Запис Детальніше

CORRELATION METHOD FOR FORMING THE TRAINING SAMPLE FOR ADAPTATION OF THE SPATIAL FILTER

Науковий журнал «Радіоелектроніка, інформатика, управління»

Переглянути архів Інформація
 
 
Поле Співвідношення
 
##plugins.schemas.marc.fields.042.name## dc
 
##plugins.schemas.marc.fields.245.name## CORRELATION METHOD FOR FORMING THE TRAINING SAMPLE FOR ADAPTATION OF THE SPATIAL FILTER
 
##plugins.schemas.marc.fields.720.name## Piza, D. M.; Zaporozhye National Technical University, Zaporozhye, Ukraine.
Romanenko, S. N.; Zaporozhye National Technical University, Zaporozhye, Ukraine.
Semenov, D. S.; State Enterprise “Scientific and Production Complex “Iskra”, Zaporozhye, Ukraine
 
##plugins.schemas.marc.fields.653.name## adaptive spatial processing; combined interference; classified training sample; modeling.
 
##plugins.schemas.marc.fields.520.name## Contex. To ensure noise immunity of modern radar stations, two-stage space-time signal processing is used. However, with<br />simultaneous exposure to active and passive interference, the latter decorrelates the active interference. This significantly limits the<br />noise immunity of coherent-impulse radar stations. Therefore, the formation of a classified training sample, generated only by active<br />noise interference, is quite important task.<br />Objective. The aim of the work is to investigate the correlation method for the formation of a classified learning sample in real<br />time by the current analysis of the interchannel correlation coefficient module over distance in each period of repeating the radar<br />signal.<br />The method is realized by forming an interval synchronous evaluation of both the interchannel correlation coefficient modulus<br />and the spatial filter weight coefficients. In this case, the interval with the maximum value of the interchannel correlation coefficient<br />modulus is defined as the classified training sample, and the weight coefficient formed on this interval is used to adapt the spatial<br />filter weight factor when the active noise interference is compensated in the next period of repeating the signals of the radar.<br />Results. The theoretical and practical aspects of the formation of the classified training sample are considered. It was developed a<br />block diagram of the spatial filter with a correlation analysis of the current passive interference distribution over distance by estimating<br />the interchannel correlation coefficient modulus of the signals acting in the channels of the spatial filter. A mathematical model<br />of the adaptive spatial filter was developed and tested. The possibility of working a spatial filter with the formation of a classified<br />training sample in real time has been confirmed.<br />Conclusions. The scientific novelty of the study is to further develop a new method for the formation of a classified training sample for the adaptation of a spatial filter. It is shown that the current analysis of the module of the interchannel correlation coefficient allows in real time to determine the interval on which there is no passive interference and to form a training sample for adaptation of the weight coefficients of the spatial filter.
 
##plugins.schemas.marc.fields.260.name## Zaporizhzhya National Technical University
2018-12-07 16:07:43
 
##plugins.schemas.marc.fields.856.name## application/pdf
http://ric.zntu.edu.ua/article/view/149494
 
##plugins.schemas.marc.fields.786.name## Radio Electronics, Computer Science, Control; No 3 (2018): Radio Electronics, Computer Science, Control
 
##plugins.schemas.marc.fields.546.name## ru
 
##plugins.schemas.marc.fields.540.name## Copyright (c) 2018 D. M. Piza, S. N. Romanenko, D. S. Semenov