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United States Government Accountability Office: 
GAO: 

Testimony: 

Before the Subcommittee on Science and Space, Committee on Commerce, 
Science, and Transportation, U.S. Senate: 

For Release on Delivery: 
Expected at 10:00 a.m. EDT:
Wednesday, June 20, 2012: 

Commercial Space Transportation: 

Industry Trends, Government Challenges, and International 
Competitiveness Issues: 

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

GAO-12-836T: 

GAO Highlights: 

Highlights of GAO-12-836T, a testimony before the Subcommittee on 
Science and Space, Committee on Commerce, Science, and Transportation, 
U.S. Senate. 

Why GAO Did This Study: 

The commercial space launch industry is changing as NASA plans to 
begin procuring commercial cargo transportation services to the 
International Space Station later this year and companies are 
developing vehicles that could carry passengers for space tourism 
flights. FAA is responsible for overseeing the safety of commercial 
space launches and promoting the industry. A catastrophic commercial 
space launch accident could result in injuries or property damage to 
the public, or “third parties.” In anticipation of such an event, 
launch companies are required to purchase launch insurance, per 
calculations done by FAA and, under the Commercial Space Launch Act, 
the federal government is potentially liable for claims above that 
amount of purchased insurance. Unless reauthorized, the 
indemnification provision expires this year. 

This testimony addresses (1) trends and forecasts in the commercial 
space launch industry and challenges FAA faces in overseeing and 
promoting the industry, (2) preliminary information on issues 
concerning federal indemnification for third party losses, and (3) 
challenges to global competitiveness for the U.S. commercial space 
launch industry. This statement is based on a past GAO report and 
testimonies on commercial space launches, updated with information GAO 
gathered from FAA and NASA on industry trends and recent FAA and NASA 
actions, and on-going work on federal indemnification. GAO is making 
no recommendations in this statement. 

What GAO Found: 

Since a peak of 22 U.S. commercial space launches in fiscal year 1998, 
the annual number of launches generally ranged from 4 to 9 launches. 
The number of commercial space launches is expected to increase in the 
next 8 years as the National Aeronautics and Space Administration 
(NASA) plans to procure 51 launches from commercial cargo companies to 
resupply the International Space Station. FAA also expects space 
tourism to begin in the next several years, although no companies have 
applied for a FAA launch license and companies developing these 
services have experienced delays in the past. FAA faces several 
challenges overseeing the commercial space launch industry. For 
example, FAA expects its licensing and oversight responsibilities to 
expand in anticipation of an increased private sector role, suggesting 
that FAA and Congress must remain vigilant so that potential conflicts 
in FAA’s safety oversight and industry promotion roles do not occur. 
Also, as the commercial space launch industry grows and FAA continues 
to implement NextGen—FAA’s effort to develop a more automated, 
aircraft-centered, satellite-based air traffic management system—the 
agency will have to manage a mix of earth-based aircraft and space 
vehicles. FAA has begun to consider integrating spaceflight operations 
into NextGen. In past work, GAO recommended that FAA take several 
actions to improve its oversight of commercial space launches, 
including monitoring indicators of space tourism safety. FAA has taken 
some steps to address the recommendations. 

Several factors have implications for federal indemnification policy. 
For example, under the current policy, the potential increase in the 
number of commercial space launches increases the probability of a 
catastrophic accident and the possibility of a cost to the federal 
government. Also, GAO’s preliminary work has raised questions about 
the soundness of the method currently used by FAA to calculate the 
amount of insurance that launch companies must purchase: FAA has not 
updated crucial components, such as the cost of a casualty, and its 
method is outdated, according to insurance industry officials and risk 
modeling experts. If the current indemnification policy is eliminated, 
the actual effects on the global competitiveness of the U.S. 
commercial space launch industry are unknown, in part, because it is 
not known whether launch customers might choose foreign launch 
companies over U.S. companies. However, launch companies said that the 
lack of government indemnification would decrease their global 
competitiveness by increasing launch costs. 

The competitiveness of U.S. commercial space launch companies is 
affected by higher launch prices than those charged by companies in 
other countries and U.S. export controls, which affect U.S. companies’ 
ability to sell services abroad. The U.S. government has responded to 
foreign competition by providing the U.S. launch industry research and 
development funds, use of federal launch facilities, and 
indemnification for a portion of third-party claims. 

View [hyperlink, http://www.gao.gov/products/GAO-12-836T]. For more 
information, contact Gerald L. Dillingham at (202) 512-2834 or 
dillinghamg@gao.gov. 

[End of section] 

Chairman Nelson, Ranking Member Boozman, and Members of the 
Subcommittee: 

Thank you for the opportunity to testify today on the commercial space 
industry. Historically, commercial space launches took place primarily 
at federal launch sites and carried payloads (generally satellites) 
into orbit using unmanned vehicles that were only used once. The 
Federal Aviation Administration (FAA) is responsible for overseeing 
the safety of these launches and promoting the industry. Over the last 
several years the industry has begun to change. For instance, several 
companies are in the process of developing and testing manned, 
reusable launch vehicles for commercial space tourism. In addition, 
since the Space Shuttle fleet was retired in 2011, the National 
Aeronautics and Space Administration (NASA) plans to begin procuring 
commercial cargo transportation services to the International Space 
Station (ISS) later in 2012. With the successful mission of SpaceX's 
Dragon last month, the capability to do so has been demonstrated. NASA 
also intends to procure commercial manned launches to carry its 
astronauts to the ISS beginning in 2017.[Footnote 1] Private companies 
and states are developing commercial spaceports--sites used for 
commercial (nongovernment) spacecraft launches to support the expected 
growth in commercial space launches. To foster a competitive 
environment for the U.S. space launch industry, the federal government 
provides, under the Commercial Space Launch Act Amendments of 1988 
(CSLAA),[Footnote 2] among other things, potential indemnification for 
a portion of third party liability claims that could arise from a 
catastrophic launch-related incident that results in injury or damage 
to uninvolved people or property.[Footnote 3],[Footnote 4] This 
legislation expires at the end of 2012, and Congress will need to 
determine whether to end, reform, or continue current commercial space 
launch indemnification. 

My testimony today focuses on (1) trends and forecasts in the U.S. 
commercial space launch industry, (2) challenges FAA faces in 
overseeing and promoting the industry, (3) preliminary information on 
factors for Congress to consider as it determines the future of 
commercial space launch indemnification, and (4) challenges to U.S. 
global competitiveness as the commercial space industry grows and 
matures. This statement is based on our prior testimonies and report 
on commercial space issues and has been updated with information we 
gathered from FAA and NASA on industry trends and recent FAA and NASA 
activities.[Footnote 5] It is also based on on-going work we are 
conducting for this committee and the U.S. House of Representatives' 
Committee on Science and Technology. Additional information on our 
scope and methodology is provided in each issued product. We conducted 
the work on which this is based in accordance with generally accepted 
government auditing standards. Those standards require that we plan 
and perform the audit to obtain sufficient, appropriate evidence to 
provide a reasonable basis for our findings and conclusions based on 
our audit objectives. We believe that the evidence obtained provides a 
reasonable basis for our findings and conclusions based on our audit 
objectives. 

