Chengfu Wu scite author profile

In this paper, a linear parameter-varying (LPV)-based model and robust gainscheduled structural proportion integral and derivative (PID) control design solution are proposed and applied on a bio-inspired morphing wing unmanned aerial vehicle (UAV) for the morphing process. In the LPV model method, the authors propose an improved modeling method for LPV systems. The method combines partial linearization and function substitution. Using the proposed method, we can choose the varying parameters simply, thus creating a model that is more flexible and applicable. Then, a robust gain-scheduled structural PID control design method is given by introducing a structural matrix to design a structural PID controller, which is more consistent with the structure of the PID controller used in practice and has a simpler structure than representative ones in the existing literature. The simulation results show that the developed LPV morphing UAV model is able to catch the response of the original nonlinear model with a smaller error than the existing Jacobian linearization method and the designed controller can maintain stable flights in practice with satisfactory robustness and performance.

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Iterative Homogeneous Polynomial Lyapunov Functions Approach for Stabilizing Minimum Mode-Dependent Average Dwell Time Switched Systems via Output Feedback

Wang

et al. 2019

IEEE Access

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Robust Formation Control for Multiagent Systems Based on Adaptive Observers

Yan

Shi

Lim

et al. 2022

IEEE Systems Journal

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Chengfu Wu

Formation consensus for discrete-time heterogeneous multi-agent systems with link failures and actuator/sensor faults

Optimally distributed formation control with obstacle avoidance for mixed‐order multi‐agent systems under switching topologies

Model and robust gain‐scheduled PID control of a bio‐inspired morphing UAV based on LPV method

Iterative Homogeneous Polynomial Lyapunov Functions Approach for Stabilizing Minimum Mode-Dependent Average Dwell Time Switched Systems via Output Feedback

Robust Formation Control for Multiagent Systems Based on Adaptive Observers

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