Light rapid transit, urban road traffic control and EMC

Research on Influencing Spreading Model of Road Congestion Based on Traffic Flow and Cellular Automata Approaches

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.605-607.1761 ◽

2012 ◽

Vol 605-607 ◽

pp. 1761-1764

Author(s):

Yu Zhuo Men ◽

Hai Bo Yu ◽

Xian Sheng Li ◽

Hua Wang ◽

Liang Xu

Keyword(s):

Traffic Control ◽

Traffic Accidents ◽

Road Traffic ◽

Road Traffic Accidents ◽

Related Factors ◽

Evaluation Indexes ◽

Urban Road ◽

Spreading Model ◽

Road Congestion ◽

Emergency Measures

The quantifying model of influences from urban road traffic accidents is built in this paper, in order to research influencing coverage and effects from road traffic accidents; and the reasonable evaluation indexes are adopted based on the model to quantify influencing coverage and effects from road traffic accidents and determine related factors with influencing coverage and effects from road traffic accidents, also the model is contrasted and verified by actual cases; it is shown from the results that the queue length, traffic recovery time and travel time error are in compliance with the requirements, indicating that the simulation results of this model is feasible and effective, with a certain reliability, and provides a theoretical basis for the evaluation of the effectiveness of traffic emergency measures and implementation of traffic control.

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Analysis of Traffic Flow Equilibrium in Urban Road Network Based on Floating Vehicle Data

E3S Web of Conferences ◽

10.1051/e3sconf/202126103026 ◽

2021 ◽

Vol 261 ◽

pp. 03026

Author(s):

Yi Yu ◽

Hui Gong ◽

Xianglun Mo

Keyword(s):

Traffic Flow ◽

Traffic Control ◽

Network Flow ◽

Road Network ◽

Road Traffic ◽

Distribution Model ◽

Urban Road Network ◽

Urban Road ◽

Vehicle Data ◽

Flow Equilibrium

Based on the floating vehicle data, this paper analyzes the equilibrium of urban road network traffic flow. This can guide traffic flow distribution and provide reliable basis for traffic control. This paper starts with the quantitative analysis of the traffic network equilibrium, on the basis of verifying the validity of the floating car data, divides the urban road network into regions, and constructs an analysis model of the traffic flow equilibrium of the urban road network. The urban road traffic distribution model is constructed in accordance with the number of road traffic segments. On this basis, gini coefficient index is introduced to judge the road network flow balance, which is used to analyze the balance of each sub-region. By means of traffic guidance, signal control and other traffic control means, the traffic flow in each sub-area is balanced, and the traffic flow in the whole road network becomes balanced.

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Study on Sub-Area Division Strategy of Urban Road Traffic Control

Open Journal of Transportation Technologies ◽

10.12677/ojtt.2018.75043 ◽

2018 ◽

Vol 07 (05) ◽

pp. 351-358

Author(s):

翠娇陈

Keyword(s):

Traffic Control ◽

Road Traffic ◽

Urban Road

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Multiagent architecture applied in decentralized real-time urban road traffic control

2009 5th International Symposium on Applied Computational Intelligence and Informatics ◽

10.1109/saci.2009.5136255 ◽

2009 ◽

Author(s):

Ovidiu Banias ◽

Radu-Emil Precup ◽

Daniel Curiac

Keyword(s):

Real Time ◽

Traffic Control ◽

Road Traffic ◽

Urban Road

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An Innovative Approach for Modelling Urban Road Traffic Using Timed Automata and Formal Methods

Journal of Advanced Transportation ◽

10.1155/2018/6269526 ◽

2018 ◽

Vol 2018 ◽

pp. 1-15 ◽

Cited By ~ 2

Author(s):

Eduardo Valente ◽

Camelia Avram ◽

José Machado ◽

Adina Astilean

Keyword(s):

Cellular Automata ◽

Traffic Control ◽

Road Traffic ◽

Timed Automata ◽

Point Of View ◽

Urban Road ◽

Analysis Techniques ◽

Huge Challenge ◽

Over Time

Modelling and implementing adequate controllers for urban road traffic control constitute a huge challenge nowadays because of the complexity of systems, as well as possible scenarios and configurations, in each road in a city. A series of issues related to modelling these behaviours are common to arise when using formalisms, tools, and computation machines to perform complex calculations and limitations. This paper presents a formal, flexible, and adaptable approach, with no limitations, from the scientific point of view. For this purpose, modelling formalisms (cellular automata and timed automata) and analysis techniques (simulation and formal verification) are proposed to reach the main goals of modelling complex and adaptable behaviours in urban road traffic with multiple over time changeable configurations. A case study is presented, in order to illustrate the approach and demonstrate in detail the unlimited application of the presented approach.

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Urban Transportation Crowded Recognition Technology and Application

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.97-98.907 ◽

2011 ◽

Vol 97-98 ◽

pp. 907-910

Author(s):

Zhi Min Gao ◽

Fa Sheng Liu ◽

Meng Chen

Keyword(s):

Traffic Control ◽

Traffic Congestion ◽

Road Traffic ◽

Warning System ◽

Urban Road ◽

The Road ◽

Routine Work ◽

The City ◽

Road Traffic Congestion ◽

Work And Life

The urban road traffic congestion has not only brought many inconvenient for people's routine work and life, but also will restrict the growth of the economical, to accelerate the urban environment worsening and serious influence the city sustainable development. This paper studies based on the dynamic detection of urban road traffic congestion condition recognition technology can fast and accurate discover in the road network which already had the traffic congestion or soon occurs, then estimated the crowded proliferation scope and duration, which are advantageous to carry on the transportation induction and the traffic control promptly. And according to the different target client to the different emphasis point to the distinguish algorithm, has designed the urban road traffic congestion recognition grading warning system.

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Modeling Interstation Travel Speed of Hybrid Bus Rapid Transit within A Bayesian Framework

智能城市应用 ◽

10.33142/sca.v2i5.817 ◽

2019 ◽

Vol 2 (5) ◽

Author(s):

Ji-hua Hu ◽

Jia-xian Liang

Keyword(s):

Road Traffic ◽

Travel Speed ◽

Bayesian Framework ◽

Bus Rapid Transit ◽

Rapid Transit ◽

Important Indicator ◽

Main Road ◽

Traffic Lights ◽

Speed Distribution ◽

Hybrid Bus

Interstation travel speed is an important indicator of the running state of hybrid Bus Rapid Transit and passenger experience. Due to the influence of road traffic, traffic lights and other factors, the interstation travel speeds are often some kind of multi-peak and it is difficult to use a single distribution to model them. In this paper, a Gaussian mixture model charactizing the interstation travel speed of hybrid BRT under a Bayesian framework is established. The parameters of the model are inferred using the Reversible-Jump Markov Chain Monte Carlo approach (RJMCMC), including the number of model components and the weight, mean and variance of each component. Then the model is applied to Guangzhou BRT, a kind of hybrid BRT. From the results, it can be observed that the model can very effectively describe the heterogeneous speed data among different inter-stations, and provide richer information usually not available from the traditional models, and the model also produces an excellent fit to each multimodal speed distribution curve of the inter-stations. The causes of different speed distribution can be identified through investigating the Internet map of GBRT, they are big road traffic and long traffic lights respectively, which always contribute to a main road crossing. So, the BRT lane should be elevated through the main road to decrease the complexity of the running state.

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