is still important beyond the existing mechanisms used 
by DOD and DHS. The Office of Science and Technology Policy provided 
one technical comment by e-mail, which we incorporated. The Department 
of Commerce and NASA had no comments. 

As agreed with your offices, unless you publicly announce the contents 
of this report earlier, we plan no further distribution until 7 days 
from the report date. At that time, we will send copies of this report 
to interested congressional committees, the Secretary of 
Transportation, the Administrator of the Federal Aviation 
Administration, NASA, DOD, DHS, Commerce, the Office of Science and 
Technology Policy, and other parties. In addition, the report will be 
available at no charge on the GAO Web site at [hyperlink, 
http://www.gao.gov]. 

If you or your staff have any questions about this report, please 
contact me at (202) 512-2834 or dillinghamg@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 III.  

Signed by:  

Gerald L. Dillingham, Ph. D. 
Director, Physical Infrastructure Issues: 

[End of section] 

Appendix I: Comments from the Department of Defense: 

Office of The Assistant Secretary of Defense: 
Research and Engineering: 
3030 Defense Pentagon: 
Washington, DC 20301-3030:  

June 29, 2011:  

Mr. Gerald L. Dillingham: 
Director, Physical Infrastructure Issues: 
U.S Government Accountability Office: 
441 G Street: NW: 
Washington, DC 20548:  

Dear Mr. Dillingham:  

This is the Department of Defense (DoD) response to the GAO draft 
report GAO-11-604, Nextgen Air Transportation System: Mechanisms For 
Collaboration And Technology Transfer Could Be Further Enhanced To 
More Fully Leverage Partner Agency And Industry Resources." dated June 
20, 2011, (GAO Code 540215). Detailed comments on the report 
recommendations are enclosed.  

The Department has reviewed the draft report and concurs with the 
draft report, and indicated two actions, which will form the 
fundamental framework of at mechanism to improve interagency 
communication between the DoD and FAA for Research Technology 
Transfer.  

Sincerely,  

Signed by:  

Stephen P. Welby: 
Deputy Assistant Secretary of Defense: 
Systems Engineering:  

Enclosure: As stated.  

[End of letter]  

GAO Draft Report Dated June S, 2011: 
GAO-11-604 (GAO Code 540215):  

"Nextgen Air Transportation System: Mechanisms For Collaboration And 
Technology Transfer Could Be Further Enhanced To More Fully Leverage 
Partner Agency and Industry Resources"  

Department Of Defense Comments To The GAO Recommendations:  

Recommendation: to more fully leverage the potential of NextGen 
partner agencies' research and technology development efforts. GAO 
recommends that the Administrator of the FAA and the Secretaries of 
Defense and Homeland Security work together to develop mechanisms that 
will enhance technology transfer between the agendas. These mechanisms 
should focus on improving interagency communication about the specific 
needs, outcomes, and existing research that FAA has for NextGen, and 
the existing research and technology development portfolios that may 
be applicable to NextGen within DOD and DHS. These mechanisms should 
aim to improve the ability of the agencies to leverage resources or 
transfer knowledge or technology among each other consistent with the 
key practices for successful collaboration that GAO lays out in this 
report. (See page 31/GAO Draft Report.)  

DaD Response:  

As DoD's lead Service for the NextGen effort, the Air Force reviewed 
the GAO report on NextGen Air Transportation System and concurs with 
the recommendation to establish mechanisms to improve Research 
Technology Transfer, Two actions will support this objective.
The Secretary of the Air Force selected a Chief DoD NextGen Architect 
to assist in capturing requirements and deployment of new 
technologies_ Also, DoD established the Joint Program Office (WO) to 
support the NextGen effort through technology transfer for those R&D 
activities with potential NextGen application. These two actions form 
the fundamental framework of a mechanism to improve interagency 
communication between the DoD and FAA for Research Technology 
Transfer.  