Background: 

In 1984, the Commercial Space Launch Act required the Secretary of 
Transportation to "encourage, facilitate, and promote commercial space 
launches by the private sector."[Footnote 6] Under the Act, FAA was 
charged with regulating the U.S. commercial space launch industry, 
which it does through licensing, compliance monitoring, and safety 
inspection activities. FAA licenses all commercial launches and 
reentries that take place in the United States and overseas by U.S. 
citizens or companies to ensure the safety of the public and property, 
to ensure compliance with international obligations of the United 
States, and to protect the national security and foreign policy 
interests of the United States.[Footnote 7] FAA is also responsible 
for licensing the operation of all U.S. spaceports from which 
commercial launches may occur. In addition to its safety oversight and 
regulatory responsibilities, FAA is tasked with facilitating the 
strengthening and expansion of the U.S. space launch infrastructure. 
In 2004, the Commercial Space Launch Amendments Act of 2004[Footnote 
8] gave FAA the specific responsibility of overseeing the safety of 
space tourism. However, FAA is prohibited from regulating crew and 
passenger safety before October 2015, except in response to high risk 
incidents, serious injuries or fatalities, or an event that poses a 
high risk of causing a serious or fatal injury. 

Other federal agencies also support the commercial space launch 
industry. NASA supports the industry by providing infrastructure and 
operations support and encouraging private sector investment in its 
launches and other activities. The Department of Defense (DOD), 
through the Air Force, provides infrastructure, operations support, 
guidance, and safety oversight for government and commercial launches 
at its launch sites. The Department of Commerce (Commerce) is also 
responsible for promoting the commercial space industry. 

In addition, similar to other countries such as China, France, and 
Russia, the U.S. government provides indemnification for a portion of 
claims by third parties for injury, damage, or loss that result from 
FAA-licensed commercial launch-related incidents, provided Congress 
appropriates funds for this purpose.[Footnote 9],[Footnote 10] Prior 
to issuing a launch or reentry license, FAA determines the amount of 
third party losses against which a launch company must protect by 
buying third party liability insurance. FAA determines this by 
calculating the maximum probable loss, which is an estimate of the 
maximum third party losses likely to occur from a commercial space 
launch.[Footnote 11] The federal government, subject to 
appropriations, provides indemnification for losses that exceed the 
maximum probable loss up to a limit of about $2.7 billion.[Footnote 
12] Parties involved in launches--for example, passengers and crew--
are not considered third parties, and thus damages to them would not 
be covered under the indemnification program.[Footnote 13] The 
commitments of the United States or other countries to pay third party 
claims have never been tested. Globally, there has never been a third 
party claim for damages from a commercial space launch failure that 
reached the level of government indemnification. 

The Number of FAA-Licensed Space Launches Peaked in 1998, but an 
Increase Is Anticipated: 

Launch Trends: 

Since 1989, FAA has licensed 207 commercial space launches. Since a 
peak of 22 launches in fiscal year 1998, the annual number of launches 
generally ranged from 4 to 8 launches. (See figure 1.) Space launches 
by private sector companies were relatively high in the late-1990s as 
U.S. commercial launch companies responded to the increase in global 
demand for commercial satellite launch services. Since then, the 
demand for commercial launches has generally declined, except for 
slight increases in fiscal years 2004 and 2008. The increase in fiscal 
year 2004 was due in part to the inclusion of 4 demonstration flights 
by SpaceShipOne and the increase in fiscal year 2008 was due, in part, 
to the return to service of one of the most common launch vehicles 
following a failure in the previous year.[Footnote 14] Since fiscal 
year 2009, FAA has licensed 13 commercial space launches, including 
the launch of the Falcon 9 rocket that carried the Dragon capsule that 
docked with the International Space Station last month. 

Figure 1: FAA-Licensed Launches, Fiscal Year 1997 Through June 1, 2012: 

[Refer to PDF for image: vertical bar graph] 

Fiscal year: 1997; 
Launches: 14. 

Fiscal year: 1998; 
Launches: 22. 

Fiscal year: 1999; 
Launches: 18. 

Fiscal year: 2000; 
Launches: 12. 

Fiscal year: 2001; 
Launches: 6. 

Fiscal year: 2002; 
Launches: 8. 

Fiscal year: 2003; 
Launches: 7. 

Fiscal year: 2004; 
Launches: 14. 

Fiscal year: 2005; 
Launches: 6. 

Fiscal year: 2006; 
Launches: 7. 

Fiscal year: 2007; 
Launches: 4. 

Fiscal year: 2008; 
Launches: 11. 

Fiscal year: 2009; 
Launches: 4. 

Fiscal year: 2010; 
Launches: 4. 

Fiscal year: 2011; 
Launches: 3. 

Fiscal year: 2012; 
Launches: 2. 

Source: GAO analysis of FAA data. 

Note: These numbers include launches by Sea Launch--a multinational 
consortium that is licensed by FAA because one of its principals is a 
U.S. company. The numbers also include 5 launches by SpaceShipOne--4 
in fiscal year 2004 and 1 in fiscal year 2005--which were not FAA-
licensed as they were demonstration flights. All launches were 
orbital, except those of SpaceShipOne, which were suborbital. 

[End of figure] 

Despite the low number of licensed launches in recent years, according 
to FAA, research and development activity in commercial spaceflight 
continues and the tests associated with this activity are not captured 
in launch numbers. According to industry experts that we spoke with, 
since 2006 the commercial space launch industry has experienced a 
steady buildup of research and development efforts, including ground 
tests and low-altitude flight tests of reusable rocket-powered 
vehicles that are capable of numerous takeoffs and landings. (See 
figure 2 for examples of commercial spacecraft being developed.) These 
activities do not require licensing. In 2006, FAA began issuing 
experimental permits to companies seeking to conduct test launches of 
reusable space launch vehicles that could be used for manned 
commercial flights. 

Figure 2: Examples of Commercial Spacecraft under Development: 

[Refer to PDF for image: 3 illustrations] 

Sources: Virgin Galactic (left); Blue Origin (middle); and XCOR 
Aerospace (right). 

