WASHINGTON--(BUSINESS WIRE)--LeoSat Enterprises, the dynamic young company which is launching a unique new data network comprised of a constellation of up to 108 low-earth-orbit communications satellites, has been awarded the authority by the U.S. Federal Communications Commission (FCC) to provide NGSO (non-geostationary satellite orbit) services in the United States.
The increasing demand for business connectivity and with it, the need to move large quantities of data quickly and securely around the world, is fast outpacing the infrastructure in place to carry it. Existing networks are already carrying more than 1 Zeta Byte of traffic globally and this is set to grow exponentially.
The FCC market access grant will allow LeoSat to address currently unmet demand for high-bandwidth, low-latency, high-security data transmissions from large commercial and government customers in the United States. Designed as a backbone in space for global business, LeoSat’s data network will enable new opportunities for sectors such as enterprise-to-enterprise communications, telecommunications, oil & gas operations and maritime services, delivering premise-to-premise high-speed data (greater than 1 Gbps) with unmatched security to any location in the world. Moreover, whilst LeoSat's core focus is solving essential business communications challenges, the unique design of LeoSat’s constellation means capacity will also be available to enable a new level of connectivity services for Internet and cellular backhaul for remote and underserved communities.
Using optical inter-satellite links and on-board processing and operating in polar orbits at an altitude five times closer to the Earth than medium earth orbit satellites and 25 times closer than geostationary orbit (“GSO”) satellites, the LeoSat System offers numerous advantages with respect to high throughput, low latency, and full global coverage. These advantages, in turn, will allow LeoSat to provide enterprise-grade, highly secure data transmissions with up to 1.2 Gbps of full-duplex connectivity per link (and 5.2 Gbps where needed), along with low latency of less than 20 ms. The high-throughput satellites will form a mesh network interconnected through inter-satellite laser links, creating an optical backbone that is approximately 1.5 times faster than terrestrial fiber networks.
For Enterprise and Government customers, the key attributes of the LeoSat system fulfil a critical communications need, for example, by giving banks, governments or research centers ultra-secure networks with global offices, providing significantly more bandwidth for oil & gas and mining exploration than is available today, enabling seamless connectivity for shipping & fleet management, or providing primary 4G and 5G satellite backhaul connectivity for cellular operators.
LeoSat’s CEO, Mark Rigolle said, “Getting approval from the U.S. Federal Communications Commission – among the world’s most sophisticated radio frequency regulators – is an important milestone for LeoSat and recognizes that we have a unique solution for high-speed and ultra-secure enterprise connectivity. I am delighted by this significant step forward for LeoSat as we continue to make excellent progress on our journey to deliver the world’s first business backbone in space, opening-up new markets for data networking, telecoms, enterprise and government communications across the globe”.
LeoSat was represented before the U.S. Federal Communications Commission by Wilkinson, Barker and Knauer with respect to LeoSat’s U.S. market access grant.
About LeoSat Enterprises
LeoSat Enterprises was established to leverage the latest developments in satellite communications technologies to develop and launch a new low-earth-orbit satellite constellation which will provide the first commercially available, business grade, extremely high-speed and secure data service worldwide.
With up to 108 low-earth-orbit communications satellites in the constellation LeoSat is the first company to have all the High Throughput Satellites (HTS) in the constellation interconnected through laser links, creating an optical backbone in space which is about 1.5 times faster than terrestrial fiber backbones and without the need for any terrestrial touchpoints. This unique set of features enables LeoSat to provide instant infrastructure from anywhere to everywhere which is fast, secure and reliable.
Based in Washington DC, LeoSat is currently working with Thales Alenia Space for the low-earth-orbit constellation of Ka-band communications satellites. Once operational, the constellation will provide high-speed, low-latency and highly secure communications and bandwidth for business operations in the Enterprise, Telecoms, Energy, Maritime, Government and international business markets. Launch of the constellation is expected in 2020. www.leosat.com