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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/30565


    Title: Smooth Switching Robust Adaptive Control for Omnidirectional Mobile Robots
    Authors: Huang, Jeng-Tze
    Hung, Tran Van
    Tseng, Ming-Lei
    Contributors: Inst Digital Mechatron Technol
    Keywords: Adaptive control
    control singularity
    digital signal processing (DSP) chips
    omnidirectional mobile robot
    sliding-mode control;smooth switching
    Date: 2015-09
    Issue Date: 2015-10-19 11:32:17 (UTC+8)
    Abstract: Issues of modeling and control design for omnidirectional mobile robots with both structured and unstructured uncertainties are presented. First, system dynamics with an arbitrary location of the center of mass (CM) are derived. The system parameters, including the location of CM and those in the motor dynamics, are assumed unknown. The commonly adopted adaptive linearizing control suffers from the so-called control singularity under such circumstances. A smooth switching adaptive robust controller is then proposed to alleviate such a difficulty. It consists of four parts, a nominal adaptive linearizing controller, a deputy adaptive sliding-mode controller being in charge near singularity, a switching algorithm monitoring the exchange of control authority between the above two controllers, and a standard robust controller for handing the unstructured uncertainty. Not only does it significantly reduce the control voltages near singularity, but it also achieves better transients than a single adaptive controller and less control effort than a single robust controller. Both the simulation and experiments on an omnidirectional mobile robot are provided to demonstrate the validity of the proposed design.
    Relation: IEEE TRANSACTIONS ON CONTROL SYSTEMS TECHNOLOGY 卷: 23 期: 5 頁碼: 1986-1993
    Appears in Collections:[Department of Mechanical Engineering ] journal articles

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