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United States Government Accountability Office: 
GAO: 

Testimony: 

Before the Subcommittee on Aviation, Committee on Transportation and 
Infrastructure, House of Representatives: 

For Release on Delivery: 
Expected at 9:00 a.m. EDT:
Wednesday, April 25, 2012: 

Aviation Safety: 

FAA Is Taking Steps to Improve Data, but Challenges for Managing 
Safety Risks Remain: 

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

GAO-12-660T: 

Chairman Petri, Ranking Member Costello, and Members of the 
Subcommittee: 

Thank you for the opportunity to testify before you today on the 
safety of U.S. commercial aviation. The U.S. aviation system is one of 
the safest in the world, but fatal accidents, though rare, continue to 
occur. The last fatal commercial aviation accident occurred in 
Buffalo, New York, on February 12, 2009, when 50 people perished in a 
Colgan Air crash. In response to this accident, and National 
Transportation Safety Board (NTSB) findings that pilot training and 
lack of qualifications were potentially contributing factors, the 
Federal Aviation Administration (FAA) began a Call to Action Plan in 
June 2009 to, among other things, increase air carrier participation 
in voluntary safety programs. In 2010, Congress passed the Airline 
Safety and Federal Aviation Administration Extension Act (Airline 
Safety Act),[Footnote 1] which, in part, called for FAA to better 
manage safety risks. As a result, FAA developed a concerted strategy 
to implement new safety programs required by the Airline Safety Act, 
including establishing better processes for managing safety risks and 
advancing Safety Management Systems (SMS).[Footnote 2] 

SMS is an integrated, data-driven approach to managing safety risk 
that involves establishing the necessary organizational structures, 
accountabilities, policies, and procedures to enhance safety. SMS 
introduces an evolutionary structured process in system safety and 
safety management that obligates organizations to manage safety with 
the same level of priority that other core business processes are 
managed. This applies to both internal FAA operations and external 
aviation industry organizations. The International Civil Aviation 
Organization (ICAO), of which the U.S. is a member state, requires SMS 
for the management of safety risk in air operations, maintenance, air 
traffic services, and airports. SMS is becoming a worldwide standard 
throughout the aviation industry, and SMS concepts have generated 
widespread support as an effective approach that can deliver safety 
benefits. The implementation of SMS heightens the importance of 
obtaining and using high-quality aviation safety data. Further, 
according to a 2008 independent review team chartered by the Secretary 
of Transportation,[Footnote 3] as commercial aviation accidents have 
become increasingly rare, information that can be used to help 
identify accident and incident precursors has become more critical for 
accident prevention. 

My testimony today focuses on (1) how FAA uses data to manage safety 
risks, (2) how FAA ensures it has quality data to manage risk, and (3) 
the challenges FAA faces in using data to better manage safety risks. 
This statement is based on our previous work, including our May 2010 
report on aviation data quality, our October 2011 report on terminal 
area safety, and our November 2011 report and March 2012 statement for 
the record on initial pilot training.[Footnote 4] We updated the 
information from these reports--such as the status of our 
recommendations and programs or initiatives FAA planned to implement--
as necessary during March and April 2012. We also conferred with FAA 
officials on the new information included in this statement. The GAO 
publications cited in this statement contain detailed explanations of 
the methods used to conduct our work, which we performed in accordance 
with generally accepted government auditing standards. 

FAA Uses Reactive and Proactive Data Analysis to Prevent Accidents and 
Manage Risk: 

For decades, FAA, other federal regulators, and the aviation industry 
have used data in a reactive fashion--that is, to identify the causes 
of aviation accidents and incidents[Footnote 5] and take actions to 
prevent their recurrence. Aviation accident data are collected by 
NTSB, but FAA also collects some accident data and uses various 
databases and voluntary reporting programs to collect incident data, 
such as for runway incursions--the unauthorized presence of an 
aircraft, vehicle, or person on a runway. FAA also gathers and 
analyzes data through its inspection and certification programs to 
ensure industry compliance with safety regulations. (Appendix I 
provides more information on the databases discussed in this 
statement.) 

