FIELD: hydroacoustics.
SUBSTANCE: invention relates to the field of hydroacoustics and can be applied in network-centric underwater lighting systems (NCULS). To achieve the effect, a multi-channel block for comparing information from primary sensors, a block for path analysis and forecasting the location of targets, a block for generating a model of the situation and assessing the observation situation, a decision-making block, as well as the second and third display blocks of the primary sensors are introduced into the NCULS, and the second - to the second output of the knowledge block, the first output is connected to the input of the first display block, the first input of the route analysis and target location prediction block is connected to the second output of the primary sensors information comparison block, the second - to the third output of the knowledge block, the first output is connected to the input of the second display block, the first input of the block for generating a model of the situation and assessing the observation situation is connected to the second output of the block for trace analysis and forecasting the location of targets, the second - with the fourth output of the knowledge block, the first the output - with the input of the third display unit, and the decision-making unit, the input of which is connected to the second output of the block for generating the situation model and assessing the observation situation, the first output is connected to the input of the command post (CP) of the higher system, and the second - to the third input of the information comparison unit primary sensors.
EFFECT: improving the efficiency of illumination of the underwater environment and the detection of underwater objects by automatically eliminating unreliable information at the early stages of its processing.
3 cl, 3 dwg
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