News

USIS Washington File

11 April 2000

Text: NTSB Chairman Hall Testifies on EgyptAir Crash Investigation

(Tells Congress video recorders should be installed in cockpits)
(5080)

Jim Hall, Chairman of the National Transportation Safety Board (NTSB),
April 11 told members of the House Subcommittee on Aviation,
Transportation and Infrastructure that his agency is recommending that
video recorders be installed in the cockpits of commercial airplanes,
as a result of its investigation into the fatal crash of EgyptAir
Flight 990 last October.

A video recording of the cockpit might have helped with the
investigation into why on October 23, 1999, the Boeing 767 plunged
into the ocean off Rhode Island killing 217 people aboard, including
101 Americans, Hall said.

He also noted that such equipment would have helped resolve issues
surrounding the flight crew's actions in the cockpit that resulted in
changes in the aircraft's control as well as the circumstances that
prompted those actions.

Hall said the cause of the crash remains undetermined and that the
NTSB, with the assistance of the Egyptian Civil Aviation Authority,
the Egyptian government's designated representative, is still
investigating the crash.

"To date, the Safety Board has expended more than 2,400 hours
conducting the investigation, excluding overtime, and we have expended
more than $13 million in investigation-related expenses for the
services of other agencies (including the Navy's search and recovery
effort). We anticipate that the final total of those expenses will be
about $17 million," Hall said.

Following are the texts of Hall's testimony as presented and written
testimony for the record:

(begin text)

Testimony of Jim Hall, Chairman National Transportation Safety Board
before the Subcommittee on Aviation, Transportation and Infrastructure
House of Representatives
Regarding Aviation Issues as a Result of the Crash
Involving EgyptAir Flight 990
April 11, 2000

Oral testimony as presented:

Mr. Chairman and Members of the Committee, it is a pleasure to appear
before you today on behalf of the National Transportation Safety Board
to discuss the EgyptAir flight 990 crash and aviation issues that have
arisen as a result of that crash and others, specifically the use of
video recorders in cockpits, language communication problems, and
psychological profiling of crew members.

With me today are: Dr. Bernard Loeb, Director of our Office of
Aviation Safety, and Dr. Vern Ellingstad, Director of our Office of
Research and Engineering.

As you know, EgyptAir flight 990 crashed off the coast of Nantucket in
the early morning of October 31, 1999 with 217 individuals on board,
including 101 Americans. The NTSB, with the assistance of the Egyptian
Civil Aviation Authority, the Egyptian government's designated
representative, is still investigating the crash.

To date, the Safety Board has expended more than 2,400 hours
conducting the investigation, excluding overtime, and we have expended
more than $13 million in investigation-related expenses for the
services of other agencies (including the Navy's search and recovery
effort). We anticipate that the final total of those expenses will be
about $17 million. Because we have not concluded our investigation and
have made no final determination as its cause, my discussion of that
crash will be limited. However, the Safety Board's investigation into
several recent crashes has highlighted the need for recording images
of the cockpit environment. The Safety Board believes that the
availability of electronic cockpit imagery would help resolve issues
surrounding flight crew actions in the cockpit.

For example, it would tell us which pilot was at the controls, what
controls were being manipulated, pilot inputs to instruments (i.e.,
switches or circuit breakers), or what information was on the video
displays (i.e., the display screens and weather radar). Video
recorders would also provide crucial information about the
circumstances and physical conditions in the cockpit that are simply
not available to investigators, despite the availability of modern
cockpit voice recorders (CVRs) and 100-parameter digital flight data
recorders (DFDRs).

The Safety Board first discussed the need for video recording the
cockpit environment in its report of the September 1989 incident
involving USAir flight 105, a Boeing 737, at Kansas City, Missouri. In
that report, we recognized that while desirable, it was not yet
feasible. As a result, the Board did not make a recommendation on the
use of video recordings at that time. However, in the almost 11 years
since that incident, considerable progress has been made in both video
and electronic recording storage technologies. Electronic recording of
images in the cockpit is now both technologically and economically
viable, and solid state memory devices can now capture vast amounts of
audio, video and other electronic data.

In February 2000, as a result of an October 1997 accident involving a
Cessna operated by the Department of Interior that was not required to
have a CVR or FDR, the Board recommended that the Federal Aviation
Administration (FAA) require crash-protected video recording systems
on Part 135 aircraft not currently required to have a crashworthy
flight recorder device.