[End of section] 

Appendix II: Comments from the U.S. Department of Homeland Security: 

U.S. Department of Homeland Security: 
Washington, DC 20528:  

June 27, 2011:  

Mr. Gerald L. Dillingham: 
Director, Physical Infrastructure Issues: 
U.S. Government Accountability Office: 
441 G. Street, NW: 
Washington, DC 20548:  

Re: Draft Report GAO-11-604, "Nextgen Air Transportation System: 
Mechanisms for Collaboration and Technology Transfer Could be Enhanced 
to More Fully Leverage Partner Agency and Industry Resources"  

Dear Mr. Dillingham:  

Thank you for the opportunity to review and comment on this draft 
report. The U.S. Department of Homeland Security (DHS) appreciates the 
U.S. Government Accountability Office's (GAO's) work in planning and 
conducting its review and issuing this report.  

The Department is pleased to note the positive acknowledgment of its 
role in the area of Next Generation Air Transportation System 
(NextGen) research and work on the Joint Planning and Implementation 
Office (JPDO). The Department recognizes the desirability of working 
closely with other agencies to share technologies to ensure research 
and development efforts arc not duplicated, especially given today's 
austere budget environment. A number of mechanisms that provide 
appropriate fora for technology transfer discussions among DHS, the 
Federal Aviation Administration (FAA), JPDO, and other key 
stakeholders are in place today.  

The most notable mechanism is the newly formed Air Domain Awareness 
Board (ADAB), which DHS chairs, and in which FAA; JPDO; the U.S. 
Departments of Defense, Justice, and Commerce; and the Office of the 
Director of National Intelligence participate. The first meeting of 
ADAB occurred on May 4, 2011. ADAB supports development of whole-of-
government solutions and clarifies priorities for Air Domain 
Awareness, and synchronizes future interagency actions by identifying 
overarching investment goals and potential policy/strategic-level 
synergies, redundancies, and conflicts. It also assigns and monitors 
tasks and milestones for its subordinate interagency working groups.  

A standing working group on integrated air surveillance will he 
transitioning to the Air Surveillance Working Group under the ADAB. 
This is the right forum for technology transfer discussions to occur 
between DHS, FAA, JPDO, and other ADAB participants. DHS Science and 
Technology Directorate, JPDO, and FAA personnel are all currently 
active in integrated air surveillance working group meetings. In 
addition, pursuant to Office of Management and Budget direction, U.S. 
Customs and Border Protection has been working with JFDO partners to 
coordinate among the NextGen partners to develop a strategic Unmanned 
Aerial System (UAS) research, development, and demonstration 
interagency roadmap.  

The draft report contained one recommendation directed at DHS, with 
which DHS concurs. Specifically, to more fully leverage the potential 
of NextGen partner agencies research and technology development 
efforts, GAO recommended that the Administrator of the FAA and the 
Secretaries of Defense and Homeland Security work together to:  

Recommendation 1: Develop mechanisms that will enhance technology 
transfer between the agencies. These mechanisms should focus on 
improving interagency communication about the specific needs, 
outcomes, and existing research that FAA has for NextGen, and the 
existing research and technology development portfolios that may be 
applicable to NextGen within DOD and DHS. These mechanisms should aim 
to improve the ability of the agencies to leverage resources or 
transfer knowledge or technology among each other consistent with the 
key practices for successful collaboration that we lay out in this 
report.  

Response: Concur. The Department appreciates the desirability for 
collaboration on this important issue and the development of 
mechanisms that improve the leverage of resources, knowledge; and/or 
technology. DHS remains committed to continue working with its 
interagency partners and other relevant stakeholders to enhance 
technology transfer between agencies, as appropriate. DHS believes 
that the newly formed ADAB and its subordinate Air Surveillance 
working group, together with other efforts focused on specific 
technology-related issues (such as the UAS partnership discussed 
above), provide effective mechanisms, as envisioned in GAO's 
recommendation, for the transfer of NextGen-related technologies among 
DHS, FAA, JPDO, and other key stakeholders.  

