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Huawei GSM-R Customer References
1 Huawei GSM-R Customer References
As of February 2014, the Huawei GSM-R solution was awarded a total of 20,000+ kilometers of GSM-R railway lines worldwide
Global Huawei References
China’s Domestic Market Share
As of December 2013As of December 2013
CONTENTS............................................................................................................................1
Global Huawei References.....................................................................................................2
China’s Domestic Market Share.............................................................................................2
Huawei’s Progress in GSM-R.................................................................................................3
Sochi Line: Preparing for the 2014 Winter Games in Russia..................................................4
EKB Line: ERTMS L2 Multi-vendor System for Turkey.............................................................5
Metropolitan Line, Australia..................................................................................................6
Cape Town-Durban-Gauteng Line: Sub-Saharan Africa’s First GSM-R Railway........................7
Shah-Habshan-Ruwais Railway: The First ETCS L2 Line for New UAE Railway Network.........8
North-South and East-West Lines: Turkmenistan Telecommunication Upgrade Project..........9
Guangzhou-Shenzhen-Hong Kong Express...........................................................................10
Hada Line: High-speed Railway at 350 km/h........................................................................11
Chengguan Railway: First GSM-R Softswitch in Rail Operation.............................................12
Daqin Line: First Commercial GSM-R Application over GPRS to be Upgraded to IP-core.......13
Jingjiu Line: The Longest Railway in China...........................................................................14Huawei GSM-R for China
market share 2013
72%
2Huawei GSM-R Customer References
As of February 2014, the Huawei GSM-R solution was awarded a total of 20,000+ kilometers of GSM-R railway lines worldwide
Global Huawei References
China’s Domestic Market Share
As of December 2013As of December 2013
CONTENTS............................................................................................................................1
Global Huawei References.....................................................................................................2
China’s Domestic Market Share.............................................................................................2
Huawei’s Progress in GSM-R.................................................................................................3
Sochi Line: Preparing for the 2014 Winter Games in Russia..................................................4
EKB Line: ERTMS L2 Multi-vendor System for Turkey.............................................................5
Metropolitan Line, Australia..................................................................................................6
Cape Town-Durban-Gauteng Line: Sub-Saharan Africa’s First GSM-R Railway........................7
Shah-Habshan-Ruwais Railway: The First ETCS L2 Line for New UAE Railway Network.........8
North-South and East-West Lines: Turkmenistan Telecommunication Upgrade Project..........9
Guangzhou-Shenzhen-Hong Kong Express...........................................................................10
Hada Line: High-speed Railway at 350 km/h........................................................................11
Chengguan Railway: First GSM-R Softswitch in Rail Operation.............................................12
Daqin Line: First Commercial GSM-R Application over GPRS to be Upgraded to IP-core.......13
Jingjiu Line: The Longest Railway in China...........................................................................14Huawei GSM-R for China
market share 2013
72%
3 Huawei GSM-R Customer References
With 11 years of GSM-R experience, Huawei Technologies has made great improvements to its Global Systems for
Mobile Communications-Railway (GSM-R) solutions. GSM-R is an international digital wireless communications
standard that is fast replacing analog radio networks, thanks to its superior handling of ground-to-train
communications. Some highlights of Huawei’s progress in GSM-R include.
This brochure will introduce you to a number of key Huawei customers.
2002: Huawei Technologies commences research and development for GSM-R.2005: Huawei’s first GSM-R projects are successfully rolled out and put into operation.2009: Huawei is awarded a major GSM-R project in Australia, which also represents Huawei’s first presence in
the global GSM-R market.
Huawei’s Progress in GSM-R Sochi Line : Preparing for the 2014 Winter Games in Russia
2011: In preparation for the XXII Olympic Games and XI Paralympic Winter Games in Russia, Huawei is
awarded a contract to build the GSM-R network for the Sochi line.
2012: EKB line, which is ETCS-2 standard and integrated with NSN core.
2013: GSM-R South Africa awarded to Huawei.
2013: Multivendor integration completed in Turkey.
2014: GSM-R Zambia awarded to Huawei, Regional ETCS (ETCS-3).Today: Huawei GSM-R covers more than 20,000 kilometers worldwide.
