机译:基于能量最优和人工潜在领域的六-TOF串行收获机器人的自由碰撞路径规划
College of Mechanical and Electrical Engineering Foshan University 18 Jiangwan Road Foshan 528000 China;
College of Mechanical and Electrical Engineering Foshan University 18 Jiangwan Road Foshan 528000 China;
College of Mechanical and Electrical Engineering Foshan University 18 Jiangwan Road Foshan 528000 China;
College of Mechanical and Electrical Engineering Foshan University 18 Jiangwan Road Foshan 528000 China;
College of Mechanical and Electrical Engineering Foshan University 18 Jiangwan Road Foshan 528000 China;
Key Laboratory of Key Technology on Agricultural Machine and Equipment Ministry of Education South China Agricultural University 483 Wushan Road Guangzhou 510642 China;
College of Mechanical and Electrical Engineering Chongqing University of Arts and Sciences 319 Honghe Road Yongchuan Chongqing 402160 China;
Collision-Free Path-Planning; Six-DOF; Serial;
机译:基于能量最优和人工势场的六自由度系列收割机器人无碰撞路径规划
机译:基于能量最优和人工潜在领域的六-TOF串行收获机器人的自由碰撞路径规划
机译:基于能量最优和人工潜在领域的六-TOF串行收获机器人的自由碰撞路径规划
机译:基于改进的人工势场法的六自由度串行机器人路径规划
机译:将人工势场应用于移动机器人的路径规划以及微创手术的触觉渲染
机译:具有干扰通道的能量收集无线传感器网络中的最佳能量延迟
机译:基于能量最优和人工潜在领域的六-TOF串行收获机器人的自由碰撞路径规划
机译:人工势场控制器在群体机器人网络中的鲁棒通信。