A real-time model of flexible tasks for mobile robotic applications based on a behavioural architecture

1999 7th IEEE International Conference on Emerging Technologies and Factory Automation. Proceedings ETFA '99 (Cat. No.99TH8467) Pub Date : 1999-10-18 DOI:10.1109/ETFA.1999.815348

H. Hassan, F. Buendía, J. Simó, G. Benet, A. Crespo

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引用次数: 4

Abstract

The design of complex mobile vehicle applications requires the combination of timing constrained activities with deliberate components. One of the main characteristics of the design is the flexibility. The system has to be adapted to the environment conditions and take actions depending on it. This influence is focused in the ability of the system to select the appropriate activity to be executed (depending on the available time) and to change its behaviour (depending on the environment information). The main goal of the paper is to characterise a model of tasks providing the required flexibility. The model has to be powerful enough to represent the functional and timing features of mobile robotic applications based on a behavioural architecture. Behavioural models have been largely used to represent advanced robotic systems which operate in uncertain dynamic environments combining information from several sensory sources and presenting different vehicle dynamics. The paper proposes the use of flexible tasks as a way to implement deliberative components in a behaviour architecture of a robot system and allows noteworthy run-time flexibility for introducing intelligent processes. Another important aspect considered in the paper is concerned with the relationship between the amount of time required by the tasks and the quality of the results obtained.

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基于行为架构的移动机器人应用灵活任务的实时模型

复杂移动车辆应用程序的设计需要将时间约束的活动与深思熟虑的组件相结合。该设计的主要特点之一是灵活性。系统必须适应环境条件，并根据环境条件采取行动。这种影响集中在系统选择要执行的适当活动(取决于可用时间)和改变其行为(取决于环境信息)的能力上。本文的主要目标是描述提供所需灵活性的任务模型。该模型必须足够强大，以表示基于行为架构的移动机器人应用程序的功能和时间特征。行为模型已被广泛用于表示在不确定动态环境中运行的先进机器人系统，这些系统结合了来自多个感官来源的信息并呈现不同的车辆动态。本文提出使用灵活任务作为在机器人系统的行为体系结构中实现审议组件的一种方法，并允许引入智能过程的显著运行时灵活性。本文考虑的另一个重要方面是任务所需的时间量与获得的结果质量之间的关系。

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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1999 7th IEEE International Conference on Emerging Technologies and Factory Automation. Proceedings ETFA '99 (Cat. No.99TH8467)

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