Real-time reasoning: the monitoring and control of spacecraft systems

Author

Georgeff, Michael P. ; Ingrand, François Felix

Author_Institution

Australian AI Inst., Carlton, Vic., Australia

fYear

1990

fDate

5-9 May 1990

Firstpage

198

Abstract

Research concerned with automating the monitoring and control of spacecraft systems is discussed. In particular, the application the procedural reasoning system (PRS) to the handling of malfunctions in the reaction control system (RCS) of NASAs space shuttle is studied. Unlike traditional monitoring and control systems, PRS is able to reason about and perform complex tasks in a very flexible and robust manner, somewhat in the manner of a human assistant. using various RCS malfunctions as examples (including sensor faults, leaking components, multiple alarms, and regulator and jet failures), it is shown how PRS manages to combine both goal-directed reasoning and the ability to react rapidly to unanticipated changes in its environment. Some important issues in the design of PRS are reviewed, and future enhancements are indicated

Keywords

aerospace computer control; computerised monitoring; inference mechanisms; real-time systems; space vehicles; PRS; RCS malfunctions; complex tasks; control systems; goal-directed reasoning; human assistant; jet failures; leaking components; monitoring; multiple alarms; procedural reasoning system; reaction control system; sensor faults; space shuttle; spacecraft systems; Automatic control; Computerized monitoring; Condition monitoring; Control systems; Humans; Regulators; Robust control; Sensor systems; Space shuttles; Space vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Artificial Intelligence Applications, 1990., Sixth Conference on

Conference_Location

Santa Barbara, CA

Print_ISBN

0-8186-2032-3

Type

conf

DOI

10.1109/CAIA.1990.89190

Filename

89190