Stochastic scheduling approach for predictive risk-based railway maintenance

Consilvio, Alice; Febbraro, Angela Di; Sacco, Nicola

doi:10.1109/icirt.2016.7588732

Cited by 23 publications

(11 citation statements)

References 6 publications

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“…This can be partly achieved by promoting intermodality between trains and buses [3][4][5]. Other strategies for promoting the use of rail systems are to increase service quality [6][7][8], reliability [9][10][11], and competitiveness with personal cars, by optimising service schedules and operations [12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Defining Reserve Times for Metro Systems: An Analytical Approach

D’Acierno

Botte

Gallo

et al. 2018

Journal of Advanced Transportation

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The aim of this paper is to provide an analytical approach for determining operational parameters for metro systems so as to support the planning and implementation of energy-saving strategies. Indeed, one of the main targets of train operating companies is to identify and implement suitable strategies for reducing energy consumption. For this purpose, researchers and practitioners have developed energy-efficient driving profiles with the aim of optimising train motion. However, as such profiles generally entail an increase in travel times, the operating parameters in the planned timetable need to be appropriately recalibrated. Against this background, this paper develops a suitable methodology for estimating reserve times which represent the main rate of extra time needed to put ecodriving strategies in place. Our proposal is to exploit layover times (i.e., times spent by a train at the terminus waiting for the next trip) for energy-saving purposes, keeping buffer times intact in order to preserve the flexibility and robustness of the timetable in case of delays. In order to show its feasibility, the approach was applied in the case of a real metro context, whose service frequency was duly taken into account. In particular, after stochastic analysis of the parameters involved for calibrating suitable buffer times, different operating schemes were simulated by analysing the relationship between layover times, number of convoys, and feasible headway values. Finally, some operation configurations are analysed in order to quantify the amount of energy that can be saved.

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Section: Introductionmentioning

confidence: 99%

Defining Reserve Times for Metro Systems: An Analytical Approach

D’Acierno

Botte

Gallo

et al. 2018

Journal of Advanced Transportation

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“…Tramway systems, and more in general railway systems, have been studied in different contexts and with different objectives, including energy issues for reducing the environmental impact and for minimizing the energy consumption ( [5][6][7]), multimodal traveler information systems ( [8,9]), improving service quality ( [10,11]), reducing the impacts on users in the case of system failures ( [12,13]), rescheduling and dispatching to improve passenger comfort and convenience ( [14,15]).…”

Section: Related Workmentioning

confidence: 99%

A stochastic modeling approach for traffic analysis of a tramway system with virtual tags and local positioning

et al. 2021

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Traditional solutions for tramway interlocking systems are based on physical sensors (balizes) distributed along the infrastructure which detect passing of the trams and trigger different actions, like the communications with the ground infrastructure and the interlocking system. This approach is not easily scalable and maintainable, and it is costly. The SISTER project designed new architectural solutions for addressing the previous problems based on the virtualization of the sensors and on the local positioning of each tram. The key idea is to trigger actions when the computed local position corresponds to a virtual tag. However, the computed position can be affected by errors, compared to the real one. Therefore, it is important to understand the impact of these new solutions on the traffic that can be supported by the tramway network. This paper presents a stochastic modeling approach for analysing the performability of a tramway system based on the SISTER architectural solutions, aiming to identify the parts of the tramway network that are more critical and sensible to the variation of the traffic conditions and to the setting of the key architectural parameters. We build a model using Stochastic Activity Networks and run sensitivity analyses on (i) the accuracy of the positioning, (ii) the different SISTER parameters, and (iii) considering possible outages temporarily blocking the journey of a tram. This analysis allows to properly set and fine-tune the key architectural parameters, to understand the impact of the accuracy on the positioning, to understand the impact of the outages.

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“…Several publications study the routing of maintenance teams, in which case home location and travel time becomes important. Some recent examples are Peng and Ouyang (2012); Borraz-Sánchez and Klabjan (2012); Camci (2015); Consilvio et al (2016). The second and third of these papers also consider work volume limitations.…”

Section: Related Research Literaturementioning

confidence: 99%

Resource considerations for integrated planning of railway traffic and maintenance windows

Lidén

Kalinowski

Waterer

2018

Journal of Rail Transport Planning & Management

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This paper addresses the coordination of railway network maintenance and train traffic. The work extends a previously developed optimization model by considering maintenance resource constraints for crew availability and work time regulations. The aim is to find a long term tactical plan that minimizes the total cost of maintenance and train operations, where train services and train free windows are scheduled such that maintenance can be carried out by a pool of crew resources, which are divided into bases and have limitations on maximum working hours per day and minimum rest time between these working days. A mixed integer linear programming model along with computational experiments are presented which show that these resource considerations can be correctly handled with a moderate increase in model size and solution time.

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Stochastic scheduling approach for predictive risk-based railway maintenance

Cited by 23 publications

References 6 publications

Defining Reserve Times for Metro Systems: An Analytical Approach

Defining Reserve Times for Metro Systems: An Analytical Approach

A stochastic modeling approach for traffic analysis of a tramway system with virtual tags and local positioning

Resource considerations for integrated planning of railway traffic and maintenance windows

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