NASA is investigating the use of advanced automation to enhance crew productivity for Space Station Freedom in numerous areas, including failure management. A prototype is described that uses various advanced automation techniques to generate courses of action whose intents are to recover from a diagnosed failure, and to do so within the constraints levied by the failure and by Freedom's configuration and operating conditions
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Failure detection, identification and recovery (FDIR) has been an important and necessary instrume...
Understanding risks and avoiding failure are daily concerns for the women and men of NASA. Although ...
NASA is investigating the use of advanced automation to enhance crew productivity for Space Station ...
This failure management prototype performs failure diagnosis and recovery management of hierarchical...
A system which will provide real-time failure management support to the Space Station Freedom progra...
The Maintenance and Diagnostic System (MDS) that is being developed at Honeywell to enhance the Faul...
NASA plans call for long duration deep space missions with human crews. Because of light-time delay ...
How can advanced automation techniques developed by NASA to perform Fault Detection, Isolation, and ...
Designing Space Station Freedom has given NASA many opportunities to develop expert systems that aut...
The complexity of space-based systems makes monitoring them and diagnosing their faults taxing for h...
The dynamic nature of the Cargo Transfer Vehicle's (CTV) mission and the high level of autonomy requ...
Pre-designed spacecraft plans suffer from failure due to the uncertain space environment. In this ca...
The content of the Advance Development Program and subsequent Engineering Prototype Development acti...
In the development of a safe, productive and maintainable space station, Automation and Robotics (A ...
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Failure detection, identification and recovery (FDIR) has been an important and necessary instrume...
Understanding risks and avoiding failure are daily concerns for the women and men of NASA. Although ...
NASA is investigating the use of advanced automation to enhance crew productivity for Space Station ...
This failure management prototype performs failure diagnosis and recovery management of hierarchical...
A system which will provide real-time failure management support to the Space Station Freedom progra...
The Maintenance and Diagnostic System (MDS) that is being developed at Honeywell to enhance the Faul...
NASA plans call for long duration deep space missions with human crews. Because of light-time delay ...
How can advanced automation techniques developed by NASA to perform Fault Detection, Isolation, and ...
Designing Space Station Freedom has given NASA many opportunities to develop expert systems that aut...
The complexity of space-based systems makes monitoring them and diagnosing their faults taxing for h...
The dynamic nature of the Cargo Transfer Vehicle's (CTV) mission and the high level of autonomy requ...
Pre-designed spacecraft plans suffer from failure due to the uncertain space environment. In this ca...
The content of the Advance Development Program and subsequent Engineering Prototype Development acti...
In the development of a safe, productive and maintainable space station, Automation and Robotics (A ...
This paper presents a novel failure-tolerant architecture for future robotic spacecraft. It is based...
Failure detection, identification and recovery (FDIR) has been an important and necessary instrume...
Understanding risks and avoiding failure are daily concerns for the women and men of NASA. Although ...