[End of figure] 

The number of commercial space launches is anticipated to increase in 
the years ahead as NASA begins procuring commercial cargo 
transportation services to the ISS and private industry continues 
developing vehicles for space tourism flights. As previously noted, 
SpaceX recently completed the first commercial mission to deliver 
cargo to the ISS and bring back scientific samples and other supplies. 
(See figure 3.) As a result of this success, SpaceX will begin to fly 
its 12 missions under NASA's Commercial Resupply Services contract for 
delivery of cargo to the ISS. Orbital Sciences Corporation has also 
been awarded a contract for cargo resupply missions to the ISS through 
2016, but has yet to conduct any demonstration missions. Together, the 
companies are scheduled to complete about 39 percent of NASA's planned 
launches to the ISS through 2020. (See table 1.) 

Figure 3: SpaceX Dragon Docked with the ISS, May 2012: 

[Refer to PDF for image: photograph] 

Source: NASA. 

[End of figure] 

Table 1: NASA's Planned Launches to Resupply the ISS from 2012 to 2020 
(as of March 2012): 

Vehicle: European Automated Transfer Vehicle (ATV)[A]; 
2012: 1; 
2013: 1; 
2014: 1; 
2015: 0; 
2016: 0; 
2017: 0; 
2018: 0; 
2019: 0; 
2020: 0; 
Total: 3. 

Vehicle: Japanese H-II Transfer Vehicle (HTV)[A]; 
2012: 1; 
2013: 1; 
2014: 1; 
2015: 1; 
2016: 1; 
2017: 1; 
2018: 1; 
2019: 1; 
2020: 1; 
Total: 9. 

Vehicle: SpaceX; 
2012: 2; 
2013: 2; 
2014: 2; 
2015: 3; 
2016: 3; 
2017: 0; 
2018: 0; 
2019: 0; 
2020: 0; 
Total: 12. 

Vehicle: Orbital; 
2012: 1; 
2013: 2; 
2014: 1; 
2015: 2; 
2016: 2; 
2017: 0; 
2018: 0; 
2019: 0; 
2020: 0; 
Total: 8. 

Vehicle: Follow-on commercial resupply[B]; 
2012: 0; 
2013: 0; 
2014: 0; 
2015: 0; 
2016: 0; 
2017: 5; 
2018: 5; 
2019: 5; 
2020: 4; 
Total: 19. 

Vehicle: Total; 
2012: 5; 
2013: 6; 
2014: 5; 
2015: 6; 
2016: 6; 
2017: 6; 
2018: 6; 
2019: 6; 
2020: 5; 
Total: 51. 

Source: GAO analysis of NASA data. 

[A] The ATV and HTV are unmanned vehicles that have flown to the ISS. 

[B] NASA does not have contracts with commercial providers or 
negotiated agreements with international partners for flights from 
2017 through 2020. 

[End of table] 

FAA expects space tourism activity to begin in the coming years and, 
while companies are developing vehicles to provide space tourism 
services, the industry has experienced delays in its development in 
the past. The prospect for commercial space tourism materialized in 
2004 with the successful flights of SpaceShipOne, which have been the 
only manned commercial flights to date. Virgin Galactic, which formed 
a joint venture with Scaled Composites to develop SpaceShipTwo, is the 
farthest along among the space tourism companies and has taken 
deposits from more than 500 customers to reserve a place on a future 
flight. However, Virgin Galactic has not yet applied to FAA for a 
launch license and its planned schedule for flights has experienced 
delays in the past. The planned and anticipated increase in launches, 
from NASA and potentially from space tourism, has implications for 
FAA's oversight responsibilities and the federal government's 
potential liability in providing third party indemnification, as we 
discuss later in this statement. 

Commercial Spaceports: 

In the United States, private companies and state governments have 
been developing additional spaceports to accommodate the anticipated 
space tourism flights and expand the nation's launch capacity. There 
are currently eight nonfederal FAA-licensed spaceports as well as two 
private facilities each with one resident launch provider--Blue Origin 
and Sea Launch--which are termed sole-site operators. (See figure 4.) 
In addition, state governments and local communities have proposed 
establishing commercial spaceports in six additional locations. 

Figure 4: Licensed Spaceports as of February 2012: 

[Refer to PDF for image: illustrated map] 

Licensed Spaceports: 
Blue Origin[A], Texas; 
California Spaceport; 
Cecil Field Spaceport, Florida; 
Kodiak Launch Complex, Alaska; 
Mid-Atlantic Regional Spaceport, Virginia; 
Mojave Air and Space Port, California; 
Oklahoma Spaceport; 
Sea Launch platform[A], Equatorial Pacific Ocean; 
Spaceport America, New Mexico; 
Spaceport Florida. 

Source: FAA and GAO. 

[A] Private facility with a sole site operator. 

[End of figure] 

Both states and FAA have provided support for the development of 
commercial spaceports. States have provided economic incentives to 
developers to build spaceports to attract space tourism that could in 
turn provide economic benefits to localities. For example, New Mexico 
provided approximately $209 million to construct Spaceport 
America[Footnote 15] and the Florida Space Authority, a state agency, 
invested over $500 million in new space industry infrastructure 
development at Cecil Field Spaceport, including upgrades to the launch 
pad, a new space operations support complex, and a reusable launch 
vehicle support complex. In addition, Virginia recently enacted 
legislation to provide $9.5 million annually to support the capital 
needs, maintenance, and operating costs of facilities owned and 
operated by the Virginia Commercial Space Flight Authority--including 
the Mid-Atlantic Regional Spaceport--and has provided state tax 
exemptions for companies launching payloads from the spaceport or 
doing space-related business activities in Virginia. However, 
according to a senior FAA official, continued state support for 
spaceports in the current fiscal environment has been mixed. The 
official added that although there are eight licensed spaceports, 
there has not been launch activity at all of them. Until there is a 
launch provider that begins operations and brings revenue to a 
spaceport, support is difficult to justify. In addition, federal 
support for spaceports has been affected by the fiscal environment. In 
2010, FAA distributed a total of $500,000 in appropriated funds to 
four spaceports in the first Commercial Space Transportation Grants. 
Since then it has drawn from its operations budget to sustain the 
program. 

FAA Faces Several Significant Challenges as It Oversees a Changing 
Commercial Space Launch Industry: 

As it oversees a changing commercial space launch industry, FAA faces 
various challenges. These include addressing a potential growth in its 
licensing and oversight workload, ensuring that its safety regulations 
are equally suitable for commercial spaceports and federal launch 
sites, avoiding potential conflicts between its dual roles of safety 
oversight and industry promotion, and adequately accommodating space 
flight in its air traffic management system. 

Potential Industry Growth and FAA's Workload: 

FAA expects its licensing and oversight responsibilities of commercial 
space launches to expand in the next few years with the licensing of 
NASA-contracted launches as NASA begins this year to use new 
commercially-developed and operated vehicles to deliver cargo and 
later crew to the ISS. NASA plans to contract with commercial launch 
companies for these services. FAA and NASA announced on June 18, 2012, 
that FAA will license NASA-contracted vehicles and services. FAA 
expects the number of commercial launches to increase as private 
companies work toward providing flight services to paying passengers. 
FAA requires either a launch and a reentry license or a permit. As 
mentioned earlier in this statement, manned commercial launches have 
not occurred since 2004, and Virgin Galactic is the company closest to 
developing a vehicle for space tourism, but it has not filed for FAA 
licenses. Therefore, it is not clear when FAA's workload would be 
affected by space tourism. 

