Impact of fractional order integral performance indices in LQR based PID controller design via optimum selection of weighting matrices

机译：小数阶积分性能指标在基于LQR的PID控制器设计中通过权重矩阵的最佳选择的影响

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A continuous and discrete time Linear Quadratic Regulator (LQR) based technique has been used in this paper for the design of optimal analog and discrete PID controllers respectively. The PID controller gains are selected as the optimal state-feedback gains corresponding to the standard quadratic cost function. Genetic Algorithm (GA) has been used next to optimally find out the weighting matrices, associated with the respective optimal state-feedback regulator designs while minimizing another integral performance index which comprises of a weighted sum of Integral of Time multiplied Squared Error (ITSE) and the controller effort. Next, the proposed methodology is applied with fractional order (FO) integral performance indices. The impact of these FO objective functions on the LQR tuned PID control loops is also highlighted, along with the achievable cost of control.

机译：在本文中，基于连续和离散时间线性二次调节器（LQR）的技术已分别用于设计最佳模拟和离散PID控制器。选择PID控制器增益作为对应于标准二次成本函数的最佳状态反馈增益。接下来，使用遗传算法（GA）来最佳地找到加权矩阵，并与各个最佳状态反馈调节器设计相关联，同时最小化另一个积分性能指标，该指标包括时间积分乘方平方误差（ITSE）和控制器的努力。接下来，将所提出的方法应用于分数阶（FO）积分性能指标。还重点介绍了这些FO目标功能对LQR调整的PID控制回路的影响以及可实现的控制成本。

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来源
《2012 International Conference on Computer Communication and Informatics》|2012年|p.1-6|共6页
会议地点 Coimbatore(IN)
作者
Das Saptarshi; Pan Indranil; Halder Kaushik; Das Shantanu; Gupta Amitava;
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作者单位

School of Nuclear Studies and Applications, Jadavpur University, Kolkata India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算机网络;
关键词
LQR; PID controller tuning; fractional calculus; integral performance index; optimal control;

机译：LQR; PID控制器整定;分数阶微积分;综合性能指标;最优控制;

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专利

1. LQR based improved discrete PID controller design via optimum selection of weighting matrices using fractional order integral performance index [J] . Saptarshi Das, Indranil Pan, Kaushik Haider, Applied Mathematical Modelling . 2013,第6期

机译：基于LQR的改进的离散PID控制器设计，通过使用分数阶积分性能指标最佳选择加权矩阵
2. Multi-objective LQR with optimum weight selection to design FOPID controllers for delayed fractional order processes [J] . Das Saptarshi, Pan Indranil, Das Shantanu ISA Transactions . 2015,第Null期

机译：具有最佳权重选择的多目标LQR，以设计用于延迟分数阶过程的FOPID控制器
3. A novel fractional order fuzzy PID controller and its optimal time domain tuning based on integral performance indices [J] . Saptarshi Das, Indranil Pan, Shantanu Das, Engineering Applications of Artificial Intelligence . 2012,第2期

机译：基于积分性能指标的新型分数阶模糊PID控制器及其时域优化
4. Impact of Fractional Order Integral Performance Indices in LQR Based PID Controller Design via Optimum Selection of Weighting Matrices [C] . Saptarshi Das, Indranil Pan, Kaushik Halder, International Conference on Computer Communication and Informatics . 2012

机译：基于LQR基于PID控制器设计的分数顺序积分性能指标的影响通过加权矩阵优化选择
5. Simulated Annealing-based Optimal Proportional-Integral-Derivative (PID) Controller Design: A Case Study on Nonlinear Quadcopter Dynamics [D] . Nemirsky, Kristofer Kevin. 2017

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6. Optimal design of proportional–integral controllers for stand-alone solid oxide fuel cell power plant using differential evolution algorithm [O] . Ashik Ahmed, Md. Shahid Ullah -1

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7. LQR based improved discrete PID controller design via optimum selection of weighting matrices using fractional order integral performance index [O] . Das, Saptarshi, Pan, Indranil, Halder, Kaushik, 2013

机译：基于LQR的改进离散pID控制器设计通过最佳选择加权矩阵的分数阶积分性能指标

Impact of fractional order integral performance indices in LQR based PID controller design via optimum selection of weighting matrices

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