Using a randomized path planner to generate 3D task demonstrations of robot operations

K. Belghith, F. Kabanza, L. Hartman
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引用次数: 4

Abstract

In this paper we describe a new randomized path-planning approach presenting two novel features that are useful in various complex real-world applications. First, it handles zones in the robot workspace with different degrees of desirability. Given the random quality of paths that are calculated by traditional randomized approaches, this provides a mean to specify a sampling strategy that controls the search process to generate better paths by simply annotating regions in the free workspace with degrees of desirability. Second, our approach can efficiently re-compute paths in dynamic environments where obstacles and zones can change shape or move concurrently with the robot. The new path planner is implemented within an automated planning application for generating 3D tasks demonstrations involving a teleoperated robot arm on the International Space Station (ISS). A typical task demonstration involves moving the robot arm from one configuration to another. Our objective is to automatically plan the position of cameras to film the arm in a manner that conveys the best awareness of the robot trajectory to the user. For a given task, the robot trajectory is generated using the new path planner. The latter not only computes collision free paths but also takes into account the limited direct view of the ISS, the lighting conditions and other safety constraints about operating the robot. A suitable camera planning system is then used to find the best sequence of camera shots following the robot on its path.
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使用随机路径规划器生成机器人操作的3D任务演示
在本文中,我们描述了一种新的随机路径规划方法,它具有在各种复杂的实际应用中有用的两个新特征。首先,它处理机器人工作空间中具有不同程度可取性的区域。给定由传统随机方法计算的路径的随机质量,这提供了一种指定采样策略的方法,该策略通过简单地在自由工作空间中标注具有理想程度的区域来控制搜索过程,从而生成更好的路径。其次,我们的方法可以有效地重新计算动态环境中的路径,其中障碍物和区域可以改变形状或与机器人同时移动。新的路径规划器在自动规划应用程序中实现,用于生成3D任务演示,涉及国际空间站(ISS)上的远程操作机械臂。典型的任务演示包括将机械臂从一种配置移动到另一种配置。我们的目标是自动规划摄像机的位置,以一种向用户传达机器人轨迹的最佳意识的方式拍摄手臂。对于给定的任务,使用新的路径规划器生成机器人轨迹。后者不仅计算无碰撞路径,还考虑到国际空间站有限的直接视野、照明条件和其他操作机器人的安全约束。然后使用合适的摄像机规划系统来找到跟踪机器人路径的最佳摄像机拍摄序列。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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