As of November 2011, FAA's workload included 15 active launch 
licenses, 8 active launch site operator licenses, and 2 active 
experimental permits. FAA evaluates applications for launch licenses 
by reviewing the safety, environmental, payload, and policy 
implications of a launch and determining the launch company's 
insurance liability or financial responsibility. FAA's licensing 
process is described in figure 5. 

Figure 5: FAA's Launch Licensing Process: 

[Refer to PDF for image: process illustration] 

1. Preapplication consultation. 

2. Application. 

3. Safety review; Environmental review; Payload review; Policy review; 
Financial responsibility determination. 

4. License determination. 

5. Compliance monitoring if license granted. 

Source: GAO presentation of FAA information. 

[End of figure] 

According to FAA officials, FAA's Office of Commercial Space 
Transportation has 72 full-time staff, as of June 2012, to oversee 
commercial space launches. FAA's fiscal year 2013 budget request 
includes resources to hire an additional 10 safety experts to evaluate 
license applications, conduct safety inspections, and provide 
oversight in its field offices. 

FAA expects its workload to increase over the next several years as it 
begins to develop safety regulations for commercial human spaceflight. 
Although a moratorium on FAA regulations for passenger safety has been 
extended to October 2015, we have previously recommended that FAA 
identify and continually monitor indicators of space tourism industry 
safety.[Footnote 16] Although FAA was not able to address our 
recommendation directly because there have been no launches with 
passengers, it is taking other steps--e.g., reviewing NASA's 
certification of space launch vehicles as worthy of transporting 
humans (i.e., human rating) and its own aircraft certification 
processes--that will help FAA be prepared to regulate passenger 
safety. We believe that these are reasonable preliminary steps to 
regulate crew and passenger safety. 

Suitability of Safety Regulations for Spaceports: 

As noted earlier, spaceports are being developed to accommodate 
anticipated commercial space tourism flights. However, FAA faces 
challenges related to regulating commercial spaceports. Specifically, 
FAA must ensure that its regulations on licensing and safety 
requirements for launches and launch sites, which are based on safety 
requirements for expendable launch vehicles (i.e., vehicles that are 
only used once and do not return to Earth) at federal launch sites, 
will also be suitable for operations at commercial spaceports. We have 
reported that the safety regulations for expendable launch vehicles 
may not be suitable for space tourism flights because of differences 
in vehicle types and launch operations, according to experts we spoke 
with.[Footnote 17] Similarly, spaceport operators and experts we spoke 
with raised concerns about the suitability of FAA safety regulations 
for commercial spaceports. Experts told us that safety regulations 
should be customized for each spaceport to address the different 
safety issues raised by various types of operations, such as different 
orbital trajectories and differences in the way that vehicles launch 
and return to earth, whether vertically or horizontally. To address 
these concerns, we reported that it will be important to measure and 
track safety information and use it to determine if the regulations 
should be revised. We did not make recommendations to FAA concerning 
these issues because the Commercial Space Launch Amendments Act of 
2004 required the Department of Transportation (DOT) to commission an 
independent report to analyze, among other things, whether expendable 
and reusable vehicles should be regulated differently from each other, 
and whether either of the vehicles should be regulated differently if 
carrying passengers. The report, issued in November 2008, concluded 
that the launch of expendable vehicles, when used to lift reusable 
rockets carrying crew and passengers, as well as launch and reentry of 
reusable launch vehicles with crew and passengers should be regulated 
differently from the launch of expendable vehicles without humans 
aboard. The report also noted that the development of a data system to 
monitor the development and actual performance of commercial launch 
systems and to better identify different launch risk factors and 
criteria would greatly assist the regulatory process.[Footnote 18] 

Dual Oversight and Promotion Roles: 

In 2006, we reported that FAA faced the potential challenge of 
overseeing the safety of commercial space launches while promoting the 
industry.[Footnote 19] While we found no evidence that FAA's 
promotional activities--such as sponsoring an annual industry 
conference and publishing studies of industry trends--conflicted with 
its safety regulatory role, we noted that potential conflicts may 
arise as the space tourism sector develops. We reported that as the 
commercial space launch industry evolves, it may be necessary to 
separate FAA's regulatory and promotional activities. Recognizing the 
potential conflict, Congress required the 2008 DOT-commissioned report 
to discuss whether the federal government should separate the 
promotion of commercial human spaceflight from the regulation of such 
activity. The 2008 commissioned report concluded there was no 
compelling reason to remove promotional responsibilities from FAA in 
the near term (through 2012) noting that FAA allocated approximately 
16 percent of the commercial space budget in fiscal year 2008, which 
was significantly less than what was allocated for activities directly 
related to safety. FAA's requested allocation for promotional 
activities is 12 percent of the commercial space budget request for 
fiscal year 2013, according to an FAA official. The report further 
stated that periodic review of the issue was warranted as the 
commercial space launch industry changed. We continue to concur with 
the commissioned report's assessment and see no need for Congress to 
step in at this time to require a separation of regulatory and 
promotional activities since resource allocations for promotion 
remains at a relatively low level, and few commercial space launches 
are occurring. However, FAA and Congress must continue to remain 
vigilant that a situation in which FAA jeopardizes the public interest 
by subordinating it to that of the commercial space launch industry 
does not occur. 

Spaceflight and NextGen: 

NextGen--FAA's efforts to transform the current radar-based air 
traffic management system into a more automated, aircraft-centered, 
satellite-based system--will need to accommodate spacecraft that are 
transitioning to and from space through the national airspace system. 
As the commercial space launch industry grows and spaceflight 
technology advances, FAA expects that the agency will need tools to 
manage a mix of diverse aircraft and space vehicles in the national 
airspace system. In addition, the agency will need to develop new 
policies, procedures, and standards for integrating spaceflight 
operations into NextGen. For example, FAA will have to define new 
upper limits to the national airspace system[Footnote 20] to include 
corridors for flights transitioning to space; establish new air 
traffic procedures for flights of various types of space vehicles, 
such as aircraft-ferried spacecraft and gliders; develop air traffic 
standards for separating aircraft and spacecraft in shared airspace; 
and determine controller workload and crew rest requirements for space 
operations. FAA has begun to consider such issues and generally 
includes them in its concept of operations for NextGen. 

Factors Congress Should Weigh Concerning Commercial Space Launch 
Indemnification: 

Several factors have implications for federal indemnification policy. 
These include the potential for manned launches, the soundness of 
FAA's calculation of maximum probable loss, a gap in the 
indemnification policy, and the potential effects that ending federal 
indemnification could have on the global competitiveness of the U.S. 
commercial space launch industry. 

