Title :
Gyro-based maximum-likelihood thruster fault detection and identification
Author :
Wilson, Edward ; Lages, Chris ; Mah, Robert
Author_Institution :
Intellization, USA
Abstract :
When building smaller, less expensive spacecraft, there is a need for intelligent fault tolerance vs. increased hardware redundancy. If fault tolerance can be achieved using existing navigation sensors, cost and vehicle complexity can be reduced. A maximum-likelihood-based approach to thruster fault detection and identification (FDI) for spacecraft is developed here and applied in simulation to the X-38 space vehicle. The system uses only gyro signals to detect and identify hard, abrupt, single- and multiple-jet on- and off-failures. Faults are detected within one second and identified within one to five seconds.
Keywords :
aerospace instrumentation; aerospace propulsion; fault diagnosis; gyroscopes; maximum likelihood estimation; space vehicles; 1 to 5 s; 17131; Spacecraft; X-38 space vehicle; cost complexity; gyro-based maximum-likelihood thruster fault detection; gyro-based maximum-likelihood thruster fault identification; increased hardware redundancy; intelligent fault tolerance; maximum-likelihood-based approach; navigation sensors; vehicle complexity; Fault detection; Fault diagnosis; Fault tolerance; Hardware; Intelligent sensors; Intelligent structures; Maximum likelihood detection; Navigation; Redundancy; Space vehicles;
Conference_Titel :
American Control Conference, 2002. Proceedings of the 2002
Print_ISBN :
0-7803-7298-0
DOI :
10.1109/ACC.2002.1025364
