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Revolutionizing Satellite Communication:
The StarMesh De-Centralized Multi-Link Advantage
Explore StarMesh Global's groundbreaking distributed Multi-Link Routing Protocol, offering a revolutionary route creation to optimize satellite communications by dynamically creating the most efficient route every second from originations to destinations through a StarMesh Global™ constellation of satellites and, if appropriate, other nodes, such as non-orbiting drones and balloons. This innovative multi-link routing technology ensures reliable global connectivity even in the most challenging conditions.
Deep Dive
Discover how StarMesh Global™ is pioneering the future of satellite communications with how they discovered to solve the inter-link routing problems plaguing the LEO industry using our proprietary on-the-fly Multi-Link Routing Protocol, delivering unparalleled connectivity and performance.
Download our Multi-Link Routing Protocol White Paper to learn how StarMesh Global's groundbreaking technology transforms the satellite communications landscape.
Revolutionary Freeform Orbit Paradigm
Traditional satellite communications rely on fixed orientations and known orbital altitudes and paths. StarMesh Global™ abandons this approach, introducing a freeform orbit paradigm using smaller, smart satellites that operate without complex telemetry technologies and removing satellite thruster systems. This significantly reduces costs while enhancing efficiency.
Backward Route Creation
The essence of StarMesh’s ingenious routing technologies lies in a unique "backward” route creation technique. Instead of relying on a centrally determined route. Each link in a StarMesh route is created on the fly by each satellite in real-time, thus compensating in fractions of a second the best overall route through which the data will travel. The multi-link routes are created from destination to origin, and the data is sent along those routes from origin to destination. This novel route creation is a driver technology that will disrupt the LEO Industry to solve the problem associated with global communications while satellites are orbiting at speeds approaching 18,000 miles an hour.
Cost-Effective Design
StarMesh Global™ satellites are engineered and designed to be affordable. This is achieved with a patented dynamic array of 6 to 12 antennas pointing in all directions, solar panels, batteries, radio chips, storage, and microprocessors. Through random attitudes and orbits, coupled with its proprietary antenna and routing technologies, heavy thruster systems and precise attitude control mechanisms are eliminated. StarMesh satellites can be manufactured and deployed at a fraction of the cost of a competing traditional satellite.
Scalable Network Node Topology
StarMesh Global’s patented network topologies are highly adaptable to any application. They can include many nodes such as satellites, high and low-altitude drones and balloons, ground stations, and handheld devices/smartphones. This scalability of node topology allows any node in a StarMesh network to be part of a link in any route creation. This ensures a robust and resilient communication network that can handle harsh and rapidly changing environments to provide diverse applications for civilian, corporate, commercial, and military uses.
Enhanced Signal Strength and Coverage
A StarMesh communication network significantly improves signal strength and bandwidth by adding drone and balloon nodes. This multi-layered topology approach ensures reliable communication across vast distances and varied terrains. StarMesh’s proprietary communications can be integrated into the existing heterogeneous ground station infrastructure, from long line of sight towers to satellite ground station installations and fiber optic lines.
A Truly Secure Global Communication Network
The technologies developed and patented by StarMesh Global™ collectively enable a secure and reliable global satellite communication network. StarMesh Global™ has developed start-of-the-art, patented encryption technologies derived from the on-the-fly route creation techniques, thus making it impossible to decrypt StarMesh data because the data was encrypted using the links in the ultimate route that data ended up taking, which is unknown, to begin with, and the basis for the cryptography algorithm. Furthermore, a complete global StarMesh Global™ Network could be implemented so that no single third-party-managed equipment is used to create routes and send data from originations to destinations, eliminating the primary points of cyberattacks.