A novel KFCM based fault diagnosis method for unknown faults in satellite reaction wheels-Reference-Cited by-同舟云学术

A novel KFCM based fault diagnosis method for unknown faults in satellite reaction wheels

Published:2012-03 Issue:2 Volume:51 Page:309-316
ISSN:0019-0578
Container-title:ISA Transactions
language:en
Short-container-title:ISA Transactions

Author:

Hu Di,Sarosh Ali,Dong Yun-Feng

Publisher

Elsevier BV

Subject

Applied Mathematics,Control and Systems Engineering,Electrical and Electronic Engineering,Computer Science Applications,Instrumentation

Reference35 articles.

1. Development and validation of reaction wheel disturbance models: empirical model;Masterson;Journal of Sound and Vibration,2002

2. Leite AC, Lopes RVdaF, Kuga HK. Model based fault detection on a reaction wheel. In: Brazilian conference on dynamic, control and their application. 2006. p. 1–4.

3. S Marble, D Tow. Bearing health monitoring and life extension in satellite momentum/reaction wheels. In: IEEE. 2006. p. 1–7.

4. Li ZQ, Ma L, Khorasani K. A dynamic neural network based reaction wheel fault diagnosis for satellite. In: 2006 International joint conference on neural networks. 2006. p. 3714–21.

5. Dynamic neural network based fault diagnosis for attitude control subsistem of a satellite;Li,2006

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