In space flight operations rapid understanding of the state of the space vehicle is essential. Representation of knowledge depicting space vehicle status in a dynamic environment presents a difficult challenge. The NASA Jet Propulsion Laboratory has pursued areas of technology associated with the advancement of spacecraft operations environment. This has led to the development of several advanced mission systems which incorporate enhanced graphics capabilities. These systems include: (1) Spacecraft Health Automated Reasoning Prototype (SHARP); (2) Spacecraft Monitoring Environment (SME); (3) Electrical Power Data Monitor (EPDM); (4) Generic Payload Operations Control Center (GPOCC); and (5) Telemetry System Monitor Prototype (TSM). Knowledge representation in these systems provides a direct representation of the intrinsic images associated with the instrument and satellite telemetry and telecommunications systems. The man-machine interface includes easily interpreted contextual graphic displays. These interactive video displays contain multiple display screens with pop-up windows and intelligent, high resolution graphics linked through context and mouse-sensitive icons and text.
Knowledge Representation in Space Flight Operations
1989
7 pages
Report
No indication
English
Astronautics , Computers, Control & Information Theory , Computer graphics , Display devices , Flight operations , Knowledge representation , Spacecraft environments , Color , High resolution , Man machine systems , Monitors , Payload control , Personnel , Prototypes , Real time operation , Satellite transmission , Telemetry
Knowledge representation in space flight operations
NTRS | 1989
|NTRS | 1965
|NTRS | 1973
NTIS | 1973
Magellan space flight operations
AIAA | 1990
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