<p>Development, calibration and verification of mathematical model for multilane urban road traffic flow. Part II</p>

Kholodov Y.A.; Alekseenko A.E.; Kholodov A.S.; Vasilev M.O.; Mishin V.D.

Issue 6, 2015 Vol. 7

All issues

2024 Vol. 16
- Issue 1 (special issue)
2023 Vol. 15
- Issue 6
- Issue 5
- Issue 4 (special issue)
- Issue 3
- Issue 2 (special issue)
- Issue 1
2022 Vol. 14
- Issue 6
- Issue 5
- Issue 4 (special issue)
- Issue 3
- Issue 2 (special issue)
- Issue 1
2021 Vol. 13
- Issue 6
- Issue 5
- Issue 4
- Issue 3
- Issue 2 (special issue)
- Issue 1
2020 Vol. 12
- Issue 6
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2019 Vol. 11
- Issue 6
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2018 Vol. 10
- Issue 6
- Issue 5 (special issue)
- Issue 4
- Issue 3 (special issue)
- Issue 2
- Issue 1
2017 Vol. 9
- Issue 6
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2016 Vol. 8
- Issue 6
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2015 Vol. 7
- Issue 6
- Issue 5
- Issue 4
- Issue 3 (special issue)
- Issue 2
- Issue 1
2014 Vol. 6
- Issue 6 (special issue)
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2013 Vol. 5
- Issue 6 (special issue)
- Issue 5
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2012 Vol. 4
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2011 Vol. 3
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2010 Vol. 2
- Issue 4
- Issue 3
- Issue 2
- Issue 1
2009 Vol. 1
- Issue 4
- Issue 3
- Issue 2
- Issue 1

Development, calibration and verification of mathematical model for multilane urban road traffic flow. Part II

Kholodov Y.A., Alekseenko A.E., Kholodov A.S., Vasilev M.O., Mishin V.D.

pdf (877K) / List of references

The goal of this work is to generalize second order mathematical models for automotive flow using algorithm for building state equation — the dependency of pressure on traffic density — which is adequate with regard to real world data. The form of state equation, which closes the system of model equations, is obtained from experimental form of fundamental diagram — the dependency of traffic flow intensity on its density, and completely defines all properties of any phenomenological model. The proposed approach was verified using numerical experiments on typical traffic data, obtained from PeMS system (http://pems.dot.ca.gov/), using segment of I-507 highway in California, USA as model system.

Keywords: automotive flow, traffic flow, macroscopic hydrodynamic models, state equation, phenomenological models

Citation in English: Kholodov Y.A., Alekseenko A.E., Kholodov A.S., Vasilev M.O., Mishin V.D. Development, calibration and verification of mathematical model for multilane urban road traffic flow. Part II // Computer Research and Modeling, 2015, vol. 7, no. 6, pp. 1205-1219

DOI: 10.20537/2076-7633-2015-7-6-1205-1219

URL: http://crm-en.ics.org.ru/journal/article/2398/

Computer Research and Modeling - 2015 - Issue 6

This work is licensed under a Creative Commons Attribution-NoDerivs 3.0 Unported License.

Views (last year): 3.

Indexed in Scopus

Full-text version of the journal is also available on the web site of the scientific electronic library eLIBRARY.RU

The journal is included in the Russian Science Citation Index

The journal is included in the RSCI

International Interdisciplinary Conference "Mathematics. Computing. Education"