Passive Approach for Fault Tolerant Controller Using Hybrid Controller Structure for Effective Level Control of Conical Tank System

H. Patel, V. Shah
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引用次数: 1

Abstract

The Article Propose An Efficacious Fault Tolerant Control (FTC) Strategy Using The Hybrid Controller Structure To Establish Stable And Tracking Control With Two Faults Constrain In The Area Of Two Tank Canonical Non-Interacting Level Control System (TTCNILCS). Many Process Industries Use Canonical Tanks Because Of Its Varying Cross-Section Area Which Contributes Better Throughput From An Outlet For Different Material. Hence TTCNILCS Exhibit Nonlinear Behavior Because Of Its Changing Cross Section Area. The Problem Of Passive FTC (PFTC) For The TTCNILCS With The Unknown Actuator And Sensor Fault Is Investigated. The Actuator And Sensor Fault Is Assumed To Have No Traditional Affine Appearance Of The System And Control Input. Hybrid Controller (Neural Network Plus PID Controller) Is Used To Design PFTC And Implement To Achieve Satisfactory Steady-State Performance From TTCNILCS. The Effectiveness Of The Proposed Controller Validate From The Simulation Results And Errors Like MSE, ISE And ITAE.
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基于混合控制器结构的无源容错控制器在锥形水箱系统液位控制中的应用
摘要针对典型非相互作用液位控制系统(TTCNILCS),提出了一种有效的容错控制策略,利用混合控制器结构建立具有双故障约束的稳定跟踪控制。许多过程工业使用标准罐,因为它的不同的横截面面积,有助于更好的吞吐量从一个出口为不同的材料。因此,TTCNILCS由于其截面面积的变化而表现出非线性行为。研究了在致动器和传感器故障未知的情况下,TTCNILCS的无源FTC (PFTC)问题。假设执行器和传感器故障不具有传统的系统和控制输入的仿射外观。采用混合控制器(神经网络加PID控制器)设计并实现了TTCNILCS的稳态性能。从仿真结果和MSE、ISE、ITAE等误差验证了所提控制器的有效性。
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33.30%
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