Adaptive localization of an autonomous mobile robot in natural environments

Proceedings of 1994 IEEE International Conference on MFI '94. Multisensor Fusion and Integration for Intelligent Systems Pub Date : 1994-10-02 DOI:10.1109/MFI.1994.398470

S. Betgé-Brezetz, R. Chatila, M. Devy, P. Fillatreau, F. Nashashibi

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引用次数: 3

Abstract

We focus on the perceptual and decisional functions required for the self-localization of a mobile robot in a natural environment. Two main localization approaches are considered: based on the terrain numerical representations (by elevation map or B-splines), or using explicit object or landmark representations. They are not applicable in the same situations, nor do they yield the same accuracy. In order to take into account the diversity of the possible environment configurations and situations, the scene model is built with heterogeneous representations: on the one hand, a hierarchical numerical "terrain model", which involves B-spline surfaces as nonplanar primitives, well adapted to describe the geometry of uneven terrains, and, on the other hand, an "object model", which provides a more symbolic description suitable when the scene includes objects laying on a flat ground. The decisional functions which select the better localization strategy and combine them according to the localization task context are discussed.<>

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自主移动机器人在自然环境中的自适应定位

研究了移动机器人在自然环境中自我定位所需的感知和决策功能。考虑了两种主要的定位方法:基于地形数值表示(通过高程图或b样条)，或使用明确的对象或地标表示。它们不适用于相同的情况，也不产生相同的准确性。为了考虑可能的环境配置和情况的多样性，构建了异构表示的场景模型:一方面是分层的数值“地形模型”，该模型以b样条曲面为非平面基元，非常适合描述不平坦地形的几何形状;另一方面是“物体模型”，它提供了更符号化的描述，适用于场景中有平坦地面上的物体。讨论了根据定位任务上下文选择更好的定位策略并将其组合的决策函数。

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 1994 IEEE International Conference on MFI '94. Multisensor Fusion and Integration for Intelligent Systems

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