Defense Technology

Rajant Kinetic Mesh^® networking is fielded in real military operations, offering zero network downtime ensuring full situational awareness for troops and assets. Each node learns and constantly reevaluates the best link to use for each destination in real time by analyzing every packet flowing through it.

Learn how Rajant can assist with your defense strategies down the operational challenge, demonstrating how Rajant’s intelligent edge solutions can deliver resilient, mobile communications, critical data, video, and sensor connectivity in demanding, contested and RF congested environments.

Rajant’s Mesh.Over.Everything fabric was developed to extend mesh networking principles beyond homogeneous radio networks.

As the number and diversity of communications systems continue to grow, the ability to unify them into a resilient, adaptive whole becomes operationally critical.

Rajant Instamesh™ Technology does not replace radios, satellites, or networks, it connects them. Data moves intelligently across all available paths, ensuring communications persist in the face of uncertainty, mobility, and disruption.

This is Mesh.Over.Everything – a network built from diversity, resilience, and movement, not constrained by a single means of transport or domain.

At the Forward Edge, security is not a perimeter. It is distributed with the force.

Rajant Kinetic Mesh™ is designed to operate with NSA Type 1 capable and FIPS 140-3 validated cryptographic solutions, enabling secure communications across manned and unmanned platforms in contested environments. Encryption, authentication, and key protection are enforced at the node level, ensuring data remains protected as the network moves, reconfigures, and absorbs loss.

As forces maneuver forward, secure and trusted communications persist at the edge, supporting mission command, autonomy, and sensor-to-shooter workflows, even in degraded or denied conditions.  Security moves with the mission because it is embedded in the mesh architecture itself, not projected from the rear.

Rajant extends proven mesh networking principles beyond homogeneous radio networks, enabling traffic to automatically traverse multiple networks, multiple hops, and multiple technologies, assembling resilient paths at the Forward Edge as the mission unfolds.

Legacy systems and new platforms, manned and unmanned assets, function together as a single distributed mesh without centralized control or network replacement, allowing connectivity to be built, extended, and sustained where forces maneuver, not where fixed infrastructure resides.

Forward Edge redefines range as the ability to sustain the fight as forces maneuver forward, not the distance of a single link back to the rear.

Rajant’s new high-power 2.2 GHz radio delivers 6 watts of mission-ready transmit power in the compact Condor platform—providing extended range, superior receive sensitivity, and clean signal performance without external amplifiers. Engineered for contested and high-demand environments, this small-form-factor system enables secure, long-range mesh connectivity while reducing size, weight, and complexity. The result is a rugged, high-performance radio built to extend operational reach without compromising mobility

By prioritizing range, durability, and operational reliability, narrowband radios strengthen mission continuity where long-distance, low-profile communications are critical.

Rajant’s narrowband radios operate in 440 MHz and 900 MHz bands to achieve true long-range performance through lower-frequency propagation, not increased transmit power. Designed for dispersed and contested operations, these sub-L-band transceivers enhance beyond-line-of-sight communications, improve terrain and structure penetration, and support resilient connectivity in electronically challenged environments.

At the Forward Edge, range and modularity become behaviors of the network.

Instead of defining range by how far a single radio can transmit, Forward Edge extends range by assembling modular, distributed manned and unmanned systems that move with the force. As the fight advances, the network advances with it.

Disruption is expected.  Loss is assumed. Communications persist because the network is composed at the edge, not projected from a vulnerable point of origin.

Range is no longer a fixed number.   It is built, extended, and reshaped by the force itself.