Train Timetabling on double track and multiple station capacity railway with useful upper and lower bounds

Jadid, Afshin Oroojlooy; Eshghi, Kourosh

doi:10.24200/sci.2017.4396

Cited by 2 publications

(2 citation statements)

References 55 publications

(103 reference statements)

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“…Then, from our example the time of occupation, T obs = 540 min and based on the formula t medz = 0.420 + 0.564.t obs , the total gap time T medz = 304.98 min and consequently the use of permeable performance will be K prakt = 58.68%. The slight deviation between these values and the values based on ŽSR methodology, is caused by estimation of the regression correlation equation parameters, which has the reliability value R2 = 0.999 [15][16][17][18].…”

Section: Comparability Of žSr and Uic Methodologiesmentioning

confidence: 99%

Capacity of Main Railway Lines – Analysis of Methodologies for its Calculation

Černá¹,

Ľupták²,

Šulko³

et al. 2018

Naše more

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This contribution in a cross section way focused on the analytical determination of practical capacity of main tracks and the issue of the required capacity in the context of the comparison of national methodology used by the ŽSR and the recommended international UIC methodology. Methodology for the calculation of permeable performance within the national conditions is stipulated by ŽSR´s regulation-D24, the methodology within the international conditions for members of the UIC railway union is recommended by UIC Code 406. Both of presented methodologies have their pros and cons, which are consistently derived from this text.

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Section: Comparability Of žSr and Uic Methodologiesmentioning

confidence: 99%

Capacity of Main Railway Lines – Analysis of Methodologies for its Calculation

Černá¹,

Ľupták²,

Šulko³

et al. 2018

Naše more

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show abstract

“…The TTP model is the optimal integration of a heavy-haul railway combined scheme and train timetable. It is a difficult problem since both the train formation problem and the train timetabling problem are NP-hard problems [22,33,34]. Therefore, to solve the TTP model, we developed a genetic algorithm-based framework.…”

Section: Hybrid Genetic Algorithmmentioning

confidence: 99%

A Scheduling Approach for the Combination Scheme and Train Timetable of a Heavy-Haul Railway

Zhou

Guo

et al. 2021

Mathematics

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Heavy-haul railway transport is a critical mode of regional bulk cargo transport. It dramatically improves the freight transport capacity of railway lines by combining several unit trains into one combined train. In order to improve the efficiency of the heavy-haul transport system and reduce the transportation cost, a critical problem involves arranging the combination scheme in the combination station (CBS) and scheduling the train timetable along the trains’ journey. With this consideration, this paper establishes two integer programming models in stages involving the train service plan problem (TSPP) model and train timetabling problem (TTP) model. The TSPP model aims to obtain a train service plan according to the freight demands by minimizing the operation cost. Based on the train service plan, the TTP model is to simultaneously schedule the combination scheme and train timetable, considering the utilization optimal for the CBS. Then, an effective hybrid genetic algorithm (HGA) is designed to solve the model and obtain the combination scheme and train timetable. Finally, some experiments are implemented to illustrate the feasibility of the proposed approaches and demonstrate the effectiveness of the HGA.

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Train Timetabling on double track and multiple station capacity railway with useful upper and lower bounds

Cited by 2 publications

References 55 publications

Capacity of Main Railway Lines – Analysis of Methodologies for its Calculation

Capacity of Main Railway Lines – Analysis of Methodologies for its Calculation

A Scheduling Approach for the Combination Scheme and Train Timetable of a Heavy-Haul Railway

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