In a significant advancement in maritime defense, the Royal Navy has begun deploying AI-powered underwater drones to detect and monitor Russian submarines. The system, named Lura, is developed by European defense company Helsing and utilizes artificial intelligence to analyze decades of acoustic data collected by sonar technicians.

Lura operates through a network of autonomous SG-1 Fathom gliders, originally designed for marine research. These gliders are equipped with sensors that create a "constellation" of underwater detection points, functioning similarly to satellite networks. The system can differentiate between ships of the same class and operates continuously for up to three months without human intervention.

This autonomous network enhances early warning capabilities and reduces reliance on human sonar operators, thereby accelerating response times and improving national defense. Hundreds of these cost-effective gliders can patrol strategic maritime locations, such as the GIUK gap, detecting threats like Russia's shadow fleet or potential interference with undersea communication cables.

The initiative comes amid growing concerns over the security of critical infrastructure, highlighted by incidents of cable damage in the Baltic Sea and Russian surveillance activities near the UK. Military leaders believe this AI-driven approach will strengthen deterrence and safeguard national waters.

Conclusion:

The Royal Navy's integration of AI-powered underwater drones marks a transformative step in maritime defense, enhancing the UK's ability to monitor and respond to underwater threats. By leveraging advanced technology, the Navy aims to maintain a strategic advantage in safeguarding national security interests.

Resource: The Times – Royal Navy's secret sensory weapon to hunt Russian submarines