A fast path matching algorithm for indoor positioning systems using magnetic field measurements

机译：使用磁场测量的室内定位系统的快速路径匹配算法

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摘要

The use of magnetic field (MF) measurements, unlike typical Wi-Fi or Bluetooth positioning measurements, are unaffected by moving humans, providing more time-invariant location information. We present a novel Fast Path Matching algorithm for MF and Inertial sensor measurements, FPM-MI, to localise a person using MF measurements fused with inertial sensor measurements. Our novelty is twofold: it has a reduced computational cost compared to a particle filter algorithm; it has a fast convergence performance, i.e., a person can walk a much shorter distance, about 3 m, to have an arm-span location accuracy. We validated our system in a library, a retail-like building, with multiple metal shelves and pillars, and determined the positioning error to be 1.8 m (90% confidence).

机译：与典型的Wi-Fi或蓝牙定位测量不同，磁场（MF）测量的使用不受移动人体的影响，从而提供了更多时不变的位置信息。我们提出了一种新颖的用于MF和惯性传感器测量的快速路径匹配算法FPM-MI，以使用与惯性传感器测量相融合的MF测量来定位人。我们的新颖性是双重的：与粒子过滤器算法相比，它减少了计算成本；它具有快速收敛的性能，即一个人可以走近3m的更短距离，以达到手臂跨度的定位精度。我们在一个类似零售商店的图书馆中对我们的系统进行了验证，该建筑物具有多个金属架子和支柱，并将定位误差确定为1.8 m（置信度为90％）。

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来源
《2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications》|2017年|1-5|共5页
会议地点 Montreal(CA)
作者
Zixiang Ma; Stefan Poslad; Shaoxiong Hu; Xiaoshuai Zhang;
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作者单位

School of Electronic Engineering and Computer Science, Queen Mary University of London (QMUL), UK;

School of Electronic Engineering and Computer Science, Queen Mary University of London (QMUL), UK;

School of Electronic Engineering and Computer Science, Queen Mary University of London (QMUL), UK;

School of Electronic Engineering and Computer Science, Queen Mary University of London (QMUL), UK;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Fingerprint recognition; Atmospheric measurements; Particle measurements; IP networks; Magnetic field measurement; Radio frequency; Wireless fidelity;

机译：指纹识别;大气测量;颗粒测量; IP网络;磁场测量;射频;无线保真;;

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专利

1. Real Time Wi-Fi Indoor Positioning System Based on RSSI Measurements: A Distributed Load Approach with the Fusion of Three Positioning Algorithms [J] . Chiputa Masoto, Li Xiangyang Wireless personal communications: An Internaional Journal . 2018,第1期

机译：基于RSSI测量的实时Wi-Fi室内定位系统：具有三个定位算法融合的分布式负载方法
2. Distributed Indoor Positioning System With Inertial Measurements and Map Matching [J] . Perttula A., Leppakoski H., Kirkko-Jaakkola M., Instrumentation and Measurement, IEEE Transactions on . 2014,第11期

机译：具有惯性测量和地图匹配的分布式室内定位系统
3. A Study of WiFi-Aided Magnetic Matching Indoor Positioning Algorithm [J] . Enliang Wang, Mei Wang, Zhibin Meng, Journal of Computer and Communications . 2017,第3期

机译：WiFi辅助的磁匹配室内定位算法研究
4. A fast path matching algorithm for indoor positioning systems using magnetic field measurements [C] . Zixiang Ma, Stefan Poslad, Shaoxiong Hu, IEEE Annual International Symposium on Personal, Indoor, and Mobile Radio Communications . 2017

机译：使用磁场测量的室内定位系统快速路径匹配算法
5. Indoor Positioning Algorithms with Offline Positioning Capabilities for Local Positioning Systems [D] . Zaki, Farhan. 2018

机译：具有离线定位功能的室内定位算法，用于局部定位系统
6. Indoor Positioning Based on Pedestrian Dead Reckoning and Magnetic Field Matching for Smartphones [O] . Jian Kuang, Xiaoji Niu, Peng Zhang, 2018

机译：基于行人航位推算和磁场匹配的智能手机室内定位
7. WI-FI SIGNAL STRENGTH VS. MAGNETIC FIELDS FOR INDOOR POSITIONING SYSTEMS [O] . M. H. Selamat, An. Narzullaev 2014

机译：Wi-Fi信号强度与室内定位系统的磁场

A fast path matching algorithm for indoor positioning systems using magnetic field measurements

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