GPS World

Tag: UK SBAS

  • Viasat demonstrates SBAS for UK EGNOS

    Viasat demonstrates SBAS for UK EGNOS

    Representatives from organizations involved in the UK Sovereign Satellite Based Augmentation System. (Image: Viasat)
    Representatives from organizations involved in the UK Sovereign Satellite Based Augmentation System. (Image: Viasat)

    Viasat, a global communications company, has successfully demonstrated the UK Satellite-Based Augmentation System (UK SBAS) during a recent test flight. This demonstration, conducted as part of an ongoing trial funded by the Department for Transport through the European Space Agency (ESA), showcased the potential of UK SBAS to provide accurate GPS data to improve safety and operational efficiency.

    “The trial on a sovereign UK SBAS is all about delivering trust. Trust for pilots in their tracking systems to stay safe in challenging conditions. Trust for the aviation industry more broadly so it can rely on data to operate more efficiently,” said Todd McDonnell, president, international government, Viasat.

    The test flight, carried out from Cranfield Airport using the National Flying Laboratory Centre’s Saab 340B aircraft, demonstrated the capabilities of a UK-based SBAS to deliver more precise and reliable navigation data. With the UK no longer part of the EU’s European Geostationary Navigation Overlay Service (EGNOS), the trial aims to pave the way for a complementary UK SBAS, specifically designed for critical safety-of-life navigation services across air, land and sea.

    UK SBAS operates by merging ground monitoring data with satellite connectivity, which offers positioning accuracy down to a few centimeters. The system aims to significantly enhance safety in aviation by providing pilots with confidence in their onboard instruments, particularly during challenging weather conditions where visibility may be limited.

    The successful aviation test marks a crucial step in further trials across various transport applications, including rail, unmanned aerial vehicles, and autonomous road vehicles, said Viasat.

    Fully funded by the government through ESA’s Navigation Innovation and Support Program (NAVISP) program, the trial aligns with broader efforts to deliver high-accuracy, high-integrity positioning services to boost efficiency and innovation across the transport network.

  • First UK-generated satnav signal coming in test project

    First UK-generated satnav signal coming in test project

    Satellite communications company Inmarsat is working on a United Kingdom Space Agency-funded test project with the European Space Agency to deliver the first UK-generated satellite navigation signal. The project provides a potential platform for the UK to enhance its post-Brexit positioning, navigation and timing (PNT) capabilities.

    Other partners are British companies Goonhilly Earth Station Limited and GMV NSL Limited.

    Repurposing a transponder from the Inmarsat-3 F5 satellite, the test project — known as UK Space-Based Augmentation System (UK SBAS) — will provide an overlay signal to augment the U.S. GPS, refining its accuracy from a few meters to a few centimeters.

    UK PNT without EGNOS

    The UK no longer has access to the European Geostationary Navigation Overlay Service (EGNOS) Safety of Life services since leaving the European Union (EU) and is not involved in the EU’s Galileo programme for similar reasons. Therefore, this new national capability supported by current and future Inmarsat satellites could offer a new option for high-integrity, precision navigation across the country, in its airspace and within surrounding waters.

    UK SBAS will provide a basis to assess its future development into an operational capability to support safety-critical applications such as aircraft approaching and landing at airports or navigating ships through narrow channels, especially at night and in poor weather conditions.

    Goonhilly will provide the uplink for the system from Cornwall. Software from GMV NSL, based in Nottingham, will generate the ground-based navigation signal. This is a similar system to that already in use in Australia and New Zealand, supported by Inmarsat.

    The project could be crucial for UK users who need accurate, high-integrity navigation capabilities to enable their operations. It will initially cover aviation and maritime operations, but has the potential to extend into rail and other land-vehicle applications. For example, UK SBAS will comply with International Civil Aviation Organization (ICAO) standards.

    “It is very welcome news to hear that UK-based companies have teamed up to deliver this ground-breaking project, with help from government funding,” said Transport Minister Trudy Harrison. “From flying planes to steering ships, reliable and precise navigation support is a crucial part of travel. This development is a significant step forward for our world-leading space sector, as we accelerate towards a net-zero transport future.”

    Best satellite candidate

    Artist's impression of an Inmarsat-3 satellite. (Image: Inmarsat)
    Artist’s impression of an Inmarsat-3 satellite. (Image: Inmarsat)

    The Inmarsat-3 F5 satellite is in geosynchronous orbit at 54° west, ensuring that its signal covers the UK as part of its Atlantic Ocean region service overlay. This makes it an ideal candidate to participate in the test. The satellite was manufactured by Inmarsat’s Athena partner Lockheed Martin and launched in 1998.

    “This project demonstrates British innovation at its best,” said Nick Shave, vice president of Strategic Programmes for Inmarsat Global Government. “Working with Goonhilly Earth Station and GMVNSL, supported by UK funding via the ESA Navigation Innovation and Support Programme (NAVISP), enables us to extend the long life of Inmarsat’s I-3 F5 satellite with additional new services designed two decades after launch.

    “We look forward to exploring the potential for this project and the benefits it could deliver to the UK with more precise, high-integrity, resilient navigation services, whilst also exploring future capabilities on new satellites through Inmarsat’s fully funded technology roadmap,” Shave said. “This work also has the potential to be exported to other nations around the world, benefitting the UK economically as well as technologically.”