Development of methods for determining the coordinates of firing positions of roving mortars by a network of counter-battery radars
Open Access
- 27 May 2021
- journal article
- Published by OU Scientific Route in EUREKA: Physics and Engineering
- No. 3,p. 140-150
- https://doi.org/10.21303/2461-4262.2021.001821
Abstract
The mathematical formulation of the problem of determining the coordinates of targets in the network of counter-battery radars is formulated. It has been established that the problem of estimating the coordinates of targets in the network of counter-battery radars for an excessive number of estimates of primary coordinates should be considered as a statistical problem. The method for determining the coordinates of the firing positions of roving mortars has been improved, in which, in contrast to the known ones, the coordinates of targets on the flight trajectory are coordinated with space and time and the information is processed by a network of counter-battery radars. The developed simulation mathematical model for determining the coordinates of the firing positions of roving mortars by a network of counter-battery radars. Simulation modeling of the method for determining the coordinates of the firing positions of roving mortars by a network of counter-battery radars has been carried out. It has been established that the use of a network of radars makes it possible to increase the accuracy of determining the coordinates of the firing means on average from 23 % to 71 %, depending on the number of counter-battery radars in the network. It has also been found that the appropriate number of counter-battery warfare radars in the network is three or four. A further increase in the number of counter-battery warfare radars in the network does not lead to a significant increase in the accuracy of determining the coordinates of artillery and mortar firing positions. In carrying out further research, it is necessary to develop a method for the spatial separation of elements of a group of targets and interfering objects by a network of counter-battery warfare radarsKeywords
This publication has 5 references indexed in Scilit:
- The Calculating Effectiveness Increasing of Detecting Air Objects by Combining Surveillance Radars into The Coherent SystemInternational Journal of Emerging Trends in Engineering Research, 2020
- Comparison of two modified point-mass trajectory models of an artillery shellVestnik of Saint Petersburg University. Mathematics. Mechanics. Astronomy, 2019
- Error estimate of the modified point-mass trajectory model of an artillery shellNonlinear Dynamics, 2017
- Principles of Modern Radar: Basic principlesPublished by Institution of Engineering and Technology (IET) ,2010
- MIMO Radar Signal ProcessingPublished by Wiley ,2008