Exploiting proper controller and bearing-only measurement to perform the target tracking with unmanned aerial vehicles (UAVs) has become a popular trend due to the convenience of a single bearing sensor and the flexibility of UAVs. This article revisits the slowly moving target circumnavigation problem with UAV modeled as a first-order integrator, presenting results in three aspects. First, we focus on the problem with discrete bearing data and control input, illustrating the principle parameter conditions for system convergence. Second, a thorough convergence analysis from a different perspective for a typical algorithm is presented, resulting a more accurate conclusion upon the target-circumnavigation system convergence. Third, based on the estimation property, an algorithm that exploits the rough information of the target velocity is proposed, which significantly accelerates the estimation error convergence rate and improves the estimation performance. Simulation results are given that validate the conclusion that the estimation error and UAV distance can be unbounded when the target velocity is specially designed under common assumptions in the literature, which corrects the conclusion in the existing work, and also validates that the proposed algorithm possesses estimation performance obviously superior to that of existing algorithms, especially for situation with constant-velocity target.


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    Title :

    Target Tracking With Circumnavigation Scheme Using Discrete Bearing and Control Input


    Contributors:
    Wang, Dongzhen (author) / Zhang, Zhenghua (author) / Zhao, Yu (author) / Xu, Cheng (author)


    Publication date :

    2024-08-01


    Size :

    5750405 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English