Bicycle sharing system design with capacity allocations

Dilay Çelebi; Aslı Yörüsün; Hanife Işık

doi:10.1016/j.trb.2018.05.018

Bicycle sharing system design with capacity allocations

Dilay Çelebi^*, Aslı Yörüsün, Hanife Işık

^*Corresponding author for this work

Department of Management Engineering

Istanbul Technical University

Research output: Contribution to journal › Article › peer-review

73 Citations (Scopus)

Abstract

This study presents an integrated approach for the design of a Bicycle Sharing System (BSS) by jointly considering location decisions and capacity allocation. An important distinction of this approach is the definition of service levels, measured by the amount of unsatisfied demand both for bicycle pick-ups and returns. The method combines a set-covering model to assign location demands to stations with a queuing model to measure the related service levels. The key quality of this approach is its capacity in addressing the issues related to uncertainties in bicycle pick-up and return demand in BSS network design decisions. Results of the implementation of a BSS design for Istanbul Technical Universityâ;;s Ayazağa Campus show that our approach provides a balanced BSS network by equalizing the mean demand and return rates, which will decrease the need for relocation efforts once the system is put to use.

Original language	English
Pages (from-to)	86-98
Number of pages	13
Journal	Transportation Research Part B: Methodological
Volume	114
DOIs	https://doi.org/10.1016/j.trb.2018.05.018
Publication status	Published - Aug 2018

Bibliographical note

Publisher Copyright:
© 2018 Elsevier Ltd

Keywords

Bicycle sharing system
Capacity allocation
Facility location
Service level

Access to Document

10.1016/j.trb.2018.05.018

Cite this

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title = "Bicycle sharing system design with capacity allocations",

abstract = "This study presents an integrated approach for the design of a Bicycle Sharing System (BSS) by jointly considering location decisions and capacity allocation. An important distinction of this approach is the definition of service levels, measured by the amount of unsatisfied demand both for bicycle pick-ups and returns. The method combines a set-covering model to assign location demands to stations with a queuing model to measure the related service levels. The key quality of this approach is its capacity in addressing the issues related to uncertainties in bicycle pick-up and return demand in BSS network design decisions. Results of the implementation of a BSS design for Istanbul Technical University{\^a};;s Ayazağa Campus show that our approach provides a balanced BSS network by equalizing the mean demand and return rates, which will decrease the need for relocation efforts once the system is put to use.",

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AU - Çelebi, Dilay

AU - Yörüsün, Aslı

AU - Işık, Hanife

PY - 2018/8

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N2 - This study presents an integrated approach for the design of a Bicycle Sharing System (BSS) by jointly considering location decisions and capacity allocation. An important distinction of this approach is the definition of service levels, measured by the amount of unsatisfied demand both for bicycle pick-ups and returns. The method combines a set-covering model to assign location demands to stations with a queuing model to measure the related service levels. The key quality of this approach is its capacity in addressing the issues related to uncertainties in bicycle pick-up and return demand in BSS network design decisions. Results of the implementation of a BSS design for Istanbul Technical Universityâ;;s Ayazağa Campus show that our approach provides a balanced BSS network by equalizing the mean demand and return rates, which will decrease the need for relocation efforts once the system is put to use.

AB - This study presents an integrated approach for the design of a Bicycle Sharing System (BSS) by jointly considering location decisions and capacity allocation. An important distinction of this approach is the definition of service levels, measured by the amount of unsatisfied demand both for bicycle pick-ups and returns. The method combines a set-covering model to assign location demands to stations with a queuing model to measure the related service levels. The key quality of this approach is its capacity in addressing the issues related to uncertainties in bicycle pick-up and return demand in BSS network design decisions. Results of the implementation of a BSS design for Istanbul Technical Universityâ;;s Ayazağa Campus show that our approach provides a balanced BSS network by equalizing the mean demand and return rates, which will decrease the need for relocation efforts once the system is put to use.

KW - Bicycle sharing system

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KW - Facility location

KW - Service level

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JO - Transportation Research Part B: Methodological

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Bicycle sharing system design with capacity allocations

Abstract

Bibliographical note

Keywords

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