To further address this issue, the Safety Board is today recommending
that the FAA require Part 121, 125, or 135 aircraft currently equipped
with a CVR and a FDR to also be equipped with a crash-protected
cockpit image recording system. We should not further delay the
implementation of available technology that may help us more quickly
determine the probable cause of accidents - and, therefore, prevent
future accidents.

I'd like to show you a brief video clip to illustrate some of what we
expect to be recorded by a cockpit image recording system.

[video available soon]

In the first segment, the camera is not fixed in the airplane, so the
recording is uneven. As you can see, the video will show which
crewmember is operating the controls or making selections, such as
arming the spoilers. The video will also capture the interactive
displays used by flight crews in the modern cockpit, but are not
recorded by the FDR. You will notice that it is never necessary to
focus on the crew's faces to capture this important information.

Mr. Chairman, the Safety Board is extremely sensitive to the privacy
concerns that the pilot associations and others have expressed with
respect to recording images of flight crews. As you know, the Board's
reauthorization passed by this Chamber would require that the same
protections already in place for CVRs be extended to image recorders
in all modes of transportation. Under those provisions, a cockpit
image recording could never be publicly released.

The Board is also aware of concerns regarding the treatment of all
recorded media in foreign accidents. We share those concerns and will
work aggressively with the International Civil Aviation Organization
(ICAO) to improve the protections afforded to these recordings in
other countries. In addition, on April 25 and 26, the Safety Board is
holding a "Transportation Safety and the Law Symposium" that will
address the issues of employee privacy and criminal inquiries and
their impact on transportation safety. We are also open to suggestions
this Committee may have to improve safeguards governing the use of
these devices.

The second issue I would like to address is language communication
problems. Although the Safety Board has had a longstanding concern
about this issue, I must note we have no evidence of any language
difficulties in the EgyptAir crash. However, the importance of this
issue has been well documented in a number of accidents, including the
January 1990 Avianca Airlines' accident in Cove Neck, New York and the
December 1995 American Airlines' accident near Cali, Colombia. As a
result of our recommendations following the Cali accident, ICAO's Air
Navigation Bureau has formed a group that will hold its first meeting
in October 2000, to specifically study English language issues.

Finally, the last item I would like to address today is the issue of
psychological screening for pilots. Although such events are rare in
commercial aviation, and there have been no documented cases of a U.S.
pilot's deliberate actions causing an accident, there have been
accidents and incidents that may have been caused by a pilot's
deliberate actions.

· In 1994, an off-duty Federal Express pilot, riding in the jumpseat,
attacked the flight crew with a hammer and a spear gun.

· In 1997, a SilkAir Boeing 737 crashed in Indonesia. The Indonesian
investigative authority has sought the assistance of law enforcement
authorities to look into this issue in that investigation.

· In 1999, an Air Botswana pilot, who had been grounded for medical
reasons, took off in a company airplane and threatened to crash it
into airline headquarters. The pilot landed the airplane, but
deliberately collided with two other company airplanes.

Although it is not clear that any of these crashes would have been
prevented by better pilot screening techniques, it is in everyone's
best interests for the airlines and the FAA to ensure that only the
most qualified and capable applicants are chosen to become airline
pilots.

Mr. Chairman, that completes my statement and I will be happy to
respond to any questions you and the Committee may have.

written testimony for the record:

Mr. Chairman and Members of the Committee, it is a pleasure to appear
before you today on behalf of the National Transportation Safety Board
(NTSB) to discuss aviation issues arising out of the EgyptAir flight
990 crash. In particular, those issues are: the use of video recorders
in cockpits, language communication problems, and psychological
profiling of crew members.

Before addressing these issues, I would like to update the Committee
on the Board's investigation of the crash of EgyptAir flight 990.

On October 31, 1999, EgyptAir flight 990 crashed about 60 miles south
of Nantucket after departing JFK International Airport about 30
minutes earlier. Onboard were 217 passengers and crew, including 101
Americans. Because the crash occurred in international waters, the
Government of Egypt, as the State of Registry under Annex 13 to the
Convention on International Civil Aviation, was responsible for
conducting the investigation. However, the Egyptian Civil Aviation
Authority (ECAA), in accordance with Annex 13, asked the NTSB to
conduct the investigation and to keep them informed of developments.

