Sampled‐data output feedback leader‐following consensus for a class of nonlinear multi‐agent systems with input unmodeled dynamics

Mao, Jinfeng; Yan, Tianhong; Huang, Shipei; Li, Shuo; Jiao, Jian‐ge

doi:10.1002/rnc.5467

Cited by 15 publications

(13 citation statements)

References 52 publications

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“…Unmodeled dynamics existing in dynamic nonlinear systems are generally classified into two categories, including input unmodeled dynamics and state unmodeled dynamics. To deal with these unmodeled dynamics, normalized signals [18][19][20] are introduced to handle input unmodeled dynamics, dynamic signals [21][22][23] are introduced to handle state unmodeled dynamics. It is worth noting that there are few specific research articles discussing state unmodeled dynamic subsystems with stochastic perturbations.…”

Section: Introductionmentioning

confidence: 99%

Finite‐time adaptive quantized control of stochastic nonstrict‐feedback constrained nonlinear systems with multiple unmodeled dynamics

Chen

Luan

Liu

2023

Adaptive Control & Signal

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In this article, a finite-time adaptive quantized dynamic surface control problem is solved for stochastic partially nonaffine nonstrict-feedback constrained nonlinear systems with multiple unmodeled dynamics. Firstly, a variable energy function is built to handle the stochastic state unmodeled dynamics under nonstrict-feedback structure, and a normalized signal is employed to process the input unmodeled dynamics. Furthermore, a specific transformation technique is introduced to keep all states in a predefined asymmetric dynamic constrained region. Compared with the existing results, it not only avoids the circular argument, and also relaxes the condition of the constraint function. Then, the nonlinear function is approximated with the linearly parameterized neural networks. Subsequently, in order to make the tracking error reach a steady state in the finite time, with the help of the properties of the Gaussian function and dynamic surface control technique, a novel finite-time adaptive quantized controller is designed to ensure that all error signals are semi-globally practical finite-time stable and all states obey stochastic probabilistic constraints.Numerical simulation examples are provided to verify the theoretical results obtained.

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Section: Introductionmentioning

confidence: 99%

Finite‐time adaptive quantized control of stochastic nonstrict‐feedback constrained nonlinear systems with multiple unmodeled dynamics

Chen

Luan

Liu

2023

Adaptive Control & Signal

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“…Multiagent systems (MASs) cooperative control technology has been widely used in many fields [1][2][3][4]. As the most basic research content of multiagent cooperative control, the consensus problem has made much progress [5][6][7][8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Switched Fractional Order Multiagent Systems Containment Control with Event-Triggered Mechanism and Input Quantization

Yuan

Chen

2022

Fractal Fract

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This paper studies the containment control problem for a class of fractional order nonlinear multiagent systems in the presence of arbitrary switchings, unmeasured states, and quantized input signals by a hysteresis quantizer. Under the framework of the Lyapunov function theory, this paper proposes an event-triggered adaptive neural network dynamic surface quantized controller, in which dynamic surface control technology can avoid “explosion of complexity” and obtain fractional derivatives for virtual control functions continuously. Radial basis function neural networks (RBFNNs) are used to approximate the unknown nonlinear functions, and an observer is designed to obtain the unmeasured states. The proposed distributed protocol can ensure all the signals remain semi-global uniformly ultimately bounded in the closed-loop system, and all followers can converge to the convex hull spanned by the leaders’ trajectory. Utilizing the combination of an event-triggered scheme and quantized control technology, the controller is updated aperiodically only at the event-sampled instants such that transmitting and computational costs are greatly reduced. Simulations compare the event-triggered scheme without quantization control technology with the control method proposed in this paper, and the results show that the event-triggered scheme combined with the quantization mechanism reduces the number of control inputs by 7% to 20%.

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“…However, filter errors are introduced, which may lead to the deterioration of control performance. In Reference 22, the system considered is low order, while in this article, the system is in high‐order form, where the explosion of complexity exists and needs to be dealt with by command filters. Therefore, to tackle this issue, this article utilizes command filters, which are usually used to tackle issues of the explosion of complexity 23‐25 .…”

Section: Introductionmentioning

confidence: 99%

Robust adaptive control of uncertain nonlinear systems with unmodeled dynamics using command filter

Yang

Tang

Zou³

et al. 2021

Intl J Robust & Nonlinear

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This article proposes a robust adaptive controller design method for strict feedback nonlinear systems with unmodeled dynamics and input saturation. By using command filters, the explosion of complexity is obviated. The influence of filter errors bought in by command filters is eliminated by introducing compensating signals. Moreover, by skillfully constructing an nth‐order auxiliary dynamic system, the effect of input saturation is avoided, where the disadvantages of conventional methods based on the hyperbolic tangent function are overcome. To tackle the effect of unmodeled dynamics which can destroy the performance and even destabilize the system, based on input‐to‐state stability theory, a dynamic signal is designed. Finally, the Lyapunov theory‐based stability analysis proves that all the closed‐loop signals are uniformly ultimately bounded. The effectiveness of the proposed controller design scheme is verified in simulation experiments.

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Sampled‐data output feedback leader‐following consensus for a class of nonlinear multi‐agent systems with input unmodeled dynamics

Cited by 15 publications

References 52 publications

Finite‐time adaptive quantized control of stochastic nonstrict‐feedback constrained nonlinear systems with multiple unmodeled dynamics

Finite‐time adaptive quantized control of stochastic nonstrict‐feedback constrained nonlinear systems with multiple unmodeled dynamics

Switched Fractional Order Multiagent Systems Containment Control with Event-Triggered Mechanism and Input Quantization

Robust adaptive control of uncertain nonlinear systems with unmodeled dynamics using command filter

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