[1] 杨旭东,黄玉柱,李继刚,等. 变电站巡检机器人研究现状综述[J]. 山东电力技术,2015,42(1):30-34. [2] 张书亮. 基于多传感器融合的室内移动机器人定位与导航研究[D]. 北京:中国科学院大学(中国科学院长春光学精密机械与物理研究所),2021. [3] 林仁雄. 输电线路无人机自动巡检的实现与应用[J]. 科技资讯, 2019, 17(21): 35-36. [4] 李壮,鲁杰,宋新利,等. 电网行业中5G技术在无人机领域的应用场景及案例分析[J]. 中国设备工程,2022,37(16):26-28. [5] CUI J K,ZHANG Y M,MA S,et al.Path planning algorithms for power transmission line inspection using unmanned aerial vehicles[C]//2017 29th Chinese Control and Decision Conference(CCDC). Chongqing,China. IEEE,2017:2304-2309. [6] 张军. 多传感器融合算法的四旋翼无人机室内定位技术研究[J]. 物联网技术,2025,15(1):67-71. [7] 连兴文,朱旭东,陈云海,等. 基于改进A*算法的变电站智能巡检机器人路径优化方法研究[J]. 电子设计工程,2023,31(18):95-99. [8] ZHOU B Y,ZHANG Y C,CHEN X Y,et al.Fuel:fast UAV exploration using incremental frontier structure and hierarchical planning[J]. IEEE Robotics and Automation Letters,2021,6(2):779-786. [9] ZHANG W,ZHANG T F.Path planning for thermal power plant fan inspection robot based on improved A* algorithm[J]. Journal of Electronic Research and Application,2025,9(1):233-239. [10] 王仁杰,杨苹,刘泽健,等. 基于RRT的无人机航迹规划算法[J]. 航空计算技术,2024,54(2):66-70. [11] LIN Z Y,WANG Z Y,GONG T L,et al.Voxel-based path planning for autonomous vehicles in parking lots[J]. ISPRS International Journal of Geo-Information,2025,14(4):147. [12] HAN L X,GAO F,ZHOU B Y,et al.FIESTA:fast incremental euclidean distance fields for online motion planning of aerial robots[C]//2019 IEEE/RSJ International Conference On Intelligent Robots and Systems(IRAS). Macao,China. IEEE,2019:4423-4430. [13] SUN J,XU G T,WANG Z,et al.Safe flight corridor constrained sequential convex programming for efficient trajectory generation of fixed-wing UAVs[J]. Chinese Journal of Aeronautics,2025,38(1):103174. [14] 汪哲培. 多旋翼无人机运动规划的几何方法[D]. 杭州:浙江大学,2022. [15] 范力元,张浩哲,徐钊,等. 基于安全飞行走廊的无人机密集障碍规避算法[J]. 西北工业大学学报,2022,40(6):1288-1296. [16] LIU S K,WATTERSON M,MOHTA K,et al.Planning dynamically feasible trajectories for quadrotors using safe flight corridors in 3-D complex environments[J]. IEEE Robotics and Automation Letters,2017,2(3):1688-1695. [17] PARK J,KIM H J.Online trajectory planning for multiple quadrotors in dynamic environments using relative safe flight corridor[J]. IEEE Robotics and Automation Letters,2021, 6(2):659-666. [18] REN Y F,ZHU F C,LIU W Y,et al.Bubble planner:planning high-speed smooth quadrotor trajectories using receding corridors[C]//2022 IEEE/RSJ International Conference on Intelligent Robots and Systems,IROS 2022. Kyoto,Japan. IEEE,2022:6332-6339. [19] ZHOU B Y,GAO F,WANG L Q,et al.Robust and successful quadrotor trajectory generation for fast au-tonomous flight[J]. IEEE Robotics and Automation Letters,2019,4(4):3529-3536. [20] GAO F,WU W,GAO W,et al.Flying on point clouds:online trajectory generation and autonomous navigation for quadrotors in cluttered environments[J]. Journal of Field Robotics,2019,36(4):710-733. |