Beretta Unveils AI-Powered Anti-Drone Shotgun Turret Ahead of Eurosatory 2026 + Video - UNDERCODE NEWS
AI Analysis
Beretta is developing 'Livet,' an AI-powered, remote-controlled turret utilizing eight shotgun-based interceptors designed for counter-UAS operations. The system focuses on engaging low-flying, small drones at short ranges with specialized ammunition, including tungsten and airburst rounds. It is slated for unveiling at Eurosatory 2026 and integrates with external detection systems like radar and RF scanners.
Key Takeaways
- The 'Livet' system employs eight Benelli 'Drone Guardian' shotguns on a stabilized remote weapon station.
- AI-assisted targeting allows for autonomous threat identification, tracking, and engagement with minimal operator input.
- The system utilizes both tungsten fragmentation and airburst ammunition to maximize interception probability against small, fast-moving drones (specifically FPV drones).
- Livet is designed for short-range defense of critical infrastructure like military bases, airports, and energy facilities.
- The platform is intended to be integrated with existing drone detection systems (radar, RF scanners) for enhanced situational awareness.
Why It Matters
This development highlights a shift towards more cost-effective and adaptable counter-UAS solutions, particularly for defending against the proliferation of inexpensive drones seen in Ukraine and the Middle East. The use of shotguns offers a kinetic energy solution that avoids the expense and complexity of missile-based systems, potentially making widespread deployment more feasible. The AI-driven automation is crucial for reacting to the speed and agility of modern drone threats.
Beretta Unveils AI-Powered Anti-Drone Shotgun Turret Ahead of Eurosatory 2026 + Video - UNDERCODE NEWS
🐢▶️ Listen🚀
As drone warfare rapidly transforms military strategy across the globe, defense manufacturers are racing to create systems capable of stopping low-cost aerial threats before they reach critical infrastructure. One of the latest entrants into this growing battlefield technology sector comes from the Beretta Group, which is preparing to introduce an unusual yet highly aggressive counter-drone platform during the upcoming Eurosatory defense exhibition in Paris.
The new system, called “Livet,” combines automation, AI-assisted targeting, and multiple shotgun-based interception mechanisms into a single remote-controlled turret. While traditional anti-aircraft systems are often expensive and designed for larger airborne targets, Livet appears optimized specifically for the modern reality of small, agile, and inexpensive drones that are increasingly dominating conflicts in Ukraine and the Middle East.
Beretta Defense Technologies says the platform was developed to protect strategic assets and sensitive infrastructure from rapidly evolving unmanned aerial threats. The unveiling is expected to attract major attention from military delegations, defense contractors, and security agencies attending the June event in France.
At first glance, the Livet system resembles a compact anti-aircraft battery. Instead of missiles or autocannons, however, it uses eight Benelli “Drone Guardian” shotguns mounted onto a stabilized remote weapon station. This configuration is specifically designed to engage low-flying drones at short ranges where traditional missile systems may be considered economically impractical.
According to the manufacturer, the platform features automatic target tracking and remote engagement capabilities. Once a threat is detected, the AI-assisted targeting system can autonomously identify, track, and lock onto airborne objects with minimal operator intervention. The turret can reportedly react within seconds, making it suitable for defending military bases, airports, industrial facilities, and energy infrastructure.
One of the most interesting aspects of the Livet platform is its ammunition selection. The system fires tungsten cartridges capable of producing dense fragmentation patterns against small aerial targets. Beretta also states that the weapon can utilize airburst ammunition, allowing rounds to detonate midair and scatter fragments across a wider interception zone. This feature significantly increases the probability of neutralizing compact FPV drones that are otherwise difficult to hit with conventional firearms.
The platform is also designed for integration with external detection systems. It can connect to short-range radar units or radio-frequency scanners that monitor drone communications and movements in real time. Once a hostile signal or aerial object is identified, coordinates can be transferred directly to th