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A next step in disruption management

combining operations research and complexity science

Journal Article (2021)
Authors

Mark Dekker (Universiteit Utrecht)

Rolf N. van Lieshout ( Erasmus Universiteit Rotterdam)

Robin C. Ball (University of Warwick)

Paul C. Bouman ( Erasmus Universiteit Rotterdam)

Stefan C. Dekker (Universiteit Utrecht)

Henk Dijkstra (Universiteit Utrecht)

Rob M P Goverde ()

Dennis Huisman (Nederlandse Spoorwegen, Erasmus Universiteit Rotterdam)

Debabrata Panja (Universiteit Utrecht)

Alfons A.M. Schaafsma (ProRail)

Marjan van den Akker (Universiteit Utrecht)

Affiliation
Copyright
© 2021 Mark M. Dekker, Rolf N. van Lieshout, Robin C. Ball, Paul C. Bouman, Stefan C. Dekker, Henk A. Dijkstra, R.M.P. Goverde, Dennis Huisman, Debabrata Panja, Alfons A.M. Schaafsma, Marjan van den Akker
To reference this document use:
https://doi.org/10.1007/s12469-021-00261-5
More Info
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Publication Year
2021
Language
English
Copyright
© 2021 Mark M. Dekker, Rolf N. van Lieshout, Robin C. Ball, Paul C. Bouman, Stefan C. Dekker, Henk A. Dijkstra, R.M.P. Goverde, Dennis Huisman, Debabrata Panja, Alfons A.M. Schaafsma, Marjan van den Akker
Affiliation
Issue number
1
Volume number
14
Pages (from-to)
5-26
DOI:
https://doi.org/10.1007/s12469-021-00261-5
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Abstract

Railway systems occasionally get into a state of being out-of-control, meaning that barely any train is running, even though the required resources (infrastructure, rolling stock and crew) are available. Because of the large number of affected resources and the absence of detailed, timely and accurate information, currently existing disruption management techniques cannot be applied in out-of-control situations. Most of the contemporary approaches assume that there is only one single disruption with a known duration, that all information about the resources is available, and that all stakeholders in the operations act as expected. Another limitation is the lack of knowledge about why and how disruptions accumulate and whether this process can be predicted. To tackle these problems, we develop a multidisciplinary framework combining techniques from complexity science and operations research, aiming at reducing the impact of these situations and—if possible—avoiding them. The key elements of this framework are (i) the generation of early warning signals for out-of-control situations, (ii) isolating a specific region such that delay stops propagating, and (iii) the application of decentralized decision making, more suited for information-sparse out-of-control situations.