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    Feeder bus network design with modular transit vehicles

    New search for: Dimitra Zermasli
    New search for: Christina Iliopoulou
    New search for: Georgios Laskaris

    Modular transit vehicles have the potential to transform public transport systems. Indeed, the possibility of dynamically adjusting capacity by assembling and disassembling multiple modular pods allows for improved transit service flexibility and efficiency, reducing operator and passenger costs. As such, modular buses are considered particularly advantageous for settings with large variations in passenger demand, permitting en-route capacity adjustment and seamless transfers. In this context, this study presents a model for the design of a feeder bus network operated by autonomous modular buses, accounting for en-route transfers, and a Genetic Algorithm to solve the non-linear mixed integer programming problem arising. Results for a case study in Athens, Greece for an area served by three metro lines are presented and discussed.

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    Feeder bus network design with modular transit vehicles

    New search for: Dimitra Zermasli
    New search for: Christina Iliopoulou
    New search for: Georgios Laskaris

    Modular transit vehicles have the potential to transform public transport systems. Indeed, the possibility of dynamically adjusting capacity by assembling and disassembling multiple modular pods allows for improved transit service flexibility and efficiency, reducing operator and passenger costs. As such, modular buses are considered particularly advantageous for settings with large variations in passenger demand, permitting en-route capacity adjustment and seamless transfers. In this context, this study presents a model for the design of a feeder bus network operated by autonomous modular buses, accounting for en-route transfers, and a Genetic Algorithm to solve the non-linear mixed integer programming problem arising. Results for a case study in Athens, Greece for an area served by three metro lines are presented and discussed.

    Access

    Download

    Feeder bus network design with modular transit vehicles

    New search for: Dimitra Zermasli
    New search for: Christina Iliopoulou
    New search for: Georgios Laskaris

    Modular transit vehicles have the potential to transform public transport systems. Indeed, the possibility of dynamically adjusting capacity by assembling and disassembling multiple modular pods allows for improved transit service flexibility and efficiency, reducing operator and passenger costs. As such, modular buses are considered particularly advantageous for settings with large variations in passenger demand, permitting en-route capacity adjustment and seamless transfers. In this context, this study presents a model for the design of a feeder bus network operated by autonomous modular buses, accounting for en-route transfers, and a Genetic Algorithm to solve the non-linear mixed integer programming problem arising. Results for a case study in Athens, Greece for an area served by three metro lines are presented and discussed.

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    Title:

    Feeder bus network design with modular transit vehicles

    Contributors:

    Dimitra Zermasli (author) / Christina Iliopoulou (author) / Georgios Laskaris (author) / Konstantinos Kepaptsoglou (author)

    Published in:

    Journal of Public Transportation, Vol 25, Iss , Pp 100078- (2023)

    Publication date:

    2023

    ISSN:

    2375-0901

    DOI:

    https://doi.org/10.1016/j.jpubtr.2023.100078

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Modular buses , Feeder bus network design , Transit network design , Genetic algorithms , Transportation and communications , HE1-9990 , Transportation engineering , TA1001-1280

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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