Method for discriminator curve synthesis of angular systems of multi-channel radars
Abstract
In radar systems angle information about an object is obtained by discriminator, the basic properties of which are determined by the discriminator curve. Its main parameters are the conversion factor and the width. Currently, these parameters remain unguided during the tracking process. At the same time, when changing modes or conditions of operation, it is desirable to control these parameters, which is possible in multipath radars. In multipath radar the discriminator curve is formed by simultaneous weight summing of the signals at the receiving channels outputs. The objective of the study was to develop a method for finding the values of optimal weight coefficients for obtaining the desired parameters of the discriminator curve with an instantaneous amplitude comparison of signals. As an optimality criterion, we used the condition of minimizing of noise variance at the discriminator output, taking into account linear constraints on its characteristics parameters. The solution is carried out by method of Lagrange multipliers. Two options of the discriminator curve synthesis are considered: for additive and multiplicative discriminators. Expressions for optimal weight coefficients are obtained in general term. The proposed method allows to find the desired parameters of discriminator curves, in particular, it is possible to form its zero values in angular directions to suppress the influence of external noise.
About the Authors
V. M. ArtemievBelarus
Corresponding Member of the National Academy of Sciences of Belarus, D. Sci. (Eng.), Professor, Chief Researcher, Institute of Applied Physics of the National Academy of Sciences of Belarus
A. O. Naumov
Belarus
Cand. Sci. (Phys.-Math.), Head of Laboratory
References
1. Chernjak V. S. O novyh i staryh idejah v radiolokacii: MIMO RLS [About new and old ideas in radar: MIMO radar]. Uspehi sovremennoj radiojelektroniki [Successes of Modern Radioelectronics], 2011, no. 2, pp. 5–19 (in Russian).
2. Antonov I. K. (ed.). Mnogoluchevye radiolokatory v sostave ohrannyh kompleksov. Multibeam Radars as Part of Security Systems. Moscow, Radiotehnika, 2017, 210 p. (in Russian).
3. Sherman S. M., Barton D. K. Monopulse Principles and Techniques. Boston, Artech House, 2011, 395 p.
4. Leonov A. I., Fomichev K. I. Monoimpul'snaja radiolokacija. Monopulse Radiolocation. Moscow, Sovetskoe radio, 1970, 392 p. (in Russian).
5. Bunday B. D. Basic Optimization Methods. London, Hodder Arnold, 1984, 136 p.
6. Sizikov V. S. Matematicheskie metody obrabotki rezul'tatov izmerenij. Mathematical Methods for Measurements Processing. Saint Petersburg, Politehnika, 2001, 240 p. (in Russian).
7.
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For citations:
Artemiev V.M., Naumov A.O. Method for discriminator curve synthesis of angular systems of multi-channel radars. Informatics. 2019;16(3):59-68. (In Russ.)