Exploring the sensing power of mixed vehicle fleets

IF 5.8 1区工程技术 Q1 ECONOMICS

Transportation Research Part B-Methodological Pub Date : 2024-09-09 DOI:10.1016/j.trb.2024.103066

Ke Han , Wen Ji , Yu (Marco) Nie , Zhexian Li , Shenglin Liu

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引用次数: 0

Abstract

Vehicle-based mobile sensing, also known as drive-by sensing, efficiently surveys urban environments at low costs by leveraging the mobility of urban vehicles. While recent studies have focused on drive-by sensing for fleets of a single type, our work explores the sensing power and cost-effectiveness of a mixed fleet that consists of vehicles with distinct and complementary mobility patterns. We formulate the drive-by sensing coverage (DSC) problem, proposing a method to quantify sensing utility and an optimization procedure that determines fleet composition, sensor allocation, and vehicle routing for a given budget. Our air quality sensing case study in Longquanyi District (Chengdu, China) demonstrates that using a mixed fleet enhances sensing utilities and achieves close approximations to the target sensing distribution at a lower cost. Generalizing these insights to two additional real-world networks, our regression analysis uncovers key factors influencing the sensing power of mixed fleets. This research provides quantitative and managerial insights into drive-by sensing, showcasing a positive externality of urban transport activities.

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探索混合车队的传感能力

基于车辆的移动传感（也称为驶过式传感）利用城市车辆的流动性，以较低的成本有效地勘测城市环境。最近的研究主要集中在单一类型车队的逐次感知上，而我们的工作则是探索由具有不同和互补移动模式的车辆组成的混合车队的感知能力和成本效益。我们提出了驾驶式传感覆盖（DSC）问题，提出了一种量化传感效用的方法和一种优化程序，该程序可在给定预算的情况下确定车队组成、传感器分配和车辆路由。我们在龙泉驿区（中国成都）进行的空气质量传感案例研究表明，使用混合车队可提高传感效用，并以更低的成本接近目标传感分布。将这些见解推广到另外两个真实世界的网络中，我们的回归分析揭示了影响混合机队传感能力的关键因素。这项研究为驾车感应提供了定量和管理方面的见解，展示了城市交通活动的积极外部性。

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

Transportation Research Part B-Methodological 工程技术-工程：土木

CiteScore

12.40

自引率

8.80%

发文量

143

审稿时长

14.1 weeks

期刊介绍： Transportation Research: Part B publishes papers on all methodological aspects of the subject, particularly those that require mathematical analysis. The general theme of the journal is the development and solution of problems that are adequately motivated to deal with important aspects of the design and/or analysis of transportation systems. Areas covered include: traffic flow; design and analysis of transportation networks; control and scheduling; optimization; queuing theory; logistics; supply chains; development and application of statistical, econometric and mathematical models to address transportation problems; cost models; pricing and/or investment; traveler or shipper behavior; cost-benefit methodologies.