引用本文:李荣辉,曹峻海,李铁山.波浪作用下船舶航向自抗扰控制设计及参数配置[J].控制理论与应用,2018,35(11):1601~1609.[点击复制]
LI Rong-hui,CAO Jun-hai,LI Tie-shan.Active disturbance rejection control design and parameters configuration for ship steering with wave disturbance[J].Control Theory and Technology,2018,35(11):1601~1609.[点击复制]
波浪作用下船舶航向自抗扰控制设计及参数配置
Active disturbance rejection control design and parameters configuration for ship steering with wave disturbance
摘要点击 2270  全文点击 1353  投稿时间:2018-04-30  修订日期:2018-12-12
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DOI编号  10.7641/CTA.2018.80319
  2018,35(11):1601-1609
中文关键词  自抗扰控制  船舶航向  扩张状态观测器  参数配置  带宽
英文关键词  active disturbance rejection control  ship steering  extended state observer  parameter configuration  bandwidth
基金项目  国家自然科学基金项目(51379026, 61751202)资助.
作者单位E-mail
李荣辉* 大连海事大学 lironghui@163.com 
曹峻海 大连海事大学  
李铁山 大连海事大学  
中文摘要
      针对具有内部参数不确定性和外部扰动的海上船舶设计了航向自抗扰控制器, 并解决了舵机模型中舵角 的限幅和限速问题, 基于滑模控制理论提出了反馈控制带宽的计算方法. 采用频域分析的方法, 系统地分析了自抗 扰控制器对外部波浪扰动的抑制能力、模型参数不确定时的鲁棒性; 结合作者实船工作经验以及系统动态特性与 控制参数的关系, 提出了船舶航向控制器参数的配置规律; 最后以一艘57000吨级散货船为控制对象, 验证了航向控 制器的鲁棒性和本文所述参数配置规律的有效性. 为将自抗扰控制算法应用于船舶自动舵设计提供理论依据和实 践参考.
英文摘要
      A novel active disturbance rejection controller (ADRC) of ship steering control is designed under the internal parameter uncertainties and external disturbances. Based on the sliding mode theory, a method to calculate the feedback control bandwidth is proposed and the limitation of rudder amplitude and rate is also resolved. The performance of the wave-rejection of the proposed controller is analyzed systematically in frequency domain, as well as the robustness to the model uncertainties. Taking the personal experience as a caption into consideration, the parameters configuration strategy of the ship steering controller is proposed, based on relationship between the system dynamic characteristics and controller parameters. Extensive simulation experiments are conducted on a 57,000 t bulk carrier to validate the efficiency of the proposed controller and the parameter configuration. So as to provide the theoretical basis and the practical reference for the ship autopilot control design.