高速公路绿篱修剪机器人手臂避障路径规划

Obstacle avoidance path planning for expressway hedgerow pruning robot manipulator

  • 摘要: 针对非结构环境下高速公路绿篱修剪机器人手臂实时准确避障问题, 提出一种基于扰动人工势场法的避障路径规划解决方法.根据绿篱隔离带与障碍物分布情况, 设计智能修剪机器人执行机构, 构建包络障碍物简化模型, 分析机械臂与障碍物的碰撞条件, 求解机械臂在修剪过程中的避碰空间.引入斥力场调节策略来优化势场模型, 建立斥力场扰动机制调整斥力影响方式, 消除传统算法中的局部极小点、目标不可达等现象.在避碰空间内, 应用扰动人工势场法对机械臂进行路径规划仿真, 仿真结果表明, 机械臂跳出局部极小点, 灵活顺利避障, 成功抵达目标点, 验证了该方法的有效性和可行性.

     

    Abstract: Expressway hedgerow pruning robots need be able to recognize hedgerow and position themselves real-time, to plan an obstacle avoidance trajectory from the starting point to target point based on the position relationship between hedgerows and obstacles. Compared with the traditional industry manipulator, the expressway hedgerow pruning robot manipulator frequently works in unstructured environments with unknown obstacles and irregular scales. It is difficult to establish a mathematical model of obstacles precisely and comprehensively. The problem of real-time obstacle avoidance can be solved by path planning. Thus, aiming at the problem of real-time obstacle avoidance for expressway hedgerows pruning robot manipulator in an unstructured environment, a novel path planning method to avoid obstacle based on perturbed artificial potential field (PAPF) was proposed. According to the distribution of hedgerows and obstacles, simplified models of intelligent pruning robot and sphere enveloping obstacle were established. By considering the geometric relationship between manipulator and obstacle, the collision conditions of manipulator and obstacles were analyzed, and then, the collision avoidance space of manipulator was solved. The traditional artificial potential field method was associated with some problems such as local minimum point (LMP) and goals nonreachable with obstacles nearby(GNRON). In this study, a repulsion field adjustment strategy was presented to optimize the function model of potential field, and a repulsion field perturbation mechanism was introduced to adjust the effect of repulsion in order to flexibly avoid obstacles and successfully reach the target point. The path planning simulation of the designed manipulator was carried out in the collision avoidance space using PAPF. The simulation result shows that the manipulator smoothly jumps out of the LMP and reaches the target point successfully by accurately avoiding obstacles in real time, which verifies the effectiveness and feasibility of the proposed method.

     

/

返回文章
返回