In China alone, Huawei in 2013 was awarded 72 percent of total GSM-R contracted lines. Today, Huawei's
GSM-R technology is recognized by railways around the world, with customers in Australia, China, Italy, Russia,
South Africa, Turkey, Turkmenistan, and the United Arab Emirates. Huawei GSM-R sales in the international
market exceeds Huawei’s domestic GSM-R contract awards positioning Huawei far ahead of the competition.
The Sochi railway is a modern transport infrastructure being
prepared for the XXII Olympic Games and XI Paralympic Winter
Games in Sochi, Russia, in 2014. It runs about 157 kilometers
with passing Tuapse , Sochi, Adler, Alpika Service, and Vesyeloe.
At the end of 2011, Huawei was awarded the contract to build
Sochi’s GSM-R network, including the access and core networks.
To guarantee the highest reliability for the Sochi railway, Huawei
is supplying a hot-standby core network. Dual-homing Mobile
Switch Center (MSC), duo-location Base Station Controller (BSC),
and redundant Transceiver (TRX) guarantee superior end-to-end
Opening of the Sochi railway is considered a significant milestone to meet passenger transport demands for
the Sochi Winter Olympics. After the Olympics, Huawei’s GSM-R solution will continue delivering services for
an improved rail transport system to the entire Sochi region and will play a significant role in tourism and the
economy.
redundancy for the entire network. Along the railway line, 12 tunnels reach a total length of 30 kilometers.
As in other projects, Huawei is installing DBS3900 distributed base stations to meet customer requirements
for this complex rail environment.
4Huawei GSM-R Customer References
With 11 years of GSM-R experience, Huawei Technologies has made great improvements to its Global Systems for
Mobile Communications-Railway (GSM-R) solutions. GSM-R is an international digital wireless communications
standard that is fast replacing analog radio networks, thanks to its superior handling of ground-to-train
communications. Some highlights of Huawei’s progress in GSM-R include.
This brochure will introduce you to a number of key Huawei customers.
2002: Huawei Technologies commences research and development for GSM-R.2005: Huawei’s first GSM-R projects are successfully rolled out and put into operation.2009: Huawei is awarded a major GSM-R project in Australia, which also represents Huawei’s first presence in
the global GSM-R market.
Huawei’s Progress in GSM-R Sochi Line : Preparing for the 2014 Winter Games in Russia
2011: In preparation for the XXII Olympic Games and XI Paralympic Winter Games in Russia, Huawei is
awarded a contract to build the GSM-R network for the Sochi line.
2012: EKB line, which is ETCS-2 standard and integrated with NSN core.
2013: GSM-R South Africa awarded to Huawei.
2013: Multivendor integration completed in Turkey.
2014: GSM-R Zambia awarded to Huawei, Regional ETCS (ETCS-3).Today: Huawei GSM-R covers more than 20,000 kilometers worldwide.
In China alone, Huawei in 2013 was awarded 72 percent of total GSM-R contracted lines. Today, Huawei's
GSM-R technology is recognized by railways around the world, with customers in Australia, China, Italy, Russia,
South Africa, Turkey, Turkmenistan, and the United Arab Emirates. Huawei GSM-R sales in the international
market exceeds Huawei’s domestic GSM-R contract awards positioning Huawei far ahead of the competition.
The Sochi railway is a modern transport infrastructure being
prepared for the XXII Olympic Games and XI Paralympic Winter
Games in Sochi, Russia, in 2014. It runs about 157 kilometers
with passing Tuapse , Sochi, Adler, Alpika Service, and Vesyeloe.
At the end of 2011, Huawei was awarded the contract to build
Sochi’s GSM-R network, including the access and core networks.
To guarantee the highest reliability for the Sochi railway, Huawei
is supplying a hot-standby core network. Dual-homing Mobile
Switch Center (MSC), duo-location Base Station Controller (BSC),
and redundant Transceiver (TRX) guarantee superior end-to-end
Opening of the Sochi railway is considered a significant milestone to meet passenger transport demands for
the Sochi Winter Olympics. After the Olympics, Huawei’s GSM-R solution will continue delivering services for
an improved rail transport system to the entire Sochi region and will play a significant role in tourism and the
economy.
redundancy for the entire network. Along the railway line, 12 tunnels reach a total length of 30 kilometers.
As in other projects, Huawei is installing DBS3900 distributed base stations to meet customer requirements
for this complex rail environment.
