Affiliation:
1. The Graduate School of Engineering, Tokyo University of Agriculture and Technology, Tokyo 184-8588, Japan
Abstract
This paper presents a nonlinear fault-tolerant vibration control system for a flexible arm, considering partial actuator fault. A lightweight flexible arm with lower stiffness will inevitably cause vibration which will impair the performance of the high-precision control system. Therefore, an operator-based robust nonlinear vibration control system is integrated by a double-sided interactive controller actuated by the Shape Memory Alloy (SMA) actuators for the flexible arm. Furthermore, to improve the safety and reliability of the safety-critical application, fault-tolerant dynamics for partial actuator fault are considered as an essential part of the proposed control system. The experimental cases are set to the partial actuator as faulty conditions, and the proposed vibration control scheme has fault-tolerant dynamics which can still effectively stabilize the vibration displacement. The reconfigurable controller improves the fault-tolerant performance by shortening the vibration time and reducing the vibration displacement of the flexible arm. In addition, compared with a PD controller, the proposed nonlinear vibration control has better performance than the traditional controller. The experimental results show that the effectiveness of the proposed method is confirmed. That is, the safety and reliability of the proposed fault-tolerant vibration control are verified even if in the presence of an actuator fault.
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1. SMA Actuator-Based Nonlinear Fault Tolerant Control for A Flexible Arm with Active Compensating Unit;2023 62nd Annual Conference of the Society of Instrument and Control Engineers (SICE);2023-09-06
2. Temperature Features of Shape Memory Alloy Actuation Control System;2023 International Conference on Advanced Mechatronic Systems (ICAMechS);2023-09-04