Anti-Sway Control of a Gantry Crane with LMI Based Robust Pole Placement: Experimental Verification for Acceleration Control Approach

机译：基于LMI的稳固立杆放置的龙门起重机的防摆控制：加速控制方法的实验验证

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In this study, anti-sway control of an experimental overhead crane system is proposed with acceleration control approach. In this approach, acceleration of the cart is considered as control input. In order to satisfy transient performance objectives in the presence of parameter variations, a robust pole placement controller is designed. The parameter variations are modelled with a linear polytopic model. Hence, controller design is formualted as a convex optimization problem under linear matrix inequalities (LMIs) constraints. LMI regions are employed to restrict closed-loop pole locations in prescribed convex domains in complex plane. Performance of the proposed control has been verified in both simulation and experimental studies.

机译：在这项研究中，提出了一种采用加速控制方法的实验桥式起重机系统的防摆控制。在这种方法中，手推车的加速度被视为控制输入。为了在存在参数变化的情况下满足瞬态性能目标，设计了一种鲁棒的极点放置控制器。使用线性多主题模型对参数变化进行建模。因此，在线性矩阵不等式（LMI）约束下，控制器设计正式化为凸优化问题。 LMI区域用于限制复杂平面中规定凸域中的闭环极点位置。仿真和实验研究均验证了所提出控制的性能。

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来源
《2018 6th International Conference on Control Engineering amp; Information Technology》|2018年|1-6|共6页
会议地点 Istanbul(TR)
作者
Ayhan Aktas; Koert Bruggeman; Hakan Yazici; Mert Sever;
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作者单位

Department of Mechanical Engineering, Yildiz Technical University, Istanbul, Turkey;

Department of Mechanical Engineering Technology, KU Leuven, Ghent, Belgium;

Department of Mechanical Engineering, Yildiz Technical University, Istanbul, Turkey;

Department of Mechatronics Engineering, Yildiz Technical University, Istanbul, Turkey;

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原文格式 PDF
正文语种 eng
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关键词
acceleration control; closed loop systems; control system synthesis; cranes; feedback; linear matrix inequalities; linear systems; pole assignment; robust control;

机译：加速度控制;闭环系统;控制系统综合;起重机;反馈;线性矩阵不等式;线性系统;极点分配;鲁棒控制;;

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专利

1. Control Schemes for Input Tracking and Anti-sway Control of a Gantry Crane [J] . M.A. Ahmad, A.N.K. Nasir, R.M.T. Raja Ismail, Australian Journal of Basic and Applied Sciences . 2010,第1期

机译：龙门起重机输入跟踪和防摆控制的控制方案
2. Anti-sway Position Control of Crane based on Acceleration Feedback and Predicted Pattern Following Method [J] . Masakatsu Nomura, Yoshimi Hakamada, Hiroshi Saeki 電気学会論文誌. D . 1997,第11期

机译：基于加速度反馈和预测模式跟随法的起重机防摆位置控制
3. Model predictive control of gantry/bridge crane with anti-sway algorithm [J] . Jolevski Danijel, Bego Ozren Journal of Mechanical Science and Technology . 2015,第2期

机译：龙门/桥式起重机防摆模型预测控制
4. Anti-Sway Control of a Gantry Crane with LMI Based Robust Pole Placement: Experimental Verification for Acceleration Control Approach [C] . Ayhan Aktas, Koert Bruggeman, Hakan Yazici, International Conference on Control Engineering and Information Technology . 2018

机译：基于LMI的鲁棒杆放置龙门起重机的防摇摆控制：加速控制方法的实验验证
5. Acceleration feedback control strategies for active and semi-active control systems: Modeling, algorithm development, and experimental verification. [D] . Dyke, Shirley Jane. 1996

机译：主动和半主动控制系统的加速反馈控制策略：建模，算法开发和实验验证。
6. Anti-Sway and Positioning Adaptive Control of a Double-Pendulum Effect Crane System With Neural Network Compensation [O] . Hai-yan Qiang, You-gang Sun, Jin-chao Lyu, 2021

机译：具有神经网络补偿的双摆效起重机系统的防摇摆和定位自适应控制
7. An LMI Approach with Pole Placement Objective for the Design of Robust SSSC Controller for Damping Inter-Area Mode Oscillation Considering Global Signal [O] . Bhavin J Shah, G N Pillai, Pramod Agarwal 2018

机译：一种LMI方法，具有杆子放置物镜，用于考虑全局信号的阻尼区域跨度模式振荡的鲁棒SSSC控制器的设计
8. Fatality Assessment and Control Evaluation (FACE) Report for New Jersey: Crane Rigger/Spotter Run Over by Mobile Gantry Crane [R] . 2003

机译：新泽西州的死亡率评估和控制评估（FaCE）报告：通过移动式龙门起重机碾压起重机

Anti-Sway Control of a Gantry Crane with LMI Based Robust Pole Placement: Experimental Verification for Acceleration Control Approach

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