5 Huawei GSM-R Customer References
EKB Line : ERTMS L2 Multi-vendor System for Turkey
Metropolitan Line, Australia
Measuring 466 kilometers in length and designed for speeds of
up to 250 km/h, the Eskisehir, Kutahya, and Balıkesir (EKB) line is
an integral part of the “Target 2023 Plan” launched by the
Turkish State Railways (TCDD). The EKB Line will greatly enhance
interconnectivity between Eskisehir, Kutahya, and other major
Turkish cities, promoting economic development in the local
communities.
Huawei was awarded the contract in 2012 to provide wireless
access equipment for the EKB project. The EKB line winds through
42 tunnels and requires high-quality GSM-R service. The rugged
terrain poses significant challenges to construction, including site selection for base stations, comprehensive
signal coverage requirements, and smooth communication throughout each tunnel. Leveraging its latest innova-
tions in GSM-R, Huawei offers TCDD a unique distributed base station technology. The new technology features
the Remote Radio Unit (RRU) multi-site co-cell, which provides improved quality of service under complex
situations and maximum deployment flexibility, as well as enhanced tunnel coverage along the line.
Turkey’s national GSM-R implementation represents a typical multivendor network with GSM-R and ETCS
solutions interconnecting seamlessly. Responsible for the design and implementation of the EKB line, Huawei
carried out the GSM-R multivendor integration in accordance to IOT procedures published by the European
Railway Agency, ERA. In 2013, Huawei’s Base Station Sub System, BSS for EKB was successfully integrated to the
core network from another GSM-R manufacturer with the end to end system meeting all parameters set in the
GSM-R specifications
At the end of 2009, Huawei was awarded Australia’s metropolitan line
project, covering more than 690 kilometers of metropolitan tracks,
including 76 tunnels with a total length of 70 kilometers.
Huawei’s solution replaces the existing analog radio network, offering
greater coverage and more features. Huawei’s GSM-R solution consists
of Base Station Subsystem (BSS) and Network Switching Subsystem (NSS)
network elements. The design includes Huawei’s GSM-R duo-location
BSC, MGW Pool, SGSN/GGSN Pool, and BTS TRX N+1 backup. To meet
demanding customer requirements in the challenging environment inside
rail tunnels, Huawei installed its market-leading distributed base station.
The network also was designed in a way to enable the customer to easily
upgrade to ETCS L2 and operate at frequencies up to 1,800 MHz.
6Huawei GSM-R Customer References
EKB Line : ERTMS L2 Multi-vendor System for Turkey
Metropolitan Line, Australia
Measuring 466 kilometers in length and designed for speeds of
up to 250 km/h, the Eskisehir, Kutahya, and Balıkesir (EKB) line is
an integral part of the “Target 2023 Plan” launched by the
Turkish State Railways (TCDD). The EKB Line will greatly enhance
interconnectivity between Eskisehir, Kutahya, and other major
Turkish cities, promoting economic development in the local
communities.
Huawei was awarded the contract in 2012 to provide wireless
access equipment for the EKB project. The EKB line winds through
42 tunnels and requires high-quality GSM-R service. The rugged
terrain poses significant challenges to construction, including site selection for base stations, comprehensive
signal coverage requirements, and smooth communication throughout each tunnel. Leveraging its latest innova-
tions in GSM-R, Huawei offers TCDD a unique distributed base station technology. The new technology features
the Remote Radio Unit (RRU) multi-site co-cell, which provides improved quality of service under complex
situations and maximum deployment flexibility, as well as enhanced tunnel coverage along the line.
Turkey’s national GSM-R implementation represents a typical multivendor network with GSM-R and ETCS
solutions interconnecting seamlessly. Responsible for the design and implementation of the EKB line, Huawei
carried out the GSM-R multivendor integration in accordance to IOT procedures published by the European
Railway Agency, ERA. In 2013, Huawei’s Base Station Sub System, BSS for EKB was successfully integrated to the
core network from another GSM-R manufacturer with the end to end system meeting all parameters set in the
GSM-R specifications
At the end of 2009, Huawei was awarded Australia’s metropolitan line
project, covering more than 690 kilometers of metropolitan tracks,
including 76 tunnels with a total length of 70 kilometers.
