Efficient contact state graph generation for assembly applications

2003 IEEE International Conference on Robotics and Automation (Cat. No.03CH37422) Pub Date : 2003-11-10 DOI:10.1109/ROBOT.2003.1241983

Fengjunjie Pan, J. Schimmels

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引用次数: 17

Abstract

An important aspect in the design of many automated assembly strategies is the ability to automatically generate the set of contact states that may occur during an assembly task. In this paper, we present an efficient means of constructing the set of all geometrically feasible contact states that may occur within a bounded set of misalignments (bounds determined by robot inaccuracy). This set is stored as a graph, referred to as an Assembly Contact State Graph (ACSG), which indicates neighbor relationships between feasible states. An ACSG is constructed without user intervention in two stages. In the first stage, all hypothetical primitive principle contacts (PPCs; all contact states allowing 5 degrees of freedom) are evaluated for geometric feasibility with respect to part-imposed and robot-imposed restrictions on relative positioning (evaluated using optimization). In the second stage, the feasibility of each of the various combinations of PPCs is efficiently evaluated, first using topological existence and uniqueness criteria, then using part-imposed and robot-imposed geometric criteria.

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高效的接触状态图生成装配应用

许多自动化装配策略设计中的一个重要方面是能够自动生成在装配任务期间可能发生的一组接触状态。在本文中，我们提出了一种有效的方法来构造所有几何上可行的接触状态的集合，这些接触状态可能出现在有界的不对准集合中(边界由机器人不精度决定)。这个集合被存储为一个图，称为装配接触状态图(ACSG)，它表示可行状态之间的邻居关系。ACSG的构建分两个阶段，无需用户干预。在第一阶段，所有假设的原始原理接触(PPCs;所有允许5个自由度的接触状态)被评估相对于零件施加和机器人施加的相对定位限制的几何可行性(使用优化评估)。在第二阶段，首先使用拓扑存在性和唯一性准则，然后使用部分强加和机器人强加的几何准则，有效地评估每个PPCs组合的可行性。

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

2003 IEEE International Conference on Robotics and Automation (Cat. No.03CH37422)

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