有向网络下二阶线性多个体动力学系统的渐近性

Asymptotic behavior of second-order linear multi-agent dynamic systems in directed network

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摘要本文探讨任意有向通讯网络条件下二阶线性多个体动力学系统的渐近性质及其与系统结构的关系.二阶多个体系统的平衡态可以用惯性概念描述.当系统位置控制系数与速度控制系数满足一定的关系时系统将趋于惯性状态.独立基本子系统趋于自身的位置一致惯性状态,这一状态由子系统状态初值以及其Laplacian零特征根左特征向量所确定;非独立子系统中个体的惯性状态在独立基本子系统位置一致惯性状态所决定的凸集内. This paper investigates the asymptotical behavior of second-order linear multi-agent dynamic systems in a direct communication network, and the configuration relation between those systems and the system structure. We use the notion of inertia in classical mechanism to describe the asymptotic behavior of second-order systems. When the parameters of position-control and the parameters of velocity-control of the system satisfy some conditions, the system approaches to the inertia-state. Meanwhile, the basic independent systems uniformly approach to the individual inertia-states which are determined by system initial-conditions and Laplacian left-eigenvectors associated with the zero eigenvalue; while the dependent systems reach some inertia-states in the convex-combination of individual inertia-states of independent systems.

作者金继东郑毓蕃

机构地区上海大学数学系首都经济贸易大学计算机科学与技术系

出处《控制理论与应用》 EI CAS CSCD 北大核心 2011年第3期294-299,308,共7页 Control Theory & Applications

基金国家自然科学基金资助项目(60674046)

关键词 Frobenius标准型对角占优惯性带权中心凸组合 Frobenius canonical form diagonally dominant inertia weighted center convex combination

分类号 O157.5 [理学—基础数学]

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有向网络下二阶线性多个体动力学系统的渐近性

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