For Immediate Release
	
July 19, 1999

		
Media Contact: 
Pamela Houghtaling
phone:	(240) 228-7536 
Pamela.Houghtaling@jhuapl.edu


FUSE Satellite Tracks First Star Image


On July 18, 1999, the Far Ultraviolet Spectroscopic Explorer (FUSE)
successfully acquired and tracked its first star image as part of the
initial calibration testing using the Instrument Data System (IDS) that
controls instrument functions. The IDS developed by The Johns Hopkins
University Applied Physics Laboratory (APL), Laurel, Md., acquired an image
of a star field from the instrument fine error sensor, identified specific
stars in the image, and began controlling the satellite attitude using those
stars as a reference. The IDS flight software allows the satellite to
achieve and hold a pointing accuracy of 0.5 arcseconds (1/7200 of a degree).
This high-accuracy pointing will be required to collect the FUSE mission
science data.

The IDS flight software allows the FUSE satellite to operate autonomously
for periods of more than 24 hours. IDS is programmed from the ground with
instructions on what celestial objects to observe and the duration of those
observations. The flight software then sequences through the observations
automatically, finds the specific targets, configures and aligns the
instrument, and then acquires the data. IDS also implements an active
thermal control system that is necessary to achieve and maintain the precise
optical alignment required for successful acquisition of the spectroscopic
data. This software was developed in conjunction with Interface & Control
Systems, Inc., of Columbia, Md., and Melbourne, Fla.

"The IDS software is some of the most complex flight software developed at
APL and for spacecraft in general," states Larry Frank, APL's mission system
engineer for FUSE. "It integrates command and data handling, high-accuracy
attitude determination, and active thermal control." Adds Ted Mueller, the
APL project manager, "This significant event for FUSE indicates that our
flight software is ready to support science data collection scheduled to
begin in Fall 1999."

Along with software development and hardware procurement for IDS, APL
procured the FUSE spacecraft system. APL's other contributions included
mission system engineering, the Instrument Power Switching and Distribution
Unit, and the Instrument Electrical Ground Support System, which included
database management, flight part procurement for common buys, component
engineering, mirror development, and integration and test facilities. 

Launched on June 24, 1999, from Cape Canaveral, Fla., FUSE is a NASA mission
developed and managed by The Johns Hopkins University in collaboration with
APL and other universities, contractors, and international partners. The
three-year mission will probe the chemical composition and evolution of the
universe using the technique of high-resolution spectroscopy in the
far-ultraviolet spectral region. FUSE is operated from a control center on
The Johns Hopkins University Homewood campus in Baltimore. The satellite
will continue to be calibrated over the next few months in preparation for
routine operations. 

_________________


The Applied Physics Laboratory is a not-for-profit laboratory and
independent division of The Johns Hopkins University. APL conducts research
and development primarily for national security and for nondefense projects
of national and global significance. APL is located midway between Baltimore
and Washington, D.C., in Laurel, Md.

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