未知环境下自主飞行器的目标跟踪控制

IF 9.9 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Industrial Informatics Pub Date : 2025-03-03 DOI:10.1109/TII.2025.3538065

Fan Yang;Qiang Lu;Na Huang;Botao Zhang;Youngjin Choi

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引用次数: 0

摘要

本文通过设计两种新的自动飞行器（AAV）算法，解决了未知环境下的目标跟踪和检测问题。首先，针对未知环境下动态目标的跟踪问题，设计了一种自高斯-格鲁预测（AGUP）算法。该算法将高斯过程回归与门控递归单元神经网络相结合，实现了动态目标运动轨迹的预测。其次，提出了一种禁忌搜索插值b样条（Tabu search interpolation B-spline， TBL）算法来解决多平稳目标的最优路径规划问题。TBL算法既能有效地规划访问路径，又能使路径平滑。第三，将AGUP和TBL算法与模型预测控制（MPC）方法相结合，引导aav跟踪和检测目标。仿真和实验结果表明，AGUP-MPC算法具有良好的跟踪能力。此外，TBL-MPC算法有效规划了最优平滑的检测路径，控制aav有序访问多个静止目标。

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Target Tracking Control of an Autonomous Aerial Vehicle in Unknown Environments

This article deals with the problem of target tracking and detecting in unknown environments by designing two new algorithms for an autonomous aerial vehicle (AAV). First, an auto-Gaussian-GRU-predictive (AGUP) algorithm is designed to solve the tracking problem of a dynamic target in unknown environments. By integrating Gaussian process regression and gated recurrent unit neural networks, the AGUP algorithm can predict the motion trajectory of a dynamic target. Second, a Tabu search interpolated B-spline (TBL) algorithm is also proposed to solve the problem of optimal path planning for multiple stationary targets. The TBL algorithm can efficiently plan the visiting paths and also can enable the path smooth. Third, both AGUP and TBL algorithms are combined with the model predictive control (MPC) approach in order to guide AAVs to track and detect the targets. Finally, simulation and experimental results show that the AGUP-MPC algorithm exhibits excellent tracking capability. In addition, the TBL-MPC algorithm effectively plans the optimal and smooth detection path and controls AAVs to orderly visit multiple stationary targets.

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来源期刊

IEEE Transactions on Industrial Informatics 工程技术-工程：工业

CiteScore

24.10

自引率

8.90%

发文量

1202

审稿时长

5.1 months

期刊介绍： The IEEE Transactions on Industrial Informatics is a multidisciplinary journal dedicated to publishing technical papers that connect theory with practical applications of informatics in industrial settings. It focuses on the utilization of information in intelligent, distributed, and agile industrial automation and control systems. The scope includes topics such as knowledge-based and AI-enhanced automation, intelligent computer control systems, flexible and collaborative manufacturing, industrial informatics in software-defined vehicles and robotics, computer vision, industrial cyber-physical and industrial IoT systems, real-time and networked embedded systems, security in industrial processes, industrial communications, systems interoperability, and human-machine interaction.