Pose optimization for mobile manipulator grasping based on hybrid manipulability

Yangmin Xie, Jiajia Liu, Yusheng Yang
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Abstract

Purpose

Proper platform pose is important for the mobile manipulator to accomplish dexterous manipulation tasks efficiently and safely, and the evaluation criterion to qualify manipulation performance is critical to support the pose decision process. This paper aims to present a comprehensive index to evaluate the manipulator’s operation performance from various aspects.

Design/methodology/approach

In this research, a criterion called hybrid manipulability (HM) is proposed to assess the performance of the manipulator’s operation, considering crucial factors such as joint limits, obstacle avoidance and stability. The determination of the optimal platform pose is achieved by selecting the pose that maximizes the HM within the feasible inverse reachability map associated with the target object.

Findings

A self-built mobile manipulator is adopted as the experimental platform, and the feasibility of the proposed method is experimentally verified in the context of object-grasping tasks both in simulation and practice.

Originality/value

The proposed HM extends upon the conventional notion of manipulability by incorporating additional factors, including the manipulator’s joint limits, the obstacle avoidance situation during the operation and the manipulation stability when grasping the target object. The manipulator can achieve enhanced stability during grasping when positioned in the pose determined by the HM.

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基于混合可操作性的移动机械臂抓取位姿优化
目的选择合适的平台位姿是移动机械臂高效、安全地完成灵巧操作任务的关键,而确定合适的平台位姿是支撑移动机械臂灵巧操作性能的关键。本文旨在从各个方面提出一个综合的指标来评价机械手的操作性能。在本研究中,提出了一种称为混合可操作性(HM)的准则来评估机械臂的操作性能,考虑了关节限制、避障和稳定性等关键因素。通过在与目标物体关联的可行逆可达映射中选择HM最大的姿态来确定最优平台位姿。采用自建移动机械手作为实验平台,通过仿真和实践两方面的实验验证了所提方法在抓取物体任务中的可行性。提出的HM扩展了传统的可操纵性概念,加入了额外的因素,包括机械手的关节极限、操作过程中的避障情况和抓取目标物体时的操作稳定性。当机械手定位在由HM确定的姿势时,可以在抓取过程中获得增强的稳定性。
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