Since 1998, FAA has partnered with the airline industry through the 
Commercial Aviation Safety Team (CAST) to identify precursors and 
contributing factors and ensure that efforts to improve safety focus 
on the most prevalent categories of accidents. CAST has reduced the 
risk in commercial aviation by focusing on areas such as controlled 
flight into terrain, loss of control, and runway incursions. CAST 
analyzes accident and incident data to identify precipitating 
conditions and causes, and then formulates an intervention strategy 
designed to reduce the likelihood of a recurrence. According to CAST, 
its work--along with new aircraft, regulations, and other activities--
reduced the commercial aviation fatal accident rate by 83 percent from 
1998 to 2008 and is an important aspect of FAA's efforts to improve 
aviation safety by sharing and analyzing data. (Figure 1 illustrates 
the number of fatal and nonfatal commercial air carrier accidents from 
1998 through 2010.) 

Figure 1: Number of Commercial Air Carrier Accidents, 1998-2010: 

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

Year: 1998; 
Nonfatal accidents: 40; 
Fatal accidents: 1. 

Year: 1999; 
Nonfatal accidents: 38; 
Fatal accidents: 2. 

Year: 2000; 
Nonfatal accidents: 47; 
Fatal accidents: 2. 

Year: 2001; 
Nonfatal accidents: 35; 
Fatal accidents: 6. 

Year: 2002; 
Nonfatal accidents: 34; 
Fatal accidents: 0. 

Year: 2003; 
Nonfatal accidents: 49; 
Fatal accidents: 2. 

Year: 2004; 
Nonfatal accidents: 22; 
Fatal accidents: 1. 

Year: 2005; 
Nonfatal accidents: 31; 
Fatal accidents: 3. 

Year: 2006; 
Nonfatal accidents: 24; 
Fatal accidents: 2. 

Year: 2007; 
Nonfatal accidents: 26; 
Fatal accidents: 0. 

Year: 2008; 
Nonfatal accidents: 20; 
Fatal accidents: 0. 

Year: 2009; 
Nonfatal accidents: 25; 
Fatal accidents: 1. 

Year: 2010; 
Nonfatal accidents: 26; 
Fatal accidents: 0. 

Source: GAO analysis of NTSB data. 

Note: Fatal accidents include those aircraft involved in the September 
11, 2001, terrorist attacks. Data for 2010 are considered preliminary. 

[End of figure] 

Similarly, FAA analyzes data on incidents, such as those where there 
is a risk of a catastrophic accident. For example, data on runway 
incursions, other surface incidents, and airborne incidents[Footnote 
6] are collected at airports that have air traffic control towers. FAA 
analyzes those data to categorize incidents according to the actions 
or inactions of air traffic controllers, pilots, or others, such as 
pedestrians or vehicle operators, and determines the severity of those 
incidents. These data are then used to assess the root causes of 
incidents to identify potential remedies. Using this process, FAA has 
taken steps to improve safety in the terminal area since 2007 and has 
both reduced the number of serious runway incursions--where collisions 
are narrowly avoided or where there was a significant potential for a 
collision--and undertaken successful efforts to increase the reporting 
of incidents. 

