SMART SHOOTER, a world-class designer, developer, and manufacturer of innovative fire control systems that significantly increase the accuracy and lethality of small arms, is honored to announce that the company has been considered as a potential solution-provider and its technology has been selected for a NATO Defense Against Terrorism Program of Work (DAT PoW) exercise in the domain of the fight against small UAVs. Smart Shooter's SMASH Fire Control Solution will be tested and evaluated on the engagement part of the UAV kill chain.
Integrated onto assault rifles
SMASH is a combat-proven Fire Control solution for small arms that ensures each round finds its target. With a unique "One Shot – One Hit" capability, SMASH allows the operator to quickly and effectively neutralize any ground or airborne target, manned or unmanned. It is a cost-effective solution that can be integrated onto any type of assault rifle, as well as combined with other C-UAS systems, to provide an effective multi-layer defense solution suitable for the modern battlefield.
SMASH's proprietary target acquisition and tracking algorithms are integrated with sophisticated image-processing software into a rugged hardware solution that enables automatic detection, tracking, and effective engagement of UAVs.
Micro-tactical network
Bringing precision-missile targeting algorithms and advanced electro-optical processing capabilities into standard infantry, SMASH enables the creation of a micro-tactical network between deployed SMASH units, allowing the entire platoon to be smart, precise, and connected.
Michal Mor, SMART SHOOTER CEO, noted, "SMART SHOOTER's SMASH solution is a proven and reliable hard-kill solution against UAVs, and we are honored that the NATO Defense Against Terrorism PoW has selected it for consideration in the domain of the fight against small UAVs. SMASH fire control system put a precision anti-UAV capability at the fingertips of its users, maximizing operational effectiveness while keeping the force safe and minimizing collateral damage."
