Smartphone-based Pedestrian Dead Reckoning as an indoor positioning system

2012 International Conference on System Engineering and Technology (ICSET) Pub Date : 2012-10-25 DOI:10.1109/ICSENGT.2012.6339316

A. R. Pratama, Widyawan, Risanuri Hidayat

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引用次数: 157

Abstract

Nowadays, personal positioning systems are more necessary to build many location-based services. Pedestrian Dead Reckoning (PDR), which is a pedestrian positioning technique using the accelerometer sensor to recognize pattern of steps, is an alternative method that has advantages in terms of infrastructure-independent. However, the variation of walking pattern on each individual will make some difficulties for the system to detect displacement. This is really interested authors to develop a sensor-based positioning system that applied generally to all individuals. In the test, 15 test subjects was taken with the distance of each 10m, 20m and 30m. Experiment begins with the feasibility test of accelerometer sensor. In this work, a smartphone with average sampling rate 63.79 Hz and standard deviation of 1.293 is used to records the acceleration. Then, the acceleration data are analyzed to detect step and to estimate the travelled distance using several methods. Detection of steps are able to make an average error of 2.925%, while the most nearly correct displacement estimation is using Scarlet experimental method which is make a distance average error of 1.39metres at all the traveled distance.

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基于智能手机的行人航位推算作为室内定位系统

如今，个人定位系统更需要建立许多基于位置的服务。行人航位推算(PDR)是一种利用加速度计传感器识别步数模式的行人定位技术，是一种与基础设施无关的替代方法。然而，每个个体行走方式的变化会给系统检测位移带来一些困难。这是真正感兴趣的作者开发一个基于传感器的定位系统，普遍适用于所有个人。本次测试共选取15名被试，距离分别为10m、20m、30m。实验从加速度计传感器的可行性测试开始。在这项工作中，使用平均采样率为63.79 Hz，标准差为1.293的智能手机记录加速度。然后，对加速度数据进行分析，利用几种方法检测步长和估计行进距离。步长检测的平均误差为2.925%，而最接近正确的位移估计是采用Scarlet实验方法，在所有行进距离上的距离平均误差为1.39m。

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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2012 International Conference on System Engineering and Technology (ICSET)

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