Although FAA will continue using data in a reactive manner to 
understand the causes of accidents and incidents, it is shifting 
emphasis to a proactive approach in which it analyzes data to identify 
and mitigate risks to prevent future accidents as part of its adoption 
of SMS. As a result, data that can be used to help identify accident 
and incident precursors--such as data on an incident that is 
voluntarily reported by pilots, air traffic controllers, or others to 
FAA or air carriers--have become more critical for accident 
prevention, according to the independent review of FAA's safety 
oversight in 2008.[Footnote 7] CAST is also now moving beyond the 
forensic approach of examining past accident data to a more proactive 
approach that will focus on risk prediction and mitigation strategies 
and aims to reduce the U.S. commercial fatality risk by 50 percent 
from 2010 to 2025. FAA's effort to integrate aviation safety data--the 
Aviation Safety Information Analysis and Sharing (ASIAS) system, which 
connects 46 safety databases across the industry and has 45 
participating airlines--is integrated into the CAST process. ASIAS 
enables better safety information management and data sharing as it 
proactively extracts from public and non-public data sources, 
including accidents, incidents, and voluntary reporting. FAA has 
demonstrated the potential of using integrated safety data to better 
understand the causes of certain safety events and identify mitigating 
strategies. For example, FAA fused data from government and industry 
sources to identify underlying factors contributing to numerous 
nuisance warnings pilots were receiving from their terrain awareness 
warning systems (TAWS). By combining all of the data, FAA was able to 
identify needed changes in the way it handles air traffic as well as 
improvements in the design of the TAWS software. FAA also plans to use 
data proactively to model the impact of the Next Generation Air 
Transportation System (NextGen)[Footnote 8] on the safety of the 
national airspace system, to proactively identify risks that might 
emerge with the introduction of NextGen changes. Figure 2 illustrates 
the type of transition FAA plans as the agency shifts its emphasis to 
a proactive assessment of emerging safety risks. 

Figure 2: FAA's Emphasis Is Shifting from a Reactive to a Proactive 
Approach to Data Analysis in Order to Manage Risk: 

[Refer to PDF for image: illustration] 

Reactive approach: 

Accident occurs: 
Accident investigation (data accumulation and integration); 
Cause identification (decomposition of causes); 
Precursor identification; 
Recommendation (cost/benefit assessment). 

Proactive approach   

Emerging risk: 
Precursor identification (data fusion and integration); 
Risk characterization (model: exposure and consequence estimate): 
* Possible accident cause linkage (event sequence analysis); 
Risk prioritization (model: systemwide impacts); 
Recommendation (cost/benefit assessment). 

Source: FAA and GAO. 

[End of figure] 

As part of its oversight system for commercial air carriers, FAA 
collects and analyzes data to ensure that the industry complies with 
safety regulations. FAA uses the Air Transportation Oversight System 
(ATOS), a risk-based data-driven system, to oversee maintenance and 
operations at all air carriers.[Footnote 9] Under the ATOS concept, 
FAA inspectors use data analysis to focus their inspections on areas 
that pose the greatest risk. ATOS also permits inspectors to shift the 
focus of their inspections in response to changing conditions within 
air carriers' operations. In contrast, FAA's oversight program for the 
remaining operators (i.e., air taxi, general aviation, etc.) focuses 
on inspectors completing a prescribed number of inspection activities 
annually and is primarily based on checking operator compliance with 
regulations. 

FAA Has Various Processes in Place to Help Ensure Data Quality: 

Implementing systems and processes that capture accurate and complete 
data is critical for FAA to determine the magnitude of safety issues, 
assess their potential impacts, identify their root causes, and 
effectively address and mitigate them. As such, FAA has various 
processes in place to help ensure data quality and is taking steps to 
address remaining weaknesses. For example, FAA established an agency-
wide order on data management that specifies the roles and associated 
responsibilities for data management within the agency.[Footnote 10] 
This order applies to all sharable information from FAA and other 
sources used to perform the agency's mission. 

In accordance with the data management order, FAA's Office of Aviation 
Safety established a data management framework that includes a four-
step process for importing data from other FAA offices and external 
sources. This process includes: 

* data acquisition--obtaining information from various data owners, 

* data standardization--validating data by comparing a new data set 
with previous data sets to identify inconsistencies, 

* data integration--translating data values into plain English and 
correcting data errors, and: 

* data loading--importing data into the agency's own systems. 

