The convergence analysis of bat-inspired consensus protocols with nonlinear dynamics

Qishuai Liu, Qing Hui
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引用次数: 4

Abstract

This paper proposes a new class of cooperative bat-inspired consensus protocols including a collection of nonlinear dynamics for multi-agent coordination. The proposed consensus protocols embed a suggested convergence direction which can improve the performance of convergence time. This suggested convergence direction can be used to design a distributed algorithm for controlling multi-agent systems while simultaneously solving a large-scale optimization problem. By virtue of a Lyapunov-based method, we show that the proposed bat-inspired consensus protocols can reach the global consensus asymptotically. Meanwhile, the bat-inspired consensus protocols subjected to external disturbance are also considered. We give the theoretical proof of a sufficient condition for guaranteeing the convergence of the extended consensus protocols with disturbances.
具有非线性动力学的蝙蝠启发共识协议的收敛性分析
本文提出了一类新的基于蝙蝠的协作共识协议,该协议包含了多智能体协调的非线性动力学集合。所提出的共识协议嵌入了一个建议的收敛方向,可以提高收敛时间的性能。这一收敛方向可用于设计一种分布式算法来控制多智能体系统,同时解决大规模优化问题。通过基于lyapunov的方法,我们证明了所提出的蝙蝠启发的共识协议可以渐近地达到全局共识。同时,还考虑了外部干扰下蝙蝠启发的共识协议。从理论上证明了具有扰动的扩展共识协议收敛性的一个充分条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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