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253 results on '"Zheng, Yuanshi"'

1. Scalable second-order consensus of hierarchical groups

Author

Wang, Jiamin, Liu, Jian, Xiao, Feng, Xi, Ning, and Zheng, Yuanshi

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Motivated by widespread dominance hierarchy, growth of group sizes, and feedback mechanisms in social species, we are devoted to exploring the scalable second-order consensus of hierarchical groups. More specifically, a hierarchical group consists of a collection of agents with double-integrator dynamics on a directed acyclic graph with additional reverse edges, which characterize feedback mechanisms across hierarchical layers. As the group size grows and the reverse edges appear, we investigate whether the absolute velocity protocol and the relative velocity protocol can preserve the system consensus property without tuning the control gains. It is rigorously proved that the absolute velocity protocol is able to achieve completely scalable second-order consensus but the relative velocity protocol cannot. This result theoretically reveals how the scalable coordination behavior in hierarchical groups is determined by local interaction rules. Moreover, we develop a hierarchical structure in order to achieve scalable second-order consensus for networks of any size and with any number of reverse edges., Comment: 9 pages, 1 figure

Published
2024

2. Protocol selection for second-order consensus against disturbance

Author

Wang, Jiamin, Zhou, Liqi, Zhang, Dong, Liu, Jian, and Zheng, Yuanshi

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Noticing that both the absolute and relative velocity protocols can solve the second-order consensus of multi-agent systems, this paper aims to investigate which of the above two protocols has better anti-disturbance capability, in which the anti-disturbance capability is measured by the L2 gain from the disturbance to the consensus error. More specifically, by the orthogonal transformation technique, the analytic expression of the L2 gain of the second-order multi-agent system with absolute velocity protocol is firstly derived, followed by the counterpart with relative velocity protocol. It is shown that both the L2 gains for absolute and relative velocity protocols are determined only by the minimum non-zero eigenvalue of Laplacian matrix and the tunable gains of the state and velocity. Then, we establish the graph conditions to tell which protocol has better anti-disturbance capability. Moreover, we propose a two-step scheme to improve the anti-disturbance capability of second-order multi-agent systems. Finally, simulations are given to illustrate the effectiveness of our findings.

Published
2022

15. Game-based coalescence over multi-agent systems

Author

Ma, Jingying, Du, Jinming, and Zheng, Yuanshi

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Coalescence, as a kind of ubiquitous group behavior in the nature and society, means that agents, companies or other substances keep consensus in states and act as a whole. This paper considers coalescence for n rational agents with distinct initial states. Considering the rationality and intellectuality of the population, the coalescing process is described by a bimatrix game which has the unique mixed strategy Nash equilibrium solution. Since the process is not an independent stochastic process, it is difficult to analyze the coalescing process. By using the first Borel-Cantelli Lemma, we prove that all agents will coalesce into one group with probability one. Moreover, the expected coalescence time is also evaluated. For the scenario where payoff functions are power functions, we obtain the distribution and expected value of coalescence time. Finally, simulation examples are provided to validate the effectiveness of the theoretical results.

Published
2019

22. Delta-operator based consensus analysis of multi-agent networks with link failures

Author

Lin, Xue, Zheng, Yuanshi, and Wang, Long

Subjects
Computer Science - Systems and Control
Abstract

In this paper, a discrete-time multi-agent system is presented which is formulated in terms of the delta operator. The proposed multi-agent system can unify discrete-time and continuous-time multi-agent systems. In a multi-agent network, in practice, the communication among agents is acted upon by various factors. The communication network among faulty agents may cause link failures, which is modeled by randomly switching graphs. First, we show that the delta representation of discrete-time multi-agent system reaches consensus in mean (in probability and almost surely) if the expected graph is strongly connected. The results induce that the continuous-time multi-agent system with random networks can also reach consensus in the same sense. Second, the influence of faulty agents on consensus value is quantified under original network. By using matrix perturbation theory, the error bound is also presented in this paper. Finally, a simulation example is provided to demonstrate the effectiveness of our theoretical results., Comment: 19 pages, 3 figures

Published
2017

25. Consensus of Hybrid Multi-agent Systems

Author

Zheng, Yuanshi, Ma, Jingying, and Wang, Long

Subjects
Computer Science - Systems and Control
Abstract

In this paper, we consider the consensus problem of hybrid multi-agent system. First, the hybrid multi-agent system is proposed which is composed of continuous-time and discrete-time dynamic agents. Then, three kinds of consensus protocols are presented for hybrid multi-agent system. The analysis tool developed in this paper is based on the matrix theory and graph theory. With different restrictions of the sampling period, some necessary and sufficient conditions are established for solving the consensus of hybrid multi-agent system. The consensus states are also obtained under different protocols. Finally, simulation examples are provided to demonstrate the effectiveness of our theoretical results.