Based upon that delegation, we initiated an investigation under our
rules and procedures. To date, the Board's staff have conducted an
extensive investigation into the cause of this crash. Our structures
experts have examined the recovered wreckage, systems engineers have
examined flight control systems components and explored potential
failure scenarios, airplane performance engineers completed computer
simulations and other calculations of the airplane's performance,
electrical/acoustical experts analyzed the sounds on the cockpit voice
recorder (CVR), and human performance experts have reviewed all
available background information on the pilots, analyzed the voice
recorder and interviewed witnesses. Examination of engine data from
the digital flight data recorder (DFDR) and visual inspection of the
engines indicate that the engines were operating properly. In
addition, Safety Board staff traveled to Egypt to examine maintenance
and operations records and, at the request of the FBI, traveled to
England to interview an EgyptAir pilot who has requested asylum there.

The NTSB has expended more than 2,400 work days, excluding overtime,
on the EgyptAir investigation. In addition, the NTSB has incurred
costs as a result of this investigation in excess of $13 million, and
we anticipate costs of the entire investigation to be approximately
$17 million.

Based on the evidence we have seen thus far - the DFDR, the CVR, radar
data, computer simulations, and the wreckage recovered (approximately
90 percent by weight) - we have found no indication of a mechanical or
weather-related event that could have caused this crash. We are not
yet prepared, however, to state the cause of the crash and we are
continuing the investigation with the assistance of the Egyptian
government.

I would now like to turn to a discussion of the three issues I
mentioned earlier, beginning with the need for video recorders.

Video Recorders

The Safety Board first discussed the need for a video recording of the
cockpit environment in its report of the September 8, 1989, incident
involving USAir flight 105, a Boeing 737, at Kansas City, Missouri. In
this incident, the airplane collided with four transmission cables
during approach. The crew executed a missed approach and landed
uneventfully in Salina, Kansas. The Board determined that the probable
cause was the flightcrew's failure to adequately prepare for and
execute a nonprecision approach and their subsequent premature descent
below minimum descent altitude. Our report pointed out the limitations
of existing flight recorders to fully document the range of the flight
crew's actions and communications. An image recording of the cockpit
environment would have established the availability and use of the
appropriate checklists and approach charts, the use of hand signals by
the flight crew to communicate commands for airplane configuration
changes, and what configuration changes were made. This data would
have provided investigators insight into the nature of the crew's
briefing and approach chart review as they prepared for the localizer
back course approach. The report also noted that the introduction of
aircraft with electronic "glass" cockpits and the use of data link
communications would enable the flight crew to make display and data
retrieval selections that would be undetectable by the CVR and DFDR -
but could be captured by a video recording.

On October 8, 1997, a Cessna 208B, operated by the Department of the
Interior, experienced a loss of control and crashed about 18 miles
from Montrose, Colorado. This aircraft did not have, and was not
required to be equipped with, a CVR or DFDR. Further, there were no
recorded communications between the accident aircraft and air traffic
control or other aircraft. A cockpit image recorder may have provided
crucial information about conditions in the cockpit and the crew's
actions. The Safety Board's investigations of several accidents
involving Cessna 208s and similar turbine-powered aircraft in recent
years have been hampered by the lack of DFDR and CVR information. An
image recorder would have provided investigators with critical factual
information such as altitude, airspeed, engine power, flight control
inputs, aircraft configuration plus human factor and atmospheric
conditions. On February 8, 2000, the Safety Board recommended that the
Federal Aviation Administration (FAA) require, within 5 years of a
technical standards order's (TSO) issuance, the installation of a
crash-protected video recording system on all turbine-powered
nonexperimental, nonrestricted-category aircraft in 14 Code of Federal
Regulations Part 135 operations that are not currently required to be
equipped with a crashworthy flight recorder device. Although the
installation of conventional DFDRs and CVRs on these types of aircraft
has been economically impractical, recent technological advancements
have made cockpit image recording a viable alternative solution.
Advances have occurred in video compression technology, solid state
memory, and the availability of high quality, inexpensive cameras.
Further, third generation flight recorders are capable of recording
data, voices or images. Solid state technology coupled with video
compression techniques will now permit the storage of a video
recording in a crash hardened recorder. In addition, recent advances
in camera technology will provide miniaturized cameras capable of
recording under a wide range of lighting conditions at a variety of
optical focal lengths and fields of view. The need for recording of
cockpit images has become more evident with the lack of valuable
cockpit information in several recent major investigations, including
ValuJet flight 592 that crashed near Miami on May 11, 1996, and
EgyptAir flight 990 that crashed off Rhode Island on October 31, 1999,
as well as foreign investigations involving SilkAir flight 185 that
crashed in Indonesia on December 19, 1997, and Swissair flight 111
that crashed near Halifax, Nova Scotia on September 2, 1998. In each
of these investigations, crucial information about the circumstances
and physical conditions in the cockpit was simply not available to
investigators, despite the availability of good data from the DFDRs
and CVRs. In the case of ValuJet flight 592, a cockpit image recorder
may have provided critical information about the exact smoke and fire
conditions present in the cockpit during the last few minutes of the
flight. A cockpit image recorder may have also shown the smoke and
fire conditions and the status of the flight instrument displays in
the cockpit of Swissair flight 111 that led to the crew's decision to
descend from cruise flight and divert to Halifax. Because there is no
data on the CVR and DFDR for the final minutes before the SilkAir
flight 185 crash, the Indonesian investigation has been hampered by a
lack of information concerning what occurred in the cockpit. The
availability of a cockpit image recording may have allowed them to
focus their investigative efforts more effectively.