Again, thank you for the opportunity to review and comment on this 
draft report. We look forward to working with you on future Homeland 
Security issues.  

Sincerely,  

Signed by:  

Jim H. Crumpacker: 
Director: 
Departmental GAO/OIG Liaison Office:  

[End of section]  

Appendix III: GAO Contact and Staff Acknowledgments: 

GAO Contact: 

Gerald L. Dillingham, Ph.D. (202) 512-2834 or dillinghamg@gao.gov: 

Staff Acknowledgments: 

In addition to the contact named above, individuals making key 
contributions to this report include Andrew Von Ah (Assistant 
Director), Richard Hung, Bert Japikse, Delwen Jones, Kieran McCarthy, 
Josh Ormond, Taylor Reeves, Richard Scott, Maria Stattel, and Jessica 
Wintfeld. 

[End of section]  

Footnotes:  

[1] Vision 100--Century of Aviation Reauthorization Act (Pub. L. No. 
108-176, §709 117 Stat. 2490 (2003)).  

[2] NextGen also involves coordination and harmonization with the 
international community to ensure interoperability. In Europe, the 
Single European Sky ATM Research Programme is the effort to improve 
the European air traffic management system. We currently have a review 
underway assessing coordination between the U.S. and the European 
Union on these respective efforts.  

[3] FAA defines the NextGen near-and mid-term time frame as 2010-2018, 
and the NextGen long-term time frame as beyond 2018. 

[4] DOD officials told us that the cost to equip military aircraft 
with NextGen technology has not generally been included in the cost of 
NextGen to the government, which could significantly increase the 
costs of NextGen. 

[5] We have previously reported that collaborating agencies should 
identify the human, information technology, physical, and financial 
resources needed to initiate or sustain their collaborative effort. 
Collaborating agencies bring different levels of resources and 
capacities to the effort. By assessing their relative strengths and 
limitations, collaborating agencies can look for opportunities to 
address resource needs by leveraging each others' resources, thus 
obtaining additional benefits that would not be available if they were 
working separately. See GAO, Results Oriented Government: Practices 
That Can Help Enhance and Sustain Collaboration among Federal 
Agencies, [hyperlink, http://www.gao.gov/products/GAO-06-15] 
(Washington, D.C.: Oct. 21, 2005), p. 16. 

[6] The NextGen Institute was established in March 2005 through an 
agreement between FAA and the National Center for Advanced 
Technologies as the mechanism through which the JPDO would access 
private-sector expertise for application to NextGen activities and 
tasks. Participation in the NextGen Institute is open to any 
individual or entity. The Institute Management Council, which consists 
of 17 senior leaders from the aviation community, oversees the policy, 
recommendations, and products of the NextGen Institute. 

[7] GAO, Results Oriented Government: Practices That Can Enhance and 
Sustain Collaboration among Federal Agencies, [hyperlink, 
http://www.gao.gov/products/GAO-06-15] (Washington, D.C.: Oct. 21, 
2005).  

[8] FAA Order 9550.6A implements the Stevenson-Wydler Technology 
Innovation Act of 1980, Pub. L. 96-480, as amended (codified at 15 
U.S.C. ch. 63), establishing a technology transfer program within FAA 
to facilitate the transfer of scientific and technical information, 
data, facilities, and knowledge developed by FAA to the private sector 
or state and local governments. The order is not specifically directed 
at disseminating NextGen technology but rather, addresses general 
policy regarding FAA efforts to transfer the products, processes and 
services from FAA's research into the state and local government and 
private sectors. 15 U.S.C. § 3710. 

[9] Pub. L. 108-176, § 709(a)(2)(G). 

