Galileo Open Service Navigation Message Authentication Is Available for Testing
The European GNSS Agency (GSA) has started testing the Open Service Navigation Message Authentication (OSNMA) feature in the Galileo signals.
By Inside GNSSThe European GNSS Agency (GSA) has started testing the Open Service Navigation Message Authentication (OSNMA) feature in the Galileo signals.
By Inside GNSSHuber+Suhner, a global supplier of optical and electricity connectivity solutions, updated its range of SENCITY Rail antennas to receive signals from all four GNSS: BeiDou, Galileo, GPS and GLONASS.
By Inside GNSSA broad cross-industry coalition sent a strongly worded letter to the Senate Commerce Committee warning that the Federal Communications Commission’s (FCC’s) Ligado Order that impacts GPS, if left in place, “would upend decades of sound spectrum policy, negatively impact a significant cross-section of commercial, federal, and academic users who rely on the many different L-band satellite services, and threaten the safety of most Americans.”
By Inside GNSSRamjack Technology Solutions and Syntony GNSS have partnered to deliver underground GNSS positioning, navigation and timing (PNT) solutions, using Syntony’s SubWave technology.
By Inside GNSSThis summer, French railway company SNCF performed successful tests of an autonomous train, using Galileo-enabled receivers. The vehicle ran a distance of four kilometers with the help of remote control. SNCF intends to develop its own prototypes of autonomous freight and passenger trains by 2023.
By Inside GNSSSeptentrio now provides GPS/GNSS receivers to rail equipment manufacturer Wabtec, also a provider of digital solutions and services to the train industry. Wabtec is implementing the receivers in its GoLINC Edge platform to provide positioning, connectivity, data storage and Positive Train Control (PTC) enhanced with the adoption of higher-precision positioning technology.
By Inside GNSSThe Federal Railroad Administration has nearly $245 million available to support railway infrastructure and safety improvements including the installation of Positive Train Control and rail-related research.
By Dee Ann DivisTwo years ago, Inside GNSS published a feature article describing some exciting new capabilities and business models making GNSS use a key contributor to deploying European Rail Traffic Management System (ERTMS) on local and regional lines. Today, the train control segment remains one of the most important components of the railway market. In the railway domain, this control segment also is one of the most important in terms of industrial and technological innovation, in particular in Europe with the development and the continuous improvement of the European Rail Traffic Management System/European Train Control System (ERTMS/ETCS) standards.
By Stan GoffIn recent years, the railway segment – including industry, service providers and R&D – has led and developed a portfolio of innovative solutions to increase cost effectiveness, improve passengers’ experience and enhance the safety of rail transport.
By Inside GNSSThe European Space Agency (ESA) has launched a new initiative to
support space-based enhancements to Europe’s railway network.
Space4Rail will highlight
ESA funding programs that could support the use of GNSS in rail applications
while raising awareness of the added value that space systems can deliver.
GNSS is already being employed within the rail network to monitor
trains and check the integrity of rail infrastructure, and ESA, as a research
and development agency, has various programs dedicated to supporting such
activities.
Space4Rail has been set up as a one-stop shop for the rail industry
to learn about the agency and facilitate the submission of proposals for
partnerships. ESA offers financial and technical support to projects –
including access to its specialists and agency laboratories – while acting as a
broker between the space industry, the railway industry, and service providers.
ESA is already contributing to the Next Generation Train Control
(NGTC) project through a satellite expert group, providing technical expertise
on integrating satnav into future railway signaling systems.
Coordinated by the European rail manufacturing industry association
UNIFE and supported through the European Commission’s Seventh Framework Program,
NGTC is a consortium made up of the main rail system signaling suppliers,
together with mainline operators and infrastructure managers as well as urban
rail operators.
One example of such ESA-aided efforts is the 3InSat (Train
Integrated Safety Satellite System) project on a regional railway in Sardinia
(Italy), co-funded within the framework of the ESA´s ARTES 20 program. Led by
Ansaldo STS, the 3InSat team is developing and validating satellite-based
services compatible with the European Railway Traffic Management System
(ERTMS).
In September, a series of tests iwill validate the GNSS-based
location services that will eventually be integrated into the telecommunication
network.
The European-wide standard for train control and command systems,
ERTMS, has been promoted by the European Union to ensure cross-border
interoperability and simplify procurement of signaling equipment. Since 2004,
ERTMS has been deployed not only on an increasing number of European rail lines
but also on railways in other parts of the world as well, such as in China and
New Zealand.
Introducing satellite navigation and communications into ERTMS has
been a significant challenge due to the stringent safety requirements with
which railway signaling systems must comply. Once the approach is validated, however,
space-based systems could play an important role in making rail transport safer
and expanding the market opportunities for ERTMS.
The two main components of standard ERTMS implementations are the
European Train Control System (ETCS), a standard for in-cab train control, and
GSM-R, which is a GSM-based mobile communications standard for railway
operators. Up to now, trains using ERTMS determine their location by means
of balises, electronic beacons
or transponders, which are placed along a railway every 500–1,500 meters. This
information is transmitted via a dedicated GSM-R terrestrial network to rail
traffic control centers, which use the same network to transmit route data,
recommended speeds and other information to train operators, taking into
account the proximity of other trains.
This article focuses on the research project Galileo Online: GO! – which with support from the Federal Ministry for Economic Affairs and Energy (grant number 50NA1510) designs and develops a reliable and high-precision receiver for multi-constellation and dual-frequency GNSS whose suitability and capabilities are tested in railway applications. Project results showcase the advantages of GPS and Galileo if used simultaneously in railway applications.
By Inside GNSSSeptentrio recently awarded the KU Leuven Ecochallenge team – the winners of the Galileo Masters (Flanders Challenge) of the European Satellite Navigation Competition (ESNC) – a special prize of an AsteRx-m UAS receiver for their proposal to use high-precision, high-reliability Galileo receivers to modernize inland waterway transport by introducing autonomous technology for the vessels.
By Inside GNSS