A dynamic aggregate model for simulating network-wide travel time reliability

被引:0
作者
Lu S. [1 ]
Liu X. [1 ]
机构
[1] Faculty of Transportation Engineering, Changsha University of Science & Technology, Wanjiali Road 960, Changsha
来源
Advances in Transportation Studies | 2019年 / 3卷 / Special issue期
关键词
Aggregated model; Departure time choice; Network; Travel time reliability; Two fluid model;
D O I
10.4399/97888255317944
中图分类号
学科分类号
摘要
The advancements in Macroscopic Fundamental Diagrams (MFDs) provide opportunities for investigating network-wide travel time reliability. A dynamic aggregated model, combing a Two-Fluid Model (TFM) type MFD, mean-standard deviation relationship of travel time rate and standardized travel time distribution, is proposed. The proposed model only uses taxi GPS data to compute network-wide variables, such as the TFM type MFD, standardized travel time distribution, mean and standard deviation of travel time rate, trip length distribution. Then, the supply side and demand side at the network scale, particularly the network density and departure time choice, can be simulated. Lastly, a Changsha case with taxi GPS data is examined. © 2019, Gioacchino Onorati Editore. All rights reserved.
引用
收藏
页码:39 / 50
页数:11
相关论文
共 37 条
[1]  
Alemazkoor N., Burris M.W., Danda S.R., Using empirical data to find the best measure of travel time reliability, Transportation Research Record: Journal of the Transportation Research Board, 2530, pp. 93-100, (2015)
[2]  
Ampountolas K., Kouvelas A., Real-time estimation of critical values of the macroscopic fundamental diagram for maximum network throughput, pp. 11-15, (2015)
[3]  
Ambuhl L., Loder A., Menendez M., Axhausen K., Empirical macroscopic fundamental diagrams: New insights from loop detector and floating car data, (2017)
[4]  
Amott R., A bathtub model of downtown traffic congestion, Journal of Urban Economics, 76, pp. 110-121, (2013)
[5]  
Bazzani A., Giorgini B., Gallotti R., Giovannini L., Marchioni M., Rambaldi S., Towards Congestion Detection in Transportation Networks Using GPS Data, Privacy, Security, Risk and Trust (PASSAT) and 2011 IEEE Third Inemational Conference on Social Computing (SocialCom), pp. 1455-1459, (2010)
[6]  
Bell M.G.H., Iida Y., Transportation network analysis, (1997)
[7]  
Buisson C., Ladier C., Exploring the impact of homogeneity of traffic measurements on the existence of macroscopic fundamental diagrams, Transportation research record: Journal of the Transportation Research Board, 2124, pp. 127-136, (2009)
[8]  
Carrion C., Levinson D., Value of travel time reliability: A review of current evidence, Transportation Research Part A, 46, pp. 720-741, (2012)
[9]  
Dixit V.V., Geroliminis N., Empirical investigation of dynamics of the two-fluid model and macroscopic fundamental diagram with probe vehicles, annual meeting of the transportation research board, (2015)
[10]  
Engelson L., Fosgerau M., The cost of travel time reliability: Three measures with properties, Transportation Research Part B, 91, pp. 555-564, (2016)
1234