[10] JPDO identified the primary and supporting agencies for research, 
development, and other related activities in the NextGen Integrated 
Work Plan. The primary agency is expected to provide the overall 
ownership and leadership necessary to achieve the planning element. As 
many of the activities require the support, cooperation, and 
collaboration of multiple organizations, the supporting agency is 
expected to support the realization of the planning element through 
the provision of funds, staffing, facilities, intellectual capital, or 
other resources as needed. When it was first published, in September 
2008, there was no formal agency concurrence on activity ownership. 
One of the key tasks of FY09 was to validate the content and ownership 
of each activity. According to the NextGen Integrated Work Plan, FAA 
has primary responsibility for 111 research and development activities 
and will support 72 additional activities--the most of any of the 
partner agencies. 

[11] See [hyperlink, http://www.gao.gov/products/GAO-06-15]. 

[12] The four research transition teams are: Efficient Flow Into 
Congested Airspace, Integrated Arrival/Departure/Surface, Flow-Based 
Trajectory Management, and Dynamic Airspace Configuration.  

[13] Technological maturity is measured by various levels of 
technology readiness. In this case, the tool should be at technology 
readiness level 4, which indicates that basic technological components 
are integrated in a laboratory environment to establish that the 
pieces will work together. 

[14] In March 2011, NASA delivered an investigation of the Multi-
Sector Planner Concept for NextGen in the mid-term. A key research 
question for multi-sector trajectory planning operations was whether 
these operations could be integrated into the roles and 
responsibilities of current positions, or would require a new staffed 
position: the multi-sector planner. Simulation results showed 
effective multi-sector planning operations in both staffing 
conditions. The products delivered included results of these 
simulations as well as a concept for operational allocation of the 
multi-sector planner functions in an FAA facility. The products were 
delivered on time.  

[15] In the past, NASA has focused on fundamental research and away 
from developmental work and demonstration projects. As a result, in 
some cases, NASA's research has focused on developing technologies to 
a lower--and therefore less readily adopted--maturity level. See GAO, 
Next Generation Air Transportation System: Status of Systems 
Acquisition and the Transition to the Next Generation Air 
Transportation System, [hyperlink, 
http://www.gao.gov/products/GAO-08-1078] (Washington, D.C.: Sept. 11, 
2008).  

[16] Situational awareness is related to accurately perceiving what is 
happening in the environment, thoroughly understanding the 
implications of what has been perceived, and the ability to project 
into the future.  

[17] Aircraft in flight can reduce flying time and save fuel by flying 
routes that are more wind-favorable and direct than their current 
route.  

[18] Commerce, the agency under which NOAA is housed, is the agency 
with primary responsibility for eight research and development 
activities. JPDO has recommended that Commerce provide support for 19 
additional activities. 

[19] The two technologies are: (1) the Graphical Turbulence Guidance-
2, which provides clear air turbulence forecasts above 10,000 feet 
updated hourly out to 12 hours, and (2) the Forecast Icing Product, 
which provides probabilistic forecasts of in flight icing as well as 
severity and supercooled large drop potential. Both technologies were 
developed by the National Center for Atmospheric Research with FAA 
funding. 

[20] Department of Transportation Inspector General, Timely Actions 
Needed to Advance the Next Generation Air Transportation System, AV- 
2010-068 (June 16, 2010). 

[21] In 2006 we recommended that JPDO identify NextGen-related 
programs in the partner agencies' budgets and consolidate that 
information in one budget document to help FAA, JPDO, and Congress 
track partner agencies' involvement in NextGen, determine whether 
funding is adequate for specific efforts, and track the overall cost 
of NextGen. See GAO, Next Generation Air Transportation System: 
Progress and Challenges Associated with the Transformation of the 
National Airspace System, [hyperlink, 
http://www.gao.gov/products/GAO-07-25] (Washington, D.C.: Nov. 13, 
2006). While JPDO has received information from Commerce and NASA, as 
of June 2011, DOD and DHS have been unable to provide JPDO with 
budgetary figures on their NextGen activities.  