Potential Manned Launches: 

Our ongoing work indicates that the expected increase in manned 
commercial launches raises a number of issues that have implications 
for the federal government's indemnification policy for third party 
liability. First, the number of launches and landings covered by 
federal indemnification could increase with NASA's planned manned 
launches, which will be FAA licensed. NASA expects to procure from 
private launch companies two manned launches per year to the ISS from 
2017 to 2020.[Footnote 21] In addition, the development of a space 
tourism industry may also increase the number of launches and landings 
covered by federal indemnification, but the timing of tourism launches 
and landings is uncertain. 

According to insurance company officials with whom we spoke, the 
potential volume of manned launches for NASA and for space tourism 
could increase the overall amount of insurance coverage needed by 
launch companies, which could raise insurance costs, including those 
for third party liability.[Footnote 22] By increasing the number of 
launches, the probability of a catastrophic event is also increased, 
and any accident that occurs could also increase future insurance 
costs, according to insurance company officials. A catastrophic 
accident could also result in third party losses over the maximum 
probable loss, which would invoke federal indemnification, provided 
Congress appropriates funds for this purpose. 

Second, because newly developed manned launch vehicles have a limited 
launch history, they are viewed by the insurance industry as more 
risky than "legacy" launch vehicles. Insurance company officials told 
us that a launch vehicle such as United Launch Alliance's Atlas V, 
which launches satellites and may be used for future manned missions, 
is seen as less risky than new launch vehicles, such as SpaceX's 
Falcon 9, which could also be used for manned missions. According to 
insurance company officials with whom we spoke, they expect to charge 
higher insurance premiums for newly developed launch vehicles than 
legacy launch vehicles given their different risk profiles. Insurance 
company officials' opinions varied as to when a launch vehicle is 
deemed reliable--from 5 to 10 successful launches. They also told us 
that whether vehicles are manned is secondary to the launch vehicle's 
history and that the launch's trajectory--over water or land--is also 
considered in determining risk and, consequently, the price and amount 
of third party liability coverage. 

Third, having people on board a space vehicle raises issues of 
informed consent and cross waivers, which could affect third party 
liability and the potential cost to the federal government. CSLAA 
requires passengers and crew on spaceflights to be informed by the 
launch company of the risks involved and to sign a reciprocal waiver 
of claims (also called a cross waiver) with the federal government--
meaning that the party agrees not to seek claims against the federal 
government if an accident occurs. CSLAA also requires cross waivers 
among all involved parties in a launch. Two key issues dealing with 
cross waivers include the estates of spaceflight passengers and crew 
and limits on liability for involved parties. One issue is the estates 
of spaceflight passengers and crew, which are considered third parties 
to a launch, are not covered by informed consent and cross waiver of 
claims, according to two insurance companies and one legal expert. 
Another issue, according to two insurance companies and two legal 
experts, requiring cross waivers among passengers, crew, the launch 
company, and other involved parties may not minimize potential third 
party claims as they would not place limitations on liability. 

Maximum Probable Loss: 

The potential costs to the government under CSLAA--that is, the 
federal government's exposure to liability--depends on FAA's maximum 
probable loss calculation, which assesses a launch's risk. If the 
calculation is understated, then the government's exposure to 
liability is higher; conversely, if the calculation is overstated, 
then launch companies are required to purchase more insurance than 
intended. Therefore, it is important that FAA use an appropriate 
process for determining the maximum probable loss. Our preliminary 
work identified several issues that raise questions about the 
soundness of FAA's maximum probable loss methodology: 

* FAA uses a figure of $3 million when estimating the cost of a single 
potential casualty--that includes either injury or death--which FAA 
officials said has not been updated since they began using it in 1988. 
Two insurers, as well as representatives of two risk modeling 
companies that specialize in estimating damages from catastrophic 
events, said that this figure is likely understated. Because this 
number has not been adjusted for inflation or updated in other ways, 
it may not adequately represent the potential current cost of injury 
or death caused by commercial space launch failures. 

* FAA's methodology for determining potential property damage from a 
commercial space launch starts with the total cost of casualties and 
adds a flat 50 percent to that cost as the estimate of property 
damage, rather than specifically analyzing the number and value of 
properties that could be affected in the event of a launch failure. 
One insurer and two risk modelers said that FAA's approach is unusual 
and generally not used to estimate potential losses from catastrophic 
events. For example, officials from both modeling companies noted that 
the more common approach is to model the property losses first and 
derive the casualty estimates from the estimated property losses. One 
modeler stated that FAA's method might significantly understate the 
number of potential casualties, noting that an event that has a less 
than 1 in 10 million chance of occurring is likely to involve 
significantly more casualties than predicted under FAA's approach. 
Moreover, a 2007 FAA review conducted with outside consultants said 
that this approach is not recommended because of observed instances 
where casualties were low yet forecasted property losses were very 
large. 

* More broadly, FAA's method does not incorporate what is known in the 
insurance industry as "catastrophe modeling." One modeler told us that 
catastrophe modeling has matured over the last 25 years--as a result 
of better data, more scientific research, and advances in computing--
and has become standard practice in the insurance and reinsurance 
industries. Catastrophe models consist of two components: a computer 
program that mathematically simulates the type of event being insured 
against and a highly detailed database of properties that could 
potentially be exposed to loss. Tens of thousands or more computer 
simulations are generated to create a distribution of potential losses 
and the simulated probability of different levels of loss. In 
contrast, FAA's method involves estimating a single loss scenario. FAA 
officials told us that they have considered the possibility of using a 
catastrophe model. However, they expressed concern about whether the 
more sophisticated approach would be more accurate, given the great 
uncertainty about the assumptions--such as the probability and size of 
potential damages--that must be made with any model. Also, both 
experts and FAA officials told us that developing a catastrophe 
modeling capability would entail significant costs. 

FAA officials said that they believe the maximum probable loss 
methodology is reasonable and produces conservative results. The same 
officials noted that they periodically evaluate their current maximum 
probable loss methodology, but acknowledged that they have not used 
outside experts or risk modelers for this purpose. They agreed that 
such a review could be beneficial, and that involvement of outside 
experts might be helpful for improving their maximum probable loss 
methodology. As we finalize our review of CSLAA indemnification 
policy, we will address any additional federal actions needed in 
response to our analysis. 