The need for a video recording of the cockpit environment is most
evident in the EgyptAir investigation. Staff believes that electronic
cockpit imagery would help resolve issues surrounding the flight
crew's actions in the cockpit that resulted in the changes in the
aircraft's controls as well as the circumstances that prompted those
actions.

Considerable progress has been made in the 10 years since the Kansas
City, Missouri, accident in both video and electronic recording
storage technologies. Electronic recording of images from the cockpit
environment is now both technologically and economically feasible, and
practical solid state memory devices have been developed that will
capture enormous quantities of audio, video and other electronic data.

The use of a cockpit image recording system would permit the recording
of controller-pilot data link (CPDL) communications. Current analog
CVRs cannot record CPDL messages. Therefore, they will need to be
replaced by other systems on all aircraft using CPDL. In addition, the
communication system architecture on many aircraft will make it
difficult and expensive to record CPDL messages directly onto a flight
recorder. In these instances, the video recording of the cockpit CPDL
display would be an acceptable and cost effective means of complying
with regulatory requirements.

The international aviation community is also aware of the safety
benefits of crash-protected video recorders. ICAO's Flight Recorder
Panel agreed, in November 1998, that the use of video recordings in
aircraft cockpits would be very useful. The panel further noted that
the European Organization for Civil Aviation Equipment (EUROCAE) was
developing minimum operational performance specifications (MOPs) for
such recorders.

As a result of the Montrose, Colorado, accident, the Safety Board
issued a recommendation to the FAA to incorporate EUROCAE's
performance standards for a crash-protected video recording system
into a TSO. The Safety Board believes the FAA should work with EUROCAE
to help expedite the finalization of the MOPS and to incorporate the
performance standards defined in the MOPS into an FAA TSO for a
crash-protected cockpit image recording system as soon as practicable.

The Safety Board is sensitive to the privacy concerns that have been
expressed by pilot associations and others with respect to recording
images of flight crews. In order to protect crew members' privacy, the
Safety Board, in its request for reauthorization, has asked Congress
to apply the same protections that exist for CVRs to the use of image
recorders in all modes of transportation. Under these provisions, a
cockpit image recording would be not be publicly released. The Board
is also aware of concerns regarding the treatment of video (as well as
other types of recordings) in foreign accidents and will work with
ICAO to improve protections afforded to recorded information on an
international level. However, the Board believes that given the
history of complex accident investigations and the lack of crucial
information regarding the cockpit environment, the safety of the
flying public must take precedence.

In the 1960s, the support of airline pilots and the aviation community
were instrumental in ensuring that accurate, complete information of
cockpit communications was secured for accident prevention purposes.
Many of the advances in aviation safety since that time can be
directly traced to the installation of CVRs and the critical
information captured by these devices. Imaging technology has advanced
to the point that the aviation safety community will have access to a
new generation of recorders that can lead to an even greater
understanding of the root causes of accidents and build upon the solid
safety foundation made possible by CVRs.

Language Communication Problems

The Safety Board's investigation of the tragedy involving EgyptAir
flight 990 has found no evidence that there were any communication
problems between air traffic controllers and the pilots on the
aircraft. Nonetheless, the Safety Board has had a longstanding concern
about pilots whose native language is not English communicating with
United States controllers, and with English-speaking pilots
communicating with controllers in non-English speaking countries. The
International Convention of Civil Aviation (ICAO) has not established
English as the standard language of aviation. However, it has been
informally understood for many years that English is the language used
to provide guidance to both pilots and controllers.

