Haijing Wang scite author profile

Haijing Wang

3Publications

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85Citation Statements Given

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Zhengzhou University

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High‐order control barrier functions‐based optimization control for time‐varying nonlinear systems with full‐state constraints: A dynamic sub‐safe set approach

Wang

Peng

et al. 2023

Intl J Robust & Nonlinear

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Summary This study focuses on the problems of safety control and stabilization for time‐varying nonlinear systems in the presence of time‐varying full‐state constraints. High‐order control barrier functions (HoCBFs) without the assumption of forward completeness are introduced to prevent high‐relative degree constraint violations. The activated HoCBFs, which determine the dynamic sub‐safe sets, are proposed to indicate that the state constraints are already or about to be violated. Subsequently, the HoCBFs‐based controller is designed to obtain the admissible control set by utilizing the quadratic programming (QP) with activated HoCBFs conditions to synthesize the nominal controller. An explicit analytical expression is provided for the HoCBFs‐based controller. The input‐to‐state stable (ISS) property of the closed‐loop system under the proposed controller is investigated to ensure that all closed‐loop states remain bounded and achieve asymptotic tracking without violation of the constraint. Moreover, a Lyapunov‐like constraint is added to the HoCBFs‐based QP problem such that the solvability of the QP problem is a sufficient condition for the system ISS. The effectiveness of the proposed HoCBFs‐based control method for time‐varying nonlinear systems is illustrated using a numerical example.

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Adaptive Safety Control of a Constrained Uncertain Robotic System

Wang

Peng

Zhang

et al. 2023

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Safety-Based Dynamic Output Feedback Tracking Control of Time-Varying Input–Output Linearizable Systems With Output Constraints

Wang

Peng

Zhang

et al. 2024

IEEE Trans. Circuits Syst. II

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Haijing Wang

High‐order control barrier functions‐based optimization control for time‐varying nonlinear systems with full‐state constraints: A dynamic sub‐safe set approach

Adaptive Safety Control of a Constrained Uncertain Robotic System

Safety-Based Dynamic Output Feedback Tracking Control of Time-Varying Input–Output Linearizable Systems With Output Constraints

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