Astronaut Selection and Training
The 21st century promises the
challenge for humans to live and work in space. The achievements of scientists,
engineers, technicians, and specialists who will build and operate the
Space Station are the legacy of the national Aeronautics and Space Administration's
(NASA's) many years of experience in selecting and training astronauts
to work on the frontier of space. Man's scope of space exploration has broadened since the first U.S.
manned space flight in 1961. But the Nation can never forget the original
seven space pilots who focused our vision on the stars. In 1959, NASA
asked the U.S. military services to list their members who met specific
qualifications. In seeking its first astronauts, NASA required jet aircraft
flight experience and engineering training. Height could be no more
than 5 feet 11 inches because of limited cabin space available in the
Mercury space capsule being designed. After many series of intense physical
and psychological screenings, NASA selected seven men from an original
field of 500 candidates. They were Air Force Captains L. Gordon Cooper,
Jr., Virgil "Gus" Grissom, and Donald K. "Deke" Slayton; Marine Lieutenant
Colonel John H. Glenn, Jr., Navy Lieutenant M. Scott Carpenter and Navy Lieutenant Commanders Walter M. Schirra, Jr., and Alan B. Shepard, Jr.
Each man flew in Project Mercury except Slayton, who was grounded for
medical reasons. Sixteen years later, Slayton was an American crew member
of the Apollo-Soyuz Test Project, the world's first international manned
space flight. Nine pilot astronauts were chosen in September 1962, and fourteen more
were selected in October 1963. By then, prime emphasis had shifted away
from flight experience and toward superior academic qualifications.
In October 1964, applications were invited on the basis of educational
background alone. These were the scientist astronauts, so called because
the 400-plus applicants who met minimum requirements had a doctorate
or equivalent experience in the natural sciences, medicine or engineering.
Of these 400 applicants, six were selected in June 1965. In April 1966, 19 pilot astronauts were named and in August 1967, 11
scientist astronauts were added to the program. When the Air Force Manned
Orbiting Laboratory program was canceled in mid-1969, seven astronaut
trainees transferred to NASA. The first group of astronaut candidates for the space shuttle program
was selected in January 1978. In July of that year, the 35 candidates
began a rigorous training and evaluation period at NASA's Johnson Space Center (JSC), Houston, Texas, to qualify for subsequent assignment for
future space shuttle flight crews. This group of 20 mission scientist
astronauts and 15 pilots completed training and went from astronaut
candidate status to astronaut (active status) in August 1979. Six of
the 35 were women and four were minorities. Eight groups of pilots and mission specialists have been added since
then: 19 in 1980, 17 in 1984, 13 in 1985, 15 in 1987, 23 in 1990, 19
in 1992, 19 in 1995 and 35 in 1996. In the future, the United States with its international partners Japan,
Canada, Russia and the European Space Agency, will operate a man-tended
space station. From that orbiting depot, humans will continue their
journeys to the Moon and Mars. As these plans become reality, the need
for qualified space flight professionals will increase. To respond to these needs, NASA accepts applications for the Astronaut
Candidate Program on a continuous basis. Candidates are selected as
needed, normally every two years, for pilot and mission specialist categories.
Both civilian and military personnel are considered for the program.
Civilians may apply at any time. Military personnel must apply through
their parent service and be nominated by their service to NASA. The astronaut candidate selection process was developed to select highly
qualified individuals for human space programs. For mission specialists
and pilot astronaut candidates, the education and experience requirements
are at least a bachelor's degree from an accredited institution in engineering,
biological science, physical science, or mathematics. For mission specialist applicants, three years of related, progressively
responsible professional experience must follow the degree. An advanced
degree is desirable and may be substituted for all or part of the experience
requirement (i.e., master's degree = 1 year of work experience, doctoral
degree = 3 years of experience). Pilot astronaut applicants must also
meet the following requirements prior to submitting an application:
The application package may be obtained by writing to the Astronaut
Selection Office, Mail Code AHX, Johnson Space Center, Houston, TX 77058-3696. Applicants who meet the basic qualifications are evaluated by discipline
panels. Those selected as finalists are screened during a week-long
process of personal interviews, thorough medical evaluations, and orientation.
The Astronaut Selection Board's recommendations are based on the applicant's
education, training, and experience as well as unique qualifications
and skills. Because several hundred applicants fulfill the requirements,
the final selection is based largely on personal interviews. Astronauts
are expected to be team players and highly skilled generalists with
just the right amount of individuality and self-reliance to be effective
crew members. Selected applicants are designated astronaut candidates and assigned
to the astronaut office at the Johnson Space Center for a 1 to 2 year training and evaluation program. Civilian candidates who successfully
complete the training and evaluation and are selected astronauts are
expected to remain with NASA for at least 5 years. Successful military
candidates are detailed to NASA for a specified tour of duty. Salaries for civilian astronaut candidates are based on the Federal
Government's General Schedule pay scales for grades GS-11 through GS-14,
and are set in accordance with each individual's academic achievements
and experience. Commander/Pilot astronauts Pilot astronauts serve as both space shuttle commanders and pilots.
During flight, the commander has onboard responsibility for the vehicle,
crew, mission success, and safety of flight. The pilot assists the commander
in controlling and operating the vehicle and may assist in the deployment
and retrieval of satellites using the remote manipulator system (RMS),
referred to as the robot arm or mechanical arm. Mission specialist astronauts work with the commander and the pilot
and have overall responsibility for coordinating shuttle operations
in the following areas: Shuttle systems, crew activity planning, consumables
usage, and experiment/payload operations. Mission specialists are trained
in the details of the Orbiter onboard systems, as well as the operational
characteristics, mission requirements/ objectives, and supporting equipment/systems
for each of the experiments conducted on their assigned missions. Mission
specialists perform extravehicular activities (EVAs), or space walks,
operate the remote manipulator system, and are responsible for payloads
and specific experiment operations. Payload specialists are persons other than NASA astronauts (including
foreign nationals) who have specialized onboard duties; they may be
added to shuttle crews if activities that have unique requirements are
involved and more than the minimum crew size of five is needed. First consideration for additional crew members is given to qualified
NASA mission specialists. When payload specialists are required they
are nominated by NASA, the foreign sponsor, or the designated payload
sponsor. In the case of NASA or NASA-related payloads, the nominations
are based on the recommendations of the appropriate Investigator Working
Group (IWG). Although payload specialists are not part of the Astronaut Candidate
Program, they must have the appropriate education and training related
to the payload or experiment. All applicants must meet certain physical
requirements and must pass NASA space physical examinations with varying
standards depending on classification. Astronaut candidates receive training at JSC near Houston, Texas. They
attend classes on shuttle systems, in basic science and technology:
mathematics, geology meteorology, guidance and navigation, oceanography,
orbital dynamics, astronomy, physics, and materials processing are among
the subjects. Candidates also receive training in land and sea survival
training, scuba diving, and space suits. As part of the Astronaut Candidate training program, Astronaut Candidates
are required to complete military water survival prior to beginning
their flying syllabus, and become SCUBA qualified to prepare them for
the extravehicular activity training. Consequently, all Astronaut Candidates
will be required to pass a swimming test during their first month of
training. They must swim 3 lengths of a 25M pool in a flight suit and
tennis shoes. The strokes allowed are freestyle, breast, and sidestroke.
There is no time limit. They must also tread water continuously for
10 minutes. Candidates are also exposed to the problems associated with high (hyperbaric)
and low (hypobaric) atmospheric pressures in the altitude chambers and
learn to deal with emergencies associated with these conditions. In
addition, astronaut candidates are given exposure to the microgravity
of space flight. A modified KC-135 jet aircraft produces periods of
weightlessness for 20 seconds. During this brief period, astronauts
experience the feeling of microgravity. The aircraft then returns to
the original altitude and the sequence is repeated up to 40 times in
a day. Pilot astronauts maintain flying proficiency by flying 15 hours per
month in NASA's fleet of 2-seat T-38 jets; they build up jet aircraft
hours and also practice Orbiter landings in the Shuttle Training Aircraft,
a modified corporate jet aircraft. Mission specialist astronauts fly
a minimum of 4 hours per month. The astronauts begin their formal space transportation system training
program during their year of candidacy by reading manuals and by taking
computer-based training lessons on the various Orbiter systems ranging
from propulsion to environmental control. The next step in the training process is the single systems trainer
(SST). Each astronaut is accompanied by an instructor who helps in the
learning process about the operations of each Orbiter subsystem using
checklists similar to those found on a mission. The checklists contain
information on normal system operations and corrective actions for malfunctions.
The astronauts are trained in the SSTs to operate each system, to recognize
malfunctions, and to perform corrective actions. Following the SST portion of the training program, the astronauts begin
training in the complex Shuttle Mission Simulators (SMSs). The SMS provides
training in all areas of shuttle vehicle operations and in all systems
tasks associated with the major flight phases: prelaunch, ascent, orbit
operations, entry and landing. The orbit training includes payload operation,
payload deployment and retrieval, maneuvers, and rendezvous. Two additional
simulators, a fixed base and a motion base, are used to train the astronauts.
