Sensor placement considering the observability of traffic dynamics: On the algebraic and graphical perspectives

IF 5.8 1区 工程技术 Q1 ECONOMICS
Xinyue Hu, Yueyue Fan
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引用次数: 0

Abstract

In this paper, we present a new sensor location model that aims to maximize observability of link densities in a dynamic traffic network described using a piecewise linear system of ordinary differential equations. We develop an algebraic approach based on the eigenstructure to determine the sensor location for achieving full observability with a minimal number of sensors. Additionally, a graphical approach based on the concept of structural observability is developed. By exploiting the special property of flow conservation in traffic networks, we derive a simple analytical result that can be used to identify observable components in a partially observable system, which is the main contribution of this paper. The graphical and algebraic properties of observability are then integrated into a sensor location optimization model considering a wide range of traffic conditions. Through numerical experiments, we demonstrate the good performance of our sensor deployment strategies in terms of the average observability and estimation errors.
考虑交通动态可观测性的传感器布置:代数与图形视角
在本文中,我们提出了一种新的传感器位置模型,旨在最大限度地观测使用片断线性常微分方程系统描述的动态交通网络中的链路密度。我们开发了一种基于特征结构的代数方法,用于确定传感器位置,从而以最少的传感器数量实现完全可观测性。此外,我们还开发了一种基于结构可观测性概念的图形方法。通过利用交通网络中流量守恒的特殊属性,我们得出了一个简单的分析结果,可用于识别部分可观测系统中的可观测成分,这也是本文的主要贡献。然后,我们将可观测性的图形和代数特性整合到一个传感器位置优化模型中,该模型考虑了多种交通状况。通过数值实验,我们证明了传感器部署策略在平均可观测性和估计误差方面的良好性能。
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
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.
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