Real-time kinematical optimal trajectory planning for haptic feedback manipulators

Zhang Shiyu; Dai Shuling

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Real-time kinematical optimal trajectory planning for haptic feedback manipulators

机译：触觉反馈操纵器的实时运动轨迹规划

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To obtain real-time haptic interactions in virtual cockpit systems (VCSs), a real-time trajectory planning method based on kinematical optimization for haptic feedback manipulators (HFMs) is presented in this paper. Firstly, the control panel area is extracted in the workspace of the HFM, in which the interacting point is located. Then a feasible interacting configuration is calculated as the objective configuration of the trajectory encoded by a parametric representation. The trajectory planning problem is formulated as a non-linear optimization problem based on kinematics, which is solved in real-time by finding a good initial solution with machine learning methods. Simulations show that trajectories with a compromise between safety and rapidity can be calculated in real-time by this method, which provides a basis for haptic interaction in VCSs.

机译：为了在虚拟驾驶舱系统（VCSS）中获得实时触觉交互，本文提出了一种基于触觉反馈机械手（HFMS）的基因优化的实时轨迹规划方法。首先，在HFM的工作空间中提取控制面板区域，其中相互作用点位于其中。然后，可行的交互配置计算为由参数表示编码的轨迹的目标配置。轨迹规划问题被制定为基于运动学的非线性优化问题，通过找到具有机器学习方法的良好初始解决方案来实时解决。模拟表明，通过这种方法可以实时计算安全性和快速性之间妥协的轨迹，这为VCSS中的触觉交互提供了基础。

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来源
《Simulation》 |2019年第7期|621-635|共15页
作者
Zhang Shiyu; Dai Shuling;
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作者单位

Beihang Univ State Key Lab Virtual Real Technol & Syst XueYuan Rd 37 Beijing Peoples R China;

Beihang Univ State Key Lab Virtual Real Technol & Syst XueYuan Rd 37 Beijing Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Real-time trajectory planning; haptic feedback; virtual cockpit system; kinematical optimization; machine learning;

机译：实时轨迹规划;触觉反馈;虚拟驾驶舱系统;运动学优化;机器学习;

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专利

1. Real-time kinematical optimal trajectory planning for haptic feedback manipulators [J] . Zhang Shiyu, Dai Shuling Simulation . 2019,第7期

机译：触觉反馈操纵器的实时运动学最优轨迹规划
2. Real-Time Trajectory Generation for Haptic Feedback Manipulators in Virtual Cockpit Systems [J] . Shiyu Zhang, Shuling Dai Journal of Computing and Information Science in Engineering . 2018,第4期

机译：虚拟座舱系统中触觉反馈操纵器的实时轨迹生成
3. Time-optimal and jerk-continuous trajectory planning for robot manipulators with kinematic constraints [J] . Huashan Liu, Xiaobo Lai, Wenxiang Wu Robotics and Computer-Integrated Manufacturing . 2013,第2期

机译：具有运动学约束的机器人机械手的时间最优和急动连续轨迹规划
4. Kinematic Analysis for Optimum Manipulability and Trajectory Planning of Human Leg [C] . Abhijeet Dhoke, V. V. M. J. Satish Chembuly, Hari K. Voruganti International Conference on Applied Mechanical Engineering Research . 2020

机译：用于人腿的最佳润滑性和轨迹规划的运动学分析
5. On the Time-optimal Trajectory Planning along Predetermined Geometric Paths and Optimal Control Synthesis for Trajectory Tracking of Robot Manipulators. [D] . Reynoso Mora, Pedro. 2013

机译：基于预定几何路径的时间最优轨迹规划与机器人操纵轨迹的最优控制综合。
6. Kinematic analysis and fault-tolerant trajectory planning of space manipulator under a single joint failure [O] . Zonggao Mu, Liang Han, Wenfu Xu, -1

机译：单关节失效下空间机械臂的运动学分析与容错轨迹规划
7. Real-time Optimal Trajectory Planning for Robotic Manipulators with Functional Redundancy [O] . P˚al Johan From, Jan Tommy Gravdahl 2013

机译：具有功能冗余的机器人实时最优轨迹规划

Real-time kinematical optimal trajectory planning for haptic feedback manipulators

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