Abstract
Optimal weighting of adaptive antenna arrays is accomplished by computing the weight vector w that maximizes the signal-to-interference-plus-noise ratio. The optimal weight vector w=R/sup -1/v (R=covariance, v=steering vector) is in general complex with each weight having different magnitudes and phases. However, the design of some antenna arrays facilitates phase-only weighting or phase-only adjustments, whereupon it is desirable to compute the constrained optimal weight vector whose components have fixed magnitudes, e.g., a phase-only adaptive weight vector of the form w=(e/sup j/spl phi/1/, e/sup j/spl phi/2/, ..., e/sup j/spl phi/n/)/sup T/. This constrained optimization problem may be posed as the problem of maximizing the SINR on the space of phase-only vectors, which can be solved via, conjugate gradient and Newton methods. This paper describes the convergence and nulling performance of these algorithms.
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have