Implementation of GSM-R system on Slovenian Railways · Started with Slovenian Railways 35 years...
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Transcript of Implementation of GSM-R system on Slovenian Railways · Started with Slovenian Railways 35 years...
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Presentation agenda
IntroductionSlovenian Railways
ServicesGSM-R
Definition Phase - Design and engineeringFirst phase
Construction phase - ImplementationSecond phase
ExamplesSolution Architecture
ApplicationsFuture steps
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The presenter…
Railway background:Started with Slovenian Railways 35 years agoRailway Operational TelecomsInvolved with GSM-R in SLO since 2007
On Institute of Traffic and Transport Ljubljana since 2013Senior Researcher
International experience:Member of UIC ERIG Member of UIC Prequalification Group (PreQ)Chairmen of UIC Functional Group (FG)
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Position in EU: Relief overview:
Railway lines:Railway stations and train stops:
IntroductionSlovenian Railways
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Total length of lines: 1.207,701 kmMain lines: 606,379 km Regional lines: 600,686 kmDouble tracks: 333,539 kmSingle tracks: 874,162 kmElectrified lines: 605,5 km Rolling stocks: 260
The highest gradient: 26,7 promilThe highest railway station altitude: 582 m – station PostojnaThe lowest railway station altitude: 3 m – station KoperThe longest bridge 575 mThe highest bridge 30 mThe longest tunnel 6327,3 m
The oldest railway line: 2nd of June 1846 Šentilj – Celje
Statistical data and superlatives
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Milestones :
Contract for preparation of documentation was signed in December of 2009.
Adopted decision from EC about co-financing – March 2013.
Contract with selected contractor for implementation was signed in August 2013.
Estimated date for completion of works is October 2016.
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• Full range of technical solutions for fixed and mobile communications , including infrastructure for Slovenian railways
• Investor: The Ministry of Infrastructure
• Contractor: Consortium Iskratel, GHH; GSM-R equipment supplier: Kapsch
• Preparation of tender documents: Slovenian Railways and SYSTRA SA France
• Financing: own funds and Cohesion funds
• Implementation period: 3 years
• Average price per Km of track include all WPs (without maintaining contract and VAT) is cca 110 KEUR / Km of line
The introduction of GSM-R system on Slovenian Railway network
Construction phase - ImplementationSecond phase
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Scope of works with financial structure:
The project is divided into six main Work Packages – WP
• WP1 Cabling
• WP2 Base stations
• WP3 Transport network SDH, IP
• WP4 Fixed dispatching system for GSM-R
• WP5 GSM-R infrastructure
• WP6 Mobile Terminals
Additional
• Training and Project management
• Spare parts, tools,
• Maintenance contract for 5 years
Cabling; 40%
Base stations; 32%
Transport network ; 2%
Fixed Dispatcher system; 6%
GSM-R infrastructure ;
8%Mobile
terminals; 2%
Project mgmt, training; 11%
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Key figures:
• 1200 km of railways
• 132 railway stations
• 246 base station - BTS
• 110 Remote Radio Heads- RRH
• 2 MSC (geo redundant)
• 3 BSC (in redundant concept)
• 1 GPRS system
• 1 SMS center
• 1 centralized recording system
• 2 GSM-R Dispatcher Call Servers
• 75 compact Call Servers
• 211 dispatcher consoles
• 372 power supply systems
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Work packages
WP1 – Cabling
• Cca 900 km of optical cables and 300 km of power cables
• Demanding design mostly new cabling, smaller part of the re-used existing cables
• Huge amount of construction work (excavation, taking into account the geographical characteristics of the terrain)
Metal ducts
Concrete ducts
Digging
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Work packages
Installed equipment
WP2 – Base stationsConstruction works and equipment installation for BTS sites and technical rooms.
Construction works
RRH outdoor
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WP3 – Transport network SDH, IP
• Based on SDH and Ethernet data transmission technology
• The integration into an existing network (TDM - E1,) for alternative routing
• The transport network across the main routes of transmission provides complete redundancy using a ring topology on separate physical connections
• Segment the network provides a high degree of control over traffic
Layer one (MSC / BSC connection) and layer two (BSC / BTS) example
Difference between main lines (double ring) and regional lines (single ring)
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WP4 – Fixed dispatching system for GSM-R
• Solution supporting modern (fixed and mobile) and legacy technologies (LB, CB, analogue 2-w and 4-w trunks, announcement systems...) within a single dispatcher terminal.
• IP based architecture
– centralized for parts where main GSM-R functionality is provided
– decentralized where the locally connected lines have to be handled
• Dispatchers are connected over IP/Ethernet
• The communication system includes all the existing subscriber and transmission lines and enables communication with GSM-R mobile part , fixed system of ŽAT telephony , SMS services and central recording system.