Huawei’s solution replaces the existing analog radio network, offering
greater coverage and more features. Huawei’s GSM-R solution consists
of Base Station Subsystem (BSS) and Network Switching Subsystem (NSS)
network elements. The design includes Huawei’s GSM-R duo-location
BSC, MGW Pool, SGSN/GGSN Pool, and BTS TRX N+1 backup. To meet
demanding customer requirements in the challenging environment inside
rail tunnels, Huawei installed its market-leading distributed base station.
The network also was designed in a way to enable the customer to easily
upgrade to ETCS L2 and operate at frequencies up to 1,800 MHz.
7 Huawei GSM-R Customer References
Cape Town-Durban-Gauteng Line : Sub-Saharan Africa’s First GSM-R Railway
Shah-Habshan-Ruwais Railway : The First ETCS L2 Line for New UAE Railway Network
The Cape Town-Durban-Gauteng Railway line is in the first phase of a
countrywide GSM-R project in South Africa. This first section will have a
total length of 1,200 kilometers and a designed speed of 120 km/h. The
Passenger Rail Agency of South Africa (PRASA) is replacing its traditional
MTP1327 analog system, which was deployed 15 years ago to provide
ground-to-train voice services. The GSM-R digital signaling radio system
will significantly improve passenger rail transport for large portions of
South Africa’s population.
Huawei was awarded the GSM-R contract for access and core network
architectures in 2012. Huawei’s latest evolution of wireless rail communi-
cation technology will make available operational GSM-R voice and data
services. The new system is designed to meet Europe’s ETCS L2 train
signaling system requirements. It consists of a series of network
infrastructure products and solutions, including distributed GSM-R base
stations, IP-core network, and optical transmission equipment.
Etihad Rail, developer and operator of the UAE’s national railway network, plans a
1,200-kilometer network to extend across the country by 2018. The first stage is
the essential Shah-Habshan-Ruwais line. It will connect urban and industrial areas, opening new links to Saudi
Arabia in the west and Oman in the east. The first section is 264 kilometers, with a designed speed of up to
120 km/h (freight) . The line will operate under ETCS L2 Train control.
Huawei was awarded the contract in 2012 to provide an end-to-end GSM-R solution, including wireless access
network and core network equipment, design, installation, joint commissioning, and other professional
services. Huawei’s GSM-R network must withstand demanding environmental conditions. Huawei GSM-R will
provide an end-to-end network redundancy solution that includes a
transmission backbone, core, and wireless access networks. The core
network uses the industry’s first network hot-standby techniques.
Huawei’s BSS single-frequency, double-coverage solution simultane-
ously meets frequency and backup requirements.
After completion of the first project, UAE railway passenger and cargo
capacity will be greatly improved and play a leading role in determining
planning for subsequent second and third stages.
8Huawei GSM-R Customer References
Cape Town-Durban-Gauteng Line : Sub-Saharan Africa’s First GSM-R Railway
Shah-Habshan-Ruwais Railway : The First ETCS L2 Line for New UAE Railway Network
The Cape Town-Durban-Gauteng Railway line is in the first phase of a
countrywide GSM-R project in South Africa. This first section will have a
total length of 1,200 kilometers and a designed speed of 120 km/h. The
Passenger Rail Agency of South Africa (PRASA) is replacing its traditional
MTP1327 analog system, which was deployed 15 years ago to provide
ground-to-train voice services. The GSM-R digital signaling radio system
will significantly improve passenger rail transport for large portions of
South Africa’s population.
Huawei was awarded the GSM-R contract for access and core network
architectures in 2012. Huawei’s latest evolution of wireless rail communi-
cation technology will make available operational GSM-R voice and data
services. The new system is designed to meet Europe’s ETCS L2 train
signaling system requirements. It consists of a series of network
infrastructure products and solutions, including distributed GSM-R base
stations, IP-core network, and optical transmission equipment.
Etihad Rail, developer and operator of the UAE’s national railway network, plans a
1,200-kilometer network to extend across the country by 2018. The first stage is
the essential Shah-Habshan-Ruwais line. It will connect urban and industrial areas, opening new links to Saudi
Arabia in the west and Oman in the east. The first section is 264 kilometers, with a designed speed of up to
120 km/h (freight) . The line will operate under ETCS L2 Train control.
