METHOD FOR SPATIAL MONITORING OF ELECTROMAGNETIC RADIATION SOURCES

FIELD: physics, navigation.SUBSTANCE: invention relates to passive radio monitoring systems and can be used in radio-frequency source positioning systems. The technical result achieved is shorter time for identifying the location of a radio-frequency source with a limited region in space. The method...

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Hauptverfasser:	KOZIRATSKIJ ALEKSANDR JUR'EVICH, PARINOV MAKSIM LEONIDOVICH, KULESHOV PAVEL EVGEN'EVICH, KOZIRATSKIJ JURIJ LEONT'EVICH, KAPITANOV VLADIMIR VALER'EVICH
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Sprache:	eng ; rus
Schlagworte:	ANALOGOUS ARRANGEMENTS USING OTHER WAVES DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION ORRERADIATION OF RADIO WAVES MEASURING PHYSICS RADIO DIRECTION-FINDING RADIO NAVIGATION TESTING
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creator	KOZIRATSKIJ ALEKSANDR JUR'EVICH PARINOV MAKSIM LEONIDOVICH KULESHOV PAVEL EVGEN'EVICH KOZIRATSKIJ JURIJ LEONT'EVICH KAPITANOV VLADIMIR VALER'EVICH
description	FIELD: physics, navigation.SUBSTANCE: invention relates to passive radio monitoring systems and can be used in radio-frequency source positioning systems. The technical result achieved is shorter time for identifying the location of a radio-frequency source with a limited region in space. The method includes performing space- and time-synchronous direction-finding of a radio-frequency source followed by correction processing of the stream of signals from each direction-finder to detect signals from radio-frequency sources whose coordinates belong to a predetermined scanned region in space.EFFECT: space-time synchronisation is carried out by simultaneously forming the directional pattern of the direction-finders, the direction of the maximum of which is oriented towards the geometric centre of the scanned element of the region for spatial monitoring of radio-frequency sources.2 dwg Изобретение относится к пассивным системам радиомониторинга и может быть использовано в системах местоопределения источников радиоизлучения (ИРИ). Достигаемый технический результат - сокращение времени определения принадлежности местоположения ИРИ к ограниченной области пространства. Сущность способа заключается в реализации синхронного по пространству и времени пеленгования ИРИ с последующей корреляционной обработкой потока сигналов от каждого из пеленгаторов для выявления сигналов тех ИРИ, координаты которых принадлежат априорно заданной «просматриваемой» области пространства. Пространственно-временная синхронизация реализуется путем одновременного формирования диаграмм направленности пеленгаторов, направление максимума которых ориентированоы на геометрический центр просматриваемого элемента области пространственного мониторинга ИРИ. 2 ил.
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The technical result achieved is shorter time for identifying the location of a radio-frequency source with a limited region in space. The method includes performing space- and time-synchronous direction-finding of a radio-frequency source followed by correction processing of the stream of signals from each direction-finder to detect signals from radio-frequency sources whose coordinates belong to a predetermined scanned region in space.EFFECT: space-time synchronisation is carried out by simultaneously forming the directional pattern of the direction-finders, the direction of the maximum of which is oriented towards the geometric centre of the scanned element of the region for spatial monitoring of radio-frequency sources.2 dwg Изобретение относится к пассивным системам радиомониторинга и может быть использовано в системах местоопределения источников радиоизлучения (ИРИ). Достигаемый технический результат - сокращение времени определения принадлежности местоположения ИРИ к ограниченной области пространства. Сущность способа заключается в реализации синхронного по пространству и времени пеленгования ИРИ с последующей корреляционной обработкой потока сигналов от каждого из пеленгаторов для выявления сигналов тех ИРИ, координаты которых принадлежат априорно заданной «просматриваемой» области пространства. 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The technical result achieved is shorter time for identifying the location of a radio-frequency source with a limited region in space. The method includes performing space- and time-synchronous direction-finding of a radio-frequency source followed by correction processing of the stream of signals from each direction-finder to detect signals from radio-frequency sources whose coordinates belong to a predetermined scanned region in space.EFFECT: space-time synchronisation is carried out by simultaneously forming the directional pattern of the direction-finders, the direction of the maximum of which is oriented towards the geometric centre of the scanned element of the region for spatial monitoring of radio-frequency sources.2 dwg Изобретение относится к пассивным системам радиомониторинга и может быть использовано в системах местоопределения источников радиоизлучения (ИРИ). Достигаемый технический результат - сокращение времени определения принадлежности местоположения ИРИ к ограниченной области пространства. Сущность способа заключается в реализации синхронного по пространству и времени пеленгования ИРИ с последующей корреляционной обработкой потока сигналов от каждого из пеленгаторов для выявления сигналов тех ИРИ, координаты которых принадлежат априорно заданной «просматриваемой» области пространства. Пространственно-временная синхронизация реализуется путем одновременного формирования диаграмм направленности пеленгаторов, направление максимума которых ориентированоы на геометрический центр просматриваемого элемента области пространственного мониторинга ИРИ. 2 ил.</abstract><oa>free_for_read</oa></addata></record>
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subjects	ANALOGOUS ARRANGEMENTS USING OTHER WAVES DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION ORRERADIATION OF RADIO WAVES MEASURING PHYSICS RADIO DIRECTION-FINDING RADIO NAVIGATION TESTING
title	METHOD FOR SPATIAL MONITORING OF ELECTROMAGNETIC RADIATION SOURCES
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