Skeleton-oriented Autonomous Reference Point Deployment for Wireless Indoor Localization

2022 IEEE VTS Asia Pacific Wireless Communications Symposium (APWCS) Pub Date : 2022-08-24 DOI:10.1109/APWCS55727.2022.9906514

Teng-Yun Lee, Chih-Yu Chen, An-Hung Hsiao, Chun-Jie Chiu, Kai-Ten Feng

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Abstract

With the prosperity of location-based services in recent years, fingerprinting techniques for position estimation have been thriving due to its accuracy and cost-effectiveness compared to other methods. However, the time-consuming and labor-intensive process of data collection on specific reference points in fingerprinting schemes is always the barrier to real world implementation. In this paper, we proposed a novel robot automation system to serve as an alternative method for laborious data collection via human being. We designed the skeleton-oriented autonomous reference point deployment (SARD) system for wireless indoor localization, which integrates floor plan generation, reference point deployment, and data acquisition. The autonomous robot is capable of building the fingerprint database of an unknown space in a single spatial time traversal run. According to the result, compared to human efforts, the proposed SARD system could establish the database in a relatively shorter time period of around 40 minutes and achieve a low average error distance of 1.39 meters in position estimation.

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面向骨骼的自主参考点无线室内定位部署

近年来，随着基于位置的服务的蓬勃发展，指纹定位技术由于其准确性和成本效益而得到了蓬勃发展。然而，指纹识别方案中特定参考点的数据收集过程耗时费力，一直是实际应用的障碍。在本文中，我们提出了一种新的机器人自动化系统，作为人工收集数据的替代方法。我们设计了面向骨骼的自主参考点部署(SARD)系统，用于无线室内定位，该系统集成了平面图生成、参考点部署和数据采集。自主机器人能够在单次空间时间遍历运行中建立未知空间的指纹数据库。结果表明，与人工定位相比，所提出的SARD系统可以在相对较短的时间内(约40分钟)建立数据库，并且位置估计的平均误差距离较低，仅为1.39米。

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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2022 IEEE VTS Asia Pacific Wireless Communications Symposium (APWCS)

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