A method (300) for fault detection in a system under control includes monitoring a command value and a wraparound signal (301) by a fault detection module (203); determining a standard deviation of the command value (302) by the fault detection module; determining a standard deviation of the wraparo
A method (300) for fault detection in a system under control includes monitoring a command value and a wraparound signal (301) by a fault detection module (203); determining a standard deviation of the command value (302) by the fault detection module; determining a standard deviation of the wraparound signal (303) by the fault detection module; determining a ratio of the standard deviation of the command value to the standard deviation of the wraparound signal (304) by the fault detection module; and determining the presence or absence of a fault in the system under control by the fault detection module based on the ratio (305) by the fault detection module. A fault detection module (203) and a computer program product comprising a computer readable storage medium containing computer code that, when executed by a computer, implements a method (300) for fault detection are also provided.
대표청구항▼
1. A method (300) for fault detection in a system under control, the method comprising: monitoring a command value and a wraparound signal (301) by a fault detection module (203);determining a standard deviation of the command value (302) by the fault detection module;determining a standard deviatio
1. A method (300) for fault detection in a system under control, the method comprising: monitoring a command value and a wraparound signal (301) by a fault detection module (203);determining a standard deviation of the command value (302) by the fault detection module;determining a standard deviation of the wraparound signal (303) by the fault detection module;determining a ratio of the standard deviation of the command value to the standard deviation of the wraparound signal (304) by the fault detection module; anddetermining the presence or absence of a fault in the system under control by the fault detection module based on the ratio (305) by the fault detection module. 2. The method (300) of claim 1, wherein the fault detection module determines the presence of a fault in the system under control in the event a step change is detected in the ratio. 3. The method (300) of claim 1, wherein the fault detection module determines the absence of a fault in the system under control in the event the ratio is about 1.0. 4. The method (300) of claim 1, wherein a fault comprises an open or short in the system under control. 5. The method (300) of claim 1, wherein the system under control is controlled by a controller, and a wiring harness connects the controller to the system under control, and wherein the fault detection module is located in the controller. 6. The method (300) of claim 5, wherein the command value is issued by the controller, and wherein the command value is converted to a physical command signal, the physical command signal being received by the system under control from the controller, the physical command signal being configured to control the system under control, and wherein the wraparound signal is received by the fault detection module from the system under control. 7. The method (300) of claim 5, wherein the system under control comprises an electro-hydraulic servo valve (EHSV). 8. A fault detection module (203) configured to detect a fault in a system under control, the fault detection module further configured to: monitor a command value (204) and a wraparound signal (205);determine a standard deviation of the command value (204);determine a standard deviation of the wraparound signal (205);determine a ratio of the standard deviation of the command value (204) to the standard deviation of the wraparound signal (205); anddetermine the presence or absence of a fault in the system under control based on the ratio. 9. The fault detection module (203) of claim 8, wherein the fault detection module determines the presence of a fault in the system under control in the event a step change is detected in the ratio. 10. The fault detection module (203) of claim 8, wherein the fault detection module determines the absence of a fault in the system under control in the event the ratio is about 1.0. 11. The fault detection module (203) of claim 8, wherein a fault comprises an open or short in the system under control. 12. The fault detection module (203) of claim 8, wherein the system under control is controlled by a controller, and a wiring harness connects the controller to the system under control, and wherein the fault detection module is located in the controller. 13. The fault detection module (203) of claim 12, wherein the command value (204) is issued by the controller, and wherein the command value (204) is converted by a converter (201) to a physical command signal, the physical command signal being received by the system under control from the controller, the physical command signal being configured to control the system under control, and wherein the wraparound signal (205) is received by the fault detection module from the system under control. 14. The fault detection module (203) of claim 12, wherein the system under controle comprises an electro-hydraulic servo valve (EHSV). 15. A computer program product comprising a computer readable storage medium containing computer code that, when executed by a computer, implements a method (300) for fault detection in a system under control, wherein the method comprises: monitoring a command value and a wraparound signal (301);determining a standard deviation of the command value (302);determining a standard deviation of the wraparound signal (303);determining a ratio of the standard deviation of the command value to the standard deviation of the wraparound signal (304); anddetermining the presence or absence of a fault in the system under control by the fault detection module based on the ratio (305). 16. The computer program product according to claim 15, wherein the fault detection module determines the presence of a fault in the system under control in the event a step change is detected in the ratio. 17. The computer program product according to claim 15, wherein the fault detection module determines the absence of a fault in the system under control in the event the ratio is about 1.0. 18. The computer program product according to claim 15, wherein the system under control is controlled by a controller, and a wiring harness connects the controller to the system under control, and wherein the fault detection module is located in the controller. 19. The computer program product according to claim 18, wherein the command value is issued by the controller, and wherein the command value is converted to a physical command signal, the physical command signal being received by the system under control from the controller, the physical command signal being configured to control the system under control, and wherein the wraparound signal is received by the fault detection module from the system under control. 20. The computer program product according to claim 18, wherein the system under control comprises an electro-hydraulic servo valve (EHSV).
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이 특허에 인용된 특허 (6)
Kurihara Nobuo (Hitachiota JPX) Sato Yoshio (Hitachi JPX) Kawano Shigeyoshi (Hitachiota JPX) Iioka Michihiro (Katsuta JPX) Iba Daizo (Hitachi JPX) Kurihara Tadashi (Hitachi JPX), Diagnostic device for use with automatic control systems.
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