Controller design for nonlinear descriptor systems using parallel asynchronous particle swarm optimization

机译：基于并行异步粒子群算法的非线性描述符系统控制器设计

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This paper proposes a control strategy for descriptor non-polynomial systems using parallel asynchronous particle swarm optimization (PAPSO). Basic idea of our approach is to extend the existing approaches for estimating the domain of attraction (DOA) of the non-polynomial systems to synthesis of stabilizing control. To do this we derive the stability conditions for estimating the DOA with input magnitude constraints. From these conditions stabilizing controller is obtained by PAPSO. The proposed strategy can be easily exploited to search for both the stabilizing controller and optimal estimates of DOA. Usefulness and validity are demonstrated by numerical simulations.

机译：本文提出了一种使用并行异步粒子群优化算法（PAPSO）的描述符非多项式系统的控制策略。我们方法的基本思想是将现有的估计非多项式系统的吸引域（DOA）的方法扩展到稳定控制的综合。为此，我们导出了用于估计具有输入幅度约束的DOA的稳定性条件。在这些条件下，PAPSO将获得稳定控制器。可以很容易地利用所提出的策略来搜索稳定控制器和DOA的最佳估计值。数值模拟证明了其有效性和有效性。

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《IEEE/SICE International Symposium on System Integration》|2014年|263-268|共6页
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Tsuge Y.; Narikiyo T.; Kawanishi M.;
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control system synthesis; nonlinear control systems; particle swarm optimisation; stability; DOA estimates; PAPSO; controller design; descriptor nonpolynomial systems; domain of attraction; input magnitude constraints; nonlinear descriptor systems; parallel asynchronous particle swarm optimization; stabilizing control synthesis; Direction-of-arrival estimation; Mathematical model; Numerical stability; Polynomials; Stability analysis; Thermal stability;

机译：控制系统综合;非线性控制系统;粒子群优化;稳定性; DOA估计; PAPSO;控制器设计;描述符非多项式系统;吸引域;输入幅度约束;非线性描述符系统;并行异步粒子群优化;稳定控制综合;方向到达估计;数学模型;数值稳定性;多项式;稳定性分析;热稳定性;

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4. Controller design for nonlinear descriptor systems using parallel asynchronous particle swarm optimization [C] . Tsuge Y., Narikiyo T., Kawanishi M. IEEE/SICE International Symposium on System Integration . 2014

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Controller design for nonlinear descriptor systems using parallel asynchronous particle swarm optimization

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