FAA has furthermore put in place data quality controls that we 
consider good practices for handling data, although weaknesses remain 
in some areas. For example, FAA has developed training for users on 
data systems and restricted access to the data. The FAA databases we 
reviewed in 2010 also had at least some controls in place to ensure 
that erroneous data are identified, reported, and corrected. However, 
several of the databases lacked an important control in that managers 
do not review the data prior to entry into the system. This quality 
control is important because it could affect accuracy and 
completeness.[Footnote 11] FAA has controls in place and is taking 
steps to address its data weaknesses; however, vulnerabilities remain 
that potentially limit the usefulness of FAA's data for some of the 
safety analyses planned to support SMS. In 2010, we made several 
recommendations to FAA to help improve and expand its capability to 
use data for aviation safety oversight. For example, we recommended 
that FAA extend standard quality controls, as appropriate, to the 
databases that support aviation safety oversight. Although FAA 
concurred with our recommendations, it has not fully implemented them. 
[Footnote 12] 

Data Limitations and Lack of Data Challenge FAA's Ability to Manage 
Safety Risks: 

FAA has put in place various quality controls for its data, but it 
continues to experience data challenges--including limitations with 
the analysis it conducts and data it collects, as well as the absence 
of data in some areas. Some of these limitations hinder the agency's 
ability to comprehensively and accurately assess and manage risk, as 
seen in the following examples: 

* FAA's changes to reporting policies impact its ability to accurately 
determine operational error trends. The rate and number of airborne 
operational errors--errors made by air traffic controllers--have 
increased considerably in recent years, with the rate nearly doubling 
for errors in the terminal area from 2008 to 2011. Multiple changes to 
reporting policies and processes during this time make it difficult to 
know the extent to which the recent increases in operational errors 
are due to more accurate reporting, an increase in the occurrence of 
safety incidents, or both. For example, FAA removed air traffic 
controller names from reports in the Air Traffic Quality Assurance 
(ATQA) database, which may encourage controllers to share more 
information about incidents. (See figure 3.) Without determining the 
potential impact of these policy changes, FAA cannot ensure accurate 
and consistent measures of operational errors and cannot assess the 
risks posed over time. FAA believes that these changes likely caused 
the increases in operational errors but has not yet conducted an 
analysis to validate the linkage. 

Figure 3: FAA Changes to Reporting Practices and Recent Trends in 
Operational Errors: 

[Refer to PDF for image: combined vertical bar and line graph] 

Fiscal year 2007, Q3; 
Number of operational errors: 189; 
Rate of operational errors (per million operations): 6.8. 

Fiscal year 2007, Q4; 
Number of operational errors: 194; 
Rate of operational errors (per million operations): 6.9. 

Fiscal year 2008, Q1; 
Number of operational errors: 180; 
Rate of operational errors (per million operations): 7.0. 

Fiscal year 2008, Q2; 
Number of operational errors: 220; 
Rate of operational errors (per million operations): 9.0. 

Fiscal year 2008, Q3; 
Number of operational errors: 252; 
Rate of operational errors (per million operations): 9.5. 

Fiscal year 2008, Q4 [Implementation of ATSAP begins]; 
Number of operational errors: 233; 
Rate of operational errors (per million operations): 8.6. 

Fiscal year 2009, Q1; 
Number of operational errors: 213; 
Rate of operational errors (per million operations): 9.1. 

Fiscal year 2009, Q2; 
Number of operational errors: 173; 
Rate of operational errors (per million operations): 7.7. 

Fiscal year 2009, Q3; 
Number of operational errors: 217; 
Rate of operational errors (per million operations): 8.9. 

Fiscal year 2009, Q4 [FAA ceases collection of individually 
identifying information for central database]; 
Number of operational errors: 287; 
Rate of operational errors (per million operations): 11.4. 

Fiscal year 2010, Q1; 
Number of operational errors: 270; 
Rate of operational errors (per million operations): 12.1. 

Fiscal year 2010, Q2; 
Number of operational errors: 432; 
Rate of operational errors (per million operations): 20.1. 

Fiscal year 2010, Q3; 
Number of operational errors: 332; 
Rate of operational errors (per million operations): 13.6. 

Fiscal year 2010, Q4 [FAA changes targets and performance measures for 
losses of separation]; 
Number of operational errors: 366; 
Rate of operational errors (per million operations): 14.7. 

Fiscal year 2011, Q1 [ATSAP fully launched]; 
Number of operational errors: 306; 
Rate of operational errors (per million operations): 13.7. 

