Barry Anti-Drone Netting (ADN)

Barry Anti-Drone Netting (ADN) and Barry Loitering Munition Arrest Net Systems (LMANS) are engineered C-UAS barrier system designed as physical last line of defense to stop, deflect, or neutralize unmanned aerial threats before they reach sensitive areas. Leveraging decades of expertise in controlled mass deceleration and advanced net-based technologies, these systems deliver reliable ground-level protection that complements existing detection and mitigation solutions.

The systems use multi-layer, high-performance, fire-resistant mesh structures to absorbs and dissipate kinetic energy from drones of various sizes, including high-speed or weaponized platforms. Sacrificial layers are added to trap debris, limit fragmentation, and manage blast effects, ensuring that impact or explosive payload is neutralized at a safe standoff distance from personnel, assets, and infrastructure. Mesh dimensions and energy-absorption characteristics are configurable to match specific threat levels.

Barry ADN and LMANS systems are lightweight, scalable, and adaptable for installation on land- or water-based structures and vehicles. They integrate easily with existing frames, mounts, or perimeter infrastructure and offer long-term outdoor durability with materials that are flame-resistant, non-conductive, UV-stable, and weather-resistant. Each system can be customized in size, geometry, and mesh configuration to meet operational requirements.

Applications

• Land and water-based structures and vehicles
• Military bases, forward operating positions & tactical perimeters
• Border protection zones
• Critical infrastructure (power stations, substations, communication hubs)
• Contraband air-drop prevention
• Airports & helipads
• Public areas & logistics platforms
• Other sensitive or restricted sites

Key Features

• Multi-layer interception system using high-resistance, fire-resistant materials
• Optimized to intercept diverse drone types and kinetic profiles
• Contains debris and fragmentation upon impact
• Engineered to force premature detonation at safe standoff distances
• Lightweight, modular design suitable for permanent or temporary deployment
• Scalable dimensions and mesh configurations tailored to each environment
• Simple integration with existing structures and overhead frames
• Low-visibility, weather-resistant materials for long-term exposure
• Designed for durability and ease of field repair

Technical Notes

• Flame-resistant, non-conductive, UV- and weather-resistant materials
• Unique connection and assembly method for rapid installation and secure performance