Please use this identifier to cite or link to this item: https://doi.org/10.21256/zhaw-18564
Title: Development of a prototype for the automated generation of timetable scenarios specified by the transport service intention
Authors : Wüst, Raimond
Gomez, Claudio
Ess, Severin
Steiner, Albert
Bütikofer, Stephan
et. al : No
Extent : 85
Publisher / Ed. Institution : SBB Forschungsfonds HSG
Publisher / Ed. Institution: St. Gallen
Issue Date: 8-Oct-2018
License (according to publishing contract) : Licence according to publishing contract
Language : English
Subjects : Eisenbahn Fahrplan-Planung; Fahrplan-Stabilitätsbeurteilung; Service Intention; SmartRail 4.0; Baustellenplanung; Mesoskopisches Modell; Track Choice FPESP
Subject (DDC) : 380: Communications and transportation
Abstract: Within the next 5 to 10 years, public transport in Switzerland as well as in other European countries will experience major technological and organisational changes. However, changes will also take place on the customer side, resulting in different mobility behaviour and demand patterns. These changes will lead to additional challenges for transport service providers in private as well as public domains. Time to market will be a key success factor and it is unnecessary to mention that due to these factors the speed and flexibility of business processes in freight as well as in passenger transport industry have to be increased significantly. Within the railway value chain (line planning, timetabling and vehicle scheduling etc.) the coordina-tion of the individual planning steps is a key success factor. SBB as the leading service provider in public transport in Switzerland has recognized this challenge and, together with various partners, initiated the strategic project Smart Rail 4.0. The ZHAW and especially the Institute for Data Analysis and Process Design (IDP) of the School of Engineering wants to be part of this transformation pro-cess and to contribute with research and educational activities. The IDP research therefore aims for the transformation of academic and scientific know-how to practical applicability. In a first step this concerns directly the current Smart Rail 4.0 TMS-PAS project activities, that concentrate on timeta-bling issues. The IDP project team considers the integration of the line planning and the timetabling process as crucial for practical applications. To address this in the current research project, we present an ap-plication concept that enables the integration of these two major process steps in the transport service value-chain. Although it turns out from our research, that the technical requirements for the integration of the process can be satisfied, rules and conditions for a closer cooperation of the involved business units, the train operating companies and the infrastructure operating company, have to be improved and to be worked out in more detail. In addition to a detailed application concept with use cases for the timetabling process we propose a methodology for computer aided timetable generation based on the central planning object known as ‘service intention’. The service intention can be used to iteratively develop the timetable relying on a ‘progressive feasibility assessment’, a feature that is requested in practice. Our proposed model is based on the ‘track-choice’ and line rotation extension of the commonly known method for the generation of periodic event schedules ‘PESP’. The extension makes use of the track infrastructure representation which is also used in the line planning and timetabling sys-tem Viriato. This system that is widely used by public transport planners and operators. With the help of Viriato, it is rather easy to configure the timetabling problem in sufficient detail. On the oth-er side, the level of detail of the considered data is light enough to algorithmically solve practical timetabling problems of realistic sizes. Taking into consideration the technical and operational constraints given by rolling stock, station and track topology data on one hand, and the commercial requirements defined by a given line concept on the other, the method presented generates periodic timetables including train-track assignments. In the first step, the standardized data structure ‘service intention’ represents the line concept consisting of train paths and frequencies. Due to the utilization of infrastructure-based track capacities, we are also able to assess the feasibility of the line concept given. Additionally, the method allows for handling temporary resource restrictions (e.g. caused by construction sites or operational disturbances). In order to assess the performance of the resulting timetable we pre-sent a framework for performance measurement that addresses the customer convenience (in terms of start-to-end travel time) as well as operational stability requirements (in terms of delay sensitivity and critical relations).
Departement: School of Engineering
Organisational Unit: Institute of Data Analysis and Process Design (IDP)
Publication type: Working paper – expertise – study
DOI : 10.21256/zhaw-18564
URI: https://imp-sbb-lab.unisg.ch/de/forschungsfonds-sbb-eng
https://digitalcollection.zhaw.ch/handle/11475/18564
Published as part of the ZHAW project : SBB-Forschungsfonds 'Automatisierte Fahrplanplanung'
Appears in Collections:Publikationen School of Engineering

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