RU2005132244A - METHOD FOR CREATING A DETAILED RADIO PORTRAIT OF A COMPLEX FORM OBJECT AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. The method of creating a detailed radio portrait of an object of complex shape, including preliminary measurement of the magnitude of the reflected signals and the formation of a radio portrait of the working platform under the angles provided for by the program for measuring the reflective properties of the object, placing on the working platform of the object and the final measurement of the magnitude of the reflected signals with the subsequent formation of a radio portrait of the object of complex shape by summing preliminary and finally measured values of the reflected signals taking into account amplitude and phase, characterized in that the preliminary and final measurement of the magnitude of the reflected signals is carried out with additional reference to the range resolution elements and is carried out by discrete step-by-step location with the formation of a spot with a diameter of less than 0.6 m at ranges of less than 30 m at the object in the operating range of distances in the plane perpendicular to the irradiation axis and with a range resolution of less than 0.25 m, and when forming a detailed radio portrait of an object of complex shape, the phase is preliminarily changed The magnitude of the reflected signals is increased by 180 ° and the summation of the preliminary and finally measured values of the reflected signals is performed taking into account the phase. 2. Device for creating a detailed radio portrait of an object of complex shape, containing a microwave generator, mixer, amplifier, transceiver antenna, laser pointer, first and second video cameras, video monitoring device, frequency modulator, power divider, circulator, analog-to-digital converter, synchronizer and a processor, characterized in that the transceiver antenna is made with a narrow radiation pattern, forming a spot with a diameter of less than 0.6 m n on the object under study in the working range of ranges a plane perpendicular to the irradiation axis and a range resolution of less than 0.25 m, the device is additionally equipped with a memory unit, a processing unit and a phase inverter, the latter being connected in series with the memory and processing units, the memory unit is connected to the analog-to-digital converter by the first input, and the second the input is with the control panel, and the processing unit with the first input is connected to an analog-to-digital converter, the second input is with the control panel, the third input is with the output of the memory unit, and the output of the processing unit is connected to input processor odom.