保存:具有速度估计的声波车辆检测器，能够进行顺序车辆检测

2018 21st International Conference on Intelligent Transportation Systems (ITSC) Pub Date : 2018-11-01 DOI:10.1109/ITSC.2018.8569727

S. Ishida, Jumpei Kajimura, M. Uchino, S. Tagashira, Akira Fukuda

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引用次数: 16

摘要

在智能交通系统(ITS)中，车辆检测是核心技术之一。我们正在开发一种声波车辆探测器，它使用声音地图来探测车辆，声音地图是两个麦克风上的声音到达时间差地图。我们开发了基于状态机和DTW(动态时间翘曲)的车辆检测算法来检测经过车辆绘制的声音地图上的s曲线。然而，检测算法往往不能检测到同时和顺序通过的车辆。本文提出了一种时序声波车辆检测器SAVeD。采用随机样本一致性(RANSAC)稳健估计方法拟合s曲线模型来检测每辆车。然后，save删除被检测车辆对应的声音地图点，并继续对后续车辆进行车辆检测。实验评估表明，与基于状态机的算法相比，SAVeD算法的检测精度提高了10点以上。

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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SAVeD: Acoustic Vehicle Detector with Speed Estimation capable of Sequential Vehicle Detection

In the ITS (intelligent transportation system), vehicle detection is one of the core technologies. We are developing an acoustic vehicle detector that detects vehicles using a sound map, which is a map of sound arrival time difference on two microphones. We developed vehicle detection algorithms based on state machine and DTW (dynamic time warping) to detect S-curves on a sound map drawn by passing vehicles. However, the detection algorithms often fail to detect simultaneous and sequential passing vehicles. This paper presents SAVeD, a sequential acoustic vehicle detector. The SAVeD fits an S-curve model to sound map points using a RANSAC (random sample consensus) robust estimation method to detect each vehicle. The SAVeD then removes sound map points corresponding to the detected vehicle and continues vehicle detection process for the following vehicles. Experimental evaluations demonstrated that the SAVeD improves detection accuracy by more than 10 points compared to the state-machine based algorithm.

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2018 21st International Conference on Intelligent Transportation Systems (ITSC)

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