Gradient descent method for designing optimum radar signals

Author

Skinner, B.J. ; Donohoe, J.P. ; Ingels, F.M.

Author_Institution

Dynetics Inc., Huntsville, AL, USA

fYear

1995

fDate

8-11 May 1995

Firstpage

67

Lastpage

71

Abstract

A technique is described that can be used to iteratively design high range resolution radar signals that are optimum from the standpoint of the mean square processed signal voltage reflection. This technique is required since optimum signal design requires a priori knowledge of the target´s range profile. Since the range profile in not typically known a priori, an iterative or learning solution is required. This iterative technique can be implemented in such a way as to result in an adaptive signaling radar. The particular adaptation referred to in this paper is that of adaptive signaling and not adaptive antenna sidelobe cancellation, etc. The technique can be readily applied to the pulse compression signaling scheme known as matched FSK/PSK to result in an adaptive spread spectrum radar system

Keywords

Doppler effect; adaptive radar; frequency shift keying; iterative methods; phase shift keying; pulse compression; radar detection; radar signal processing; signal resolution; signal synthesis; spread spectrum radar; adaptive signaling; adaptive signaling radar; adaptive spread spectrum radar system; gradient descent method; high range resolution radar signals; iterative solution; iterative technique; learning solution; matched FSK/PSK; mean square processed signal voltage reflection; optimum radar signals design; pulse compression signaling; range profile; Adaptive arrays; Design methodology; Pulse compression methods; Radar antennas; Radar signal processing; Signal design; Signal processing; Signal resolution; Spread spectrum radar; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference, 1995., Record of the IEEE 1995 International

Conference_Location

Alexandria, VA

Print_ISBN

0-7803-2121-9

Type

conf

DOI

10.1109/RADAR.1995.522521

Filename

522521