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NASA NTRS · Conference Paper

Rocket engine failure detection using system identification techniques

Published 2019-06-24 From Legacy CDMS 2 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Legacy CDMS.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

The theoretical foundation and application of two univariate failure detection algorithms to Space Shuttle Main Engine (SSME) test firing data is presented. Both algorithms were applied to data collected during steady state operation of the engine. One algorithm, the time series algorithm, is based on time series techniques and involves the computation of autoregressive models. Time series techniques have been previously applied to SSME data. The second algorithm is based on standard signal processing techniques. It consists of tracking the variations in the average signal power with time. The average signal power algorithm is a newly proposed SSME failure detection algorithm. Seven nominal test firings were used to develop failure indication thresholds for each algorithm. These thresholds were tested using four anomalous firings and one additional nominal firing. Both algorithms provided significantly earlier failure indication times than did the current redline limit system. Neither algorithm gave false failure indications for the nominal firing. The strengths and weaknesses of the two algorithms are discussed and compared. The average signal algorithm was found to have several advantages over the time series algorithm.

Authors

  • Meyer, Claudia M. NASA Lewis Research Center
  • Zakrajsek, June F. NASA Lewis Research Center; Sverdrup Technology, Inc.

Citation: Meyer, Claudia M., Zakrajsek, June F. (2019). Rocket engine failure detection using system identification techniques. Legacy CDMS. NASA NTRS ID 19900060150. https://ntrs.nasa.gov/citations/19900060150 ↗