The knowledge representation and programming for robotic assembly task

Proceedings of the 1999 IEEE International Symposium on Assembly and Task Planning (ISATP'99) (Cat. No.99TH8470) Pub Date : 1999-07-21 DOI:10.1109/ISATP.1999.782968

S. Aramaki, I. Nagasawa, S. Kurono, T. Nagai, T. Morita, T. Suetsugu

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引用次数: 6

Abstract

Presents a knowledge representation and programming method for robotic assembly tasks. The methodology is explained through robotic assembly tasks with position and force control. The state space of assembly objects is abstractly defined using a qualitative landmark which consists of the state of an object and a robot. The current state and sensor input determines the next robot action, and the state of a robot is made to lead to the goal state. These concepts are formulated by using a finite state automaton. The action sequence is defined based on the control hierarchy structure which consists of four levels (control primitive level, control skill level, skill level and task level). The complicated assembly task can be represented by product and concatenation of control primitives in a lower level and various tasks can be defined by adding new control primitives. In the paper, the concept of a CRS (constraint reduction system) is introduced for making a robot task program. The CRS is realized by extended Prolog. All the action and primitives are considered as a process and can be uniformly described by the reduction rule of the CRS.

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机器人装配任务的知识表示与编程

提出了机器人装配任务的知识表示和编程方法。该方法是通过机器人装配任务的位置和力的控制来解释。用一个由物体和机器人的状态组成的定性地标抽象地定义装配对象的状态空间。当前状态和传感器输入决定机器人的下一个动作，使机器人的状态通向目标状态。这些概念是用有限状态自动机表述的。该控制层次结构由控制原语层、控制技能层、技能层和任务层四个层次组成。复杂的装配任务可以通过较低级别的控制原语的乘积和连接来表示，并且可以通过添加新的控制原语来定义各种任务。本文引入约束缩减系统(CRS)的概念，用于编制机器人任务程序。CRS是通过扩展Prolog实现的。所有的动作和原语都被视为一个过程，可以用CRS的约简规则统一描述。

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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Proceedings of the 1999 IEEE International Symposium on Assembly and Task Planning (ISATP'99) (Cat. No.99TH8470)

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