Optimal robot task scheduling in cluttered environments considering mechanical advantage

IF 1.9 4区计算机科学 Q3 ROBOTICS

Robotica Pub Date : 2024-09-18 DOI:10.1017/s0263574724001371

Paraskevi Th. Zacharia, Elias K. Xidias

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引用次数: 0

Abstract

In various industrial robotic applications, the effective traversal of a manipulator amidst obstacles and its ability to reach specific task-points are imperative for the execution of predefined tasks. In certain scenarios, the sequence in which the manipulator reaches these task-points significantly impacts the overall cycle time required for task completion. Moreover, some tasks necessitate significant force exertion at the end-effector. Therefore, establishing an optimal sequence for the task-points reached by the end-effector’s tip is crucial for enhancing robot performance, ensuring collision-free motion and maintaining high-force application at the end-effector’s tip. To maximize the manipulator’s manipulability, which serves as a performance index for assessing its force capability, we aim to establish an optimal collision-free task sequence considering higher mechanical advantage. Three optimization criteria are considered: the cycle time, collision avoidance and the manipulability index. Optimization is accomplished using a genetic algorithm coupled with the Bump-Surface concept for collision avoidance. The effectiveness of this approach is confirmed through simulation experiments conducted in 2D and 3D environments with obstacles employing both redundant and non-redundant robots.

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考虑机械优势，在杂乱环境中优化机器人任务调度

在各种工业机器人应用中，机械手在障碍物中的有效穿越以及到达特定任务点的能力是执行预定任务的必要条件。在某些情况下，机械手到达这些任务点的顺序会极大地影响完成任务所需的整体周期时间。此外，有些任务还需要在末端执行器上施加很大的力。因此，为末端执行器顶端到达的任务点设定一个最佳顺序，对于提高机器人性能、确保无碰撞运动和保持末端执行器顶端的高力应用至关重要。为了最大限度地提高机械手的可操作性（作为评估其受力能力的性能指标），我们的目标是建立一个考虑到更高机械优势的最佳无碰撞任务序列。我们考虑了三个优化标准：周期时间、避免碰撞和可操控性指数。优化采用遗传算法和避免碰撞的 "凹凸面 "概念。通过在二维和三维环境中使用冗余和非冗余机器人进行有障碍物的模拟实验，证实了这种方法的有效性。

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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来源期刊

Robotica 工程技术-机器人学

CiteScore

4.50

自引率

22.20%

发文量

181

审稿时长

9.9 months

期刊介绍： Robotica is a forum for the multidisciplinary subject of robotics and encourages developments, applications and research in this important field of automation and robotics with regard to industry, health, education and economic and social aspects of relevance. Coverage includes activities in hostile environments, applications in the service and manufacturing industries, biological robotics, dynamics and kinematics involved in robot design and uses, on-line robots, robot task planning, rehabilitation robotics, sensory perception, software in the widest sense, particularly in respect of programming languages and links with CAD/CAM systems, telerobotics and various other areas. In addition, interest is focused on various Artificial Intelligence topics of theoretical and practical interest.