Published
2015

27. Consensus of Multi-agent Systems Under State-dependent Information Transmission

Author

Jing, Gangshan, Zheng, Yuanshi, and Wang, Long

Subjects
Computer Science - Systems and Control
Abstract

In this paper, we study the consensus problem for continuous-time and discrete-time multi-agent systems in state-dependent switching networks. In each case, we first consider the networks with fixed connectivity, in which the communication between adjacent agents always exists but the influence could possibly become negligible if the transmission distance is long enough. It is obtained that consensus can be reached under a restriction of either the decaying rate of the transmission weight or the initial states of the agents. After then we investigate the networks with state-dependent connectivity, in which the information transmission between adjacent agents gradually vanishes if their distance exceeds a fixed range. In such networks, we prove that the realization of consensus requires the validity of some initial conditions. Finally, the conclusions are applied to models with the transmission law of C-S model, opinion dynamics and the rendezvous problem, the corresponding simulations are also presented.

Published
2014

31. Optimal topology of multi-agent systems with two leaders: a zero-sum game perspective

Author

Ma, Jingying, Zheng, Yuanshi, Wu, Bin, and Wang, Long

Subjects
Computer Science - Systems and Control, Computer Science - Computer Science and Game Theory, Computer Science - Multiagent Systems
Abstract

It is typical to assume that there is no conflict of interest among leaders. Under such assumption, it is known that, for a multi-agent system with two leaders, if the followers' interaction subgraph is undirected and connected, then followers will converge to a convex combination of two leaders' states with linear consensus protocol. In this paper, we introduce the conflict between leaders: by choosing k followers to connect with, every leader attempts all followers converge to himself closer than that of the other. By using graph theory and matrix theory, we formulate this conflict as a standard two-player zero-sum game and give some properties about it. It is noteworthy that the interaction graph here is generated from the conflict between leaders. Interestingly, we find that to find the optimal topology of the system is equivalent to solve a Nash equilibrium. Especially for the case of choosing one connected follower, the necessary and sufficient condition for an interaction graph to be the optimal one is given. Moreover, if followers' interaction graph is a circulant graph or a graph with a center node, then the system's optimal topology is obtained. Simulation examples are provided to validate the effectiveness of the theoretical results.

Published
2014

32. Consensus of switched multi-agent systems

Author

Zheng, Yuanshi, Ma, Jingying, and Wang, Long

Subjects
Computer Science - Systems and Control
Abstract

In this paper, we consider the consensus problem of switched multi-agent system composed of continuous-time and discrete-time subsystems. By combining the classical consensus protocols of continuous-time and discrete-time multi-agent systems, we propose a linear consensus protocol for switched multi-agent system. Based on the graph theory and Lyapunov theory, we prove that the consensus of switched multi-agent system is solvable under arbitrary switching with undirected connected graph, directed graph and switching topologies, respectively. Simulation examples are also provided to demonstrate the effectiveness of the theoretical results., Comment: 16 pages, 4 figures

Published
2014

33. Containment control of multi-agent systems with measurement noises

Author

Zheng, Yuanshi, Li, Tao, and Wang, Long

Subjects
Computer Science - Systems and Control
Abstract

In this paper, containment control of multi-agent systems with measurement noises is studied under directed networks. When the leaders are stationary, a stochastic approximation type protocol is employed to solve the containment control of multi-agent systems. By using stochastic analysis tools and algebraic graph theory, some necessary and sufficient criteria are established to ensure the followers converge to the convex hull spanned by the leaders in the sense of mean square and probability 1. When the leasers are dynamic, a stochastic approximation type protocol with distributed estimators is developed and necessary and sufficient conditions are also obtained for solving the containment control problem. Simulations are provided to illustrate the effectiveness of the theoretical results., Comment: 8 pages

Published
2014

35. Analysis of <inline-formula><tex-math notation="LaTeX">${H}_{\infty }$</tex-math></inline-formula> Performance for Multiagent Networks

