Logistics
In contemporary conflict zones across Africa, Eastern Europe, and the Indo-Pacific, adversaries routinely employ low-cost, high-power jammers to deny access to GNSS-dependent navigation. Conventional logistics drones rapidly lose positioning integrity, resulting in mission aborts, platform attrition, and critical delays in the delivery of medical supplies, munitions, and sustainment materiel to forward elements.
Assured Logistics Resupply in GPS-Denied and Contested Environments
Operational Challenge: In contemporary conflict zones across Africa, Eastern Europe, and the Indo-Pacific, adversaries routinely employ low-cost, high-power jammers to deny access to GNSS-dependent navigation. Conventional logistics drones rapidly lose positioning integrity, resulting in mission aborts, platform attrition, and critical delays in the delivery of medical supplies, munitions, and sustainment materiel to forward elements.
Our Solution: We integrate the Grale Smart Antenna module — a compact, software-defined CRPA (Controlled Reception Pattern Antenna) successor — into existing or new-build unmanned logistics platforms. Grale delivers 100× greater jamming resistance than legacy systems while simultaneously reducing size, weight, and power (SWaP) requirements and incorporating robust intellectual property protection.
Execution Flow
Rapid Integration We complete platform integration in days through modular hardware and open interface standards, minimizing modifications to airframes or avionics.
Mission Planning and Payload Loading Our system accepts standard mission plans and autonomously optimizes anti-jam parameters based on current threat intelligence.
Transit Through Contested Airspace Upon encountering jamming, Grale dynamically excises interference across multiple simultaneous sources, maintaining continuous, high-accuracy positioning and timing without reliance on external GNSS signals.
Precision Delivery and Recovery We enable meter-level terminal accuracy for airdrop or landing, followed by fully autonomous return-to-base through the same denied corridor.
Scalable Swarm Operations Our low-SWaP design supports simultaneous operation of large drone constellations without proportional increases in risk or logistical footprint.
