论文信息 - Fault diagnosis for the Space Shuttle main engine

Fault diagnosis for the Space Shuttle main engine

A conceptual design of a model-based fault detection and diagnosis system is developed for the Space Shuttle main engine. The design approach consists of process modeling, residual generation, and fault detection and diagnosis. The engine is modeled using a discrete time, quasilinear state-space representation. Model parameters are determined by identification. Residuals generated from the model are used by a neural network to detect and diagnose engine component faults. Fault diagnosis is accomplished by training the neural network to recognize the pattern of the respective fault signatures. Preliminary results for a failed valve, generated using a full, nonlinear simulation of the engine, are presented. These results indicate that the developed approach can be used for fault detection and diagnosis. The results also show that the developed model is an accurate and reliable predictor of the highly nonlinear and very complex engine.

Walter C. Merrill | Ahmet Duyar | W. Merrill | A. Duyar

[1] Walter C. Merrill,et al. A reusable rocket engine intelligent control , 1988 .

[2] Rolf Isermann,et al. Process fault detection based on modeling and estimation methods - A survey , 1984, Autom..

[3] Andrew P. Sage,et al. Estimation theory with applications to communications and control , 1979 .

[4] J.J. Gertler,et al. Survey of model-based failure detection and isolation in complex plants , 1988, IEEE Control Systems Magazine.

[5] Walter C. Merrill,et al. Identification of Space Shuttle Main Engine Dynamics , 1989, 1989 American Control Conference.

[6] Alan S. Willsky,et al. A survey of design methods for failure detection in dynamic systems , 1976, Autom..

[7] Ten-Huei Guo,et al. State space representation of the open-loop dynamics of the space shuttle main engine , 1991 .

[8] Paul M. Frank,et al. Fault diagnosis in dynamic systems using analytical and knowledge-based redundancy: A survey and some new results , 1990, Autom..

[9] H. Cikanek. Space shuttle main engine failure detection , 1986, IEEE Control Systems Magazine.

[10] Paul M. Frank,et al. Fault Diagnosis in Dynamic Systems , 1993, Robotics, Mechatronics and Manufacturing Systems.

[11] T.-H. Guo,et al. Space shuttle main engine model identification , 1990, IEEE Control Systems Magazine.