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2 759 170

(13)

(51)

IPC

G01S7/00(2006-01-01)

(21) (22)

Application

2020129275, 2020-09-03

(24)

Start date

2020-09-03

(22)

Actual filing date

2020-09-03

(45)

Published

2021-11-09

(72)

Inventor

Kuleshov Pavel EvgenevichPopelo Vladimir DmitrievichAlabovskij Andrej VladimirovichPavlova Tatyana Nikolaevna

(73)

Holder

Federalnoe Gosudarstvennoe Kazennoe Voennoe Obrazovatelnoe Uchrezhdenie Vysshego Obrazovaniya Uchebno-Nauchnyj Tsentr Voenno-Vozdushnykh Sil Akademiya Imeni Professora N.E. Zhukovskogo I Yu.A. Gagarina" Voronezh) Ministerstva Oborony Rossijskoj Federatsii

METHOD FOR FORMING A COMBINED DECOY OPTICAL TARGET Russian patent published in 2021 - IPC G01S7/00

Abstract RU 2759170 C1

FIELD: optics.

SUBSTANCE: invention relates to the field of electrooptical equipment and can be used in laser location systems, electrooptical counteraction systems, and systems for protecting electrooptical means (EOM) from powerful laser emission. To realise the technical result, the method is based on installing a DOT (Decoy Optical Target) in the search sector of the EOM, wherein the parameters of reflection of optical emission of said DOT are close to the actual parameters of the EOM, introducing a thermal substance into the composition of the DOT reflector, with an ignition threshold equal to the ignition threshold of an EOM element with a minimum ignition threshold under the impact of laser emission, igniting the thermal substance with laser emission when the ignition threshold is exceeded, measuring the temperature of the DOT reflector, replacing the DOT reflector with reflection parameters matching the actual reflection parameters of the EOM above the threshold value of the DOT reflector with a similar reflector by issuing a signal to the drive replacing the reflector with ignition of the thermal substance with a new reflector, when the temperature value is exceeded.

EFFECT: technical result consists in increasing the efficiency of forming a DOT.

1 cl, 2 dwg

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RU 2 759 170 C1

Authors

Kuleshov Pavel Evgenevich

Popelo Vladimir Dmitrievich

Alabovskij Andrej Vladimirovich

Pavlova Tatyana Nikolaevna

Dates

2021-11-09—Published

2020-09-03—Filed