METHOD OF PROTECTING SPECIALLY IMPORTANT OBJECTS BASED ON THE APPLICATION OF THE BISTATIC RADIOLOCATION TECHNIQUE
Autor: | Igor Boikov, Oleksandr Koval, Aleksandr Kondratenko, Ivan Tsebriuk, Andrii Koval, Hennadii Marenko |
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Rok vydání: | 2019 |
Předmět: |
bistatic RLS
Computer science Real-time computing 0211 other engineering and technologies General Physics and Astronomy biolocation 02 engineering and technology law.invention 0203 mechanical engineering Interference (communication) law 021105 building & construction Secrecy Radar business.industry General Engineering terrorism Radiolocation Bistatic radar 020303 mechanical engineering & transports effective reflective surface bistatic angle Mobile telephony Digital television Noise (video) business |
Zdroj: | EUREKA: Physics and Engineering. 4:63-75 |
ISSN: | 2461-4262 2461-4254 |
DOI: | 10.21303/2461-4262.2019.00941 |
Popis: | The solution of the tasks assigned to the National Guard of the state implies the presence of certain forces and means with the appropriate technical equipment. A well-known place among such tasks is security of important state facilities. Various physical effects and methods, including radar, are used to create security systems. The development of radar technology and technology made it possible to increase both the quantity and quality of the received information, as well as the use of radar stations for observing living objects. The industry today produces bioradioradars for detecting people and controlling their movements. All samples are made in a single-position version and have a relatively high cost, the fact of their work is easily detected, which facilitates their suppression, including force. In order to increase the secrecy of work, it is proposed to use the methods of separated, more precisely, bistatic location to control the area in front of particularly important objects. The defining detection index is the effective reflective surface (ERS), which is about 1m2for a person. Equipment, weapons and protective equipment contributes to the increase in the ERS. Given the small reflective surface of biological objects, it is proposed to limit the area of responsibility to the sector form in which, at a certain bistatic angle, the effect of a significant increase in the signal/(interference+noise) ratio is manifested. For a specific definition of the gain, it is necessary to choose the operating frequency of the bistatic system and its geometry. For greater secrecy, it is advisable to use the transmitters of radio and television broadcasting, mobile communications, etc. The estimates found, for example, when using digital television transmitters (T2), indicate that the creation of a secretive bistatic system is quite possible – at least in a geometric interpretation. |
Databáze: | OpenAIRE |
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