Your search keyword '"Wang, Meiqiao"' showing total 4 results

1. Distributed output tracking via event-triggered control for nonlinear multi-agent systems.

Author

Xu, Xiaoyu, Wang, Hui, Li, Wuquan, and Wang, Meiqiao

Subjects

MULTIAGENT systems, NONLINEAR systems, ADAPTIVE control systems, CLOSED loop systems, DIRECTED graphs, NONLINEAR functions

Abstract

[Display omitted] • A noval event-triggered control strategy is developed by integrating backstepping method and emulation method into the event-triggered control study the distributed tracking of nonlinear MASs. Compared with the single-agent system, the control design in this paper is more complicated since that its's necessary to consider information interaction between each agent. • The event-triggered control strategy saves more communication and computing resources compared with the periodic sampled-data control schemes. In addition, The introduction of event-triggering mechanism, on the one hand, leads to complex discontinuity of the system, which renders the analysis and synthesis of the MASs more difficult than MASs with continuous controllers. • The dynamic of the i th follower discussed in this paper contains N i integrators and nonlinearities, which is more general and more complex than linear MASs, and first-order and second-order MASs. The existence of nonlinear functions makes the design and construction process of event-triggered controller more complicated. This paper investigates the problem of distributed output tracking for nonlinear multi-agent systems via event-triggered control under a directed graph topology inspired by the advantage that event-triggered control can effectively save resources and the wide application of multi-agent systems. By backstepping and emulation method, the event-triggered control strategy is put forward, by which a series of event-triggered controllers and event-triggering mechanisms with absolute or relative threshold are designed. An inevitable problem on event-triggered control, called Zeno phenomenon, is avoided by guaranteeing a positive minimum inter-execution interval. We can see from the event-triggered control strategy that the closed-loop system has a unique solution and tracking error could be adjusted to arbitrarily small while ensuring the boundedness of all states. Finally, a numerical example is shown to verify the validity of the conclusion. [ABSTRACT FROM AUTHOR]

Published

2022

2. Distributed output‐feedback sampled‐data control of nonlinear multi‐agent systems.

Author

Xu, Xiaoyu, Wang, Hui, Li, Wuquan, and Wang, Meiqiao

Subjects

MULTIAGENT systems, NONLINEAR systems, ADAPTIVE fuzzy control, CLOSED loop systems, PSYCHOLOGICAL feedback, ADAPTIVE control systems

Abstract

We study the distributed output‐feedback tracking control problem by linear sampled‐data control for nonlinear multi‐agent systems with unmeasurable states in this paper. Noting that sampled‐data control can effectively reduce implementation cost and time, we develop a novel linear sampled‐data high‐gain homogeneous domination control strategy by integrating backstepping method and high‐gain homogeneous domination method into sampled‐data control. A series of linear sampled‐data output‐feedback controllers and reduced‐order observers are designed to ensure that the output tracking errors can be tuned arbitrarily small while all states of the closed‐loop system are globally bounded. A numerical example is given to verify the effectiveness of the sampled‐data strategy. [ABSTRACT FROM AUTHOR]

Published

2022

3. Switching Adaptive Controller for the Nonlinear Systems With Uncertainties From Unknown Powers.

Author

Wang, Meiqiao, Liu, Yungang, and Man, Yongchao

Subjects

*NONLINEAR systems, *UNCERTAIN systems, *CLOSED loop systems, *STATE feedback (Feedback control systems), *PROGRAMMABLE controllers, *INTEGRATORS

Abstract

This paper considers the global stabilization for a class of uncertain nonlinear systems with unknown powers, unknown control directions, and unknown nonlinearities. Mainly due to the presence of the unknown powers which have not known upper bound, no existing methods are applicable to the control problem to be solved. In this paper, to compensate the serious system uncertainties and particularly to overcome the major obstruction from unknown powers, we appeal to the mechanism of switching adaptive feedback. By flexibly combining the domination and the method of adding a power integrator, we propose a new adaptive controller design, whose design parameters are tuned online based on a switching logic. The designed controller will become operative as long as finite switchings happen and will not lead to Zeno phenomenon, and can guarantee the global boundedness as well as ultimate convergence of the resulting closed-loop system. Two numerical examples are given to demonstrate the effectiveness of the developed design scheme. [ABSTRACT FROM AUTHOR]

Published

2020

4. Distributed output tracking of nonlinear multi-agent systems by linear sampled-data control.

Author

Xu, Xiaoyu, Li, Wuquan, and Wang, Meiqiao

Subjects

*LINEAR control systems, *MULTIAGENT systems, *NONLINEAR systems, *UNCERTAIN systems, *CLOSED loop systems

Abstract

This paper investigates the distributed output tracking problem via linear sampled-data control for a class of uncertain nonlinear multi-agent systems. Specifically, for the case where the graph topology is directed and the leader is the neighbor of only a small portion of followers, by combining the backstepping method with sampled-data method, a series of linear sampled-data controllers are obtained. Stability analysis is performed by using calculus, comparison principle and so on. The main results of this paper are concluded that all the states of the closed-loop system are globally bounded and the output tracking errors can be tuned arbitrarily small. Finally, a numerical example is given to verify the validity of the conclusion. [ABSTRACT FROM AUTHOR]

Published

2021