This paper describes the state of advancement achieved in the OptiYard research project in the use of optimisation algorithms in interaction with microsimulation of the rail-yard and surrounding network towards realtime yard management and communication with the network. Two case studies, a hump marshalling yard (mainly Single Wagon Load traffic) and a flat shunting yard (mainly intermodal traffic), were represented with state-of-the art microsimulation models, combined with innovative optimisation algorithms. Some specialistic information on the nature of the models is provided. However, the focus is oriented to railway engineers, with a description of the interactions between the models in producing outputs that are useful both to the yard dispatcher (decisions on staff, track, locomotive assignment, order of operations) and the infrastructure manager of the surrounding network (expected times of departure, availability of tracks in the yard).
Integrazione di impianti merci, rete e modelli di ottimizzazione per l’esercizio in tempo reale degli impianti // Integrating yards, network and optimisation models towards real-time rail freight yard operations / Licciardello, R.; Adamko, N.; Deleplanque, S.; Hosteins, P.; Liu, R.; Pellegrini, P.; Peterson, A.; Wahlborg, M.; Zatko, M.. - In: INGEGNERIA FERROVIARIA. - ISSN 0020-0956. - 6(2020), pp. 417-440.
Integrazione di impianti merci, rete e modelli di ottimizzazione per l’esercizio in tempo reale degli impianti // Integrating yards, network and optimisation models towards real-time rail freight yard operations
Licciardello R.
Writing – Original Draft Preparation
;
2020
Abstract
This paper describes the state of advancement achieved in the OptiYard research project in the use of optimisation algorithms in interaction with microsimulation of the rail-yard and surrounding network towards realtime yard management and communication with the network. Two case studies, a hump marshalling yard (mainly Single Wagon Load traffic) and a flat shunting yard (mainly intermodal traffic), were represented with state-of-the art microsimulation models, combined with innovative optimisation algorithms. Some specialistic information on the nature of the models is provided. However, the focus is oriented to railway engineers, with a description of the interactions between the models in producing outputs that are useful both to the yard dispatcher (decisions on staff, track, locomotive assignment, order of operations) and the infrastructure manager of the surrounding network (expected times of departure, availability of tracks in the yard).| File | Dimensione | Formato | |
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Licciardello_Integrazione-impianti-merci_2020.pdf
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Note: http://www.ingegneriaferroviaria.it/web/it/content/integrazione-di-impianti-merci-rete-e-modelli-di-ottimizzazione-lâesercizio-tempo-reale
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