Study on on-Line Fault Diagnosis of Torque and Position Sensor of EPS Based on Artificial Neural Networks

Jun Gu

doi:10.4028/www.scientific.net/AMR.490-495.638

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 490-495Study on on-Line Fault Diagnosis of Torque and...

Study on on-Line Fault Diagnosis of Torque and Position Sensor of EPS Based on Artificial Neural Networks

Abstract:

The strategy of the On-line Fault Diagnosis of the torque and position sensor of the EPS system based on the artificial neural networks (ANN) is advanced in this paper. The strategy is modeled, simulated and analyzed in ANN Toolbox of Mat lab. The results show that the strategy is effective and it can be applied in the development of EPS fault diagnosis.

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Periodical:

Advanced Materials Research (Volumes 490-495)

Pages:

638-642

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.490-495.638

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Online since:

March 2012

Authors:

Jun Gu

Keywords:

Artificial Neural Network (ANN), Electric Power Steering, On-Line Fault Diagnosis, Torque and Position Sensor (TPS)

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References

[1] Zhang Ping; car-wire steering system fault-tolerant control method [D]; Jilin University; (2008).

Google Scholar

[2] Wang Yingmin; actuator based on information fusion fault diagnosis [D]; North China Electric Power University (Hebei); (2007).

Google Scholar

[3] LU Yao; X font torpedo rudder fault diagnosis and fault-tolerant control technology [D]; Northwestern University; (2007).

Google Scholar

[4] Jia Wang; small reactor fault diagnosis and fault-tolerant control method [D]; Harbin Engineering University; (2007).

Google Scholar

[5] Zhang Zhizhou; high-speed maglev train rail suspension system of a single fault-tolerant control study [D]; National Defense Science and Technology University; (2006).

Google Scholar

[6] Meng Miao deposit; Internet-based fault-tolerant technology research and explore the [D]; Harbin Engineering University; (2006).

Google Scholar

[7] Su Hong, Pei Tian, Chang Xiao right, places like peak; the water level sensor based on RBF network fault diagnosis [J]; North China Electric Power University; 2005 03.

Google Scholar

[8] Lear country, Jin-shou; RBF neural network based fault diagnosis method [J]; East China University of Technology; 06, (2002).

Google Scholar

[9] Gu Li Chen, Yun Zhang, Qiu great plans; neural network-based sensor fault monitoring and diagnosis method [J]; Xi'an Jiaotong University; 2002 09.

Google Scholar

[10] Hai-Qing Wang, Zhi-Huan Song, Li Ping; principal component analysis method can detect the failure of research [J]; Journal of Scientific Instrument; 2002 03.

Google Scholar

[11] Bowen, Yu Daren, Wang Wei, Xu Zhiqiang; thermal power plant based on association rules sensor fault detection [J]; China Electrical Engineering; 12, (2003).

Google Scholar

[12] Lixiu Xi, Qian Yu, Song Guang Jun, Jiang Yanrong; catalytic cracking unit fault diagnosis system design and development [J]; chemical automation and instrumentation; 06, (2003).

Google Scholar

[13] Fuke Chang; Dai Liankui; Wu Tiejun; adaptive filtering algorithm based on polynomial steady-state detection [J]; chemical automation and instrumentation; 05, (2006).

Google Scholar

[14] Chen Jin, Liang, Ji-Xin Qian; independent component analysis (ICA) and in the chemical process monitoring and fault diagnosis [J]; Chemical Engineering; 2003 10.

DOI: 10.1109/wcica.2004.1340933

Google Scholar

[15] Hai-Qing Wang, Song Zhi-huan, WANG Hui; PCA monitoring method of fault detection process behavior analysis [J]; Chemical Engineering; 03, (2002).

Google Scholar

[16] Luning Yun, Yang Yinghua, Fu-Li Wang; based on iterative principal component analysis method of process monitoring and implementation [J]; control and decision-making; 02, (2002).

Google Scholar