Motion planning for a high-speed manipulator with mechanical joint stops based on target dynamics and PCH system

机译：基于目标动力学和PCH系统的具有机械关节停止功能的高速机械手的运动计划

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This paper reports a motion planning scheme for a high performance robot aiming to realize the motion control skills exhibited by professional golfers. The robot has a dexterous mechanism with similar distribution of actuators' capability and a pair of mechanical joint stops like human beings. The proposed motion planning method combines target dynamics together with port-controlled Hamiltonian (PCH) system theory resulting in an energy controller which not only takes the mechanical joint stops into account but also realizes torque compensation from a high-power actuator to a low-power actuator. Simulation and experimental results prove the proposed method can generate the golf swings with specified hitting speed and finish position for our specially designed robot.

机译：本文报告了一种高性能机器人的运动计划方案，旨在实现职业高尔夫球手的运动控制技能。该机器人具有灵巧的机械装置，具有类似的执行器功能分布，并且具有一对类似于人类的机械关节止动装置。所提出的运动计划方法将目标动力学与端口控制的哈密顿系统（PCH）系统理论相结合，从而产生了一种能量控制器，该控制器不仅考虑了机械关节止挡，而且还实现了从大功率执行器到小功率的转矩补偿执行器。仿真和实验结果证明，该方法能够为我们专门设计的机器人产生具有指定击球速度和终点位置的高尔夫挥杆动作。

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来源
《IEEE/RSJ International Conference on Intelligent Robots and Systems;IROS 2009》|2009年|279-284|共6页
会议地点 St. Louis MO(US);St. Louis MO(US)
作者
Sakai S.; Xu C.; Ming A.; Shimojo M.;
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Dept. of Mech. Eng. Intell. Syst., Univ. of Electro-Commun., Chofu, Japan;

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actuators; manipulator dynamics; motion control; path planning; PCH system; dexterous mechanism; energy controller; golf swings; high performance robot; high-power actuator; high-speed manipulator; mechanical joint stops; motion planning; port-controlled Hamiltonian system theory; target dynamics; torque compensation;

机译：执行器;机械臂动力学;运动控制;路径规划; PCH系统;灵巧机构;能量控制器;高尔夫挥杆;高性能机器人;大功率执行器;高速机械手;机械关节止挡;运动规划;港口控制哈密顿系统理论目标动力学转矩补偿;

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1. New optimization method to solve motion planning of dynamic systems: application on mechanical manipulators [J] . M.H. Korayem, M. Irani Multibody system dynamics . 2014,第2期

机译：解决动态系统运动规划的新优化方法：在机械手上的应用
2. A unified dynamics-based motion planning algorithm for autonomous underwater vehicle-manipulator systems (UVMS) [J] . Tarun Kanti Podder, Nilanjan Sarkar Robotica . 2004,第JanaFeb期

机译：自主的水下车辆操纵器系统（UVMS）的基于动力学的统一运动规划算法
3. Pose Planning for a Mobile Manipulator Based on Joint Motions for Posture Adjustment to End-Effector Error [J] . Kimitoshi Yamazaki, Masahiro Tomono, Takashi Tsubouchi Advanced Robotics: The International Journal of the Robotics Society of Japan . 2008,第4期

机译：基于关节运动的移动机械手姿势规划，以调整端执行器误差
4. Motion Planning for a High-speed Manipulator with Mechanical Joint Stops based on Target Dynamics and PCH System [C] . S. Sakai, C. Xu, A. Ming, International Conference on Intelligent Robotics and Systems . 2009

机译：基于目标动态和PCH系统的机械关节停止的高速机械手的运动规划
5. Dynamics and motion planning of redundant manipulators using optimization, with applications to human motion. [D] . Kim, Joo Hyun. 2006

机译：使用优化的冗余机械手的动力学和运动规划，及其在人体运动中的应用。
6. A microcomputer-based high-speed data-acquisitionsystem for a stopped-flowspectrophotometer: PDP-11 architectureinterfaced to a commercial instrument [O] . Josephina A. Alcocer, David J. Livingston, Gerald F. Russell, 1983

机译：基于微机的高速数据采集停流系统分光光度计：PDP-11体系结构与商业仪器接口
7. High-Speed Motion Control of Mechanisms under Average Heat Generation Restriction : Minimum-Time Trajectory Planning of Robotic Manipulator and Calculated Examples of Two Degree-of-Freedom System [O] . Takashi Teramoto, Kyosuke Ono, Ozgur Turhan 1994

机译：平均发热限制机制的高速运动控制：机器人操纵器的最小时间轨迹规划，并计算了两个自由度系统的实例

Motion planning for a high-speed manipulator with mechanical joint stops based on target dynamics and PCH system

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