Title :
Finite-time performance of a quadratically constrained MVDR beamformer
Author_Institution :
Div. of Eng., St. Mary´´s Univ., Halifax, NS, Canada
fDate :
4/1/1997 12:00:00 AM
Abstract :
The finite-time behavior of a quadratically constrained version of the minimum-variance, distortionless-response line-array beamformer is examined. An entity known as the weight ratio is defined and it is demonstrated that there are simple expressions that relate the weight ratio to the field scenario which explicitly take into account the finite-time misadjustment phenomenon. It is further demonstrated that holding the weight ratio to a value of about 0.5 produces an adaptive beamformer with a beneficial combination of robustness to nonideal situations (e.g., sensor misalignment, pointing errors, correlated interferers, misadjustment effects, etc.) while retaining the ability to adapt quickly in highly dynamic fields
Keywords :
array signal processing; digital simulation; interference (signal); simulation; transient response; adaptive arrays; adaptive beamformer; array signal processing; correlated interferers; finite-time misadjustment; finite-time performance; minimum-variance distortionless-response line-array beamformer; misadjustment effects; pointing errors; quadratically constrained MVDR beamformer; robustness; sensor misalignment; weight ratio; Adaptive arrays; Adaptive signal processing; Array signal processing; Covariance matrix; Frequency estimation; Interference constraints; Narrowband; Robustness; Sensor arrays; Sensor phenomena and characterization;
Journal_Title :
Oceanic Engineering, IEEE Journal of
