- Hamburger
Hochbahn and Siemens Mobility are building the train control system of tomorrow
for Hamburg’s U2 and U4 lines
- Significant
increase in capacity: trains will be able to run at 100-second intervals
Between now and 2030, a state-of-the-art digital train
control system from Siemens Mobility will be installed as an upgrade to the
conventional train control system used by operator Hamburger Hochbahn
(HOCHBAHN) on its U2 and U4 subway lines. The new technology, known as CBTC
(communication-based train control), will allow trains to run at shorter
intervals of only 100 seconds, which will put significantly more trains on the
track in the future, thereby increasing capacity. In addition, CBTC also
improves punctuality, reliability, and energy consumption.
Travel time of eight minutes between Terminals 1 and 3 – Capacity for
4,000 passengers per hour and direction – Scheduled to begin operation with
the opening of Terminal 3 – First test trips in 2023
Fraport AG, operator of the Frankfurt Airport, has commissioned Siemens, lead in a consortium with Max Bögl Group and Keolis Deutschland GmbH & Co. KG, to deliver a fully automated Airval people mover. The Airval will connect the Terminal 2 with the new Terminal 3 and the Station at Terminal 1. The line will be 5.6 kilometers long, and have two tracks and three stations. Siemens will deliver 12 fully automated two-car trains equipped with GoA4 Communication Based Train Control Trainguard MT CBTC, the trackwork equipment, the station platform doors, communication system, depot equipment and the power supply system. In addition, Siemens will take over the operation and maintenance of the system for five years with an option to extend service for another five years. The Airval system will be designed and developed at Siemens' Val world center of competence in Toulouse, France. The fully automated people mover is scheduled to begin service at the Frankfurt Airport in 2023.
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60,000 customers now
benefit daily from more space, greater comfort and more security cameras – new
483/484 series ensures reliable service
With immediate
effect, DB is completely converting the S8 line to its newest generation of
trains. The modern trains with their distinctive flat front are already
reliably operating on three of Berlin’s S-Bahn lines. As of today, around
60,000 passengers using the S8 will also benefit from better information, more
security cameras, and additional space for wheelchair users, strollers and
bicycles. Rather than operating with four cars, the new trains have six. In
addition, the S8 line has been extended from Birkenwerder to Wildau via Zeuthen
during peak traffic periods. Together with the S46, the two lines now ensure
environmentally friendly connections to the nearby Studentenstadt.
With the work
inaugurated today, the Rail Service Center of Novara, Italy is a candidate to
be one of the thirteen world centers of excellence managed by Siemens Mobility
for the maintenance of rolling stock - passenger trains, high-speed trains,
locomotives, subways - and the second in Europe for locomotive maintenance
after the Allach factory site in Germany.
- CBTC
signaling system and GoA4 operation to be implemented across a 22.8 km route, at
23 stations, and on 25 trains
- GoA4
functionality will allow for full automated driverless train operations
- The automated
signaling system will provide greater availability, enhanced operations, and
better passenger experience
Siemens Mobility, along with consortium partners ST
Engineering and Stadler, have been awarded an Electrical and Mechanical (E&M)
turnkey contract to deliver the Yellow Line for Kaohsiung Metro. Siemens
Mobility will provide its state-of-the-art CBTC signaling technology with GoA4
functionality, which will allow for full automated train operations (ATO). Furthermore,
Siemens Mobility will deliver its highly reliable and precise Airlink radio
communication system which will facilitate the communication of wayside and
onboard signaling equipment, that will be installed on the new trains.
Twelve Siemens
Mobility trams have been in service in Ulm since 2018. A further six vehicles
have been reordered and the first Avenio M will be put on the rails this week -
around 10 months ahead of the announced delivery date.
- Siemens and partners launch safe.trAIn
research project
- Practicable linking of AI processes with
requirements and approval procedures in railway environments
- AI-based methodologies for driverless
regional trains
- Safe.trAIn to support standardization
activities in AI and rail transportation
In a project that will run until the end of 2024, Siemens
and 16 partners will facilitate advances in the driverless operation of
regional trains with the aid of artificial intelligence (AI). Within the “safe.trAIn”
project, which the German government is subsidizing, there is a budget of €23 million
available for this task. Solutions for meeting the requirements in this highly
regulated and standardized environment have the potential to substantially boost
the efficiency and sustainability of regional railway transportation.
Siemens Mobility is supplying 21 Vectron Dual Mode locomotives to Deutsche Bahn. This is the first deployment of the Vectron Dual Mode in passenger transport. The locomotives are intended for trips to Sylt in the north and Oberstdorf in the south of Germany.
- TÜV SÜD issues 3 new certificates for proven cybersecurity
- Protection against cyberattacks and response to legal requirements
- Tailored cybersecurity for every project
- Major extension to ISO 27001 certification
Siemens Mobility has received three new
certifications by Germany’s TÜV SÜD for meeting the international cybersecurity
standard IEC 62443. These new certifications cover products and solutions associated with the Rolling Stock and Rail
Infrastructure Business Units, including high-speed trains, regional trains,
metros, trams, and locomotives, as well as rolling stock components. They also apply
to first products installed in the critical infrastructure solutions. Together,
all these aspects represent the largest scope worldwide ever certified in
accordance with IEC 62443.