Fiscal year 2011, Q2; 
Number of operational errors: 378; 
Rate of operational errors (per million operations): 17.7. 

Source: GAO analysis of FAA information. 

Note: Graphic only includes operational errors at air traffic control 
towers and terminal radar approach control (TRACON) facilities. FAA 
officials attributed at least some portion of the spike in reported 
incidents during the second quarter of fiscal year 2010 to 
approximately 150 events that occurred as a result of the 
misinterpretation of an arrival waiver at one TRACON facility. 

[End of figure] 

* Incomplete data on operational errors are assessed, making it 
difficult to account for all potential risk. Operational errors can be 
captured in multiple reporting systems. For instance, an air traffic 
controller's failure to maintain minimum separation between two 
aircraft--a loss of separation--could be reported to the ATQA database 
by a supervisor[Footnote 13] and will also be captured automatically 
by airplane tracking technology--the Traffic Analysis and Review 
Program (TARP)--if it is in use at the relevant facility. However, 
FAA's current process for analyzing data on losses of separation 
captured by these systems only assesses those incidents that occur 
between two or more radar-tracked aircraft. By excluding incidents 
such as those that occur between the aircraft and terrain or aircraft 
and protected airspace, FAA is not considering the systemic risks 
associated with many other airborne incidents. We recommended last 
year that FAA expand its current risk assessment process,[Footnote 14] 
and FAA responded that it will include these incidents in its risk 
assessment process before the end of 2013. 

* Lack of coordination among data systems may affect FAA's ability to 
conduct comprehensive data analyses. As previously mentioned, multiple 
programs and systems capture safety data. Some of these programs--
including the Air Traffic Safety Action Program (ATSAP), ATQA, and the 
Risk Analysis Process (RAP) that considers ATQA and TARP data--also 
assign contributing factors to the incidents they review. (See figure 
4.) Though both ATSAP and RAP look at some of the same types of 
incidents (e.g., airborne losses of separation), they had not 
coordinated on a common set of contributing factors to describe and 
analyze the incidents. As a result, it is difficult to compare the 
data and conduct comprehensive analyses. According to FAA officials, 
they are currently developing a common set of contributing factors for 
ATSAP and RAP, as well as a translation capability that will allow for 
the inclusion of historical data on contributing factors in future 
analyses. 

Figure 4: Information Flow into ATSAP Is Separate from Other Systems 
FAA Uses to Track Air Traffic Safety Incidents: 

[Refer to PDF for image: illustration] 
  
Individual controllers: 
Voluntary reporting systems: 
Example: 
Air Traffic Safety Action Program (ATSAP): 
Individual controllers report into system. 

Automatically collected information: 
Digital safety reporting systems: 
Example: 
Traffic Analysis and Review Program (TARP): 
Captures incidents automatically (not used in all facilities). 

Quality assurance staff: 
Mandatory reporting systems: 
Example: 
Air Traffic Quality Assurance (ATQA): 
Quality assurance staff enter data on incident once they gain 
knowledge of the event. 

Last two combine to form: 
Risk Analysis Process (RAP). 

Source: GAO. 

[End of figure] 

* Lack of a robust, complete, and secure data repository of pilot 
records raises questions about data reliability. Because the training 
and experience of some pilots have been factors in several commercial 
aviation accidents, there have been efforts to increase the amount of 
information airlines have before hiring pilots. The Pilot Records 
Improvement Act of 1996[Footnote 15] requires airlines to conduct 
background checks on pilots before hiring them, and the Airline Safety 
Act requires that FAA develop a centralized pilot records database 
that air carriers must access to review pilot qualifications and past 
performance data before hiring pilots. According to the Department of 
Transportation Inspector General (IG), FAA met the act's initial 
milestone in developing a centralized electronic pilot records 
database that will include records previously maintained by air 
carriers.[Footnote 16] However, the IG indicated that FAA needs to 
address the level of detail that should be captured from air carrier 
pilot training records--such as determining whether recurrent flight 
training will be included, determining how to transition from the 
current practices to the new database without disrupting information 
flow, and deciding how to ensure the reliability of data. The IG also 
noted that FAA lacks a centralized process to receive and respond to 
carriers' requests for pilot records. 