Gap in Federal Indemnification: 

Officials from the insurance industry and space launch companies, as 
well as an expert, characterized the lack of coverage of on-orbit 
activities--that is, activities not related to launch or reentry, such 
as relocating a satellite from one orbit to another orbit--as a gap in 
federal indemnification, but they did not agree on the need to close 
this gap. FAA licenses commercial launches and reentries, but does not 
license on-orbit activities. Federal indemnification only applies to 
FAA-licensed space activities. One expert noted that federal oversight 
of on-orbit activities may be needed to provide consistency and 
coordination among agencies that have on-orbit jurisdiction. He 
pointed out that the Federal Communications Commission and the 
National Oceanic and Atmospheric Administration have jurisdiction over 
their satellites and NASA has jurisdiction over the ISS. Thus, 
according to the expert, there should be one federal agency that 
coordinates regulatory authority over on-orbit activities. On the 
other hand, officials from two launch companies told us that they did 
not believe that on-orbit activities need to be regulated by FAA or 
that federal indemnification coverage should be provided. 

According to senior agency officials, FAA may seek statutory authority 
over on-orbit activities, although not for satellite or spectrum 
usage. An insurer told us that having FAA in charge from launch to 
landing would help ensure that there were no gaps in coverage. 
According to this insurer, this would help bring stability to the 
insurance market in the event of an accident as involved parties would 
be clear on which party is liable for which activities. Congress would 
decide whether FAA's on-orbit authority would include licensing on-
orbit activities. If FAA were granted the authority to license on-
orbit activities, this would increase the potential costs to the 
federal government for third party claims as its exposure to risk 
would increase. 

Indemnification and U.S. Competitiveness: 

Our on-going work indicates it is difficult to predict how insurance 
premiums or other costs might change as well as the availability of 
coverage if indemnification were eliminated. In addition, we do not 
know whether or to what extent launch customers might choose foreign 
launch companies over U.S. companies. Furthermore, it is difficult to 
separate out the effects of withdrawing indemnification on the overall 
competitiveness of the U.S. commercial space launch industry. Many 
factors affect the industry's competitiveness, including other U.S. 
government support, such as research and development funds, government 
launch contracts, and use of its launch facilities, in addition to the 
third party indemnification. 

Our work to date suggests that while the actual effects on competition 
of eliminating CSLAA indemnification are unknown, several launch 
company representatives and customers with whom we spoke said that in 
the absence of CSLAA indemnification, higher costs and increased risk 
would directly affect launch companies and indirectly affect their 
customers and suppliers. The same participants said that two key 
factors--launch price and launch vehicle reliability--generally 
determine the competitiveness of launch companies. According to two 
launch customers, launch prices for similar missions can vary 
dramatically across countries. For example, two customers said that a 
similar launch might cost about $40 million to $60 million with a 
Chinese company, about $80 million to $100 million with a French 
company, and approximately $120 million with a U.S. company. Other 
considerations also would be involved in selecting a launch company, 
according to launch customers with whom we spoke. For example, some 
said that export restrictions for U.S. customers could add to their 
costs or prevent them from using certain launch companies. One launch 
customer also said that it considers the costs of transporting the 
satellite to the launch site as well as other specific aspects of a 
given launch. 

U.S. launch company representatives said that the lack of government 
indemnification would decrease their global competitiveness by 
increasing launch costs. Those officials said their costs would 
increase as a result of their likely purchase of greater levels of 
insurance to protect against third party losses, as the launch 
companies themselves would be responsible for all potential third 
party claims, not just those up to the maximum probable loss amount. 
Some launch companies told us that they would likely pass additional 
costs on to their customers by increasing launch prices. Two launch 
customers told us that in turn, they would pass on additional costs to 
their customers. 

Launch company representatives and customers said that ending CSLAA 
indemnification would also decrease the competitiveness of U.S. launch 
companies because launch customers would be exposed to more risk than 
if they used launch companies in countries with government 
indemnification. For example, representatives from several launch 
companies and customers said that if some aspect of the launch payload 
is determined to have contributed to a launch failure, they could be 
exposed to claims for damages from third parties and therefore might 
be more likely to use a launch company in a country where the 
government provides third party indemnification. Some also noted that 
the increased potential for significant financial loss for third party 
claims could cause launch companies, customers, or suppliers to decide 
if it was no longer worthwhile to be involved in the launch business, 
resulting in lost jobs and industrial capacity. Lastly, one industry 
participant pointed out that some suppliers, such as those that build 
propulsion systems, have to maintain significant amounts of 
manufacturing capacity whether they build one product or many. If 
there are fewer launches, the cost of maintaining that capacity will 
be spread among these fewer launches, resulting in a higher price for 
each launch. To the extent that the federal government is a customer 
that relies on private launch companies for its space launch needs, it 
too could face potentially higher launch costs. 

Alternatives for Addressing Space Launch Risk: 

Because launch failures and changing market conditions could change 
the amounts of coverage available in the private market, you have 
expressed interest in other possible ways of managing catastrophic 
risk. While we have not conducted specific work to analyze the 
feasibility of alternative approaches for providing coverage currently 
available through CSLAA, FAA and others have looked at possible 
alternatives to CSLAA indemnification and we have examined different 
methods for addressing the risk of catastrophic losses associated with 
natural disasters and acts of terrorism.[Footnote 23] These events, 
like space launch failures, have a low probability of occurrence but 
potentially high losses. Some methods involve the private sector, 
including going beyond the traditional insurance industry, in 
providing coverage, and include the use of catastrophe bonds or tax 
incentives to insurers to develop catastrophe surplus funds. Other 
methods aid those at risk in setting aside funds to cover their own 
and possibly others' losses, such as through self-insurance or risk 
pools.[Footnote 24] Still other methods, such as those used for flood 
and terrorism insurance, involve the government in either providing 
subsidized coverage or acting as a backstop to private insurers. 
[Footnote 25] 

Use of any such alternatives could be complex and would require a 
systematic consideration of their feasibility and appropriateness for 
third party liability insurance for commercial space launches. For 
example, according to a broker and a risk expert, a lack of loss 
experience complicates possible ways of addressing commercial space 
launch third party liability risk, and according to another risk 
expert, any alternative approaches for managing this risk would need 
to consider key factors, including the: 

* number of commercial space launch companies and insurers and annual 
launches among which to spread risk and other associated costs; 

* lack of launch and loss experience and its impact on predicting and 
measuring risk, particularly for catastrophic losses; and: 

* potential cost to private insurers, launch companies and their 
customers, and the federal government. 

As such, alternatives could potentially require a significant amount 
of time to implement. 

Several Factors Hinder the Competitiveness of the U.S. Commercial 
Space Launch Industry: 

The competitiveness of the U.S. commercial space launch industry is 
affected by high launch prices and export controls, which affect its 
ability to sell its services abroad. Based on several measures of 
global competitiveness, the U.S. commercial space launch industry has 
generally trailed Russia and France in recent years. For example, in 8 
of the last 10 years, U.S. commercial space launch companies generated 
less revenue that either Russia or France. U.S. companies generated no 
commercial launch revenue in 2011 because they conducted no launches. 
[Footnote 26] (See figure 6.) 

