Visual landmark sequence-based indoor localization

Proceedings of the 1st Workshop on Artificial Intelligence and Deep Learning for Geographic Knowledge Discovery Pub Date : 2017-11-07 DOI:10.1145/3149808.3149812

Qing Li, Jiasong Zhu, Tao Liu, J. Garibaldi, Qingquan Li, G. Qiu

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引用次数: 11

Abstract

This paper presents a method that uses common objects as landmarks for smartphone-based indoor localization and navigation. First, a topological map marking relative positions of common objects such as doors, stairs and toilets is generated from floor plan. Second, a computer vision technique employing the latest deep learning technology has been developed for detecting common indoor objects from videos captured by smartphone. Third, second order Hidden Markov model is applied to match detected indoor landmark sequence to topological map. We use videos captured by users holding smartphones and walking through corridors of an office building to evaluate our method. The experiment shows that computer vision technique is able to accurately and reliably detect 10 classes of common indoor objects and that second order hidden Markov model can reliably match the detected landmark sequence with the topological map. This work demonstrates that computer vision and machine learning techniques can play a very useful role in developing smartphone-based indoor positioning applications.

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基于视觉地标序列的室内定位

本文提出了一种基于智能手机的室内定位和导航方法，利用常见物体作为地标。首先，从平面图中生成标记常见物体(如门、楼梯和厕所)相对位置的拓扑地图。其次，利用最新的深度学习技术开发了一种计算机视觉技术，用于从智能手机拍摄的视频中检测常见的室内物体。第三，利用二阶隐马尔可夫模型将检测到的室内地标序列与拓扑图进行匹配。我们使用用户手持智能手机走过办公楼走廊时拍摄的视频来评估我们的方法。实验表明，计算机视觉技术能够准确、可靠地检测出10类室内常见物体，二阶隐马尔可夫模型能够可靠地将检测到的地标序列与拓扑图进行匹配。这项工作表明，计算机视觉和机器学习技术可以在开发基于智能手机的室内定位应用中发挥非常有用的作用。

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 1st Workshop on Artificial Intelligence and Deep Learning for Geographic Knowledge Discovery

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