* Lack of ramp incident data means FAA is unable to assess the risk of 
catastrophic accidents in this area. In 2007, we reported that efforts 
to address the occurrence of safety incidents in ramp areas were 
hindered by the lack of data on the nature, extent, and cost of ramp 
incidents and accidents.[Footnote 17] FAA still collects no 
comprehensive data on incidents in the ramp area and NTSB does not 
routinely collect data on ramp accidents unless they result in serious 
injury or substantial aircraft damage.[Footnote 18] The Occupational 
Safety and Health Administration (OSHA), the primary source of ramp 
fatality data, collects only data from accidents involving an employee 
death or the hospitalization of at least three employees.[Footnote 19] 
The lack of ramp incident data will pose a challenge as airports move 
to implement SMS. We recommended in 2011 that FAA extend oversight to 
the ramp areas.[Footnote 20] FAA agreed with our recommendation but 
noted that it already oversees ramps through its oversight of 
airlines. FAA expects to further enhance that oversight through its 
proposed ruling to require airports with air carrier operations to 
establish a safety management system. 

* Lack of a process to track and assess runway excursions denies FAA 
the ability to assess the risks of these incidents. Runway excursions 
can be as dangerous as incursions; according to the Flight Safety 
Foundation, excursions have resulted in more fatalities than 
incursions globally. (Figure 5 illustrates the difference between 
runway incursions and excursions.) FAA does not have a process to 
track excursions, unlike for runway incursions. We recommended in 2011 
that FAA develop and implement plans to track and assess runway 
excursions. FAA agreed and will be developing a program to collect and 
analyze runway excursion data and is drafting an order to set out the 
definitions and risk assessment processes for categorizing and 
analyzing the data. However, according to our review of FAA's plans, 
it will be several years before FAA has obtained enough detailed 
information about these incidents in order to assess risks. 

Figure 5: Illustration of Runway Incursions and Excursions: 

[Refer to PDF for image: illustration] 

Incursion; 
Excursions: 
* Veer-off; 
* Overrun. 

Source: GAO. 

[End of figure] 

* Lack of complete data on active pilot schools and pilot examiners 
makes it difficult for FAA to ensure that safety standards are being 
met. Inspections are a part of FAA's oversight of Part 141 pilot 
schools[Footnote 21] and pilot examiners[Footnote 22]--gatekeepers for 
the initial pilot training process. However, it was unclear from our 
analysis of FAA inspection data for pilot schools and pilot examiners 
whether FAA met its oversight requirements because we could not 
determine the number of active entities that should have been 
inspected each year. FAA does not maintain a historical listing of 
pilot schools and examiners, and, thus, we could not define the 
universe of active entities that was required to be inspected. Because 
of this data limitation, we could not determine the completion 
percentage of the inspections for either group. In November 2011, we 
recommended that FAA develop a comprehensive system for measuring its 
performance in meeting its inspection requirements for pilot schools 
and examiners.[Footnote 23] FAA acknowledged our recommendation and 
noted that (1) it needed to clarify its inspection requirements for 
pilot schools in the revision of its national oversight policy 
guidelines, and (2) its new designee management system, which would 
include oversight of pilot examiners, will provide more comprehensive 
data once it is developed. 

In closing, Mr. Chairman, FAA regulates one of the safest aviation 
systems in the world. To its credit, FAA continues to strive for even 
higher levels of safety. Shifting to a data-driven, risk-based safety 
oversight approach means that FAA needs data that are appropriate, 
complete, and accurate to be able to identify system-wide trends and 
manage emerging risks. Furthermore, when implementing changes in 
safety data reporting systems, or processes used to assess and analyze 
data to determine risk, FAA needs to take into account how such 
changes might impact trend analysis. Today, I have pointed out some of 
the challenges FAA faces in improving its data. While FAA is working 
diligently to improve its data in some instances, more work remains to 
address limitations and to collect additional data where necessary. 
[Footnote 24] 

Chairman Petri, Ranking Member Costello, 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 Brandon 
Haller (Assistant Director), Pamela Vines, Martha Chow, Vashun Cole, 
Kevin Egan, Colin Fallon, Molly Laster, Brooke Leary, Erica Miles, 
Richard Scott, Teresa Spisak, and Jessica Wintfeld. 

