A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles

A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles

This study develops a mixed behavioural equilibrium model with explicit consideration of mode choice (MBE-MC) in a transportation system where fully automated vehicles (AV) coexist with conventional human-driven vehicles (HV). For the mode choice, travellers select among three options, following a l...

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Main Authors: Guangchao Wang, Hang Qi, Huiling Xu, Seungkyu Ryu
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2020-12-01
Series:Journal of Management Science and Engineering
Subjects:
Mixed behaviour equilibrium
Automated vehicle
SUE-CN-SO
Combined travel choices
Variational inequality
Online Access:http://www.sciencedirect.com/science/article/pii/S2096232020300275
id doaj-51172ff8309040d78f450753ecf17636
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spelling doaj-51172ff8309040d78f450753ecf176362020-12-25T05:07:59ZengKeAi Communications Co., Ltd.Journal of Management Science and Engineering2096-23202020-12-0154227248A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehiclesGuangchao Wang0Hang Qi1Huiling Xu2Seungkyu Ryu3School of Information Management, Central China Normal University, Wuhan, 430079, ChinaInstitute for Advanced Studies in Finance and Economics, Hubei University of Economics, Wuhan, 430205, China; Corresponding author.Institute for Advanced Studies in Finance and Economics, Hubei University of Economics, Wuhan, 430205, ChinaKorea Institute Science Technology Information, Dajeon, 02792, South KoreaThis study develops a mixed behavioural equilibrium model with explicit consideration of mode choice (MBE-MC) in a transportation system where fully automated vehicles (AV) coexist with conventional human-driven vehicles (HV). For the mode choice, travellers select among three options, following a logit modal split: driving their private HV, or taking an AV mobility service provided by either a firm or the government. For the route choice, the HV drivers follow the random utility maximisation principle while central agents route the AV passengers following the Cournot Nash (firm agent) or Social Optimal (government agent) principles. We consider two types of travel costs (i.e. travel time and monetary travel cost) to characterise the new features (e.g. expanded link capacity and reduced value of time) of the mixed AV–HV transportation system. We model the MBE-MC problem in a combined mode–route choice framework and formulate it as a route-based variational inequality (VI) problem. We show the equivalence between the VI formulation and the MBE-MC problem, and the existence of a solution to the MBE-MC problem. Then, we modify a partial linearisation algorithm for solving the proposed model. Numerical results validate the equilibrium conditions and show the efficacy of the new model in capturing the features of the mixed AV–HV transportation system. The impact patterns of different parameters on (1) the network performance in terms of AV share and system cost and (2) on the solution efficiency are analysed.http://www.sciencedirect.com/science/article/pii/S2096232020300275Mixed behaviour equilibriumAutomated vehicleSUE-CN-SOCombined travel choicesVariational inequality
collection DOAJ
language English
format Article
sources DOAJ
author Guangchao Wang
Hang Qi
Huiling Xu
Seungkyu Ryu
spellingShingle Guangchao Wang
Hang Qi
Huiling Xu
Seungkyu Ryu
A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
Journal of Management Science and Engineering
Mixed behaviour equilibrium
Automated vehicle
SUE-CN-SO
Combined travel choices
Variational inequality
author_facet Guangchao Wang
Hang Qi
Huiling Xu
Seungkyu Ryu
author_sort Guangchao Wang
title A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
title_short A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
title_full A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
title_fullStr A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
title_full_unstemmed A mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
title_sort mixed behaviour equilibrium model with mode choice and its application to the endogenous demand of automated vehicles
publisher KeAi Communications Co., Ltd.
series Journal of Management Science and Engineering
issn 2096-2320
publishDate 2020-12-01
description This study develops a mixed behavioural equilibrium model with explicit consideration of mode choice (MBE-MC) in a transportation system where fully automated vehicles (AV) coexist with conventional human-driven vehicles (HV). For the mode choice, travellers select among three options, following a logit modal split: driving their private HV, or taking an AV mobility service provided by either a firm or the government. For the route choice, the HV drivers follow the random utility maximisation principle while central agents route the AV passengers following the Cournot Nash (firm agent) or Social Optimal (government agent) principles. We consider two types of travel costs (i.e. travel time and monetary travel cost) to characterise the new features (e.g. expanded link capacity and reduced value of time) of the mixed AV–HV transportation system. We model the MBE-MC problem in a combined mode–route choice framework and formulate it as a route-based variational inequality (VI) problem. We show the equivalence between the VI formulation and the MBE-MC problem, and the existence of a solution to the MBE-MC problem. Then, we modify a partial linearisation algorithm for solving the proposed model. Numerical results validate the equilibrium conditions and show the efficacy of the new model in capturing the features of the mixed AV–HV transportation system. The impact patterns of different parameters on (1) the network performance in terms of AV share and system cost and (2) on the solution efficiency are analysed.
topic Mixed behaviour equilibrium
Automated vehicle
SUE-CN-SO
Combined travel choices
Variational inequality
url http://www.sciencedirect.com/science/article/pii/S2096232020300275
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