吉林大学学报(工学版) ›› 2004, Vol. ›› Issue (1): 118-121.

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Traffic environment assessment based on automotive emission estimation

WANG Yun-peng1, SHA Xue-feng1, KUI Hai-lin1, LI Qiang2, LI Jue2   

  1. 1. College of Transportation, Jilin University, Changchun 130025, China;
    2. Kansas University Transportation Center, KS 66044, USA
  • Received:2003-09-10 Online:2004-01-01

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Abstract: A new approach utilizing dynamic traffic simulation was proposed to assess the traffic environment based on the two current international evaluation methods,i.e., traffic management and static traffic simulation was proposed. The traffic emission evaluation system framework consists of four modules for traffic network, traffic demand, traffic simulation and automotive emission.The approach could real-time describe the automotive dynamic movement behavior in the traffic network accurately, therefore, evaluate accurately the transportation environment of city-wide modern traffic network and assess the environmental impacts of the particular intelligent transportation system.

Key words: traffic environment assessment, dynamic traffic simulation, automotive emission, assessment model, intelligent transportation system

CLC Number: 

  • X734
[1] Environmental Protection Agency (EPA).User's guide to mobile 6-mobile source emission factor model[R].EPA420-R-02-001,2002.
[2] U S Department of Transportation,Federal Highway Administration.A sampling of emissions analysis techniques for transportation control measures[R].Final Report,2000.
[3] United States Environmental Protection Agency.Assessing the emissions and fuel consumption impacts of intelligent transportation systems(ITS)[R].EPA 231-R-98-007,1998.
[4] BRZEZINSKI David J,NEWELL Terry P.A revised model for estimation of highway vehicle emissions[Z].Air & Waste Management Association Eighth Annual Conference on Emission Inventories:Living in a Global Environment,1998.
[5] DIA H.Assessing the environmental impacts of intelligent transport systems[Z].21st Conference of Australian Institutes of Transport Research,the University of Queensland,Brisbane,2000.
[6] HESHAM Rakha,MICHEL VAN Aerde, AHN K, ANTONIO A.Trani,requirements for evaluating traffic signal control impacts on energy and emissions based on instanneous speed and acceleration measurements[Z].Transportation Research Board 79th Annual Meeting,Washington,DC,2000.
[7] NICHOLAS J Cottman, HUSSEIN Dia.A methodology for modeling the environmental impacts of intelligent transport systems(ITS)[Z].22nd Conference of Australian Institutes of Transport Research.Australian National University,2000.
[8] AHN K,TRANI A A,RAKHA H A,VAN AERDE M.Microscopic fuel consumption and emission models[Z].Transportation Research Board 78th Annual Meeting,Washington,DC,1999.
[9] VAN AERDE M,HELLINGA B,BAKER M,RAKHA H.Integration:an overview of current simulation features[Z].Transportation Research Board 75th Annual Meeting,Washington,D C,1996.
[10] ALGERS S,BERNAUER E,BOERO M,BREHERET L,DI TARANTO C,DOUGHERTY M,FOX K,GABARD J.SMARTEST project deliverable D3-review of micro-simulation models[Z].The SMARTEST Project,Leeds,UK Australian Greenhouse Office(AGO) Sustainable Transport,2000.
[11] ABDULHAI B,SHEU J, RECKER W.Simulation of ITS on the Irvine FOT area using paramics 1.5 scalable microscopic traffic simulator phase 1 model calibration and validation[R].California PATH Research Report.UCE-ITS-PRR-99-12,California Berkeley,1999.
[12] BARRETT C L.Transportation analysis simulation system[Z].LA-UR-00-1725.Los Alamos National Lab,2001.
[13] 李强,缪立新.基于路径的动态交通仿真模型[J].公路交通科技,2001,18(6):65-69.
[14] LI Qiang,KURT Carl E.GIS-based itinerary planning system for multi-model and fixed-Route transit network[Z].Accepted by Mid-Continent Transportation Symposium,Ames,Iowa,2000.
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