A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess

A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess

The safety of railway networks is a very important issue. Roughly speaking, it can be split into safety along lines and safety of railway facilities such as stations, junctions, yards, etc. In modern networks the safety along lines is controlled by automatic block systems that do not give clearance...

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Main Authors: Antonio Hernando, Roberto Maestre, Eugenio Roanes-Lozano
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2018/4982974
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spelling doaj-5bff67bb22bf418da508553705c1e5282020-11-25T00:35:08ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472018-01-01201810.1155/2018/49829744982974A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on PreprocessAntonio Hernando0Roberto Maestre1Eugenio Roanes-Lozano2Departamento de Sistemas Inteligentes Aplicados, Escuela Técnica Superior de Ingeniería de Sistemas Informáticos, Universidad Politécnica de Madrid, c/ Alan Turing s/n, 28031 Madrid, SpainDepartamento de Sistemas Inteligentes Aplicados, Escuela Técnica Superior de Ingeniería de Sistemas Informáticos, Universidad Politécnica de Madrid, c/ Alan Turing s/n, 28031 Madrid, SpainDepartamento de Álgebra, Geometría y Topología & Instituto de Matemática Interdisciplinar, Facultad de Educación, Universidad Complutense de Madrid, c/ Rector Royo Villanova s/n, 28040 Madrid, SpainThe safety of railway networks is a very important issue. Roughly speaking, it can be split into safety along lines and safety of railway facilities such as stations, junctions, yards, etc. In modern networks the safety along lines is controlled by automatic block systems that do not give clearance to trains to enter a section (block) until the latter is detected to be unoccupied. Meanwhile, the safety within railway facilities is supervised by railway interlocking systems. Decision making in a railway interlocking is a very important issue which is considered to be very labour-intensive. Decision-making in both automatic block systems and railway interlocking systems, unlike road traffic light systems, is not based on time (they are not scheduling problems) but in space. Basically, two different trains should never be allowed to access the same section (whatever time has passed). There are many different approaches to automate decision-making in railway interlocking systems. The classic approaches are offline: only certain routes are allowed and their compatibility is decided in advance. Meanwhile, modern approaches make decisions in real time and are independent from the topology of the railway network, but can be applied only to small or medium size railway networks. Nevertheless, these last approaches have the following drawbacks: the performances are very dependent on the number of trains in the railway network; and are unsuitable to large networks since they take long time to be run. On the other hand, algebraic approaches based on computer algebra concepts have been used in artificial intelligence for implementing expert systems. In this paper we present a completely new algebraic model, based on these concepts of computer algebra that overcomes these drawbacks: the performance of our approach is independent of the number of trains in the railway network and also is suitable for large railway networks.http://dx.doi.org/10.1155/2018/4982974
collection DOAJ
language English
format Article
sources DOAJ
author Antonio Hernando
Roberto Maestre
Eugenio Roanes-Lozano
spellingShingle Antonio Hernando
Roberto Maestre
Eugenio Roanes-Lozano
A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
Mathematical Problems in Engineering
author_facet Antonio Hernando
Roberto Maestre
Eugenio Roanes-Lozano
author_sort Antonio Hernando
title A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
title_short A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
title_full A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
title_fullStr A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
title_full_unstemmed A New Algebraic Approach to Decision Making in a Railway Interlocking System Based on Preprocess
title_sort new algebraic approach to decision making in a railway interlocking system based on preprocess
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1024-123X
1563-5147
publishDate 2018-01-01
description The safety of railway networks is a very important issue. Roughly speaking, it can be split into safety along lines and safety of railway facilities such as stations, junctions, yards, etc. In modern networks the safety along lines is controlled by automatic block systems that do not give clearance to trains to enter a section (block) until the latter is detected to be unoccupied. Meanwhile, the safety within railway facilities is supervised by railway interlocking systems. Decision making in a railway interlocking is a very important issue which is considered to be very labour-intensive. Decision-making in both automatic block systems and railway interlocking systems, unlike road traffic light systems, is not based on time (they are not scheduling problems) but in space. Basically, two different trains should never be allowed to access the same section (whatever time has passed). There are many different approaches to automate decision-making in railway interlocking systems. The classic approaches are offline: only certain routes are allowed and their compatibility is decided in advance. Meanwhile, modern approaches make decisions in real time and are independent from the topology of the railway network, but can be applied only to small or medium size railway networks. Nevertheless, these last approaches have the following drawbacks: the performances are very dependent on the number of trains in the railway network; and are unsuitable to large networks since they take long time to be run. On the other hand, algebraic approaches based on computer algebra concepts have been used in artificial intelligence for implementing expert systems. In this paper we present a completely new algebraic model, based on these concepts of computer algebra that overcomes these drawbacks: the performance of our approach is independent of the number of trains in the railway network and also is suitable for large railway networks.
url http://dx.doi.org/10.1155/2018/4982974
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