基于主从策略的关节机器人样条曲线时间最优路径跟踪

2016 International Conference on Control, Automation and Information Sciences (ICCAIS) Pub Date : 2016-10-01 DOI:10.1109/ICCAIS.2016.7822451

Xiaojing Yu, Xiaoqi Tang, Bosheng Ye, Bao Song, Xiangdong Zhou

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引用次数: 1

摘要

路径跟踪作为轨迹规划中的子问题，是机器人研究的重要课题之一。本文提出了一种时间最优轨迹规划器，该规划器对给定的b样条路径进行了极限扰动跟踪。该规划器利用主从策略来规划所有轴的轨迹。在预处理阶段，开关点分为临界点和轴开关点两种类型。通过对b样条曲线相邻临界点的详细分类和s形速度规划，解决了b样条曲线连续车削问题。为了减少物理约束下的全局执行时间，在速度剖面中采用迭代优化方法，实现了带极限加推力的砰砰控制。在具有三连杆的机械臂模型上对所提出的算法进行了仿真。结果表明，该算法可用于复杂的b样条轨迹跟踪，并在加振约束下生成各轴的轨迹，有效地降低了振动。

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Time-optimal path tracking for articulated robot along spline curves based on master-slave strategy

Path tracking, as a subproblem in trajectory planning, is one of the most significant topics in robot researches. In this paper, a time-optimal trajectory planner is proposed, which tracks the specified B-spline path with limit jerk. This planner utilizes the master-slave strategy to plan trajectory for all axes. In the preprocessing stage, switching points are divided into two types: critical points and axis switching points. By detailed classification and S-shape velocity planning of adjacent critical points, the continuous turning problem in B-spline curves is solved. In order to reduce the global execution time under the physical constraints, an iterative optimization method is employed in the velocity profile and the bang-bang control with limit jerk is realized. The proposed algorithms are simulated on a manipulator model with three links. The result shows that the algorithms can be applied to complex B-spline path tracking and generate trajectory for each axis under jerk constraint, which reduces the vibration effectively.

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2016 International Conference on Control, Automation and Information Sciences (ICCAIS)

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