The test involved sending an SMS from a device equipped with a Snapdragon X-80 5G Modem-RF System and integrated satellite connectivity, using a Cosmote SIM card through Skylo’s satellite network.
Conducted at Deutsche Telekom’s Cosmote subsidiary in Greece, the proof-of-concept was viewed as a significant step towards commercial non-terrestrial network services in Europe. Deutsche Telekom representatives expressed enthusiasm about the technology, highlighting their goal of providing continuous connectivity to customers.
Skylo Technologies’ leadership emphasized the potential of this breakthrough, suggesting that subscribers would soon be able to text from remote locations without worrying about network coverage. The technology aims to seamlessly integrate satellite connectivity into existing cellular services.
The trial is part of a broader initiative by Deutsche Telekom, which is also involved in the SpaceRISE consortium. This group has been contracted by the European Commission to develop IRIS2, a multi-orbit satellite constellation comprising approximately 290 satellites. The project aims to create a secure communication infrastructure for Europe, improve crisis response capabilities, protect critical infrastructure, and address digital connectivity disparities.
Could this revitalize traditional SMS? Well, it could. The traditional SMS as a communication method has significantly diminished in relevance over the years. With each year that passes, fewer and fewer SMS messages are being sent. However, if the capability to connect in remote regions works as intended, it could spark renewed interest.
There are challenges, of course. Satellite connections come with limited bandwidth, making it difficult to handle substantial data transfers. Additionally, factors such as weather conditions and satellite positioning can impact signal quality.
