Title :
An analytical constant modulus algorithm
Author :
Van der Veen, Alle-Jan ; Paulraj, Arogyaswami
Author_Institution :
Dept. of Comput. Sci., Stanford Univ., CA, USA
fDate :
5/1/1996 12:00:00 AM
Abstract :
Iterative constant modulus algorithms such as Godard (1980) and CMA have been used to blindly separate a superposition of cochannel constant modulus (CM) signals impinging on an antenna array. These algorithms have certain deficiencies in the context of convergence to local minima and the retrieval of all individual CM signals that are present in the channel. We show that the underlying constant modulus factorization problem is, in fact, a generalized eigenvalue problem, and may be solved via a simultaneous diagonalization of a set of matrices. With this new analytical approach, it is possible to detect the number of CM signals present in the channel, and to retrieve all of them exactly, rejecting other, non-CM signals. Only a modest amount of samples is required. The algorithm is robust in the presence of noise and is tested on measured data collected from an experimental set-up
Keywords :
antenna arrays; array signal processing; convergence of numerical methods; eigenvalues and eigenfunctions; matrix algebra; signal sampling; CM signals; analytical constant modulus algorithm; blind beamforming; cochannel constant modulus signals; constant modulus factorization problem; convergence; experimental set-up; generalized eigenvalue problem; iterative constant modulus algorithms; local minima; matrices; measured data; noise; robust algorithm; signal retrieval; signal samples; signal separation; simultaneous diagonalization; Algorithm design and analysis; Antenna arrays; Array signal processing; Blind equalizers; Convergence; Delay; Eigenvalues and eigenfunctions; Noise robustness; Signal analysis; Signal processing algorithms;
Journal_Title :
Signal Processing, IEEE Transactions on
