文章摘要
杨常平,喻言,李芦钰,冷晓智,张帅帅,欧进萍.悬臂梁结构串级无线预测控制算法研究及验证[J].,2017,57(6):650-656
悬臂梁结构串级无线预测控制算法研究及验证
Study and validation of cascade wireless predictive control algorithm for cantilever beam structure
  
DOI:10.7511/dllgxb201706015
中文关键词: 延时补偿  无线控制  悬臂梁  预测控制
英文关键词: time delay compensation  wireless control  cantilever beam  predictive control
基金项目:国家自然科学基金资助项目(51678108,51378093);国家国际科技合作专项项目(2015DFG82080);辽宁省高校优秀人才支持计划资助项目(LJQ2015028);辽宁百千万人才工程项目(201724).
作者单位
杨常平,喻言,李芦钰,冷晓智,张帅帅,欧进萍  
摘要点击次数: 327
全文下载次数: 469
中文摘要:
      应用无线方式对结构进行主动控制已经有了初步研究,并逐步取代传统的有线控制策略.无线方式不可避免地引入了延时,影响了系统稳定和控制效果,所以无线主动控制必须要解决延时问题.基于悬臂梁结构搭建了无线控制实验系统,采用PID和模型预测控制相结合的串级控制策略,增加了延时补偿算法,分别以无延时、信号采集端有延时、信号采集端及控制信号输出端都有延时3种工况,对悬臂梁无线控制系统进行了仿真与实验.仿真和实验结果表明,所建立的无线控制系统可以对模型结构实现控制,所运用的延时补偿策略能达到与有线控制相媲美的控制效果,对实际工程应用具有很好的借鉴作用.
英文摘要:
      The application of structure active control based on a wireless method has been studied preliminarily and tends to replace the traditional wired control method. However, the problem of time delay in a wireless control system is inevitable, and because of this problem, system stability and control capability are greatly influenced. Therefore, it is indispensable to solve the problem of time delay in a wireless control system. Based on a cantilever beam, a wireless control experimental system is proposed and implemented, and by using a cascade control strategy with a time delay compensation algorithm which combines PID and model predictive control, simulation and experiment are carried out in three different conditions which are activated without delay, with time delay at the signal acquisition terminal, with time delay at both acquisition terminal and output terminal respectively. Simulation and experiment results demonstrate that this method can effectively compensate for time delay and enable the wireless control system to exhibit excellent control performance that can be favorably compared with that of wired control. It has a good reference for practical engineering applications.
查看全文   查看/发表评论  下载PDF阅读器
关闭