A Review of Indoor Navigation Systems for a Bipedal Robot: Preliminary Results

Res. Comput. Sci. Pub Date : 2019-12-31 DOI:10.13053/rcs-148-3-25

Miguel-Angel Ortega-Palacios, Josefina Guerrero García, J. González-Calleros

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引用次数: 1

Abstract

The navigation process of human is quite different from robots. Semantic meaning is what we used to model the environment. One of the most important elements human uses to model the environment is the vision. The keyframes are the elements that human use to model the environment. Therefore, we do not need a specific coordinate to move around. We can only use vision to navigate to anywhere we want to go. To take advantage of the concept that human model the environment, we propose a method which imitates the mapping and navigation process of the human. We will use computer vision to do the mapping of the environment and wayfinding to navigate it. The environment model is created with data collected with an odometer that identifies the obstacles on the route of the robot. Our research proposal is to create an algorithm to avoid obstacles. In this paper, we focus on reviewing existing solutions to address our research problem which is a system mounted on a biped robot navigating indoor environments on its own, without having to use preset routines. We have reviewed existing literature and presented it to help future researchers who had the same goal and could be used as a starting point.

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双足机器人室内导航系统综述:初步结果

人类的导航过程与机器人有很大的不同。语义是我们用来模拟环境的。人类用来模拟环境的最重要的元素之一是视觉。关键帧是人类用来模拟环境的元素。因此，我们不需要一个特定的坐标来移动。我们只能用视觉导航到我们想去的地方。利用人类对环境建模的概念，提出了一种模拟人类映射和导航过程的方法。我们将使用计算机视觉来绘制环境和导航。环境模型是根据里程表收集的数据创建的，里程表可以识别机器人路线上的障碍物。我们的研究计划是创造一种算法来避开障碍物。在本文中，我们重点回顾了现有的解决方案，以解决我们的研究问题，即安装在双足机器人上的系统在室内环境中自主导航，而不必使用预设的例程。我们已经回顾了现有的文献，并提出了它，以帮助未来的研究人员有相同的目标，可以作为一个起点。

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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Res. Comput. Sci.

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