A least mean squares approach of iterative array calibration for scalable digital phased array radar panels

Author

Yeary, Mark ; Conway, David ; Herd, J. ; Fosberry, Mark ; Harger, M. ; Hondl, K.

Author_Institution

Oklahoma Univ., Norman, OK, USA

fYear

2013

fDate

15-18 Oct. 2013

Firstpage

276

Lastpage

278

Abstract

This paper describes a semiautonomous approach to calibrate a phased array system, with particular use on an S-band aperture that is being developed at MIT Lincoln Laboratory. Each element of the array is controlled by an independent digital phase shifter, whose control signal may be uniquely defined. As active electronically steerable arrays (AESAs) continually evolve towards mostly digital paradigms that will support real-time computing, as opposed to look-up table approaches, then adaptive calibration approaches may be pursued for maximum AESA performance. This calibration work is being completed as one component of Lincoln Laboratory´s effort within the multifunction phased array radar (MPAR) initiative.

Keywords

iterative methods; least mean squares methods; phase shifters; phased array radar; real-time systems; AESA; MIT Lincoln Laboratory; MPAR; S-band aperture; active electronically steerable arrays; adaptive calibration approach; independent digital phase shifter; iterative array calibration; least mean squares approach; multifunction phased array radar; real-time computing; scalable digital phased array radar panels; semiautonomous approach; Apertures; Arrays; Calibration; Iterative methods; Laboratories; Radar; Surveillance; phased arrays; radar; radar signal processing;

fLanguage

English

Publisher

ieee

Conference_Titel

Phased Array Systems & Technology, 2013 IEEE International Symposium on

Conference_Location

Waltham, MA

Type

conf

DOI

10.1109/ARRAY.2013.6731841

Filename

6731841