Huawei was awarded the contract in 2012 to provide an end-to-end GSM-R solution, including wireless access
network and core network equipment, design, installation, joint commissioning, and other professional
services. Huawei’s GSM-R network must withstand demanding environmental conditions. Huawei GSM-R will
provide an end-to-end network redundancy solution that includes a
transmission backbone, core, and wireless access networks. The core
network uses the industry’s first network hot-standby techniques.
Huawei’s BSS single-frequency, double-coverage solution simultane-
ously meets frequency and backup requirements.
After completion of the first project, UAE railway passenger and cargo
capacity will be greatly improved and play a leading role in determining
planning for subsequent second and third stages.
9 Huawei GSM-R Customer References
North-South and East-West Lines : Turkmenistan Telecommunication Upgrade Project
Guangzhou-Shenzhen-Hong Kong Express
Turkmenistan is an important transport hub for the entire Eurasia region. The national railway system in Turkmenistan extends to more than 3,600 kilometers of rail corridors in east to west and north to south orientation.
The north-south line and the 590-kilometer east-west line are the first and third phases in a total of seven phases of Turkmenistan’s Rail communications upgrade plan. Huawei was awarded this GSM-R contract in 2012 to implement an end-to-end solution, including wireless access, core network, and terminals. The core network is considered the industry’s most integrated GSM-R core, with superior reliability based on Huawei’s eCNS300 equipment, in a compact, single cabinet.
In December 2007, Huawei Technologies was selected to design and build a GSM-R voice and data communication system for the high-speed line between the cities of Shenzhen and Guangzhou. The Guangzhou-Shenzhen-Hong Kong line, using a CTCS-3 train signaling system (coherent to ETCS L2), was China’s first operational GSM-R line with a speed designed to reach 350 km/h.
About one-third of the high-speed line runs through hilly terrain that required extensive construction of bridges, cuttings, and tunnels. The 10.8-kilometer Shiziyang tunnel, the longest in the system, is an underwater dual-cave shield tunnel that reflects the shape of the shuttle and leaves very little room for Radio Frequency (RF) equipment.
Huawei’s BSS solution for this challenging environment consists of a combination of conventional BTS and repeater equipment, as well as distributed base stations. Huawei GSM-R is compatible with the two signaling systems of the mainland and Hong Kong and interworks with NSS equipment provided by other vendors. This multi-vendor GSM-R / CTCS L3 project significantly reduces travel times between Hong Kong and 16 mainland cities.
10Huawei GSM-R Customer References
North-South and East-West Lines : Turkmenistan Telecommunication Upgrade Project
Guangzhou-Shenzhen-Hong Kong Express
Turkmenistan is an important transport hub for the entire Eurasia region. The national railway system in Turkmenistan extends to more than 3,600 kilometers of rail corridors in east to west and north to south orientation.
The north-south line and the 590-kilometer east-west line are the first and third phases in a total of seven phases of Turkmenistan’s Rail communications upgrade plan. Huawei was awarded this GSM-R contract in 2012 to implement an end-to-end solution, including wireless access, core network, and terminals. The core network is considered the industry’s most integrated GSM-R core, with superior reliability based on Huawei’s eCNS300 equipment, in a compact, single cabinet.
In December 2007, Huawei Technologies was selected to design and build a GSM-R voice and data communication system for the high-speed line between the cities of Shenzhen and Guangzhou. The Guangzhou-Shenzhen-Hong Kong line, using a CTCS-3 train signaling system (coherent to ETCS L2), was China’s first operational GSM-R line with a speed designed to reach 350 km/h.
About one-third of the high-speed line runs through hilly terrain that required extensive construction of bridges, cuttings, and tunnels. The 10.8-kilometer Shiziyang tunnel, the longest in the system, is an underwater dual-cave shield tunnel that reflects the shape of the shuttle and leaves very little room for Radio Frequency (RF) equipment.
Huawei’s BSS solution for this challenging environment consists of a combination of conventional BTS and repeater equipment, as well as distributed base stations. Huawei GSM-R is compatible with the two signaling systems of the mainland and Hong Kong and interworks with NSS equipment provided by other vendors. This multi-vendor GSM-R / CTCS L3 project significantly reduces travel times between Hong Kong and 16 mainland cities.
