RU2013149738A - MULTI-POSITION COMPLEX WITH AUTONOMOUS RADAR TERMINALS AND HYDROACOUSTIC PROBES FOR MONITORING AQUATORIES OF AQUATORIES, UNDERWATER AND AIR AND AIR SPACE - Google Patents

Abstract

1. A multi-position complex with autonomous radar terminals (APT) and sonar probes (AGAZ) for monitoring surface, underwater and airspace of the water area, containing a power source (IEP) of the coastal components of the complex, a basic radar terminal (BRT), consisting of a communication device ( USBRT) and joint information processing devices (USOI), as well as at least two of the mentioned APTs, each of which consists of a radar antenna (RLA) and a transceiver device (PUART) characterized in that the complex is equipped with a basic surface sonar terminal (BNGAT) with a communication device (USBNGAT) and IEP and at least two of the aforementioned AGAZ with hydroacoustic antennas (GAA), transceivers (PPUAGAZ) and communication devices (USAGAZ), and each APT is equipped with a communication device (USART) and transceiver equipment for state recognition and automatic identification of ships (PPAGO and AIS), and the BRT is equipped with a current situation lighting device (UTO) with a screen and a database (DB), a state device recognition identification (UGO) with encryption-decryption unit (BDB) and evaluation unit (BO), automatic ship identification device (UAIS), hydroacoustic detection device (UGA) with encryption-decryption unit (BDB) and evaluation unit (BO) and device control and functional control (UUFK) APT, UGO, UAIS, UGAO and AGAZ, while UUFK through USBRT transmits control signals of USART and PUART and starts the operation of the radar of one, several or all APT, whose radar emit and receive reflected signals from objects located in the counter area

Claims (5)

1. A multi-position complex with autonomous radar terminals (APT) and sonar probes (AGAZ) for monitoring surface, underwater and airspace of the water area, containing a power source (IEP) of the coastal components of the complex, a basic radar terminal (BRT), consisting of a communication device ( USBRT) and joint information processing devices (USOI), as well as at least two of the mentioned APTs, each of which consists of a radar antenna (RLA) and a transceiver device (PUART) characterized in that the complex is equipped with a basic surface sonar terminal (BNGAT) with a communication device (USBNGAT) and IEP and at least two of the aforementioned AGAZ with hydroacoustic antennas (GAA), transceivers (PPUAGAZ) and communication devices (USAGAZ), and each APT is equipped with a communication device (USART) and transceiver equipment for state recognition and automatic identification of ships (PPAGO and AIS), and the BRT is equipped with a current situation lighting device (UTO) with a screen and a database (DB), a state device recognition identification (UGO) with encryption-decryption unit (BDB) and evaluation unit (BO), automatic ship identification device (UAIS), hydroacoustic detection device (UGA) with encryption-decryption unit (BDB) and evaluation unit (BO) and device control and functional control (UUFK) APT, UGO, UAIS, UGAO and AGAZ, while UUFK through USBRT transmits control signals of USART and PUART and starts the operation of the radar of one, several or all APT, whose radar emit and receive reflected signals from objects located in the counter area For APT, and through PUART and USART, each switched-on APT and USBRT transmit USOI BRT radar information, which performs its joint processing, simultaneously UUFK through USBNGAT transmits USAGAZ and PPUAGAZ control signals and starts the operation of one, several or all AGAZs, which GAA are received in noise detection signals from objects located in the AGAZ control zone, and through PUAGAG and USAGAZ of each switched AGAZ transmit sonar information to USBNGAT and BNGAT, then USBNGAT transfers this information to USOI BRT, Together with APT radar information, it processes it, after which the processed information is displayed on the screen and archived in the UOTO BRT database, then the UUFK through USBART and USART transmits the coded signal PPAGO and AIS, which generates, emits and receives state recognition, identification and sonar recognition without decryption and evaluation, then this information USART through USBRT and USAGAZ through USBNGAT is transmitted to SDB and BO UGO, UAIS and BDB and BO UGAO, which decode the signals of the state recognition, identification and sonar recognition, on the basis of the information received, displayed on the UTO screen, data are generated in the UTO database for making an operational decision, in addition, UUFK through USBRT, USART, USBNGAT and USAGAZ constantly monitors the functioning of APT, UGO, UAIS, UGAO and AGAZ. 2. The complex according to claim 1, characterized in that the APTs are anti-vandal, mounted on mast devices and are equipped with autonomous IES, for example, wind generators or solar panels, uninterruptible power supply units (BBEC) and backup IES, for example, diesel generators, while the above-mentioned stand-alone IEPs through the BBEC provide independent operation of the APT components, independent of the IED complex, and backup sources of the IEP provide their power in the event of the inability to operate autonomous IEPs; in addition, AGAZs have been installed They can be equipped with autonomous IES, for example, high-capacity batteries. 3. The complex according to claim 1, characterized in that its coastal components are equipped with security alarm devices (SLD) and fire extinguishing devices (UPT). 4. The complex according to claim 1, characterized in that the APTs are located along the border of the coastal monitoring zone at an equidistant distance from each other, with each APT having the ability to radar control a portion partially overlapping portions controlled by adjacent APTs. 5. The complex according to claim 1, characterized in that the AGAZ are located in the coastal underwater monitoring zone at an equidistant distance from each other, while each AGAZ has the ability to hydroacoustic control of the area partially overlapping the areas controlled by adjacent AGAZs.