Figure 6: Worldwide Commercial Space Launch Revenues, 2002-2011: 

[Refer to PDF for image: stacked vertical bar graph] 

Year: 2002; 
United States: $338 million; 
France: $1.133 billion; 
Multinational: $75 million; 
Russia: $412 million; 
China: $0. 

Year: 2003; 
United States: $304 million; 
France: $525 million; 
Multinational: $225 million; 
Russia: $178 million; 
China: $0. 

Year: 2004; 
United States: $375 million; 
France: $140 million; 
Multinational: $210 million; 
Russia: $290 million; 
China: $0. 

Year: 2005; 
United States: $70 million; 
France: $490 million; 
Multinational: $280 million; 
Russia: $350 million; 
China: $0. 

Year: 2006; 
United States: $140 million; 
France: $560 million; 
Multinational: $350 million; 
Russia: $374 million; 
China: $0. 

Year: 2007; 
United States: $150 million; 
France: $840 million; 
Multinational: $70 million; 
Russia: $477 million; 
China: $0. 

Year: 2008; 
United States: $215 million; 
France: $700 million; 
Multinational: $475 million; 
Russia: $581 million; 
China: $0. 

Year: 2009; 
United States: $298 million; 
France: $1.020 billion; 
Multinational: $280 million; 
Russia: $742 million; 
China: $70 million. 

Year: 2010; 
United States: $307 million; 
France: $1.320 billion; 
Multinational: $0; 
Russia: $826 million; 
China: $0. 

Year: 2011; 
United States: $0; 
France: $880 million; 
Multinational: $200 million; 
Russia: $707 million; 
China: $140 million. 

Source: GAO analysis of FAA Data. 

Note: International revenue data for 2012 is not available. 

[End of figure] 

We previously reported that as the U.S. commercial space launch 
industry expands, it will face key competitive issues, including high 
launch prices and export controls, that affect its ability to sell its 
services abroad.[Footnote 27] Foreign competitors have historically 
offered lower launch prices than U.S. launch providers, as mentioned 
previously in this statement. The U.S. government has responded to 
foreign competition by providing the commercial launch industry 
support, including research and development funds, government launch 
contracts, use of its launch facilities, and, as already discussed, 
indemnification for third-party losses that exceed the maximum 
probable loss.[Footnote 28] 

Industry representatives that we interviewed told us that export 
licensing requirements affect the ability of the U.S. commercial space 
launch industry to sell launch vehicles abroad because they can 
deliver chemical, biological, and nuclear weapons. In previous work, a 
senior Commerce official told us that the U.S. commercial space launch 
industry had asked Congress to consider amending the statute that 
restricts space manufacturing items for export. A change in statute 
would allow for the Department of State (State) and DOD to review 
individual items for export, as they do for other industries. 

Finally, the commercial space launch industry operates without the 
benefit of a national strategy. Numerous agencies--including FAA, 
NASA, State, and Commerce--are responsible for space activities and 
have developed their own strategies. A national space launch strategy 
could identify and fill gaps in federal policy concerning the 
commercial space launch industry, according to senior FAA and Commerce 
officials. According to those officials, the need for an overall U.S. 
space launch policy, which includes commercial space launches, was 
being discussed within DOT and across other departments as part of the 
administration's review of national space activities, but developing a 
national policy had not yet begun. Guidance on launch acquisitions 
will, however, be included in the updated National Space 
Transportation Policy, which is currently under development and a date 
for issuance has not been publicly announced. 

Concluding Observations: 

In closing, despite the decrease in FAA-licensed commercial launches 
since fiscal year 1998, commercial space launch is a dynamic industry 
with newly developing vehicles and missions. As the realization of 
space tourism nears and NASA relies more heavily on commercial 
providers to deliver cargo and crew to the ISS, the number and types 
of flights may increase, which will have implications for FAA 
oversight and federal indemnification support. As we previously 
recommended, FAA should continue to take steps to gather and review 
launch data that will enable it to be prepared to regulate human 
spaceflight when the regulation moratorium expires in 2015. In 
addition, as the industry changes and grows, continually assessing 
federal liability indemnification policy to ensure that it protects 
both launch companies and the federal government will be important. As 
we complete our analysis of federal indemnification, we will more 
fully address any additional federal actions needed in response to 
these developments. Finally, the potential changes to the industry may 
present the conditions under which a subsequent review of FAA's dual 
role in promoting and overseeing commercial space launch safety is 
warranted. 

Chairman Nelson, Ranking Member Boozman, and Members of the 
Subcommittee, this concludes my prepared statement. I would be pleased 
to answer any questions at this time. 

GAO Contact and Staff Acknowledgments: 

For further information on this testimony, please contact Gerald L. 
Dillingham, Ph.D., at (202) 512-2834 or dillinghamg@gao.gov. In 
addition, contact points for our Offices of Congressional Relations 
and Public Affairs may be found on the last page of this statement. 
Individuals making key contributions to this testimony include Alicia 
Puente Cackley (Director), Teresa Spisak and Patrick Ward (Assistant 
Directors), Pamela Vines, Jessica Wintfeld, James Geibel, David 
Hooper, Delwen Jones, Maureen Luna-Long, Shelby Oakley, Susan Offutt, 
Steve Ruszczyk, Melvin Thomas, and Frank Todisco. 

[End of section] 

Footnotes: 

[1] Since NASA retired its Space Shuttle program in July 2011, it 
lacks a domestic capability to send crew and cargo to the ISS. To 
maintain the ISS through 2020, as required by the NASA Authorization 
Act of 2010, NASA is relying on international partners and commercial 
vehicles to transport cargo. Pub. L. No. 111-267, §501 All commercial 
cargo missions for NASA thus far have been demonstration missions 
conducted under Space Act agreements, which involve NASA providing 
significant funds to private industry partners to stimulate the 
development of large-scale commercial space transportation 
capabilities. Pub. L. 85-568, 72 Stat. In order to transport crew, 
NASA is currently purchasing seats on the Russian Soyuz vehicle. 
However, NASA has awarded a number of Space Act agreements to domestic 
private sector companies to stimulate development and demonstration of 
commercial human spaceflight capability, with an eventual goal of 
procuring crew transportation services in 2017. For more information 
on utilizing the ISS, see GAO, NASA: Significant Challenges Remain for 
Access, Use, and Sustainment of the International Space Station, 
[hyperlink, http://www.gao.gov/products/GAO-12-587T] (Washington, 
D.C.: Mar. 28, 2012). For more information on Space Act agreements, 
see GAO, Key Controls NASA Employs to Guide Use and Management of 
Funded Space Act Agreements Are Generally Sufficient, but Some Could 
Be Strengthened and Clarified, [hyperlink, 
http://www.gao.gov/products/GAO-12-230R] (Washington, D.C.: Nov. 17, 
2011). 

[2] Pub. L. No. 100-657, 102 Stat. 3903 (1988). 