[22] GAO, Next Generation Air Transportation System: Challenges with 
Partner Agency and FAA Coordination Continue, and Efforts to Integrate 
Near-, Mid-, and Long-term Activities Are Ongoing, [hyperlink, 
http://www.gao.gov/products/GAO-10-649T] (Washington, D.C.: Apr. 21, 
2010). 

[23] We have found issues in the past with how FAA manages its 
acquisitions, particularly with regard to ensuring adherence to cost 
and schedule. GAO has open recommendations in this area to FAA and is 
currently undertaking a review of specific FAA acquisitions.  

[24] FAA Order 9550.6A, Technology Transfer Program, sets forth these 
requirements.  

[25] FAA's Research and Technology Development Office manages FAA's 
research, engineering & development program to assure alignment with 
FAA planning documentation, coordinates aviation research with 
international organizations worldwide, and identifies, executes, and 
manages research and development projects related to existing and new 
technologies and procedures consistent with FAA's mission. 

[26] GAO, NextGen Air Transportation System: FAA's Metrics Can Be Used 
to Report on Status of Individual Programs, but Not of Overall NextGen 
Implementation or Outcomes, [hyperlink, 
http://www.gao.gov/products/GAO-10-629] (Washington, D.C.: July 27, 
2010). 

[27] GAO, Air Traffic Control: FAA Reports Progress in System 
Acquisitions, but Changes in Performance Measurement Could Improve 
Usefulness of Information, [hyperlink, 
http://www.gao.gov/products/GAO-08-42] (Washington, D.C.: Dec. 18, 
2007). 

[28] About 90 pre-approved companies are participating on the vendor 
teams, including air framers, avionics manufacturers, and system 
developers and integrators. 

[29] See [hyperlink, http://www.gao.gov/products/GAO-10-629]. 

[30] NAS Enterprise Architecture Infrastructure Roadmaps describe the 
transition strategy for the NAS from the as-is to the to-be 
environment. 

[End of section]  

GAO's Mission:  

The Government Accountability Office, the audit, evaluation and 
investigative arm of Congress, exists to support Congress in meeting 
its constitutional 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 good government is reflected in its core 
values of accountability, integrity, and reliability.  

Obtaining Copies of GAO Reports and Testimony:  

The fastest and easiest way to obtain copies of GAO documents at no 
cost is through GAO's Web site [hyperlink, http://www.gao.gov]. Each 
weekday, GAO posts newly released reports, testimony, and 
correspondence on its Web site. To have GAO e-mail you a list of newly 
posted products every afternoon, go to [hyperlink, http://www.gao.gov] 
and select "E-mail Updates."  

Order by Phone:  

The price of each GAO publication reflects GAO’s actual cost of
production and distribution and depends on the number of pages in the
publication and whether the publication is printed in color or black and
white. Pricing and ordering information is posted on GAO’s Web site, 
[hyperlink, http://www.gao.gov/ordering.htm].  

Place orders by calling (202) 512-6000, toll free (866) 801-7077, or
TDD (202) 512-2537.  

Orders may be paid for using American Express, Discover Card,
MasterCard, Visa, check, or money order. Call for additional 
information.  

To Report Fraud, Waste, and Abuse in Federal Programs:  

Contact:  

Web site: [hyperlink, http://www.gao.gov/fraudnet/fraudnet.htm]: 
E-mail: fraudnet@gao.gov: 
Automated answering system: (800) 424-5454 or (202) 512-7470:  

Congressional Relations:  

Ralph Dawn, Managing Director, dawnr@gao.gov: 
(202) 512-4400: 
U.S. Government Accountability Office: 
441 G Street NW, Room 7125: 
Washington, D.C. 20548:  

Public Affairs:  

Chuck Young, Managing Director, youngc1@gao.gov: 
(202) 512-4800: 
U.S. Government Accountability Office: 
441 G Street NW, Room 7149: 
Washington, D.C. 20548: