BASED ON A NASA/JPL
PRESS RELEASE
July 29, 1999: NASA's Deep
Space 1 experimental spacecraft successfully flew closely above
the surface of asteroid 9969 Braille at 9:46 p.m. Pacific time
Wednesday, July 28, using a sophisticated new space autopilot
system, exceeding 100 percent of the mission's objectives.
"This is a dramatic finale to an amazingly
successful mission," said Dr. Marc Rayman, chief mission
engineer and deputy mission manager. "With AutoNav's successful
piloting of the spacecraft, we've completed the testing and validation
of the 12 new technologies onboard and possibly acquired important
science data, including photos."
Right: Hot blue ions emerge from a
prototype ion propulsion drive like the one which now powers
Deep Space 1. Although the ion drive
on DS1 provides acceleration much smaller than we feel toward
Earth, it has gradually given the spacecraft the speed necessary
to travel across our Solar System and visit asteroid Braille.
The July 29, 1999 flyby of Braille was accomplished while the
spacecraft was under the control of AutoNav,
a cutting-edge experiment in autonomous navigation. Image Credit:
JPL.
Data from the spacecraft will be analyzed in coming days to determine
the actual flyby distance, which at about 15 kilometers (less
than 10 miles), was by far the closest flyby of an asteroid ever
attempted.
Ten minutes after the flyby, when the spacecraft signals reached
Earth after a 10-minute journey, the team burst into spontaneous
applause at the news that the spacecraft was turning back to
face the asteroid. The turn was indicated by a marked Doppler
shift, a clear early indicator of a successful encounter. Like
a siren whose pitch changes after passing by, the Doppler shift
indicates movement past an object.
Launched Oct. 24, 1998, Deep Space 1 is the first mission
under NASA's New Millennium Program, which tests new technologies
for future space and Earth-observing missions. The technologies
that have been tested on Deep Space 1 will help make future science
spacecraft smaller, less expensive, more autonomous and capable
of more independent decision-making so that they rely less on
tracking and intervention by ground controllers.
Of the 12 new technologies on board, all but the spacecraft's
autonomous navigation system had been completely tested since
launch. With the asteroid encounter, AutoNav finished its last
five percent of testing.
Making the flyby all the more memorable -- and serving as a testimonial
to the team's quick ability to think on its feet -- was the fact
that the spacecraft experienced a "safing" event earlier
in the day, starting at about 5 a.m. PDT on July 28 and ending
at about 11 a.m. PDT. A small software glitch, now fully diagnosed,
was detected by Deep Space 1's fault-detection software, which
triggered a protective program that causes several events: the
spacecraft halts non-critical activity, orients its solar panels
toward the Sun, points light and heat- sensitive instruments
away from the Sun and reverts to its low- gain antenna while
awaiting new commands.
Left:
On the way to visiting the near-Earth asteroid 433 Eros, the
Near Earth Asteroid Rendezvous
(NEAR) spacecraft flew right by another asteroid: 253 Mathilde
in June 1997. Shown above is one picture from the encounter.
Deep Space 1's flyby of Braille was the closest to date. Pictures
of Braille will released at an August 3, 1999 briefing. Credit:
Astronomy Picture of the Day [more
information about Mathilde]
"This has been by far the most challenging, dramatic and
stressful day on the project," said Rayman. "The last
16 hours before the flyby were really, really exciting. We had
the safing event, we recovered from it and we managed to squeeze
in a trajectory correction maneuver to update Deep Space 1's
flight path."
Science results will be downlinked in a series of telemetry sessions
over the next several days. During the flyby, a spectrometer
and imaging instrument took black-and-white photographs and images
taken in infrared light, while a second instrument observed the
three-dimensional distribution of ions and electrons, or plasma,
in the area.
A science update covering science results is scheduled to take
place at NASA's Jet Propulsion Laboratory, Pasadena, Calif.,
on Tuesday, August 3, at 10 a.m. PDT. It will be broadcast live
on NASA TV.
A live videocam view of the Deep Space 1 mission control area is available at
http://eis.jpl.nasa.gov/~mbareh/MSA.html.
Deep Space 1 is budgeted at $152 million, including design,
development, launch and operations. The mission is managed for
NASA's Office of Space Science by JPL, a division of the California
Institute of Technology. |
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