The importance of standard aviation phraseology was demonstrated in
the accident involving a Boeing 707, operated as Avianca flight 052,
that crashed in Cove Neck, New York on January 25, 1990, after running
out of fuel. The Captain on that flight, who was the pilot flying,
designated the First Officer as the pilot to communicate with United
States air traffic controllers. After a series of in-flight delays due
to weather, the flightcrew became concerned about their increasingly
low fuel state and their urgent need to land. The Captain ordered the
First Officer to declare an emergency to air traffic controllers;
however, the First Officer, whose command of English was good, did not
use the word "emergency," but instead, advised controllers that the
flight required priority handling due to the low fuel state. This term
did not convey the urgency of the situation, and after additional
delays, the airplane ran out of fuel and crashed on approach to JFK
airport.

As a result of the Avianca accident, the Safety Board recommended that
the FAA notify all pilots that they must have a thorough knowledge of
standard phraseology when operating in the U.S. National Airspace
System. The Board also asked the FAA, in coordination with ICAO, to
develop a standard glossary of definitions, terms, words, and phrases
to be used regarding minimum and emergency fuel conditions. The FAA
issued the requested notice to pilots, and it developed and submitted
such definitions to ICAO. The Board closed these two recommendations
on June 28, 1994, and classified each response as "Acceptable Action."

Unfortunately, ICAO's Air Navigation Bureau concluded that the current
phraseology for urgent and distress communications was adequate to
facilitate communications between pilots and controllers in the
situation described in the safety recommendation. The Bureau agreed
that it would be useful to include a specific example of a fuel
shortage emergency in its Manual of Radiotelephony, but decided not to
accept the FAA proposal to use the term "fuel remaining" because it
determined that the established term "fuel endurance" was more
acceptable.

On December 20, 1995, American Airlines flight 965, a Boeing 757,
crashed into mountainous terrain while descending for an approach into
Cali, Colombia. The NTSB participated as the accredited representative
to the investigation conducted by Aeronautica Civil of Colombia.
Although investigators concluded that the local controller "provided
clearances in accordance with applicable ICAO and Aeronautica Civil
rules and requirements," they believed that he lacked, "the English
language fluency needed to probe the flightcrew, from the subtle hints
in the inconsistencies of their responses to him, to learn of the
extent of their difficulties (in determining their location.)."
Consequently, the Safety Board recommended to the FAA that it work
with ICAO to develop a program to enhance the English language fluency
of controllers to enable them to more effectively interact with and
assist English-speaking pilots.

In response to this recommendation, the FAA encouraged ICAO to work to
improve controllers' English language proficiency. The Board closed
the recommendation on March 10, 1998, and classified the response as
"Acceptable Action" after the Secretary General of ICAO asked its Air
Navigation Bureau to conduct a comprehensive review of all aspects of
civil aviation communication, including procedures, phraseology, and
English proficiency. The Air Navigation Bureau issued a plan to review
all international air/ground and ground/ground voice communication to
identify any deficiencies and shortcomings. The plan's objective is to
develop ICAO procedures as needed to enhance communications and the
use of standard phraseology; to explore English language testing
requirements for routine and non-routine communication, and to improve
skill levels using procedures that already exist.

Two working groups will accomplish this work. ICAO tasked the
phraseology issues to a group composed of representatives from FAA,
EuroControl, and NavCanada. Their task is to update the current ICAO
standard phrases, and modify the current ICAO Handbook on
Radiotelephony Procedures, which provides guidance by listing standard
phrases without specifying what language that they be spoken in. A
report will probably be sent to ICAO member states for comment later
this year.

ICAO has also formed a working group to specifically study the English
language issues. Generally, such a study group has a narrow focus, and
states with expertise are invited to nominate representatives to the
group. In this case, the task is more broad, and ICAO has invited
countries representing the major language groups (e.g., Asian,
Spanish, European, Slavic, etc.) to participate. The group will hold
its first meeting in October 2000, but members are currently compiling
their ideas and recommendations.

We continue to believe that as international flight operations
increase, more American citizens fly overseas and more foreign pilots
operate in the United States and in the airspace of other English
speaking countries, the need for proficiency in the English language
by all airspace users will increase in importance. This is and will
continue to be a critical safety concern for international civil
aviation operators and their passengers, and it remains an important
issue for the Safety Board.

