Mass Production of Attritable Systems
At NEXAM Systems, we specialize in the design and scaled production of attritable unmanned platforms purpose-built for modern conflict. Our in-house manufacturing ecosystem enables rapid prototyping, batch production, and local assembly of loitering munitions, modular warheads, and launcher systems.
We combine additive manufacturing techniques, locally sourced materials, and streamlined integration processes to deliver cost-effective, single-use strike platforms at scale. This allows our customers to deploy precision effects across a wide battlespace without incurring the logistical or financial burden of high-value platforms.
Autonomous & AI-Driven Systems
Our systems are designed around the principles of operator empowerment, autonomy, and doctrinal compatibility. We engineer semi-autonomous loitering munitions capable of operating with minimal human intervention while preserving full operator-in-the-loop control for ROE compliance.
Using onboard navigation systems, intelligent flight logic, and EO/IR sensor fusion, our platforms support mission adaptability in GPS-denied and communication-contested environments. Future variants will incorporate AI-assisted targeting and real-time decision support to further close the sensor-to-shooter loop.
Force-Multiplying Platforms
NEXAM platforms are not just drones--they are tactical enablers that extend the reach, speed, and precision of ground forces operating in hostile environments. Designed to be operated by 2-person teams, our loitering munitions empower light infantry, Frontier Corps, and Special Operations units with independent strike capability, previously limited to centralized air support.
With quick deployment, intuitive control interfaces, and ruggedized construction, our systems act as lethal extensions of the warfighter--bridging the gap between ISR and kinetic effect.
Scalability & Sustainability
We design every platform with two goals in mind: scalability in deployment and sustainability in production. Our product lines are engineered for mass production using indigenous supply chains, ensuring long-term availability without dependency on foreign imports.
Through modular architecture and flexible payload integration, we enable a wide range of mission profiles while maintaining a unified manufacturing base. This not only reduces lifecycle cost, but also aligns with national goals of defense sovereignty and local industrial capacity-building.