Fostering synergy between transit and Autonomous Mobility-on-Demand systems: A dynamic modeling approach for the morning commute problem

Autonomous Mobility-On-Demand (AMoD) provides new options for the morning commute problem. The flexibility of AMoD could help to boost the attractiveness and accessibility of Public Transportation (PT). Intermodal AMoD systems could become a competitive alternative to personal cars. However, conside...

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Published inTransportation research. Part A, Policy and practice Vol. 170; p. 103638
Main Authors Cortina, Mélanie, Chiabaut, Nicolas, Leclercq, Ludovic
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2023
Elsevier
Subjects
Autonomous Mobility-On-Demand (AMoD)
Corridor
Design
Engineering Sciences
Intermodal trips
Morning commute
User equilibrium (UE)
Design
Corridor
User equilibrium (UE)
Morning commute
Intermodal trips
Autonomous Mobility-On-Demand (AMoD)
Online AccessGet full text
ISSN0965-8564
1879-2375
DOI10.1016/j.tra.2023.103638

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Abstract Autonomous Mobility-On-Demand (AMoD) provides new options for the morning commute problem. The flexibility of AMoD could help to boost the attractiveness and accessibility of Public Transportation (PT). Intermodal AMoD systems could become a competitive alternative to personal cars. However, considering the convenience, comfort, and expected low fares of autonomous vehicles, there is a risk of competition between privately operated AMoD and PT. The joint design of PT and AMoD can foster their cooperation. This study investigates the joint PT-AMoD design problem in a many-to-one multimodal corridor where three transportation alternatives are available: full personal car on a congested freeway, walking and massive rapid transit (MRT), or autonomous vehicle (AV) and MRT. We introduce a simple dynamic model incorporating a time-dependent mode and route choice subject to user equilibrium (UE) constraints. The model presented: (i) accounts for how UE settles and evolves, (ii) provides insight on PT-AMoD cooperation opportunities and competition risks depending on the design choices, (iii) is compatible with design optimization heuristics. We apply the model to a realistic scenario based in the city of Lyon (France). The number of MRT stations, their locations, the number of AV fleets, and their coverage zone boundaries are optimized with a metaheuristic. The optimization is conducted according to three policies regarding AMoD (protectionism, opportunism, liberalism) and three priority objectives (maximize MRT usage, minimize travel times, reduce car usage). We formulate recommendations for the transportation authority by evaluating the potential benefits of each policy. •We compare a static and a dynamic model according to their ability to capture transit-AMoD cooperation or competition.•Direct or long first-mile scheme emerges from individual usages depending on the corridor design.•Segmenting the AMoD coverage zone reduces competition with transit.•We compare protectionism, opportunism, and liberal policies regarding AMoD.•Opportunism performs best, whatever the priority objective of the city.
AbstractList Autonomous Mobility-On-Demand (AMoD) provides new options for the morning commute problem. The flexibility of AMoD could help to boost the attractiveness and accessibility of Public Transportation (PT). Intermodal AMoD systems could become a competitive alternative to personal cars. However, considering the convenience, comfort, and expected low fares of autonomous vehicles, there is a risk of competition between privately operated AMoD and PT. The joint design of PT and AMoD can foster their cooperation. This study investigates the joint PT-AMoD design problem in a many-to-one multimodal corridor where three transportation alternatives are available: full personal car on a congested freeway, walking and massive rapid transit (MRT), or autonomous vehicle (AV) and MRT. We introduce a simple dynamic model incorporating a time-dependent mode and route choice subject to user equilibrium (UE) constraints. The model presented: (i) accounts for how UE settles and evolves, (ii) provides insight on PT-AMoD cooperation opportunities and competition risks depending on the design choices, (iii) is compatible with design optimization heuristics. We apply the model to a realistic scenario based in the city of Lyon (France). The number of MRT stations, their locations, the number of AV fleets, and their coverage zone boundaries are optimized with a metaheuristic. The optimization is conducted according to three policies regarding AMoD (protectionism, opportunism, liberalism) and three priority objectives (maximize MRT usage, minimize travel times, reduce car usage). We formulate recommendations for the transportation authority by evaluating the potential benefits of each policy. •We compare a static and a dynamic model according to their ability to capture transit-AMoD cooperation or competition.•Direct or long first-mile scheme emerges from individual usages depending on the corridor design.•Segmenting the AMoD coverage zone reduces competition with transit.•We compare protectionism, opportunism, and liberal policies regarding AMoD.•Opportunism performs best, whatever the priority objective of the city.
ArticleNumber 103638
Author Leclercq, Ludovic
Cortina, Mélanie
Chiabaut, Nicolas
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Keywords Design
Corridor
User equilibrium (UE)
Morning commute
Intermodal trips
Autonomous Mobility-On-Demand (AMoD)
Language English
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Snippet Autonomous Mobility-On-Demand (AMoD) provides new options for the morning commute problem. The flexibility of AMoD could help to boost the attractiveness and...
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SubjectTerms Autonomous Mobility-On-Demand (AMoD)
Corridor
Design
Engineering Sciences
Intermodal trips
Morning commute
User equilibrium (UE)
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Title Fostering synergy between transit and Autonomous Mobility-on-Demand systems: A dynamic modeling approach for the morning commute problem
URI https://dx.doi.org/10.1016/j.tra.2023.103638
https://hal.science/hal-04794748
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