Adaptive beamforming with instantaneous convergence & its efficient implementation in DSP hardware

Author

Sajith Mohan, C. ; Menon, Sangeetha B. ; Nissar, K.E. ; Arun Kumar, K.P.

Author_Institution

Naval Phys. & Oceanogr. Lab. (NPOL), Kochi, India

fYear

2012

fDate

7-9 Dec. 2012

Firstpage

700

Lastpage

704

Abstract

In applications where the scenario is highly nonstationary, lower convergence time of the adaptive algorithm becomes a crucial requirement. In this paper, an adaptive beamformer with a near instantaneous convergence is discussed. Thus more frequent updating of the beamformer weight vector is possible to cater for the dynamic scenario. But this necessitates a much higher computational requirement also. The computational complexity is mainly contributed by the matrix inverse computation. The performance of different algorithms, including the one using Householder transform based Cholesky factorization is compared. A computationally efficient implementation and its mapping to the TigerSHARC Digital Signal Processor (DSP) are presented.

Keywords

array signal processing; computational complexity; digital signal processing chips; matrix inversion; Cholesky factorization; DSP hardware; Householder transform; TigerSHARC digital signal processor; adaptive algorithm; adaptive beamformer; adaptive beamforming; beamformer weight vector; computational complexity; dynamic scenario; matrix inverse computation; near instantaneous convergence; Array signal processing; Arrays; Covariance matrix; Matrices; Program processors; Sensors; Vectors; Adaptive beamforming; Cholesky factorization; Convergence; Householder transformation; MVDR; STMV; TigerSHARC;

fLanguage

English

Publisher

ieee

Conference_Titel

India Conference (INDICON), 2012 Annual IEEE

Conference_Location

Kochi

Print_ISBN

978-1-4673-2270-6

Type

conf

DOI

10.1109/INDCON.2012.6420707

Filename

6420707