Robust regression applied to ultrasound location systems

2008 IEEE/ION Position, Location and Navigation Symposium Pub Date : 2008-05-05 DOI:10.1109/PLANS.2008.4569987

J. C. Prieto, A. Jiménez, J. Guevara, J. Ealo, F. Seco, J. Roa, A. Koutsou

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引用次数: 8

Abstract

Local positioning systems (LPS), specially those using ultrasound, are able to accurately estimate the location of persons or objects indoors. However, under certain circumstances, its accuracy can be strongly deteriorated by outlying noise. This paper analyzes and compares several strategies for robust trilateration, such as high-breakdown-point robust methodologies, as well as the parity space outlier detection procedure, which is commonly used in GPS. This analysis is performed by simulation in a typical ultrasound location system scenario based on the actual location of nodes in the 3D-LOCUS system [1]. It is shown how the traditional parity space outlier detection method overcomes robust methodologies when only one ranging error is present, whereas it is not able to detect two simultaneous faults. It is proposed a modification of the LTS robust estimation methodology that offers a good performance even when several range measurements are erroneous, due to multipath and occlusions effects. The complexity of the robust algorithms studied is low enough for being implemented in the 3D-LOCUS system without affecting its current 10 Hz update rate.

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鲁棒回归在超声定位系统中的应用

局部定位系统(LPS)，特别是那些使用超声波的系统，能够准确地估计室内人员或物体的位置。然而，在某些情况下，其准确性可能会因外围噪声而严重恶化。本文分析和比较了几种鲁棒三边测量策略，如GPS中常用的高击破点鲁棒方法和奇偶空间离群点检测方法。基于3D-LOCUS系统[1]中节点的实际位置，在典型的超声定位系统场景中进行仿真分析。分析了传统的奇偶空间异常点检测方法在仅存在一个测距误差时如何克服鲁棒性方法，而不能同时检测两个故障。提出了一种改进的LTS鲁棒估计方法，即使在由于多径和遮挡效应而导致多个距离测量错误时也能提供良好的性能。所研究的鲁棒算法的复杂性足够低，可以在3d -轨迹系统中实现，而不会影响其当前的10 Hz更新速率。

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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2008 IEEE/ION Position, Location and Navigation Symposium

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