Non-singular fast terminal sliding mode control of permanent magnet synchronous motor for automatic guided vehicle based on disturbance compensation

Wei Liu, Shuisheng Yu, Xiaowei Wang, Tingyu Zhou
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Abstract

In the smart factory, the loading and unloading of goods by automatic guided vehicle in the driving state will cause speed fluctuations. To this problem, this article takes the permanent magnet synchronous motor of automatic guided vehicle as the research object and studies the motor speed control of automatic guided vehicle when the load changes. This article presents a non-singular fast terminal sliding mode control strategy for permanent magnet synchronous motor based on disturbance feed-forward compensation. In order to solve the problem of chattering and slow reaching the speed of sliding mode control, this article designs an adaptive exponential reaching law, which can not only suppress sliding mode chattering but also adjust the reaching speed adaptively according to the system state. In order to solve the problem of external load disturbance, this article designs a sliding mode disturbance observer, which suppresses the influence of load disturbance on speed by compensating the observed values feed-forward into the current loop. Compared with proportional–integral and sliding mode control, the control strategy adopted in this article reduces the speed fluctuation by 3.12% and 2.00%, and the response time is reduced by 67.9% and 33.3%, respectively—finally, the load mutation experiments of automatic guided vehicle with permanent magnet synchronous motor as the driving motor is carried out. The experimental results further verify the effectiveness of the control strategy. Simulation and experimental results show that the proposed control strategy has better anti-interference ability and faster response speed.
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基于干扰补偿的自动导引车永磁同步电机非周期性快速终端滑动模式控制
在智能工厂中,自动导引车在行驶状态下装卸货物时会产生速度波动。针对这一问题,本文以自动导引车的永磁同步电机为研究对象,研究了自动导引车在负载变化时的电机速度控制。本文提出了一种基于扰动前馈补偿的永磁同步电机非矢量快速终端滑模控制策略。为了解决滑模控制的颤振和到达速度慢的问题,本文设计了一种自适应指数到达律,不仅能抑制滑模颤振,还能根据系统状态自适应地调整到达速度。为了解决外部负载扰动的问题,本文设计了一种滑动模式扰动观测器,通过补偿前馈到电流环的观测值来抑制负载扰动对速度的影响。最后,对以永磁同步电机为驱动电机的自动导引车进行了负载突变实验。实验结果进一步验证了控制策略的有效性。仿真和实验结果表明,所提出的控制策略具有更好的抗干扰能力和更快的响应速度。
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来源期刊
CiteScore
3.50
自引率
18.80%
发文量
99
审稿时长
4.2 months
期刊介绍: Systems and control studies provide a unifying framework for a wide range of engineering disciplines and industrial applications. The Journal of Systems and Control Engineering refleSystems and control studies provide a unifying framework for a wide range of engineering disciplines and industrial applications. The Journal of Systems and Control Engineering reflects this diversity by giving prominence to experimental application and industrial studies. "It is clear from the feedback we receive that the Journal is now recognised as one of the leaders in its field. We are particularly interested in highlighting experimental applications and industrial studies, but also new theoretical developments which are likely to provide the foundation for future applications. In 2009, we launched a new Series of "Forward Look" papers written by leading researchers and practitioners. These short articles are intended to be provocative and help to set the agenda for future developments. We continue to strive for fast decision times and minimum delays in the production processes." Professor Cliff Burrows - University of Bath, UK This journal is a member of the Committee on Publication Ethics (COPE).cts this diversity by giving prominence to experimental application and industrial studies.
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