合作-对抗网络有限时间和固定时间二部遏制控制的充分必要条件

IF 4 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Control of Network Systems Pub Date : 2024-11-11 DOI:10.1109/TCNS.2024.3496653

Zhen-Hua Zhu;Huaiyu Wu;Han Wu;Zhi-Hong Guan;Xiujuan Zheng;Zhi-Wei Liu

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引用次数: 0

摘要

研究任意弱连通有向图上多导单积子合作对抗网络的有限时间和固定时间二部遏制控制问题。领导者可以是静止的，也可以通过与周围其他领导者的互动而动态发展。基于最近邻规则，提出了一种统一的分布式非线性控制方案。通过严格的lyapunov分析表明，在所提出的控制方案下，当且仅当底层弱连接有符号有向图包含至少一个结构平衡的闭强分量时，所有follower能够在有限时间或固定时间内收敛到由每个leader的轨迹及其对称轨迹具有相同振幅但不同符号所组成的凸包。作为副产物，建立了单积分合作对抗网络实现有限时间和固定时间二部共识、区间二部共识和稳定性的充分必要准则。通过仿真验证了所提控制方案的有效性。

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Necessary and Sufficient Conditions for Finite-Time and Fixed-Time Bipartite Containment Control of Cooperative–Antagonistic Networks

This article addresses the problems of finite-time and fixed-time bipartite containment control for single-integrator cooperative-antagonistic networks with multiple leaders over arbitrary weakly connected signed digraphs. The leaders can be either stationary or evolving dynamically through interacting with other leaders in their neighborhood. Based on the nearest neighbor rule, a unified distributed nonlinear control scheme is proposed. With rigorous Lyapunov-based analysis, it is shown that under the proposed control scheme, all followers can converge toward the convex hull formed by each leader's trajectory and its symmetrical trajectory having the same amplitude but different sign in a finite time or fixed time if and only if the underlying weakly connected signed digraph contains at least one structurally balanced closed strong component. As a byproduct, necessary and sufficient criteria are established for single-integrator cooperative-antagonistic networks to achieve finite-time and fixed-time bipartite consensuses, interval bipartite consensus, and stability. The effectiveness of the presented control scheme is illustrated via simulations.

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来源期刊

IEEE Transactions on Control of Network Systems Mathematics-Control and Optimization

CiteScore

7.80

自引率

7.10%

发文量

169

期刊介绍： The IEEE Transactions on Control of Network Systems is committed to the timely publication of high-impact papers at the intersection of control systems and network science. In particular, the journal addresses research on the analysis, design and implementation of networked control systems, as well as control over networks. Relevant work includes the full spectrum from basic research on control systems to the design of engineering solutions for automatic control of, and over, networks. The topics covered by this journal include: Coordinated control and estimation over networks, Control and computation over sensor networks, Control under communication constraints, Control and performance analysis issues that arise in the dynamics of networks used in application areas such as communications, computers, transportation, manufacturing, Web ranking and aggregation, social networks, biology, power systems, economics, Synchronization of activities across a controlled network, Stability analysis of controlled networks, Analysis of networks as hybrid dynamical systems.