11 Huawei GSM-R Customer References
Hada Line : High-speed Railway at 350 km/h Chengguan Railway — First GSM-R Softswitch in Rail Operation
The Hada Railway project is a major high speed rail construction
project connecting the cities of Harbin in Heilongjiang Province
with Dalian in Liaoning province. The total length is 895 kilome-
ters of GSM-R track. The system is designed for train speeds of
350 km/h. To ensure safe operation of this network, the line is
managed through Chinese Train Control System-3 (CTCS-3), which
is coherent with the European Train Control System Level 2 (ETCS
L2).
Huawei was awarded the contract in July 2010 to design and
supply a GSM-R access and core network solution as part of the
National Eleventh Five-Year Plan. Huawei designed the network to
be fully compliant with the stringent requirements of the CTCS-3
signaling system. Components include Huawei’s Softswitch core
network with MSC dual-homing and distributed base station
system.
Huawei Technologies was chosen to design and supply a GSM-R
access and core network solution for the Chengguan Railway
project, which runs between the cities of Chengdu and Dujiang-
yan in Sichuan Province. It is a railway line designed for train
speeds of up to 250 km/h.
Huawei’s R4 Softswitch core network was successfully installed on
this line, proving its market-leading network reliability. The
Chengguan project was the very first GSM-R project in China
equipped with R4 Softswitch technology, underscoring Huawei’s
lead in transportation technology. Huawei not only designed,
built, and put this network into operation, but also interconnected
and integrated the Chengguan GSM-R system with other vendors’
GSM-R core networks located in Beijing and Wuhan.
12Huawei GSM-R Customer References
Hada Line : High-speed Railway at 350 km/h Chengguan Railway — First GSM-R Softswitch in Rail Operation
The Hada Railway project is a major high speed rail construction
project connecting the cities of Harbin in Heilongjiang Province
with Dalian in Liaoning province. The total length is 895 kilome-
ters of GSM-R track. The system is designed for train speeds of
350 km/h. To ensure safe operation of this network, the line is
managed through Chinese Train Control System-3 (CTCS-3), which
is coherent with the European Train Control System Level 2 (ETCS
L2).
Huawei was awarded the contract in July 2010 to design and
supply a GSM-R access and core network solution as part of the
National Eleventh Five-Year Plan. Huawei designed the network to
be fully compliant with the stringent requirements of the CTCS-3
signaling system. Components include Huawei’s Softswitch core
network with MSC dual-homing and distributed base station
system.
Huawei Technologies was chosen to design and supply a GSM-R
access and core network solution for the Chengguan Railway
project, which runs between the cities of Chengdu and Dujiang-
yan in Sichuan Province. It is a railway line designed for train
speeds of up to 250 km/h.
Huawei’s R4 Softswitch core network was successfully installed on
this line, proving its market-leading network reliability. The
Chengguan project was the very first GSM-R project in China
equipped with R4 Softswitch technology, underscoring Huawei’s
lead in transportation technology. Huawei not only designed,
built, and put this network into operation, but also interconnected
and integrated the Chengguan GSM-R system with other vendors’
GSM-R core networks located in Beijing and Wuhan.
13 Huawei GSM-R Customer References
Daqin Line : First Commercial GSM-R Application over GPRS to be Upgraded to IP-core
The Daqin Railway connects the city of Datong with the city of Qinhuangdao and, in 2005, became China’s first railway
line to be equipped with Huawei’s GSM-R technology.
The Daqin line is mainly used for coal transportation and is recognized as one of the most important heavy-haul railways
in China. Trains traveling a total length of 2,700 meters, with up to 214 coaches, operate on multiple engines distributed
between the individual coaches. These traction units are operated and synchronized from a single driver using Huawei’s
General Packet Radio Service (GPRS) data solution. The Daqin line was the first to use this GPRS-based solution, and,
since the commercial launch of the line, its freight throughput has increased by 400 percent and annual capacity has
reached 400 million tons.
To further improve operational reliability of the end-to-end system, the Daqin railway line was successfully migrated from
its R99 platform to a modern R4 Softswitch platform in January 2011. Huawei designed and carried out the GSM-R core
network upgrade in full compliance to the customer’s requirement to maintain full rail operations on Daqin line through-
out the whole upgrade process. The successful migration of the Daqin 3GPP GSM-R network represents an important
milestone for GSM-R network operators around the world, since many GSM-R networks today would greatly benefit
from the additional features offered by an R4 platform. This project demonstrates that high-reliability GSM-R networks
can be migrated while maintaining full rail operation.