[End of section] 

Appendix I: Summary of Databases Referenced in Statement: 

Database: Aviation Safety Information Analysis and Sharing (ASIAS); 
Responsible entity: FAA; 
Description: Integrates aviation safety data from 46 safety databases 
and 45 participating airlines; 
Safety-related data collected: Accidents, incidents, advisory 
information, aircraft information, statistical data; 
Format: Narrative and quantitative. 

Database: Air Transportation Oversight System (ATOS); 
Responsible entity: FAA; 
Description: Primary database for collecting part 121 air carrier 
oversight data; 
Safety-related data collected: Inspection results; 
Format: Narrative and quantitative. 

Database: Air Traffic Quality Assurance (ATQA) database; 
Responsible entity: FAA; 
Description: Contains information recorded by air traffic controller 
supervisors, support specialists, and managers; 
Safety-related data collected: Surface and airborne incidents; 
Format: Narrative and quantitative. 

Database: Air Traffic Safety Action Program (ATSAP); 
Responsible entity: FAA; 
Description: Non-punitive, voluntary safety reporting program for air 
traffic controllers; 
Safety-related data collected: Air-traffic controller safety issues, 
including loss of separation; 
Format: Primarily narrative, some quantitative information. 

Database: Traffic Analysis and Review Program (TARP); 
Responsible entity: FAA; 
Description: Error detection system that automatically captures data 
on airborne losses of separation; 
Safety-related data collected: Airborne losses of separation that 
occur while the aircraft is under the control of air traffic control 
towers and terminal radar approach controls; 
Format: Quantitative. 

Sources: FAA and GAO. 

Note: FAA uses numerous other databases to provide safety oversight, 
many of which are referenced in our previous work. For more 
information about these databases, see GAO-10-414, GAO-12-24, and GAO-
12-117. 

[End of table] 

[End of section] 

Footnotes: 

[1] Pub. L. No. 111-216, 124 Stat. 2348 (2010). 

[2] We are currently conducting a study of FAA's implementation of SMS 
as well as its oversight of the industry's SMS implementation efforts; 
we expect to issue a report in September of this year. 

[3] Independent Review Team, Managing Risks in Civil Aviation: A 
Review of the FAA's Approach to Safety (Washington, D.C.: Sept. 2, 
2008). The team was chartered to assess FAA's safety culture and 
approach to safety management. 

[4] See GAO, Aviation Safety: Improved Data Quality and Analysis 
Capabilities Are Needed as FAA Plans a Risk-Based Approach to Safety 
Oversight, [hyperlink, http://www.gao.gov/products/GAO-10-414] 
(Washington, D.C.: May 6, 2010); Aviation Safety: Enhanced Oversight 
and Improved Availability of Risk-Based Data Could Further Improve 
Safety, [hyperlink, http://www.gao.gov/products/GAO-12-24] 
(Washington, D.C.: Oct. 5, 2011); Initial Pilot Training: Better 
Management Controls Are Needed to Improve FAA Oversight, [hyperlink, 
http://www.gao.gov/products/GAO-12-117] (Washington, D.C.: Nov. 4, 
2011); and Aviation Safety: FAA Has An Opportunity to Enhance Safety 
and Improve Oversight of Initial Pilot Training, [hyperlink, 
http://www.gao.gov/products/GAO-12-537T] (Washington, D.C.: Mar. 20, 
2012). 

[5] An aviation accident, as defined by 49 C.F.R. § 830.2, occurs when 
in the course of the operation of an aircraft--between the time anyone 
boards with intention of flight and until the last person disembarks--
any person suffers death or serious injury, or the aircraft receives 
substantial damage. An aviation incident occurs when an aircraft 
encounters a safety hazard, or potential safety hazard, yet is not 
classified as an accident due to a lesser degree of injury or damage. 

