Through a constellation of miniature communications satellites orbiting the Earth at low altitude and connecting with each other and with ground stations, the goal is to provide high-speed internet access to locations around the globe, but especially to these underserved areas. The service is designed to optimize connectivity in fixed and mobile locations, both on land and in maritime environments. The offering includes a complete fixed IP solution without CGNAT, basic AntiDDoS and scalable support, as well as exceptional speeds of up to 350 Mbps for mission-critical applications.
AireSAT targets diverse sectors, including logistics, businesses in rural areas, temporary projects, fleets or ships, backup solutions, and remote locations. Universal access, complete connectivity and comprehensive services, unlimited scalability, and high efficiency and resilience are some of its key advantages.
LEO satellites offer lower latency and higher speeds than geostationary satellites, thanks to constellations of thousands of satellites. This technology is expected to evolve to integrate with 5G networks and future generations, boosting coverage in rural areas and sectors such as agriculture, logistics, and telemedicine. The combination of artificial intelligence and edge computing will optimize data prioritization and operational efficiency. Sustainability will be a key factor, with satellites designed to minimize environmental impact.
Ángel Blancas, CPO of Grupo Aire, states: “This technology will help reduce the digital divide, connecting isolated communities and fostering digital inclusion. For businesses, it offers solutions such as fixed IP addresses and prioritized data packages, ensuring secure access tailored to their needs. With these advancements, satellite internet is positioned as an essential tool for economic development, digital transformation, and technological innovation.”
Furthermore, the pricing system for this satellite service is based on the amount of priority data (prioritized GB), rather than offering plans based on maximum speed. This approach allows users to adjust their plans according to their actual data consumption. As for the installation of the satellite services, the process includes both the phased-array antenna and the router. The antenna electronically directs the radio signal, while the router distributes the connection to all devices on the network.
