Add to ORKGThe objective of the Thermal Control System Automation Project (TCSAP) is to develop an advanced fault detection, isolation, and recovery (FDIR) capability for use on the Space Station Freedom (SSF) External Active Thermal Control System (EATCS). Real-time monitoring, control, and diagnosis of the EATCS will be performed with a knowledge based system (KBS). Implementation issues for the current version of the KBS are discussed
A great deal of attention has recently been given to Artificial Intelligence research in the area of...
In a previous study, Guo, Merrill and Duyar, 1990, reported a conceptual development of a fault dete...
Control of on-orbit operation of a spacecraft requires retention and application of special purpose,...
The Thermal Advanced Automation Project (TAAP) approach and architecture is described for automating...
Mathematical models of system components have long been used to allow simulators to predict system b...
A system which will provide real-time failure management support to the Space Station Freedom progra...
The objective is to develop a real time fault monitoring and diagnosis knowledge-based system (KBS) ...
The NASA Systems Autonomy Demonstration Project (SADP) was initiated in response to Congressional in...
Information is given in viewgraph form on the Space Station Freedom (SSF) Thermal Control System Aut...
The Maintenance and Diagnostic System (MDS) that is being developed at Honeywell to enhance the Faul...
A major goal of the Space Station era is to reduce reliance on support from ground based experts. Th...
A hierarchical, decentralized diagnostic system is proposed for the Real-Time Diagnostic System comp...
Designing Space Station Freedom has given NASA many opportunities to develop expert systems that aut...
The general operation of KATE, an artificial intelligence controller, is outlined. A shuttle environ...
Expert systems that require access to data bases, complex simulations and real time instrumentation ...
A great deal of attention has recently been given to Artificial Intelligence research in the area of...
In a previous study, Guo, Merrill and Duyar, 1990, reported a conceptual development of a fault dete...
Control of on-orbit operation of a spacecraft requires retention and application of special purpose,...
The Thermal Advanced Automation Project (TAAP) approach and architecture is described for automating...
Mathematical models of system components have long been used to allow simulators to predict system b...
A system which will provide real-time failure management support to the Space Station Freedom progra...
The objective is to develop a real time fault monitoring and diagnosis knowledge-based system (KBS) ...
The NASA Systems Autonomy Demonstration Project (SADP) was initiated in response to Congressional in...
Information is given in viewgraph form on the Space Station Freedom (SSF) Thermal Control System Aut...
The Maintenance and Diagnostic System (MDS) that is being developed at Honeywell to enhance the Faul...
A major goal of the Space Station era is to reduce reliance on support from ground based experts. Th...
A hierarchical, decentralized diagnostic system is proposed for the Real-Time Diagnostic System comp...
Designing Space Station Freedom has given NASA many opportunities to develop expert systems that aut...
The general operation of KATE, an artificial intelligence controller, is outlined. A shuttle environ...
Expert systems that require access to data bases, complex simulations and real time instrumentation ...
A great deal of attention has recently been given to Artificial Intelligence research in the area of...
In a previous study, Guo, Merrill and Duyar, 1990, reported a conceptual development of a fault dete...
Control of on-orbit operation of a spacecraft requires retention and application of special purpose,...