Adaptive consensus for high-order unknown nonlinear multi-agent systems with unknown control directions and switching topologies

Rezaei, Mohammad Hadi; Kabiri, Meisam; Menhaj, Mohammad Bagher

doi:10.1016/j.ins.2018.04.089

Cited by 31 publications

(14 citation statements)

References 47 publications

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“…In this section, we take the manipulator as an example. In order to illustrate the effectiveness of the proposed algorithms, five single-link flexible joint manipulators with DC motors are considered, 37 where the dynamics of the i-th one with input saturation are posed as…”

Section: Simulation Examplesmentioning

confidence: 99%

“…3. Compared to the related literature on consensus of agents with input saturation and UCDs, 37 where the network topology is time-varying with undirected or balanced directed graphs, in this work the network topology is described by the uniformly quasi-strongly -connected graphs, which includes the time-varying topology with undirected or balanced directed graphs as a special case. As we know, the communication network in this article is the mildest condition for high-order nonlinear agents with input saturation and nonidentical UCDs, which implies a major improvement.…”

Section: Introductionmentioning

confidence: 99%

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A continuous distributed control algorithm for time‐varying networks of nonlinear agents with input saturation

Wang

Sun

2021

Intl J Robust & Nonlinear

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In this article, we explore the possibility of designing a continuous control algorithm for time-varying networks of high-order nonlinear agents with input saturation. A class of neural network-based (NN) distributed control algorithms are proposed for the consensus of nonlinear agents with input saturation and nonidentical unknown control directions (UCDs) under uniformly quasi-strongly -connected graphs. An NN is used to cancel the unknown part of agent dynamics due to the well known NN function approximation property.Also, an adaptive smooth term is employed to compensate for the bounded disturbance, the approximation error. Moreover, an auxiliary system is designed to counteract the effect of input saturation. Furthermore, the control law is augmented with the Nussbaum-type function to obtain an estimation of the UCDs. It is proven rigorously that the consensus of nonlinear agents with input saturation and nonidentical UCDs can be guaranteed, and the boundedness of all signals of closed-loop systems is ensured. Finally, simulation examples are given to show the effectiveness of our theoretical results.

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Section: Simulation Examplesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A continuous distributed control algorithm for time‐varying networks of nonlinear agents with input saturation

Wang

Sun

2021

Intl J Robust & Nonlinear

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“…The Lipschitz constants are l x ¼ 1:5 and l v ¼ 0:26. In the simulations, the continuously time-varying topology of the system is shown in Figure 3 Now, we conduct the simulation for tracking system under the effect of disturbances (25) and the sliding mode control law (9) without the adaptive part À jSj…”

Section: Simulation Of Tracking System With Time-varying Topology Andmentioning

confidence: 99%

“…Specifically, under switching topologies, an adaptive sliding mode control approach for multirobot systems is presented, in which the model parameters of high-order robots remain unknown. 25 The results are used to a set of flexible joint multiple single-link manipulators. An adaptive fixed-time distributed consensus protocol with switching topologies for consensus tracking of uncertain high-order multirobot systems is investigated.…”

Section: Introductionmentioning

confidence: 99%

Adaptive sliding mode control for disturbed multirobot systems performing target tracking under continuously time-varying topologies

Dong

Han

2020

International Journal of Advanced Robotic Systems

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This article studies coordination control of the multirobot system for target tracking problem with disturbances in time-varying communication environment. An adaptive sliding mode control is designed to complete the target tracking task with the effect of disturbances and continuously time-varying topologies. This means that the communication between the robots is not switching among constant topologies but changes continuously along with time. The continuously time-varying topology is constructed by a set of fixed Laplacian matrices and variable scheduling functions, which is known as polytopic model structure. The designed adaptive sliding mode control can effectively lower the influence of disturbance and improve tracking performance even under the continuously time-varying topology. Furthermore, numerical simulations are given to demonstrate the effectiveness of the obtained results.

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“…Distributed coordination control of multi-agent systems has been an active research area for its widespread potential engineering applications including cooperative surveillance, sensor networks, spacecraft formation flying, etc. The most fundamental problem studied in coordination control is consensus problem [1][2][3][4][5][6][7][8][9][10][11] which means that each agent reaches an agreement based on the information from its relative agents. According to the different number of leaders in the multi-agent system, the consensus problem is generally divided into leaderless case [12,13], single-leader-follower case [14][15][16], and multipleleader-follower case.…”

Section: Introductionmentioning

confidence: 99%

Containment Control of First-Order Multi-Agent Systems under PI Coordination Protocol

2021

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This paper investigates the containment control problem of discrete-time first-order multi-agent system composed of multiple leaders and followers, and we propose a proportional-integral (PI) coordination control protocol. Assume that each follower has a directed path to one leader, and we consider several cases according to different topologies composed of the followers. Under the general directed topology that has a spanning tree, the frequency-domain analysis method is used to obtain the sufficient convergence condition for the followers achieving the containment-rendezvous that all the followers reach an agreement value in the convex hull formed by the leaders. Specially, a less conservative sufficient condition is obtained for the followers under symmetric and connected topology. Furthermore, it is proved that our proposed protocol drives the followers with unconnected topology to converge to the convex hull of the leaders. Numerical examples show the correctness of the theoretical results.

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Adaptive consensus for high-order unknown nonlinear multi-agent systems with unknown control directions and switching topologies

Cited by 31 publications

References 47 publications

A continuous distributed control algorithm for time‐varying networks of nonlinear agents with input saturation

A continuous distributed control algorithm for time‐varying networks of nonlinear agents with input saturation

Adaptive sliding mode control for disturbed multirobot systems performing target tracking under continuously time-varying topologies

Containment Control of First-Order Multi-Agent Systems under PI Coordination Protocol

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