Meshmerize enables autonomous drone swarms even outside the realms of cellular infrastructure.
The missing puzzle piece
Ranging from smart farming to areal sensory of foreign planets, drones or UAVs have seen rapid growth in popularity. Though they are still in the early stage of large-scale applications, the potential for collaborative swarms of drones is enormous and yet to be tapped.
Today, drones are controlled almost exclusively by a near line-of-sight communication by a single operator. Autonomous drone swarms, on the other hand, can perform collaborative tasks in tandem with each other or to ground units, whether it may be tractors or firefighters. Besides the rapidly improving regulations, the key challenge in realizing these use cases is, in fact, the lack of a reliable infrastructure-independent drone communication network.
The existing cellular infrastructure (4G/5G) is optimized for ground communication, not areal connectivity. Besides, the coverage is severely focused in urban areas. In remote regions like farms, forests, or camps, where the UAV and drone swarms use cases are likely needed, cellular coverage is notoriously spotty.
Meshmerize enables nomadic networks, where the wireless networks can be built dynamically where required currently and temporarily. The network can be seamlessly expanded over a large region by drones themselves behaving like mobile access points with wings.
Every UAV becomes an Access Point and relays messages among themselves, and to the gateway node.
Drones build a low-latency reliable connectivity that is resilient to both mobility and environmental changes.
Multipath routing ensures zero-delay handover and robust against both environmental and malicious radio interferences
time-critical systems with high mobility
Instead of replacing the value, we add to it.
Could be installed directly on the drones
Reinforce infrastructure network
Resilient to drone mobility
Connectivity in radio shadows
e.g., Drone surveillance around the perimeter
For areas with no coverage
UAVs as Access Points
Build a dynamic network, when and where required
e.g., areal sensing of large sites with multiple drones
Scales over 200 nodes
e.g. collaborating scanning of power lines, bridges and other infrastructure