[6] Airborne incidents could include a pilot leveling off at an 
incorrect altitude and flying too closely to another aircraft or a 
failure to coordinate between air traffic control facilities as an 
aircraft approaches an airport. 

[7] Independent Review Team, Managing Risks in Civil Aviation. 

[8] NextGen is a new satellite-based air traffic management system 
that by 2025 will replace the current radar-based system and is 
expected to enhance the safety and capacity of the air transport 
system. 

[9] For more information on ATOS, see Department of Transportation 
Inspector General, FAA Needs to Improve Risk Assessment Processes for 
Its Air Transportation Oversight System (Dec. 16, 2010). 

[10] FAA Order 1375.1E, Information/Data Management (Nov. 16, 2011). 

[11] GAO, Assessing the Reliability of Computer-Processed Data, 
[hyperlink, http://www.gao.gov/products/GAO-09-680G] (Washington, 
D.C.: July 2009). 

[12] [hyperlink, http://www.gao.gov/products/GAO-10-414]. 

[13] ATQA data may also be recorded by support specialists, managers, 
and incident investigators. 

[14] [hyperlink, http://www.gao.gov/products/GAO-12-24]. 

[15] 49 U.S.C. § 44703(h). See GAO, Aviation Safety: Better Guidance 
and Training Needed on Providing Files on Pilots' Background 
Information, [hyperlink, http://www.gao.gov/products/GAO-02-722] 
(Washington, D.C.: Aug. 30, 2002). 

[16] DOT IG, Progress and Challenges in Responding to Key Provisions 
of the Airline Safety Act (Mar. 20, 2012). 

[17] See GAO, Aviation Runway and Ramp Safety: Sustained Efforts to 
Address Leadership, Technology, and Other Challenges Needed to Reduce 
Accidents and Incidents, [hyperlink, 
http://www.gao.gov/products/GAO-08-29] (Washington, D.C.: Nov. 20, 
2007). 

[18] NTSB officials said they current collect data on accidents in the 
ramp area that meet the definition of an aircraft accident as defined 
by 49 C.F.R. § 830.2. 

[19] OSHA data on worker fatalities in the ramp area show the annual 
number of deaths to have varied between 3 and 11 from 2000 to 2010. 

[20] [hyperlink, http://www.gao.gov/products/GAO-12-24]. 

[21] The roughly 3,400 U.S. pilot schools can be divided into three 
categories: (1) noncollegiate flight instructor-based schools, (2) 
noncollegiate vocational pilot schools, and (3) collegiate aviation 
schools. Vocational pilot schools elect to apply for an operating 
certificate from FAA to provide pilot training under Part 141 
regulations, which require these schools to meet prescribed standards 
with respect to training equipment, facilities, student records, 
personnel, and curriculums. Most of the collegiate aviation schools 
also provide pilot training under a Part 141 certificate. Flight 
instructor-based schools are not subject to direct FAA oversight 
beyond the initial certification and subsequent renewal of the flight 
instructor's certificate. 

[22] Pilot examiners are private individuals (and organizations) FAA 
uses to supplement its workforce to examine and test pilot applicants 
for a fee paid for by the applicant. Known as designees, pilot 
examiners are generally appointed by FAA's local district personnel 
for either 3 years (for an individual) or 5 years (for an 
organization). 

[23] [hyperlink, http://www.gao.gov/products/GAO-12-117]. 

[24] In addition to the recommendations we made to FAA that are 
discussed in this statement, we made others in [hyperlink, 
http://www.gao.gov/products/GAO-10-414], [hyperlink, 
http://www.gao.gov/products/GAO-12-24], and [hyperlink, 
http://www.gao.gov/products/GAO-12-117] to improve FAA's capability to 
use data and enhance its oversight of pilot certification, pilot 
training, and terminal area safety. FAA concurred with all of these 
recommendations and is working toward implementing them. We will 
continue to monitor FAA as it addresses our recommendations. 

[End of section] 

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