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Conference Proceedings MIMCS-2020

DEVELOPMENT OF A HYBRID SIGNALLING SYSTEM FOR TRAINS EQUIPPED EITHER WITH 1435 MM SIGNALLING SYSTEM OR 1520 MM SIGNALLING SYSTEM: AZERBAIJAN RAILWAY LINES A CROSSING

n-saylı giriş
faktorlar örtüyünün analizi nəticəsində
m-saylı çıxış
verilənlərini
qurmaqla düzgün qərarların qəbul edilməsi modelini proqnozlaşdırmaq olar.
Ədəbiyyat
Azerbaijan - 2020 Development Concept. (“Azərbaycan-2020: gələcəyə baxış” İnkişaf Konsepsiyası), Bakı, 2012, 40 s.
Retrieved from
https://president.az/files/future_en.pdf
Bryant, Peter (2012) The modern university in the digital age. Greenwich Connect Key Documents, Educational Development Unit,
University of Greenwich, London, UK.
DEVELOPMENT OF A HYBRID SIGNALLING SYSTEM FOR TRAINS
EQUIPPED EITHER WITH 1435 MM SIGNALLING SYSTEM OR 1520 MM
SIGNALLING SYSTEM: AZERBAIJAN RAILWAY LINES A CROSSING
POINT FOR BOTH SYSTEMS

Bayramov A.R
1
., Ciftcioglu Ç.K.
2
1
«Azerbaijan Railways» CJSC, Project Implementation Unit, Baku,Azerbaijan, bayramov-aladdin@mail.ru
2PROYAPI Engineering Consultancy Inc. İstanbul, Turkey, kivilcimkoru@proyapi.com
Abstract
– Speed, accuracy and safety are crucial requirements for railway transport. Security and accuracy are ensured by
the use of hardware and software in the signalling system. The importance of the signalling system and the comparison of new
technologies and their joint application are highlighted. Along with the increasing speed and intensive movement of trains, the need
for signalling systems with reliable and secure software is growing day by day. The main goal of this work is to develop a hybrid safety
and interval regulation system operating in accordance with both 1520 mm signalling system (Continuous Automatic Train Signalling
(ALSN)) and 1435 mm signalling system (European Railway Traffic Management System (ERTMS)). The article offers unique
concepts for the use of information technology and modern optimized energy systems. This new hybrid signalling system will offer
solutions to problems regarding to the harmonisation of signalling systems along international transport corridors. As an example this
article focuses on the location of Azerbaijan which is a crossing point for INSTC and TRACECA railway corridor. INSTC railway
corridor is dominated by 1520 mm signalling systems, on the other hand, TRACECA railway corridor is dominated by 1435 mm
signalling system. Considering these two international railway routes, proposed hybrid concept will pose a solution to increase the safe
railways transportation as well as fast transit opportunity. In addition to the description of newly developed hybrid concepts and their
implementation, the article presents a new framework regarding to the interoperability of railway lines operated with European Railway
Traffic Management System (ERTMS) and ALSN system.
Keywords
— Continuous Automatic Train Signalling (ALSN), European Railway Traffic Management System (ERTMS), Railway
interlocking systems, hybrid traffic control, digital railroad, International North-South Transport Corridor ( INTSC),

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