Research Article Open Access

Fault-Tolerant Control of a Nonlinear Uncertain System: A Neural Network-Based Passive Approaches and Comparative Study with State-of-the-Art Control Approaches

Sejal K. Raval1, Himanshukumar Rajendrabhai Patel2 and Vipul A. Shah2
  • 1 Instrumentation and Control Engineering, India
  • 2 Dharmsinh Desai University, India

Abstract

This article suggests passive methods for designing Fault-Tolerant Control (FTC) for nonlinear uncertain systems with actuator and leak faults. To anticipate the Fault-Tolerant Control (FTC) action to overcome the actuator and leak faults, two-layer Feed-Forward Back-Propagation Neural Network (FFBPNN) and two-layer Cascade Forward Neural Network (CFNN) have been used, it will also tolerate external process additive disturbances. We employ the passive approach for fault-tolerant control using Proportional Integral Derivative (PID) control methodology to create a fault-tolerant controller without a fault detection mechanism. Further, we use the four residue signal features (i.e., mean, variance, skewness and normalize data of residue signal) to train the neural network in this study to tackle the issue originating from having less faults and uncertainty from residue signal. To show the efficacy of the suggested approach, simulations are run. The measurement of the residue signal was done using a healthy and a faulty uncertain non-linear system model. A comparison of findings utilizing a state of-the-art control methodology provided in (Dutta et al., 2014) was also presented to validate the proposed FTC methodology.

Journal of Computer Science
Volume 17 No. 7, 2021, 657-669

DOI: https://doi.org/10.3844/jcssp.2021.657.669

Submitted On: 21 May 2021 Published On: 3 August 2021

How to Cite: Raval, S. K., Patel, H. R. & Shah, V. A. (2021). Fault-Tolerant Control of a Nonlinear Uncertain System: A Neural Network-Based Passive Approaches and Comparative Study with State-of-the-Art Control Approaches. Journal of Computer Science, 17(7), 657-669. https://doi.org/10.3844/jcssp.2021.657.669

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Keywords

  • Actuator Fault
  • MIMO Uncertain System
  • Passive Fault Tolerant Control
  • Neural Network