Screening Pilots for Psychopathology

As you may be aware, in 1996, Congress directed the FAA to appoint a
task force to study standards and criteria for pre-employment
screening of the mental and physical abilities of pilot applicants.
The FAA referred this study to an Aviation Rulemaking Advisory
Committee (ARAC). Although the ARAC deliberated over a variety of
selection issues and conducted an industry survey of current selection
practices, it did not address the issue of psychopathological
screening.

Although rare in commercial aviation, deliberate actions by a pilot
have created dangerous situations. On April 7, 1994, an off-duty
Federal Express pilot, travelling on a scheduled Federal Express DC-10
cargo flight, attacked the flight crew with a hammer and spear gun in
an apparent attempt to take over the control of the airplane and crash
it into Federal Express headquarters in Memphis, Tennessee. Although
seriously injured, the flightcrew managed to gain control and safely
land the airplane.

On December 19, 1997, a Boeing 737 operated by SilkAir crashed in
Palenbang, Indonesia. Although the flight recorders did not record the
departure from controlled flight, we have been informed that
Indonesian investigators have sought the assistance of law enforcement
authorities in this investigation.

Finally, on October 11, 1999, an Air Botswana pilot, who had
apparently been grounded for medical reasons, took off in a company
ATR-42 and threatened to crash it into Air Botswana headquarters. He
eventually landed the airplane and deliberately collided with Air
Botswana's other two ATR-42s. The pilot was killed and a post-crash
fire destroyed all three aircraft.

Although the Safety Board's investigation into the crash of EgyptAir
flight 990 is not complete, Safety Board investigators have determined
that the airplane's autopilot was disconnected and the airplane "nosed
over" into a dive toward the ocean. Recorded data of the airplane's
flight path and the performance of its systems are consistent with a
deliberate action on the part of one of the crewmembers. However, the
Board has not determined the probable cause of the crash; further, if
the evidence were to indicate that a deliberate act by a pilot was
involved, it would not necessarily indicate that this was due to
mental instability or psychopathology.

Although it is not clear that any of these crashes could have been
prevented by better screening techniques, it is in everyone's best
interests for the airlines and for the FAA to ensure that the most
qualified and capable applicants are chosen to become airline pilots.
In the past, many individuals seeking jobs as airline pilots had
previously served as pilots in the military. Thus, airlines had some
assurance that they had already been screened by the military. Today,
because fewer airline pilot applicants have military experience, this
pool of "pre-screened" candidates is shrinking. Consequently, airlines
must rely on their own selection tools to screen candidates for
piloting jobs. Although all major airlines have elaborate selection
procedures including extensive interviews, small carriers are less
likely to employ sophisticated selection tools or to have in-house
expertise available.

In the U.S., candidates for airline pilot jobs are required to have
background checks and their driving records are reviewed for impaired
driving convictions. Many airlines' background investigations also
include a check of the applicant's criminal history, and all pilots
are required to have frequent medical examinations. Although these
checks might provide clues about an applicant's mental fitness, the
Safety Board is not aware of any airline that formally screens pilots
for possible mental illness. Some airlines do require candidates to
take pencil-and-paper personality tests and cognitive ability tests.
These tests, when properly administered and interpreted, can provide
indications of some forms of mental illness, but they are primarily
designed to assess personality traits, not mental fitness.

This is not to say that the airline industry is without the capability
to detect mental illness among pilots. Newly trained airline pilots
generally serve a probationary period. During this period, usually a
year, these probationary pilots are paired with captains who are
encouraged to assess their performance in the cockpit. At many
airlines, these Captains may send performance reports to the training
department concerning the probationary pilots they fly with. If these
Captains notice erratic or unusual behavior, they may include these
observations in their reports for company followup. Further, any pilot
who notices another pilot performing or behaving in a manner that
could suggest that he or she is mentally ill or unstable, may advise
the appropriate association's professional standards committee. These
committees investigate reports concerning pilot fitness, and can
remove a pilot from duty, if warranted. These peer observations
certainly do not replace formal psychopathological screening
techniques, but they can provide a mechanism for detecting pilots who
may need more evaluation or treatment.

That completes my testimony, and I will be happy to respond to any
questions you may have.
 
(end text)

(Distributed by the Office of International Information Programs, U.S.
Department of State. Web site: http://usinfo.state.gov)


Return to the Washington File