RU2014107133A - METHOD OF DAMAGE OF SMALL-SIZED UNMANNED AIRCRAFT - Google Patents

Abstract

The destruction method of small-sized unmanned aerial vehicles (MBA), consisting of a destruction system, a warhead of a guide package, a rocket consisting of a warhead, striking elements, explosives, a detonator, a detection and aiming system, a power supply, characterized in that the detection system and aiming is performed on three or more spatially separated points on gyro-stabilizing platforms, interconnected by working bases that automatically determine distances (laser system and double cathodic wire) between themselves and their spatial coordinates, which allows you to place in any convenient places, both moving and stationary objects, at each base there are three sensors operating in the optical (all-round cameras), acoustic and in three and more customizable radar ranges of electromagnetic waves, the operation of three channels and more and the processing of the received information and signals is controlled by a computer with elements of artificial intelligence, which itself selects the most effective In order to more accurately detect and determine the spatial coordinates of MBLA under various observation conditions, it allows you to build a 3D volumetric image of MBLA and compare it with programmed MBLA for their recognition and aiming of MBLA weapons based on the calculated spatial coordinates of MBLA and the gyrostabilized warhead of the package of guides with cluster loading, using the guidance mechanisms at the lead point, it starts the timers of the custom missile detonators with the plumage of one of sixteen and

Claims (1)

The destruction method of small-sized unmanned aerial vehicles (MBA), consisting of a destruction system, a warhead of a guide package, a rocket consisting of a warhead, striking elements, explosives, a detonator, a detection and aiming system, a power supply, characterized in that the detection system and aiming is performed on three or more spatially separated points on gyro-stabilizing platforms, interconnected by working bases that automatically determine distances (laser system and double cathodic wire) between themselves and their spatial coordinates, which allows you to place in any convenient places, both moving and stationary objects, at each base there are three sensors operating in the optical (all-round cameras), acoustic and in three and more customizable radar ranges of electromagnetic waves, the operation of three channels and more and the processing of the received information and signals is controlled by a computer with elements of artificial intelligence, which itself selects the most effective In order to more accurately detect and determine the spatial coordinates of MBLA under various observation conditions, it allows you to build a 3D volumetric image of MBLA and compare it with programmed MBLA for their recognition and aiming of MBLA weapons based on the calculated spatial coordinates of MBLA and the gyrostabilized warhead of the package of guides with cluster loading, using the guidance mechanisms at the lead point, it starts the timers of the custom missile detonators with the plumage of one of sixteen and olee produces control MBLA lesion and performs repetitive and synchronous triggers if appropriate.