Road Traffic Density Estimation Based on Heterogeneous Data Fusion

Philipp Zißner, Paulo H. L. Rettore, B. P. Santos, R. Lopes, P. Sevenich
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引用次数: 1

Abstract

This investigation starts with the hypothesis that fusing heterogeneous data sources can increase the data coverage and improve the accuracy of traffic-related applications in Intel-ligent Transportation Systems (ITS). Therefore, we designed (i) a Data Fusion on Intelligent Transportation Systems (DataFITS) framework that allows collecting data from numerous sources and fusing them according to spatial and temporal criteria; (ii) a traffic estimation method that groups road segments into regions, identify correlations between them, and measure the traffic distribution to estimate traffic. As a result, DataFITS increased by 130% the number of road segments coverage and enhanced, by fusion process, around 35% of road overlapping data sources. We evaluate the traffic estimation of the 15 most correlated regions, where the fused data together with correlated areas resulted in the best traffic estimation accuracy by reaching up to 40% in some cases and 9% on average.
基于异构数据融合的道路交通密度估计
本研究首先假设融合异构数据源可以增加数据覆盖范围并提高智能交通系统(ITS)中交通相关应用的准确性。因此,我们设计了(i)智能交通系统数据融合(DataFITS)框架,允许从众多来源收集数据,并根据空间和时间标准融合它们;(ii)一种交通估计方法,将道路分段划分为区域,识别它们之间的相关性,并测量交通分布以估计交通。结果,DataFITS的路段覆盖数量增加了130%,并通过融合过程增强了约35%的道路重叠数据源。我们对15个最相关区域的流量估计进行了评估,其中融合的数据与相关区域一起产生了最佳的流量估计精度,在某些情况下达到40%,平均达到9%。
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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