Abstract:
It is noted that the projected increase in satellites needed to satisfy future military, scientific, and commercial missions will soon be overwhelming current ground-oper...Show MoreMetadata
Abstract:
It is noted that the projected increase in satellites needed to satisfy future military, scientific, and commercial missions will soon be overwhelming current ground-operations capabilities. An intelligent processing architecture, IntelliSTAR, that addresses the potential of automating the entire satellite operations domain (planning, scheduling, execution, and analysis) is discussed. The architecture has been developed with flexibility in mind. In particular, IntelliSTAR has been structured to allow for development and validation on the ground, prior to deployment in space. The overall architecture is described, with particular emphasis placed on the scheduling of satellite missions.<>
Published in: IEEE Aerospace and Electronic Systems Magazine ( Volume: 5, Issue: 12, December 1990)
DOI: 10.1109/62.61954
References is not available for this document.
Select All
1.
MILITARY SPACE OPERATIONS; OPERATIONAL PROBLEMS CONTINUE WITH THE SATELLITE CONTROL COMPUTER SYSTEM, August 1989.
2.
AIR FORCE SPACE COMMAND STATEMENT OF OPERATIONAL NEED XX-88 FOR A SATELLITE ON-BOARD AUTONOMY CAPABILITY (DRAFT), August 1988.
3.
Department of the Air Force, Air Force Space Division and Space Command, "SATELLITE ARCHITECTURE STUDY," (1988).
4.
L. Raslavicius, ON-BOARD SATELLITE INTELLIGENCE PRELIMINARY CONCEPT, November 1986.
5.
J. C. Ferguson, R. W. Siemens and R. E. Wagner, "STAR-PLAN; A SATELLITE ANOMALY RESOLUTION AND PLANNING SYSTEM", Proceedings of AAAI Workshop on Coupling Symbolic and Numerical Computing in Expert Systems, 1985-August.
6.
Britt and L. Daniel, "SCHEDULING SPACECRAFT OPERATIONS", 3rd Conference on Artificial Intelligence for Space Applications, 1987-November.
7.
Τ. P. Gathmann and L. Raslavicius, "SATELLITE AUTONOMY GENERIC EXPERT SYSTEMS(SAGES)", AIAA Computers in Aerospace, October 1989.
8.
Κ. A. Βahrami and Κ. L. Atkins, AUTOMATED WORKSTATION FOR THE OPERATION OF SPACECRAFT ENGINEERING SUBSYSTEMS, April 1988.
9.
Britt, L. Daniel, J. R. Gohring and A. L. Geoffrey, "THE IMPACT OF THE UTILITY POWER SYSTEM CONCEPT ON SPACECRAFT ACTIVITY SCHEDULING", Intersociety Energy Conversion Engineering Conference (IECEC) 88, 1988.
10.
Ferncyhough, D.G., Jr., Crehan, D.T., "ADRS—AN AID FOR SATELLITE ANOMALY RESOLUTION, " (1986).
11.
Fesq, L.M., Stephan, A., "ADVANCES IN SPACECRAFT AUTONOMY USING ARTIFICIAL INTELLIGENCE TECHNIQUES," (February, 1989).
12.
T. J. Laffey, P. Α. Cox, J. L. Schmidt, S. Μ. Kao and J. Υ. Read, "REAL-TIME KNOWLEDGE-BASED SYSTEMS", AI Magazine, 1988.
13.
R. W. Siemens, M. Golden and J.. Ferguson, "STARPLAN II: EVOLUTION OF AN EXPERT SYSTEM", AAAI-86, 1986-August.
14.
D.. Szatkowski, P. Gerald and D.. R. Schultz, "ARTIFICIAL INTELLIGENT DECISION SUPPORT FOR LOW-COST LAUNCH VEHICLE INTEGRATED MISSION OPERATIONS", Space Operations Automation and Robotics (SOAR) 88, 1988-July.
15.
Vere and A. Steven, "PLANNING IN TIME: WINDOWS AND DURATIONS FOR ACTIVITIES AND GOALS", IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. PAMI-5, no. 3, May 1983.
16.
R. E. Wagner and A. N. Blasdel, "AN APPROACH TO AUTONOMOUS ATTITUDE CONTROL FOR SPACECRAFT", 11th Annual AAS Guidance and Control Conference, 1988-February.
17.
C. M. Wong, D. J. Weeks, G. R. Sundberg and K. L. Healey, "COOPERATING EXPERT SYSTEMS FOR SPACE STATION: POWER/THERMAL TESTBEDS", Intersociety Energy Conversion Engineering Conference (IECEC) 88, 1988.
18.
L. Raslavicius, T P Gathmann and J.M. Barry, "AN ARTIFICIAL INTELLIGENCE FRAMEWORK FOR SATELLITE AUTONOMY", 2nd International Conference on Industrial and Engineering Applications of Artificial Intelligence and Expert Systems (IEA/AIE-89), 1989-June-6-9.
19.
S. F. Smith, M. S. Fox and Ρ. S. Ow, "CONSTRUCTING AND MAINTAINING DETAILED PRODUCTION PLANS: INVESTIGATIONS INTO THE DEVELOPMENT OF KNOWLEDGE-BASED FACTORY SCHEDULING SYSTEMS", AI Magazine, pp. 45-61, 1986.
