PUBLIC INFORMATION OFFICE
JET PROPULSION LABORATORY
CALIFORNIA INSTITUTE OF TECHNOLOGY
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
PASADENA, CALIF. 91109. TELEPHONE (818) 354-5011
http://www.jpl.nasa.gov
Contact: Diane Ainsworth
FOR IMMEDIATE RELEASE
May 6, 1996
SIERRA COLLEGE STUDENTS DELIVER PATHFINDER SUN SENSOR TO JPL
Students from Sierra College in Rocklin, Calif., have
delivered their very own creation -- "Mr. SunSensor" -- an
engineering model of a sun sensor to be used this week in a Mars
Pathfinder spacecraft operations simulation at NASA's Jet
Propulsion Laboratory.
The students are part of a special student-industry-
government team which has spent the last two years building their
own miniature spacecraft. In a unique collaborative arrangement,
JPL and industry representatives have been providing technical
assistance to the team effort, while NASA and the Advanced
Research Projects Agency (ARPA) furnished the funding.
"We met recently with the team for a technical review and
learned that they were designing a sun sensor for their own
spacecraft that could also be used for a specific Pathfinder
test," said Dr. Dankai Liu, a lead engineer on the Pathfinder
attitude and information management subsystem team at JPL. "So
we suggested integrating their sensor on the Pathfinder
spacecraft and inviting them to watch the simulation."
Ordinarily, a sun sensor would have been purchased or built
by JPL to perform the test, Liu said. JPL's partnership with
Sierra College, industry and ARPA made the hardware delivery
possible at no cost to the Laboratory.
The students' project managers, Mike Dobeck and Stan
Spencer, both instructors at the Northern California community
college, jumped at the opportunity to get students involved in
the Mars Pathfinder mission. JPL representatives Dave Woerner,
manager of the Pathfinder attitude and information management
subsystem team, and Brian Muirhead, flight system manager, agreed
whole-heartedly to the collaborative arrangement. Dobeck also
enlisted the participation of a group of high school students
enrolled in a spacecraft design class at Colfax High School, near
the Rocklin-based college.
"This antenna-pointing test is a critical step in the final
months of Pathfinder testing and we're very glad to be able to
use the students' sensor," Liu said. "One of the first tasks
the Pathfinder spacecraft will have to perform after it lands on
the surface of Mars is find Earth and point its high-gain antenna
toward us so we can communicate with the craft."
To demonstrate Pathfinder's pointing capability, engineers
will mount the sensor on the spacecraft, then ask the spacecraft
to find the sun and track it as it moves across the sky. Liu's
attitude subsystem team will measure errors in the lander's
guidance system to determine Pathfinder's "marksmanship," or how
accurately the spacecraft is pointing its antenna.
Attitude testing will take place during a two-day spacecraft
operations simulation to be held at JPL on May 7 and 8. Other
testing, including electrical, acoustic and thermal vacuum
testing, will continue at the Laboratory through the summer.
Pathfinder is scheduled to be shipped to Cape Canaveral, Florida,
on Sept. 1, where it will be integrated on a Delta 2 launch
vehicle and prepared for a Dec. 2 launch.
The Mars Pathfinder mission is the first in NASA's Discovery
program of low-cost planetary spacecraft with highly focused
science goals. The mission is managed by the Jet Propulsion
Laboratory for NASA's Office of Space Science, Washington, D.C.
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