Joint equalization and fractional delay filter design for wideband digital beamforming

Author

Yuan Yao ; Xiaohui Huang ; Guangxin Wu ; Kunpeng Wei

Author_Institution

Nanjing Res. Inst. of Electron. Technol., CETC, Nanjing, China

fYear

2015

fDate

10-15 May 2015

Abstract

In wideband digital array radars (DARs), channel equalization and fractional delay (FD) are needed for digital beamforming (DBF) since they can compensate the amplitude and phase imbalance between each channel as well as the aperture effect. Traditionally, the compensations were usually implemented separately via different finite impulse response (FIR) filters based on different design criterions. In this paper, equalization and FD are realized jointly in one FIR filter based on the Farrow structure that provides a general polynomial approximation. The presented filter provides satisfactory compensation performance for both the channel mismatch and the aperture effect with low complexity. Simulation results have confirmed the correctness and effectiveness of the joint filter design, showing that it´s suitable for wideband DBF applications.

Keywords

FIR filters; array signal processing; channel estimation; delay filters; polynomial approximation; radar signal processing; FD; FIR filter; Farrow structure; amplitude imbalance; aperture effect; channel equalization; channel mismatch; digital beamforming; finite impulse response filter; fractional delay filter design; general polynomial approximation; joint equalization; joint filter design; phase imbalance; wideband DAR; wideband DBF applications; wideband digital array radar; Delays; Finite impulse response filters; Frequency response; Joints; Polynomials; Wideband; FIR filter; Farrow structure; digital radar; equalization; fractional delay;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference (RadarCon), 2015 IEEE

Conference_Location

Arlington, VA

Print_ISBN

978-1-4799-8231-8

Type

conf

DOI

10.1109/RADAR.2015.7131109

Filename

7131109