Forging the Future of Defense.

Deployment for the protection of critical facilities or as a barrier involves the use of minefields against low-flying or surface attack systems. The volumetric charges are submerged up to 50 cm below the water surface. Detonation mechanisms are non-contact and remote-controlled. When an enemy object enters the strike zone, the charge is activated, creating a dense water column explosion up to 30 meters high, destroying or damaging the target.

• High strike efficiency: Volumetric charges create a powerful explosion with high temperature and pressure, effectively destroying UAVs within the blast radius.
• Wide damage zone: Volumetric charges affect a large area, providing defense against multiple UAVs, even if they attack simultaneously or from different directions.
• Versatility: Volumetric charges can be effective against various UAV types, including reconnaissance drones, strike drones, and kamikaze drones.

The seismic survey technology is based on detecting and recording ground vibrations or seismic waves. The proposed technology works by detecting unique seismic signatures or vibration patterns created by underground objects. When initiated by a pulse impact on the ground surface, seismic waves are generated in the survey zone. These waves propagate through the soil, interact and resonate with buried objects. Installed seismic sensors capture these waves and analyze the unique seismic signatures of explosive devices.

• A reliable method for detecting all types of buried mines, even low-metal-content ones like anti-personnel mines, due to their mechanical properties that differ significantly from soil and typical debris.
• The detection depth range can reach several meters, which is beyond the capability of traditional search methods but achievable using seismic survey technology.
• The use of vibrational seismic survey technology allows for the development of remote monitoring systems operating 24/7 to detect explosive objects in the upper soil layers being scanned.

The charge allows for achieving a concentrated shock effect, significantly enhancing penetration efficiency—the explosive energy is concentrated in a single plane, ensuring maximum penetration into armor or other obstacles, or inflicting damage on enemy targets with controlled destruction and impact. An additional advantage is the controlled direction of impact—a directed disc-shaped explosion minimizes shrapnel and shockwave dispersion, reducing collateral damage. The charge is effective in special operations.

• A coordinated network (matrix) of airborne drones positioned to create a dynamic and adaptive “minefield” in the airspace.
• Designed to detect, track, and neutralize aerial threats (UAVs, cruise missiles, loitering munitions) before they reach critical infrastructure.
• Functions as a mobile, scalable supplement to traditional air defense systems.
• Can operate autonomously or in coordination with radar and EW assets.