S.V. Utemov - Ph. D. (Eng.), Senior Research Scientist, MESC «Zhukovsky-Gagarin Air Force Academy» (Voronezh) E-mail: tsmagina@bk.ru A.V. Shamarin - Ph. D. (Eng.), Deputy Head, MESC «Zhukovsky-Gagarin Air Force Academy» (Voronezh) E-mail: shamarinREP@yandex.ru

The well-known approach to the exploration of laser systems involves the use as information on their operation of both direct and scattered laser light atmosphere. At the same time focused on the direction-finding laser systems for direct radiation by a set of pho-todetectors, united in a single photodetector (PD). For DF laser systems for radiation scattered by the atmosphere used triangulation method. However, to provide intelligence laser systems with high precision (less than one degree) must be placed at a great distance PD from each other (in the hundreds and thousands of meters), that can not be realized in some cases. Finally, direction finding systems with scanning laser beam of the underlying surface is not possible using known techniques.A method of direction finding systems with the underlying surface scanning laser beam scattered by the atmosphere radiation system matrix of photodetectors with a small-size object. The methods of the space-time image processing and analytic geometry solved the problem of estimating the accuracy of the DF laser systems.

 

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