Dynamic repositioning to reduce lost demand in Bike Sharing Systems
Bike Sharing Systems (BSSs) are widely adopted in major cities of the world due to concerns associated with extensive private vehicle usage, namely, increased carbon emissions, traffic congestion and usage of nonrenewable resources. In a BSS, base stations are strategically placed throughout a city...
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2017
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sg-smu-ink.sis_research-46902020-03-26T09:27:02Z Dynamic repositioning to reduce lost demand in Bike Sharing Systems GHOSH, Supriyo VARAKANTHAM, Pradeep ADULYASAK, Yossiri JAILLET, Patrick Bike Sharing Systems (BSSs) are widely adopted in major cities of the world due to concerns associated with extensive private vehicle usage, namely, increased carbon emissions, traffic congestion and usage of nonrenewable resources. In a BSS, base stations are strategically placed throughout a city and each station is stocked with a pre-determined number of bikes at the beginning of the day. Customers hire the bikes from one station and return them at another station. Due to unpredictable movements of customers hiring bikes, there is either congestion (more than required) or starvation (fewer than required) of bikes at base stations. Existing data has shown that congestion/starvation is a common phenomenon that leads to a large number of unsatisfied customers resulting in a significant loss in customer demand. In order to tackle this problem, we propose an optimisation formulation to reposition bikes using vehicles while also considering the routes for vehicles and future expected demand. Furthermore, we contribute two approaches that rely on decomposability in the problem (bike repositioning and vehicle routing) and aggregation of base stations to reduce the computation time significantly. Finally, we demonstrate the utility of our approach by comparing against two benchmark approaches on two real-world data sets of bike sharing systems. These approaches are evaluated using a simulation where the movements of customers are generated from real-world data sets. 2017-02-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/3688 info:doi/10.1613/jair.5308 https://ink.library.smu.edu.sg/context/sis_research/article/4690/viewcontent/live_5308_9791_jair.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Bicycles Shared mobility systems routing problem optimization Artificial Intelligence and Robotics Computer Sciences Operations Research, Systems Engineering and Industrial Engineering Transportation |
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Bicycles Shared mobility systems routing problem optimization Artificial Intelligence and Robotics Computer Sciences Operations Research, Systems Engineering and Industrial Engineering Transportation |
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Bicycles Shared mobility systems routing problem optimization Artificial Intelligence and Robotics Computer Sciences Operations Research, Systems Engineering and Industrial Engineering Transportation GHOSH, Supriyo VARAKANTHAM, Pradeep ADULYASAK, Yossiri JAILLET, Patrick Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
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Bike Sharing Systems (BSSs) are widely adopted in major cities of the world due to concerns associated with extensive private vehicle usage, namely, increased carbon emissions, traffic congestion and usage of nonrenewable resources. In a BSS, base stations are strategically placed throughout a city and each station is stocked with a pre-determined number of bikes at the beginning of the day. Customers hire the bikes from one station and return them at another station. Due to unpredictable movements of customers hiring bikes, there is either congestion (more than required) or starvation (fewer than required) of bikes at base stations. Existing data has shown that congestion/starvation is a common phenomenon that leads to a large number of unsatisfied customers resulting in a significant loss in customer demand. In order to tackle this problem, we propose an optimisation formulation to reposition bikes using vehicles while also considering the routes for vehicles and future expected demand. Furthermore, we contribute two approaches that rely on decomposability in the problem (bike repositioning and vehicle routing) and aggregation of base stations to reduce the computation time significantly. Finally, we demonstrate the utility of our approach by comparing against two benchmark approaches on two real-world data sets of bike sharing systems. These approaches are evaluated using a simulation where the movements of customers are generated from real-world data sets. |
| format |
text |
| author |
GHOSH, Supriyo VARAKANTHAM, Pradeep ADULYASAK, Yossiri JAILLET, Patrick |
| author_facet |
GHOSH, Supriyo VARAKANTHAM, Pradeep ADULYASAK, Yossiri JAILLET, Patrick |
| author_sort |
GHOSH, Supriyo |
| title |
Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
| title_short |
Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
| title_full |
Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
| title_fullStr |
Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
| title_full_unstemmed |
Dynamic repositioning to reduce lost demand in Bike Sharing Systems |
| title_sort |
dynamic repositioning to reduce lost demand in bike sharing systems |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2017 |
| url |
https://ink.library.smu.edu.sg/sis_research/3688 https://ink.library.smu.edu.sg/context/sis_research/article/4690/viewcontent/live_5308_9791_jair.pdf |
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