A vehicle classification based on inductive loop detectors

Journal of Measurement Science and Instrumentation Pub Date : 2001-05-21 DOI:10.1109/IMTC.2001.928860

J. Gajda, R. Sroka, M. Stencel, A. Wajda, T. Zeglen

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引用次数: 154

Abstract

The class of vehicle is one of more important parameters in the process of road traffic measurement. Up to now, strip piezoelectric sensors and video systems have been used. The use of very cheap inductive loop detectors for vehicle classification is also possible. Such vehicle classification systems are based on magnetic profiles recorded from inductive loops. The magnetic profile is sensitive to the loop dimensions. This paper presents a discussion concerning the influence of loop length (in direction of vehicle movement) on differences between characteristics describing the magnetic profiles of the vehicles belonging to the different classes. As characteristics describing the magnetic profile of the vehicle have been used: magnetic profiles in time domain (normalized in amplitude), probability density function and magnetic profiles in vehicle length domain. For real time applications, the conversion of the measured signal into a vector of numerical parameters (a few only) is also proposed. The influence of loop dimensions on a chosen signal parameter was investigated. The case of extremely short loop (10 cm), which allows detection of the number of axles, was also analyzed.

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基于电感回路检测器的车辆分类

在道路交通测量过程中，车辆类别是一个非常重要的参数。到目前为止，带状压电传感器和视频系统已被广泛应用。使用非常便宜的电感回路检测器进行车辆分类也是可能的。这种车辆分类系统是基于从感应回路记录的磁剖面。磁廓线对回路尺寸很敏感。本文讨论了线圈长度(车辆运动方向)对描述不同类别车辆的磁剖面特征差异的影响。描述车辆磁廓线的特征有:时域磁廓线(振幅归一化)、概率密度函数和车辆长度域磁廓线。对于实时应用，还提出了将测量信号转换为数值参数向量(只有几个)的方法。研究了环路尺寸对选定信号参数的影响。还分析了极短环路(10厘米)的情况，可以检测轴的数量。

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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来源期刊

Journal of Measurement Science and Instrumentation

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927