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死区直接补偿的电液系统BP神经网络控制
引用本文:刘霞勇,张潜,刘正浩,林贵华,赵建. 死区直接补偿的电液系统BP神经网络控制[J]. 液压与气动, 2022, 0(4): 165-172. DOI: 10.11832/j.issn.1000-4858.2022.04.021
作者姓名:刘霞勇  张潜  刘正浩  林贵华  赵建
作者单位:中国船舶及海洋工程设计研究院, 上海 200011
摘    要:为解决电液比例伺服系统无法精确定位的问题,推导了系统的流量动态平衡方程,并设计了一种基于死区直接补偿的BP(DZDC-BP)神经网络控制算法,即在线性化比例阀输入信号与输出流量关系的基础上,利用BP神经网络控制算法逼近非线性系统的特性,弥补系统中的非线性、未知参数、外部干扰和建模误差等问题,使得系统能够时刻跟随期望轨迹。使用MATLAB-AMESim软件对系统进行联合仿真,结果表明:无论系统有无外部干扰,DZDC-BP神经网络控制与有死区比例阀PID控制(PPID)和无死区比例阀PID控制(SPID)相比,系统的稳态误差都有显著的减少。说明DZDC-BP神经网络控制算法在一定程度上解决了系统中的死区和非线性等问题,同时具有良好的抗干扰能力,显著提高了系统的控制性能。

关 键 词:电液比例伺服系统  死区直接补偿  BP神经网络  联合仿真  
收稿时间:2021-03-29

BP Neural Network Control of Electro-hydraulic System with Dead-zone Direct Compensation
LIU Xia-yong,ZHANG Qian,LIU Zheng-hao,LIN Gui-hua,ZHAO Jian. BP Neural Network Control of Electro-hydraulic System with Dead-zone Direct Compensation[J]. Chinese Hydraulics & Pneumatics, 2022, 0(4): 165-172. DOI: 10.11832/j.issn.1000-4858.2022.04.021
Authors:LIU Xia-yong  ZHANG Qian  LIU Zheng-hao  LIN Gui-hua  ZHAO Jian
Affiliation:Marine Design & Research Institute of China, Shanghai200011
Abstract:In order to solve the problem that the electro-hydraulic proportional servo system can't accurately realize the positioning. The system's flow dynamic balance equation is derived. The dead-zone direct compensation BP (DZDC-BP) neural network control algorithm is designed. On the basis of linearization relationship between the input signal and output flow of the proportional valve, the BP neural network control algorithm is used to approximated the nonlinear system's characteristics, and makes up for the nonlinear, unknown parameters, external interference and modeling errors in the system. This enables the system to track the desired trajectory at any time. Finally, the joint simulation of MATLAB and AMESim is used to simulate the system. The results show that, whether or not the system has external interference, the steady-state error of the DZDC-BP neural network control is significantly reduced compared with the PID control of the proportional valve with and without dead-zone (PPID and SPID). It shows that the DZDC-BP neural network control algorithm can solve the system's problem, and has good anti-jamming capability, and improves the performance of the system.
Keywords:electro-hydraulic proportional servo system  dead-zone direct compensation  BP neural network  joint simulation  
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