Roshchupkin, E.Herasimov, S.Roshchupkina, A.Kukobko, S.2024-07-242024-07-242020Combined method for air objects motion parameters determining by the radio system with a quasi-continuous radiation system / E. Roshchupkin, S. Herasimov, A. Roshchupkina, S. Kukobko // Перспективи розвитку озброєння та військової техніки Сухопутних військ : збірник тез доповідей Міжнародної науково-технічної конференції, 14-15 травня 2020 р. – Львів : НАСВ, 2020. – С. 123.https://openarchive.nure.ua/handle/document/27524The total radiation time reducing during the shelling of air objects is possible by more accurate measurements of their motion parameters, which are used in the guided weapons guiding. The method of air objects movement parameters determining by radio system with quasi-continuous radiation is proposed. The method takes into account not only the results of spherical coordinates (azimuth, elevation, range and their increment) measurements, but also the results of radial velocities measurements. At the same time, it is taken into account that one of the information processing problems in multi-position radio systems is using of the own coordinate system in individual points of the system. This necessitates the received coordinate information recalculation into a single coordinate system with its subsequent issuance to the final consumer (anti-aircraft system). The nonlinear relationship of the spherical coordinates and radial velocities estimates, obtained by separate means, with the single coordinate system (usually rectangular) in the fluctuation measurement errors presence leads to the appearance of systematic errors that must be taken into account. This is due to the fact that final consumers include narrowly targeted antenna systems with limited search capabilities. The systematic errors in coordinate information can lead to an increase in the time spent on target designation or the inability to complete the task. It is shown that taking into account the correlation matrices of targets coordinates recalculating errors, when combining estimates of spherical coordinates and radial velocities obtained from several information sources, makes it possible to increase the accuracy characteristics of air objects motion parameters estimates. Improving the accuracy characteristics of air objects motion parameters estimates increases the accuracy of guided weapons guidance and, as a result, reduces the required radiation time during air target shelling.enair objectscoordinate informationradiation timesingle coordinate systemCombined method for air objects motion parameters determining by the radio system with a quasi-continuous radiation systemConference proceedings