The fixed base crew station is used for both specific mission/payload
training and launch descent and landing training. It is the only trainer
with complete fore and aft consoles, including an RMS console. A digital
image generation system provides visual cues for out-the-window scenes
of the entire mission, e.g., the Earth, stars, payloads and the landing
runway. Missions can be simulated literally from launch to landing.
The motion base crew station is used to train pilots and commanders
in the mission phases of launch, descent, and landing. Motion cues are
provided by the 6-degrees-of-freedom motion system which also allows
the flight deck to be rotated 90 degrees to simulate lift-off and ascent.
Astronauts begin their training in the SMS using generic training software
until they are assigned to a particular mission, approximately 10 months
before flight. Once they are assigned to a flight, astronauts train
on a flight simulator with actual flight-specific training software.
During this last 11 weeks, the astronauts also train with the flight
controllers in the Mission Control Center (MCC). The SMS and MCC are
linked by computer in the same way the Orbiter and MCC are linked during
an actual mission. The astronauts and flight controllers learn to work
as a team, solving problems and working nominal and contingency mission
timelines. Total hours in the SMS for the astronauts, after flight assignment,
is about 300 hours. In parallel with the SMS training there are several other part-task
trainers that are used to prepare astronauts for shuttle missions. These
trainers are in varying degrees of fidelity and each serve a particular
purpose. The Sonny Carter Training Facility, or Neutral Buoyancy Laboratory
(NBL), provides controlled neutral buoyancy operations in the facility
water tank to simulate the zero-g or weightless condition which is experienced
by the spacecraft and crew during space flight. It is an essential tool
for the design, testing and development of the space station and future
NASA programs. For the astronaut, the facility provides important pre-flight
training in becoming familiar with planned crew activities and with
the dynamics of body motion under weightless conditions. Several full-scale mockups and trainers are also used to train astronauts.
The full fuselage trainer is a full-sized plywood Orbiter mockup with
nonfunctional mid-deck and flight deck, and full-scale payload bay.
It is used for onboard systems orientation and habitability training.
Astronauts practice meal preparation, equipment stowage, trash management,
use of cameras, and experiment familiarization. This trainer is also
used for emergency egress training after shuttle landings. The crew compartment trainer is a mockup of the forward section of
the Orbiter crew station, without a payload bay, that can be tilted
vertically. It is used to train for on-orbit habitability procedures
and also emergency pad egress and bailout operations. The crew stations
of both trainers are similar. The manipulator development facility is
a full-scale mockup of the payload bay with full-scale hydraulically
operated RMS, the mechanical arm on the Orbiter which is used to move
payloads in and out of the payload bay. Mission specialists use this
trainer to practice deploying and reberthing of payloads into the Orbiter.
Pilots training for a specific mission receive more intensive instruction
in Orbiter approach and landing in Shuttle Training Aircraft (STA),
which are four Gulfstream II business jets modified to perform like
the Orbiter during landing. Because the Orbiter approaches landings
at such a steep angle (17-20 degrees) and high speed (over 300 miles
per hour), the STA approaches with its engines in reverse thrust and
main landing gear down to increase drag and duplicate the unique glide
characteristics of the Orbiter. Assigned pilots receive about 100 hours
of STA training prior to a flight, which is equivalent to 600 shuttle
approaches. In between training sessions, the crew members continue
to keep themselves up-to-date on the status of the space craft and payloads
for their assigned mission. In addition, the astronauts study flight
rules and flight data file procedures, and participate in mission-related
technical meetings. They also participate in test and checkout activities
at the NASA Kennedy Space Center in Florida, the launch site for the
space shuttle. The months of preparation pay off and the mission is a success; the
actual mission will have far fewer contingencies than were practiced
for. The accuracy of the simulations and training is remarkable. Astronauts
often comment that only the noise and vibration of launch and the experience
of weightlessness are missing from the practice sessions; everything
else in training accurately duplicates the space experience. The astronauts' mission continues even after the Orbiter has returned.
The crew will spend several days in medical testing and debriefing,
recounting their experiences for the benefit of future crews to assist
in future training and to add to the space flight knowledge base. Members of the media also receive a detailed post-flight briefing by
the crew. Then, the studies and training that may eventually lead to
another space flight are resumed. This and other NASA/JSC fact sheets can be found on the Internet at:
http://spaceflight.nasa.gov/spacenews/factsheets/index.html
|
Curator: Kim
Dismukes | Responsible NASA Official: John Ira Petty | Updated: 06/27/2003 |