MODELING PRINCIPLES OF SPATIALLY DISTRIBUTED RADAR SYSTEMS

Abstract

The physical and mathematical principles of bistatic radar are considered in the article, the essential characteristics are considered when constructing a mathematical model of a spatially distributed radar system. The necessity of software implementation of such a model for further investigation of bistatic radars is substantiated. The article discusses the necessity of upgrading radar equipment to improve the quality of the detection and identification of small flying machines and means of achieving this. Discusses the physical and mathematical principles of non-emitting radar system with diversity receiver and the transmitter upon detection of air targets on the background of the underlying surface, are analyzed essential when constructing mathematical models of spatially-separated radar systems. Provides a general description of the scheme, non-emitting radar station and timing diagram of signals within the system with diversity receiver and the transmitter. Analyzed analytical expressions for modeling non-emitting radar - which allows you to analyze the system in different variations, on the basis of the results obtained by theoretical calculations and experimental studies. The necessity of a software implementation of this model for further research on bistatic radar.