Transcript b4_sarfati

Overview on Railway
Applications of GSM-R
Robert SARFATI
SYSTRA
GSM-R Operators Group Chairman
UIC ERTMS conference 2006
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 Requirements Background
 Present needs
 Future Needs
 Conclusion
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Optimize Spectrum usage
GSM-R frequencies are in principle available all over Europe
Uplink
UIC
P-GSM
E-GSM
876 880
Downlink
890
UIC
915
921
E-GSM
925
P-GSM
935
960
GSM-R terminals operate in the full frequency range
UIC: International Railway organization
Railway allocated frequency band in Europe
E-GSM : Public GSM extended band
P-GSM : Public GSM band
MHz
Users requirements achieved
Fixed
network
Control Centres
National
EIRENE
network
Shunting
communications
Other EIRENE
network
International
trains
Train
communications
Wide area
communications
Future Needs
 Drivers
for new services introduction
 Phased strategy
 GSM-R ability to perform
 Issues
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Drivers for new services introduction
Deregulation
In Europe
Service
Improvement
Cost
Reductions
Phased strategy
 Finalize existing applications integration mainly
voice oriented
 Include present fixed line applications
 Integrate ETCS application using Circuit
switched Data
 Add new applications to GSM-R using new
GSM features:
 Packet data (GPRS) & Video (EDGE)
 Location systems
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Achieve Integration of existing applications
Trackside Maintenance
Railway
Applications
Wide Area
Communications
Shunting radio
Vehicle Radio
Circuit Switched Data (CSD)
Voice
Railway Specific
Features
Telecommunication
Services - ASCI
Functional Presentation of
Addressing Functional
Numbers
eMLPP
Access
Matrix
Location
Specific
Dependent Frequency
Addressing Range (4MHz)
VBS
VGCS
Public GSM
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Integration of ETCS application with CSD
ETCS
Trackside Maintenance
Railway
Applications
Wide Area
Communications
Shunting radio
Vehicle Radio
Circuit Switched Data (CSD)
Voice
Railway Specific
Features
Telecommunication
Services - ASCI
Functional Presentation of
Addressing Functional
Numbers
eMLPP
Access
Matrix
Location
Specific
Dependent Frequency
Addressing Range (4MHz)
VBS
VGCS
Public GSM
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Achieve Integration of existing applications
Trackside
Telephone
Railway
Applications
Emergency
Telephone
Radio
Dispatcher
Fixed line equipment
replacement
Voice
Railway Specific
Features
Telecommunication
Services - ASCI
Functional Presentation of
Addressing Functional
Numbers
eMLPP
Access
Matrix
Location
Specific
Dependent Frequency
Addressing Range (4MHz)
VBS
VGCS
Public GSM
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Adding new applications to GSM-R
ETCS
Trackside Maintenance
Railway
Applications
Passenger
Services
Wide Area
Communications
Logistics
Shunting radio
Diagnostics
Vehicle Radio
Remote Control
CSD or GPRS Data
Voice
Railway Specific
Features
Telecommunication
Services - ASCI
Functional Presentation of
Addressing Functional
Numbers
eMLPP
Access
Matrix
Location
Specific
Dependent Frequency
Addressing Range (4MHz)
VBS
VGCS
Public GSM
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Integration of new applications with GSM evolution
Passengers Services
Control Centres
Railway
Applications
Tracking and tracing
Track to Train
Operational Services
Call Centres
Remote Video
Control
IP & EDGE & Location serv.
Voice over IP
Railway Specific
Features
Telecommunication
Services - ASCI
Functional Presentation of
Addressing Functional
Numbers
eMLPP
Access
Matrix
Location
Specific
Dependent Frequency
Addressing Range (4MHz)
VBS
VGCS
Public GSM
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Operational applications
 Trackside workers messages forwarding
 Level crossing telecontrol
 Help desk for drivers
 IP based applications
 Remote control for shunting
 Video supervision for maintenance
 Route description delivery on board (fax, display, ..)
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GSM-R/GPRS in Sweden
Platform information
GSM-R
antenna
Pantograph Supervision
Camera
Train management applications
 Tracking and Tracing for freight
 Catering staff supplies orders
 Crew instructions via text messaging
 On-line access to ground based information systems
 IP based applications
 Train status monitoring, diagnostics& preparation
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Loco positioning abroad with SIM-applet with SBB
GSM-R
MSC
BSC
MSC
MAPInfo
MRD
MSC
WAS
xy
CERES
SMS:
SMSC
GSM-R
Train Number, Cell ID, Time, MSISDN
Passengers oriented applications
 Ticketing,
 Booking, Time tables access through on-ground databases
 Seats booking status update
 Audio and video supervision of coaches for suburban trains
 Passengers information
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On Train Electronic Ticketing
• Purpose
– Verify electronic tickets on board
the train
– Allow automated ticket purchase
E-Ticket Server
• Operational Benefits
– Real time verification
– Reduced congestion at sales
booth
• Business drivers
– Open ticketing market
– Reduced costs for ticket sales
– Customer satisfaction
Customer
GSM-R
5231142
45523
Conductor
Passengers and operational applications in Netherlands
Application
Description
Status
QuoVadis
Measurement systems along the track obtaining
information about passing trains (e.g. weight, speed,
number of axes, wheel quality). Obtained data is sent to a
server via GPRS.
Operational
POSS
Quality monitoring of railway switches (the quality of a
switch is determined by sending a current through it and
monitor the electrical behaviour). Obtained data is locally
gathered and sent to a server via GPRS.
Operational
HSM
Pilot application about information services for drivers.
Drivers get visual information via GPRS on a PDA about
their environment when driving a train (e.g. disturbances,
graphic overview of other trains in the neighbourhood,
connecting trains)
Operational
Webmail ProRail
Mobile access of railway personnel to ProRail web mail
(Outlook Web Access) with a laptop
Implementation finalized in Q2 2006
Passengers and operational applications within Netherlands
Server
IntraNet
Firewall
Server
GSM-R (GPRS and IntraNet)
ProRail
IntraNet
NIS (BT Ignite)
Firewall
GSM-R/GPRS modem
GSM-R Firewall
Server
IntraNet
Firewall
GSM-R ability to perform
 Open Architecture of GSM-R network
 Leverages upon Public Land Mobile Network
evolution
 In Europe
 worldwide
 Market size significant for PMR equipment and
developing
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Issues
 Requires end to end solution for applications
including mobile and fixed terminals
 Coordination between Train Operating
Companies & Infrastructure Managers
 Harmonization of software releases
 Ability of evolution of GSM-R hardware &
software to follow public market
 System capacity (limited bandwidth)
 ASCI integration with new features
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Conclusion: OPERATE
 Technology is available
 New applications can be supported
Maintaining interoperability is a must
 Testing and integration among end to end
all systems (including ERTMS) is an issue
OPERATE: Open Platform Enabling Railway
Applications Testing in Europe is essential
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