- South Western Railway has begun testing Starlink satellite broadband to improve on-board internet connectivity for passengers.
- The trial explores whether low-Earth orbit satellites can address long-standing coverage gaps on parts of the UK rail network.
What happened: Satellite broadband tested to fix rail connectivity gaps
South Western Railway (SWR) has started trialling Starlink satellite internet on selected train services, as part of efforts to improve unreliable on-board Wi-Fi. The move follows persistent complaints from passengers about poor mobile and internet connectivity, particularly on rural routes and in areas where traditional mobile signals are weak.
The trial uses Starlink’s low-Earth orbit satellite network, developed by Elon Musk’s SpaceX, to deliver broadband directly to trains via roof-mounted terminals. Unlike conventional mobile-based systems that rely on trackside masts and cellular handovers, satellite connectivity aims to provide more consistent coverage across tunnels, cuttings and remote stretches of line.
SWR said the trial will assess performance, reliability and passenger experience before any wider deployment decision is taken. The operator has not confirmed how many trains are involved or how long the testing phase will run, but early results will help determine whether satellite broadband could complement or replace existing connectivity solutions.
The initiative comes amid broader experimentation across the transport sector, as rail operators look for alternatives to improve digital services without waiting for nationwide mobile infrastructure upgrades. While satellite broadband has already been adopted in aviation and maritime sectors, its use on high-speed rail presents unique technical and cost challenges.
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Why it’s important
Reliable internet access has become a basic expectation for many rail passengers, particularly commuters who use travel time to work or access digital services. Poor connectivity not only affects customer satisfaction but can also influence perceptions of rail as a modern, competitive mode of transport.
The SWR trial highlights how satellite technology could play a growing role in addressing long-standing connectivity black spots. Low-Earth orbit systems offer lower latency and higher speeds than traditional satellite services, making them more suitable for real-time applications such as video calls and cloud access.
However, the approach is not without questions. Satellite equipment, data costs and integration with existing systems may limit scalability across large fleets. There are also regulatory and operational considerations, including interference management and long-term service resilience.
From a wider perspective, the trial reflects increasing interest in hybrid connectivity models that combine terrestrial mobile networks, trackside infrastructure and satellites. Such approaches may become more common as transport operators seek flexible solutions tailored to specific routes and use cases.
If successful, satellite broadband could offer a faster route to improving passenger connectivity than waiting for full 5G coverage along rail corridors. As demand for always-on connectivity grows, experiments like this may shape how digital infrastructure evolves across public transport systems.
