Traditional and 2-SMC Control Strategies for Coupled Tank System

2019 Third International Conference on Inventive Systems and Control (ICISC) Pub Date : 2019-01-01 DOI:10.1109/ICISC44355.2019.9036440

B. A. Reddy, P. V. Krishna

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引用次数: 1

Abstract

This paper focuses on maintaining the liquid level in tank two in the coupled tank control system with the help of the sliding mode control (SMC). SMC is the potent controller for coupled tank liquid level system under tracking conditions. Sliding mode controller (SMC) is nonlinear control it applies a discontinuous control signal. The main advantages of sliding mode are low sensitivity to plant parameter variations and disturbances. To maintain desired liquid levels in a nonlinear coupled tank is a great challenging task so this problem better handled by SMC. To control this liquid level process a SMC strategy is used we have first order SMC and second order SMC. Regulating this system in less time with proper control signal is not possible in first order SMC due to chattering is obtained which yields unwanted control signal. To fill tank-2 in less time with smooth control signal is possible in higher order SMC. Next, second order SMC is applied and stability is reached fast and no chattering phenomenon. These can be shown in the simulation results with the help of MATLAB. This application report describes how to develop SMC for liquid level control in coupled tank system.

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耦合储罐系统的传统控制策略和2-SMC控制策略

本文主要研究了滑模控制(SMC)对耦合油箱控制系统中油箱2液位的控制问题。SMC是跟踪条件下耦合罐体液位系统的有效控制器。滑模控制器(SMC)是一种非线性控制，它采用的是不连续的控制信号。滑模的主要优点是对对象参数变化和干扰的敏感性低。在非线性耦合的储罐中保持理想的液位是一项极具挑战性的任务，因此SMC可以更好地解决这一问题。为了控制这个液位过程，我们采用了一阶SMC和二阶SMC策略。由于一阶SMC会产生抖振，产生不需要的控制信号，因此无法在较短的时间内用适当的控制信号对系统进行调节。在高阶SMC中，以平滑的控制信号在较短的时间内填满2号油箱是可能的。其次，应用二阶SMC，快速稳定且无抖振现象。这些可以在MATLAB的仿真结果中得到体现。本应用报告描述了如何开发SMC用于耦合罐体系统的液位控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 Third International Conference on Inventive Systems and Control (ICISC)

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