Due to the large number of tunnels, long slopes, and other complex terrain making up the
Daqin railway, traditional repeaters were installed during the initial phase of the project to meet wireless coverage
requirements. As cargo throughput increased, demands on wireless reliability also increased. In May 2013, the railway’s
original mobile repeater solution was replaced by Huawei’s distributed BTS DBS3900 to meet the customers demanding
reliability requirements. It was the industry first that Huawei’s GSM-R DBS3900 Distributed Base Station system replaced
a conventional repeater based solution.
Huawei installed 70 sets of DBS3900 distributed base stations over more than 20 long slopes, tunnels, and regions with
complex RF situations. The replacement of mobile repeaters by DBS3900 stations has greatly enhanced network perfor-
mance, improving efficiency and safety on the heavy-load Daqin Railway.
Jingjiu Line: The Longest Railway in China
The Jingjiu Railway project is the largest single rail project in
China, with a total length of 2,553 kilometers. This rail project
connects the cities of Beijing and Jiulong in Hong Kong with a
railway line designed for train speeds of up to 200 km/h. The
Jingjiu Railway is considered to be a significant section of the
national railway network, since it connects northern and
southern China.
Huawei Technologies was selected in 2009 for the design and
supply of a GSM-R radio solution for the northern section of the
Jingjiu Railway project. Following the success of implementation
on the initial northern section, Huawei Technologies was then
awarded in late 2010 to also design and supply the southern
section of this GSM-R network.
14Huawei GSM-R Customer References
Daqin Line : First Commercial GSM-R Application over GPRS to be Upgraded to IP-core
The Daqin Railway connects the city of Datong with the city of Qinhuangdao and, in 2005, became China’s first railway
line to be equipped with Huawei’s GSM-R technology.
The Daqin line is mainly used for coal transportation and is recognized as one of the most important heavy-haul railways
in China. Trains traveling a total length of 2,700 meters, with up to 214 coaches, operate on multiple engines distributed
between the individual coaches. These traction units are operated and synchronized from a single driver using Huawei’s
General Packet Radio Service (GPRS) data solution. The Daqin line was the first to use this GPRS-based solution, and,
since the commercial launch of the line, its freight throughput has increased by 400 percent and annual capacity has
reached 400 million tons.
To further improve operational reliability of the end-to-end system, the Daqin railway line was successfully migrated from
its R99 platform to a modern R4 Softswitch platform in January 2011. Huawei designed and carried out the GSM-R core
network upgrade in full compliance to the customer’s requirement to maintain full rail operations on Daqin line through-
out the whole upgrade process. The successful migration of the Daqin 3GPP GSM-R network represents an important
milestone for GSM-R network operators around the world, since many GSM-R networks today would greatly benefit
from the additional features offered by an R4 platform. This project demonstrates that high-reliability GSM-R networks
can be migrated while maintaining full rail operation.
Due to the large number of tunnels, long slopes, and other complex terrain making up the
Daqin railway, traditional repeaters were installed during the initial phase of the project to meet wireless coverage
requirements. As cargo throughput increased, demands on wireless reliability also increased. In May 2013, the railway’s
original mobile repeater solution was replaced by Huawei’s distributed BTS DBS3900 to meet the customers demanding
reliability requirements. It was the industry first that Huawei’s GSM-R DBS3900 Distributed Base Station system replaced
a conventional repeater based solution.
Huawei installed 70 sets of DBS3900 distributed base stations over more than 20 long slopes, tunnels, and regions with
complex RF situations. The replacement of mobile repeaters by DBS3900 stations has greatly enhanced network perfor-
mance, improving efficiency and safety on the heavy-load Daqin Railway.
Jingjiu Line: The Longest Railway in China
The Jingjiu Railway project is the largest single rail project in
China, with a total length of 2,553 kilometers. This rail project
connects the cities of Beijing and Jiulong in Hong Kong with a
railway line designed for train speeds of up to 200 km/h. The
Jingjiu Railway is considered to be a significant section of the
national railway network, since it connects northern and
southern China.
Huawei Technologies was selected in 2009 for the design and
supply of a GSM-R radio solution for the northern section of the
Jingjiu Railway project. Following the success of implementation
on the initial northern section, Huawei Technologies was then
awarded in late 2010 to also design and supply the southern
section of this GSM-R network.
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