Rostec’s Ruselectronics holding has begun supplying the Leshy mobile counter-UAS system to protect motor vehicles and official fleets from drone threats. The information was relayed by TASS, citing the organization’s press service as the source of the update. The deployment marks a notable step in integrating drone defense capabilities with standard transport and government security operations, signaling a shift toward autonomous, on-vehicle protection against aerial incursions.
The Leshy package reportedly proved its effectiveness during field testing, according to the press service. The system’s core tactical function is to detect, disrupt, and neutralize small unmanned aerial systems in a way that preserves the integrity of the protected vehicle and surrounding personnel. This emphasis on rapid response is intended to reduce the window of opportunity for drone-based threats, aligning with broader security objectives for high-value transportation in varied operating environments.
According to the press service, the suppressor is integrated as a roof-mounted component within the Leshy complex. It emits interference that forms a protective electronic dome around the vehicle, effectively blurring the drone’s control and navigation signals. In practical terms, this means the vehicle gains a shield against guidance entering from outside the dome, lowering the probability of a successful attack. The presentation of this approach underscores a trend toward compact, vehicle-mounted counter-UAS solutions capable of rapid deployment without substantial changes to existing transport infrastructure.
Earlier reporting from a representative of the Red Line company, made during a conference in Russia on counter-UAS technologies, described a disposable drone named Vogan-9SP. The concept centers on intercepting hostile drones by releasing a warhead that detonates near or on target to halt the threat. The drone is described as capable of speeds around 200 km/h and working in concert with a radar station and a laser system to illuminate and lock onto detected targets. This model illustrates an approach that combines surveillance with an immediate, forceful countermeasure, reflecting the dual emphasis on detection accuracy and rapid neutralization in modern drone defense strategies.
In related developments, Russia has been active in patenting and iterating jet-powered drone concepts that could expand the range and speed of aerial countermeasures. While specific details may vary, the broader objective remains clear: to equip security and defense sectors with technologies capable of defending critical assets from drone-enabled threats across urban and rural settings. The emphasis on integrating sensor fusion, signal disruption, and autonomous decision-making points to a comprehensive approach that blends multiple layers of protection.