A data-driven approach for scheduling bus services subject to demand constraints

A data-driven approach for scheduling bus services subject to demand constraints

Passenger satisfaction is extremely important for the success of a public transportation system. Many studies have shown that passenger satisfaction strongly depends on the time they have to wait at the bus stop (waiting time) to get on a bus. To be specific, user satisfaction drops faster as the wa...

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Bibliographic Details
Main Authors: BRAHMANAGE JANAKA CHATHURANGA THILAKARATHNA, KANDAPPU, Thivya, ZHENG, Baihua
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2023
Subjects:
Optimisation
Public Transport
Scheduling
Bus Stop
COST
Data Driven Approach
Demand Constraints
Optimization Criteria
PASS
Passenger Satisfaction
Public Transportation System
Real Passenger Demand Dataset
Scheduling Bus Services
User Satisfaction
Waiting Passengers
Waiting Time
Costs
Schedules
Optimal Scheduling
Data Models
Search Problems
Genetic Algorithms
Time Frequency Analysis
Bus Schedule Optimization
Dynamic Bus Scheduling
Greedy Search
Operational Cost
Waiting Time Threshold
Databases and Information Systems
Numerical Analysis and Scientific Computing
Transportation
Online Access:https://ink.library.smu.edu.sg/sis_research/7897
https://ink.library.smu.edu.sg/context/sis_research/article/8900/viewcontent/Data_Driven_Bus_Services_2023_av.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Passenger satisfaction is extremely important for the success of a public transportation system. Many studies have shown that passenger satisfaction strongly depends on the time they have to wait at the bus stop (waiting time) to get on a bus. To be specific, user satisfaction drops faster as the waiting time increases. Therefore, service providers want to provide a bus to the waiting passengers within a threshold to keep them satisfied. It is a two-pronged problem: (a) to satisfy more passengers the transport planner may increase the frequency of the buses, and (b) in turn, the increased frequency may impact the service operational costs. To address it, we propose PASS and COST as the two variants that satisfy different optimization criteria mentioned above. The optimization goal of PASS is the number of satisfied passengers while the optimization goal of COST is the number of passengers served per unit of driving time. Consequently, PASS utilizes resources to the maximum to satisfy the highest number of passengers, while COST optimizes for both passenger satisfaction and operational costs. Accordingly, we propose two algorithms to solve PASS and COST respectively and evaluate their performance based on real passenger demand data-set.

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