fault diagnosis and detection in industrial motor network environment using knowledge-level modelling technique

fault diagnosis and detection in industrial motor network environment using knowledge-level modelling technique

;Saud Altaf;Muhammad Waseem Soomro;Mirza Sajid Mehmood
Food science & nutrition 2017 Vol. 2017 pp. -
184
altaf2017modellingfault

Abstract

In this paper, broken rotor bar (BRB) fault is investigated by utilizing the Motor Current Signature Analysis (MCSA) method. In industrial environment, induction motor is very symmetrical, and it may have obvious electrical signal components at different fault frequencies due to their manufacturing errors, inappropriate motor installation, and other influencing factors. The misalignment experiments revealed that improper motor installation could lead to an unexpected frequency peak, which will affect the motor fault diagnosis process. Furthermore, manufacturing and operating noisy environment could also disturb the motor fault diagnosis process. This paper presents efficient supervised Artificial Neural Network (ANN) learning technique that is able to identify fault type when situation of diagnosis is uncertain. Significant features are taken out from the electric current which are based on the different frequency points and associated amplitude values with fault type. The simulation results showed that the proposed technique was able to diagnose the target fault type. The ANN architecture worked well with selecting of significant number of feature data sets. It seemed that, to the results, accuracy in fault detection with features vector has been achieved through classification performance and confusion error percentage is acceptable between healthy and faulty condition of motor.

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ID: 163234
Ref Key: altaf2017modellingfault
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0x95644003c57E6F55A65596E3D9Eac6813e3566dA
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163234
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10.1155/2017/1292190
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