Estimating Signal Timing of Actuated Signal Control Using Pattern Recognition under Connected Vehicle Environment

IF 0.8 4区工程技术 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY Promet-Traffic & Transportation Pub Date : 2021-02-05 DOI:10.7307/PTT.V33I1.3555

Ruochen Hao, Ling Wang, Wanjing Ma, Chunhui Yu

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引用次数: 2

Abstract

The Signal Phase and Timing (SPaT) message is an important input for research and applications of Connected Vehicles (CVs). However, the actuated signal controllers are not able to directly give the SPaT information since the SPaT is influenced by both signal control logic and real-time traffic demand. This study elaborates an estimation method which is proposed according to the idea that an actuated signal controller would provide similar signal timing for similar traffic states. Thus, the quantitative description of traffic states is important. The traffic flow at each approaching lane has been compared to fluids. The state of fluids can be indicated by state parameters, e.g. speed or height, and its energy, which includes kinetic energy and potential energy. Similar to the fluids, this paper has proposed an energy model for traffic flow, and it has also added the queue length as an additional state parameter. Based on that, the traffic state of intersections can be descripted. Then, a pattern recognition algorithm was developed to identify the most similar historical states and also their corresponding SPaTs, whose average is the estimated SPaT of this second. The result shows that the average error is 3.1 seconds.

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车联网环境下基于模式识别的驱动信号控制信号时序估计

信号相位和时序信息是车联网研究和应用的重要输入。然而，由于信号控制逻辑和实时交通需求的双重影响，驱动信号控制器不能直接给出点对点信息。本文阐述了一种基于驱动信号控制器对相似交通状态提供相似信号时序的估计方法。因此，交通状态的定量描述是很重要的。每条接近车道的交通流量都被比作流体。流体的状态可以通过状态参数来表示，例如速度或高度，以及它的能量，其中包括动能和势能。与流体模型类似，本文提出了交通流的能量模型，并增加了队列长度作为附加状态参数。在此基础上，可以对交叉口的交通状态进行描述。然后，开发了一种模式识别算法来识别最相似的历史状态及其对应的SPaT，其平均值为该秒的估计SPaT。结果表明，平均误差为3.1秒。

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来源期刊

Promet-Traffic & Transportation 工程技术-运输科技

CiteScore

1.90

自引率

20.00%

发文量

审稿时长

3 months

期刊介绍： This scientific journal publishes scientific papers in the area of technical sciences, field of transport and traffic technology. The basic guidelines of the journal, which support the mission - promotion of transport science, are: relevancy of published papers and reviewer competency, established identity in the print and publishing profile, as well as other formal and informal details. The journal organisation consists of the Editorial Board, Editors, Reviewer Selection Committee and the Scientific Advisory Committee. The received papers are subject to peer review in accordance with the recommendations for international scientific journals. The papers published in the journal are placed in sections which explain their focus in more detail. The sections are: transportation economy, information and communication technology, intelligent transport systems, human-transport interaction, intermodal transport, education in traffic and transport, traffic planning, traffic and environment (ecology), traffic on motorways, traffic in the cities, transport and sustainable development, traffic and space, traffic infrastructure, traffic policy, transport engineering, transport law, safety and security in traffic, transport logistics, transport technology, transport telematics, internal transport, traffic management, science in traffic and transport, traffic engineering, transport in emergency situations, swarm intelligence in transportation engineering. The Journal also publishes information not subject to review, and classified under the following headings: book and other reviews, symposia, conferences and exhibitions, scientific cooperation, anniversaries, portraits, bibliographies, publisher information, news, etc.