Author

Wang, Jiamin, Liu, Jian, Zheng, Yuanshi, and Xi, Jianxiang

Abstract

In this article, we analyze the ${H}_{\infty }$ performance of the first-order continuous-time multiagent consensus network and that of the corresponding sampled-data network in the presence of external disturbances. First, we build the quantitative relation between the ${H}_{\infty }$ performance and the eigenvalues of directed graph Laplacian for the continuous-time multiagent network. Second, we establish the analytic expression of ${H}_{\infty }$ performance for the sampled-data multiagent network, which depends not only on the eigenvalues of the Laplacian matrix but also on the sampling period. It is proved that there exists a unique optimal sampling period such that the sampled-data multiagent network obtains the optimal ${H}_{\infty }$ performance. Furthermore, we show that the ${H}_{\infty }$ performance of the sampled-data multiagent network is not better than that of the original continuous-time multiagent network. Finally, numerical tests are given on several well-known graphs.

Published
2024
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36. Distributed consensus tracking of nonlinear MASs under stochastic switching topologies via aperiodically intermittent control.

Author

Zhao, Xiujuan, Chen, Shiming, Zhang, Zheng, and Zheng, Yuanshi

Subjects
STABILITY theory, TOPOLOGY, MARKOV processes, LYAPUNOV stability, CONTINUOUS time models, MATRIX inequalities
Abstract

Summary: In this article, we investigate the mean‐square consensus tracking problem of nonlinear MASs subjected to external disturbances under stochastic switching topologies. An aperiodically intermittent control strategy is proposed to guarantee consensus tracking in the mean‐square sense, which depends only on the local state information of the neighbors and the leader. The stochastic switching signal of the interaction topologies is modeled as a continuous‐time Markov process, and the aperiodically intermittent control method is driven by a discrete‐time series of stochastic samples, that are independent of each other. Moreover, several sufficient conditions are established to ensure the feasibility of the control strategy. The proofs are given by employing matrix inequality theory and Lyapunov stability theory. Finally, numerical simulations are provided to verify the feasibility of the proposed theoretical results. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Cooperative Output Regulation for Linear Multiagent Systems via Distributed Fixed-Time Event-Triggered Control

Author

Zhang, Zheng, Chen, Shiming, and Zheng, Yuanshi

Abstract

In this article, we consider the cooperative output regulation for linear multiagent systems (MASs) via the distributed event-triggered strategy in fixed time. A novel fixed-time event-triggered control protocol is proposed using a dynamic compensator method. It is shown that based on the designed control scheme, the cooperative output regulation problem is addressed in fixed time and the agents in the communication network are subject to intermittent communication with their neighbors. Simultaneously, with the proposed event-triggering mechanism, Zeno behavior can be ruled out by choosing the appropriate parameters. Different from the existing strategies, both the compensator and control law are designed with intermittent communication in fixed time, where the convergence time is independent of any initial conditions. Moreover, for the case that the states are not available, the output regulation problem can further be addressed by the distributed observer-based output feedback controller with the fixed-time event-triggered compensator and event-triggered mechanism. Finally, a simulation example is provided to illustrate the effectiveness of the theoretical results.

Published
2024
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50. Practical exponential stability of hybrid impulsive stochastic functional differential systems with delayed impulses.

Author

Yang, Bo, Ma, Weijun, and Zheng, Yuanshi

Subjects
EXPONENTIAL stability, HYBRID systems, FUNCTIONAL differential equations, SENSES
Abstract

Summary: This paper is concerned with the problem of practical exponential stability for hybrid impulsive stochastic functional differential systems with delayed impulses, which comprise three classes of systems: the systems with unstable continuous stochastic dynamics and stable discrete dynamics, the systems with stable continuous stochastic dynamics and unstable discrete dynamics, and the systems where both the continuous stochastic dynamics and the discrete dynamics are stable. By using the Lyapunov‐Razumikhin approach, several new sufficient conditions for the practical exponential stability are established for each class of systems. It shows that the stabilizing and destabilizing delayed impulses that satisfy some conditions on their frequency and amplitude can stabilize the systems with unstable continuous stochastic dynamics in the practical exponential stability sense and ensure the practical exponential stability of the systems with stable continuous stochastic dynamics, respectively. Conversely, if the continuous stochastic dynamics are practically exponentially stable and the delayed impulses are stabilizing, then the systems can be practically exponentially stable regardless of the restrictions on the delayed impulses frequency and amplitude. Finally, two numerical examples are presented to illustrate the efficiency of the results. [ABSTRACT FROM AUTHOR]

Published
2023
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