• The layout is redundant – geo-redundancy at two locations in LJ and MB
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WP5 – GSM-R infrastructure (core)
Next generation IP voice network solution based on the 3GPP Release 4 standards.Network design/ planning / dimensioning/ confirmation and system integration of all main core systems:
NSS Network Switching SubsystemBSS Base Station Subsystem (BSC with BTS-R)GPRS systemSMS centerVoice recording system
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WP6 – GSM-R Mobile terminals
• General purpose handhelds (GPH) – 1.100 pcs
• Operational purpose handhelds (OPH) for field service staff – 370 pcs
• Operational purpose handheld for shunting (OPS) for staff participating in shunting works –190 pcs
• „Portable“ CAB radio – 50 pcs • Heavy duty
• Main functionalities:– Emergency call,
– Push-to-Talk
– SMS
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Ethernet, IP network
MNKlicni
strežnik
SMGservices
Dispatcher
Terminal
Klicni
strežnik Dispečerski
strežnik
Dispatcher
Terminal
4 (PR
I loop)4 (P
RI loop)
4 (PRI loop)
4 (PR
I loop)
MNMN
MN
Dispečerski
strežnik SMG
ŽAT
C-OAM
TDM network
BTSBTS
PSTN, PLMN
Transport
network
SDH, IP
Ljubljana Maribor
GPRS
VRS
3
3
3
5
Optical GE
baseT FE/GE
Core
Router
3
3
5
5
5
3
2
1
MSC-S
HLR
STP
SCP
MGW
8
6
1
6+6 (ISUP loop)
1
3
3
3
5
Core
Router
IP MPLS
Router
3
3
Core
Router
5
5
5
3
2
1
MSC-S
HLR
STP
SCP
MGW1
Core
Router
1
E1s (through SDH)
C-OAM
2
DSS1 PRI
SMS-C 2 1
7
7
8 8
6
6
Dispatcher
Terminal
3
3
3
33
3
1
11
1
Dispatcher
Terminal
27 stations 50 stations
WingCon
Systems
2 2
8
28
2
1
33
Catalyst 2960 and Ciena 3920 Catalyst 2960 and Ciena 3920
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System connectivitySolution architecture
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Redundancy concept
Plavajoči IP naslov
LJUBLJANA (Nedosegljiva lokacija)
CS (Nedosegljiva gruča)
SMG (Nedosegljiv)
DS (Nedosegljiv)
MNS (Nedosegljiv)
CS 1-1
CS 1-2
SMG 1 SMG 2
DS 1
LOKACIJA A
cCS (Aktivna gruča)
MNS 1
VRS(BBRC)
MGW-R
ŽAT
SCP
SMS-C
cCS 1
cCS 2
TK pult
C-OAM
3xE1
2xE1
4xE1
MARIBOR (Aktivna lokacija)
CS (Aktivna gruča)
SMG (Aktivna)
DS (Aktiven)
MNS (Aktiven)
CS 2-1
CS 2-2
SMG 3 SMG 4
DS 2
LOKACIJA C
cCS (Aktivna gruča)
MNS 2
MGW-R SCP
cCS 1
cCS 2
C-OAM
3xE1
LOKACIJA B
cCS (Aktivna gruča)
cCS 1
cCS 2
TK pult TK pult
2xE1
4xE1
Aktivno IP (MN)
Aktivno IP (Signalizacija in govor)Aktivno IP (Lokacijska informacija, SMS, vloge)
Aktiven IP samo za lokalno delovanje (signalizacija in govor)
V pripravljenosti IP (MN)
V pripravljenosti IP (Signalizacija in govor)V pripravljenosti IP (Lokacijska informacija, SMS, vloge)
BTS loops and their connection to BSC
3 BSC redundant to each other
The SZ network is composed by two NSS in geo-redundant mode and three BSS which manage 1/3 of the BTSs each.
Dispatcher system in geo-redundant mode.
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Service
Level
required value Results Samples Average MAX MIN
≥ -95dBm @ 95% time & space
100% 547 -62.52 dBm -27.35 dBm -89.29 dBm
Rx Level Diagram According Eirene
principle – single coverage
Measured results better than required
Radio coverage
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In the Slovenian railway network we have three Traffic Management Centers shown on the picture bellow.For implementing LDA functionality we optimize the reselection zones between the different radio cells.
Traffic Management Centers
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Radio cells allocated in the line (38 km)Average distance between BTS‘s in this section is 3,4 km
LDA functionalities
GSM-R network is designed to take into account the Slovenian railway operating program.According to this plan, each cell will be attached to the specific primary controller or/and secondary controller.
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Integration of existing analog telephony and GSM-R into ONE dispatcher platform
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GSM-R applications based on GPRS packet switch will be implemented after the formal acceptance of GSM-R network.
Developing of this applications needs cooperation with IT sector as well as traffic operating staff.
ApplicationsFuture steps
We defined already some of them like:- Ticketing- Time tables on the train and for train drivers- Departure documents for train driver (order for departure)- Sending data from counters for electrical consuming on the locomotives
Early detection of danger situations on the railway lines and around with: - Fire detection with sensors installed on the GSM-R masts- Flood detection - Landslide detection
Gathering all this information on the same platform for supporting the staff in dispatcher centers for quick and correct response and action.
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End of presentation:
Boris Gombač Slovenian Railways
UIC FG chairman
Thank you for your attention