Real-time rescheduling and disruption management for public transit

Lai, David S.W.; Leung, Janny

doi:10.1080/21680566.2017.1358678

Cited by 18 publications

(13 citation statements)

References 14 publications

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“…The eigenmodel is a bi-objective model, which iterates between the three planning stages, defining different paths for the planning process based on the sequence of solving the problems. With a different focus, Lai and Leung (2018) studied the integrated problem of vehicle and crew scheduling, where travel times are time dependent and highly stochastic. The objective is to maximize the route frequencies and mileage to provide good passenger services and simultaneously minimize crew overtime and meal-break delays.…”

Section: Literature Reviewmentioning

confidence: 99%

Passenger-oriented rescheduling of trains and rolling stock for handling large passenger demand: linearized models with train capacity constraint

Long

Luan

Corman

2021

Transportmetrica B: Transport Dynamics

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This paper focuses on adjusting the offline-planned schedules for urban rail networks in the case of large passenger demand. We simultaneously reschedule train services, adjust rolling stock plans, and find the best route for passengers in the updated train schedule. The goal is to improve transport performance for passengers and to balance it with operating cost, while respecting operational constraints. A mixed-integer nonlinear programming (MINLP) model is first proposed. Approximate and exact methods are further introduced to reformulate the nonlinear term in the MINLP model, resulting in mixed-integer linear programming (MILP) models. In the models, emergency train services can be added if necessary. Short-turning and stop-pattern adaptation can speed up the circulation of rolling stock (i.e. metro vehicles). Passengers with the same characteristics are gathered into a group, and the passengers of a group may follow different routes, depending on resource availability. Experimental results on a small-scale case study demonstrate the better performance of three exact reformulation methods, i.e. they can find the first feasible solution much faster (within 180 s) and obtain solutions with much higher quality within a certain computation time, in comparison with the other proposed approximate and exact methods. Moreover, the results identify the improved performance of the operation for passengers, up to 13% improvement when properly shortening the headway time and up to 69% if operating emergency trains.

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Section: Literature Reviewmentioning

confidence: 99%

Passenger-oriented rescheduling of trains and rolling stock for handling large passenger demand: linearized models with train capacity constraint

Long

Luan

Corman

2021

Transportmetrica B: Transport Dynamics

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“…Problem formulations that include stochastic travel and dwell times typically apply to simpler problem instances that consider a small fraction of the daily trips (e.g. dynamic rescheduling problems [43]). Wu et al .…”

Section: Related Work On Timetable Optimisationmentioning

confidence: 99%

Bus scheduling considering trip‐varying travel times, vehicle availability and capacity

Gkiotsalitis

2020

IET intell. transp. syst

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“…Zychowski i suradnici [9] razvili su model u kojem ukupno vrijeme putovanja tramvajem uključuje i vrijeme zaustavljanja i čekanja tramvaja na stanicama i raskrižjima. Lai i Leung [10] predložili su brojne matematičke modele za revidiranje voznog reda tramvaja u stvarnom vremenu, u kojima su pretpostavili da je vrijeme zadržavanja na svakoj od krajnjih stanica minimalno i da se vozni park sastoji od identičnih tramvaja koji se grupiraju u koloni samo pred spremištima. Dosadašnja istraživanja pokazala su međuzavisnost brzine vožnje tramvaja i geometrije tramvajskog kolosijeka kao osnovne mjere stanja kvalitete kolosijeka [11].…”

Section: Modeli Predviđanja Brzine (Vremena) Putovanjaunclassified

Effect of track geometry quality on tram transport system indicators

Majstorović¹,

Ahac²

2019

5th Symposium on Doctoral Studies in Civil Engineering

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U ovome radu prikazan je, na primjeru tramvajskog sustava Grada Osijeka, utjecaj degradacije kvalitete geometrije tramvajskog kolosijeka na brzinu putovanja tramvajskog vozila, tj. na promjenu prometne ponude te posljedično na prometnu potražnju. Promjena kvalitete geometrije tramvajskog kolosijeka tijekom uporabe ima izravan utjecaj na smanjenje brzine kretanja tramvajskog vozila, tj. na povećanje trajanja putovanja tramvajem. Posljedično, promjena kvalitete geometrije tramvajskog kolosijeka utječe na promjenu razine usluge, te konačno na promjenu broja korisnika tramvajskog prometnog sustava. Planiranjem i pravovremenim održavanjem tramvajskog kolosijeka moguće je smanjiti negativne utjecaje promjene kvalitete geometrije tramvajskog kolosijeka na učinke tramvajskog prometnog sustava.

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Real-time rescheduling and disruption management for public transit

Cited by 18 publications

References 14 publications

Passenger-oriented rescheduling of trains and rolling stock for handling large passenger demand: linearized models with train capacity constraint

Passenger-oriented rescheduling of trains and rolling stock for handling large passenger demand: linearized models with train capacity constraint

Bus scheduling considering trip‐varying travel times, vehicle availability and capacity

Effect of track geometry quality on tram transport system indicators

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