[3] 51 USC § 50915. 

[4] The federal government, subject to appropriations, provides 
indemnification for losses that exceed the maximum probable loss up to 
a limit of $1.5 billion adjusted for post-1988 inflation; in 2012, 
this amount was approximately $2.7 billion. For each launch, FAA 
determines the maximum probable loss, which is the amount of third 
party losses against which a launch company must protect by buying 
third party liability insurance. 

[5] See GAO, Commercial Space Launch Act: Preliminary Information on 
Issues to Consider for Reauthorization, [hyperlink, 
http://www.gao.gov/products/GAO-12-767T] (Washington, D.C.: June 6, 
2012); Commercial Space Transportation: Industry Trends and Key Issues 
Affecting Federal Oversight and International Competitiveness, 
[hyperlink, http://www.gao.gov/products/GAO-11-629T] (Washington, 
D.C.: May 5, 2011); Commercial Space Transportation: Development of 
the Commercial Space Launch Industry Presents Safety Oversight 
Challenges for FAA and Raises Issues Affecting Federal Roles, 
[hyperlink, http://www.gao.gov/products/GAO-10-286T] (Washington, 
D.C.: Dec. 2, 2009); and Commercial Space Launches: FAA Needs 
Continued Planning and Monitoring to Oversee the Safety of the 
Emerging Space Tourism Industry, [hyperlink, 
http://www.gao.gov/products/GAO-07-16] (Washington, D.C.: Oct. 20, 
2006). 

[6] 51 U.S.C. 50903. 

[7] FAA issues four types of licenses: a launch license (for 
expendable launch vehicles), a reusable launch vehicle mission 
license, a reentry license, and a launch or reentry site operator 
license. The first three types of licenses are issued to the operator 
of a launch vehicle, and the fourth is issued to the operator of a 
spaceport. FAA also issues experimental permits for test flights of 
reusable launch vehicles. 

[8] Pub. L. No 108-492. 

[9] 51 USC 50914(a)(1)(A). 

[10] China, France, and Russia provide more indemnification coverage 
than the United States. These countries each have an indemnification 
regime in which the government states that it will assume a greater 
share of the risk compared to that of the United States because each 
country places no limit on the amount of government indemnification. 

[11] More specifically, the maximum probable loss is based on 
estimates of losses from events having greater than a 1 in 10 million 
chance of occurring. 

[12] The $2.7 billion limit on the federal government's liability is 
for 2012; this amount is adjusted for inflation each year. 

[13] A crew includes any employee who performs activities directly 
relating to the launch, reentry, or other operation relating to the 
vehicle that carriers human beings. 51 U.S.C § 50902(2). A passenger--
also called a spaceflight participant--is an individual who is not 
crew, carried aboard a launch vehicle or reentry vehicle. 51 U.S.C § 
50902(17). 

[14] SpaceShipOne, which resembles an airplane, was launched from an 
airplane into space, where it traveled nearly 70 miles above the 
earth, and returned to the original launch site. 

[15] Approximately $133 million came from state appropriations. The 
remainder came from tax bonds collected from Dona Ana and Sierra 
counties in New Mexico. 

[16] [hyperlink, http://www.gao.gov/products/GAO-07-16]. 

[17] We recommended that FAA develop a formal process for 
consultations between its Office of Commercial Space Transportation 
and Office of Aviation Safety about licensing reusable launch 
vehicles. In response, the two offices developed an agreement defining 
their roles and responsibilities regarding the review of hybrid 
aircraft/launch vehicles. See [hyperlink, 
http://www.gao.gov/products/GAO-07-16]. 

[18] The Aerospace Corporation, et al., Analysis of Human Space Flight 
Safety, Report to Congress (El Segundo, CA: Nov. 11, 2008). 

[19] [hyperlink, http://www.gao.gov/products/GAO-07-16]. 

[20] The national airspace system currently extends to 60,000 feet 
above mean sea level. 

[21] NASA-contracted launches for its science missions are not 
currently covered by CSLAA; rather, NASA requires its launch 
contractors to obtain insurance coverage for third party losses. The 
amount of the insurance required by NASA is the maximum amount 
available in the commercial marketplace at reasonable cost, but not to 
exceed $500 million per launch. The facts and circumstances for claims 
in excess of this amount would be forwarded by NASA to the Congress 
for its consideration 51 U.S.C. § 20113 (m) (2). NASA-contracted 
launches for the Commercial Resupply Services to the ISS will be 
licensed by FAA under CSLAA, and will be covered by CSLAA 
indemnification. 

[22] Launch providers obtain insurance in addition to that for third 
party liability, including coverage of assets, such as the launch 
vehicle. 

[23] See FAA, Liability and Risk-Sharing Regime for U.S. Commercial 
Space Transportation: Study and Analysis and Aerospace Corporation, 
Study of the Liability Risk-Sharing Regime in the United States for 
Commercial Space Transportation. See also GAO, Catastrophe Insurance 
Risks: The Role of Risk-Linked Securities and Factors Affecting Their 
Use, [hyperlink, http://www.gao.gov/products/GAO-02-941] (Washington, 
D.C.: Sept. 24, 2002); Catastrophe Insurance Risks: The Role of Risk-
Linked Securities, [hyperlink, 
http://www.gao.gov/products/GAO-03-195T] (Washington, D.C.: Oct. 8, 
2002); and Natural Disasters: Public Policy Options for Changing the 
Federal Role in Natural Catastrophe Insurance, [hyperlink, 
http://www.gao.gov/products/GAO-08-7] (Washington, D.C.: Nov. 26, 
2007). 

[24] See GAO, Catastrophe Insurance Risks: Status of Efforts to 
Securitize Natural Catastrophe and Terrorism Risk, [hyperlink, 
http://www.gao.gov/products/GAO-03-1033] (Washington, D.C.: Sept. 24, 
2003). Self-insurance occurs when an entity assumes the risk for its 
losses and can involve the formation of an insurance company solely 
for that purpose. Risk pooling occurs when two or more entities agree 
to set aside funds to help pay for the others' losses. 

[25] See GAO, Flood Insurance: FEMA's Rate-Setting Process Warrants 
Attention, [hyperlink, http://www.gao.gov/products/GAO-09-12] 
(Washington, D.C.: Oct. 31, 2008) and Terrorism Insurance: Status of 
Efforts by Policyholders to Obtain Coverage, [hyperlink, 
http://www.gao.gov/products/GAO-08-1057] (Washington, D.C.: Sept. 15, 
2008). 

[26] The one FAA-licensed launch that occurred in 2011 was by Sea 
Launch, which is a multinational company, not a U.S. company. 

[27] [hyperlink, http://www.gao.gov/products/GAO-07-16]. 

[28] There have been no commercial space launch accidents that 
resulted in third-party losses that required government 
indemnification. 

[End of section] 

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