The high precision complexes holding company, a division within the state corporation Rostec, is moving toward pairing FPV unmanned aerial vehicles with the weapon systems of light armored vehicles. This update was shared via the holding’s press service and confirmed by TASS. The move signals a strategic shift toward enhancing battlefield automation and protection for ground platforms through integrated drone capabilities that can complement traditional armament arrays and sensor suites. The focus is on enabling faster reconnaissance, targeting, and potentially counter-dual use scenarios, all while maintaining strict control measures and safeguards around autonomous operations in contested environments.
Industry observers note that certain electronic protection measures against FPV drones have already been trialed on infantry fighting vehicles. The ongoing work aims to determine how these defensive and offensive drone integration modules can be incorporated into existing armored platforms, including how they interact with vehicle electronics, power management systems, and crew safety protocols. The objective is to assess compatibility, resilience, and the practical benefits of such systems in real-time combat conditions, while avoiding any disruption to standard vehicle performance or reliability during peacetime operations.
Current investigations continue to explore the best approaches for embedding FPV drone capabilities within the weapon architecture of light armored vehicles. This includes evaluating control interfaces, data links, and the potential to extend the reach of infantry units with persistent aerial awareness and rapid-response reconnaissance. Researchers are also examining the implications for maintenance cycles, field repairability, and the training needs of personnel who would operate and maintain these integrated systems in diverse climates and theaters of operation.
Earlier, it was reported that Russia’s rapid response unmanned unit, known as BOBR, which first deployed FPV drones during recent military operations, achieved substantial outputs by neutralizing a range of enemy targets and degrading equipment. The unit highlighted that during a year of hostilities, it destroyed and disabled more than 100 pieces of enemy equipment and significantly disrupted a battalion-level force posture. This capability demonstration underscores the potential impact of FPV drones when integrated into broader tactical frameworks and supports ongoing interest in expanding the use of small, agile aerial platforms in contemporary conflict settings.
Additionally, there have been developments within Russia concerning drone suppression systems. The introduction of new counter-drone technologies and protocols is aimed at mitigating the threats posed by FPV and other unmanned systems in contested airspaces. The evolving landscape suggests a dual path: strengthening drone-assisted combat reach for ground forces while concurrently enhancing defensive measures to manage foreign unmanned threats on and around critical infrastructure and maneuver areas. The broader intent is to balance offensive drone integration with robust protective strategies that uphold mission safety and effectiveness across multiple force applications.