Title :
Parallel and adaptive high-resolution direction finding
Author :
Moonen, Marc ; Vanpoucke, Filiep J. ; Deprettere, Ed F.
Author_Institution :
ESAT, Katholieke Univ., Leuven, Heverlee, Belgium
fDate :
9/1/1994 12:00:00 AM
Abstract :
Recently the new class of so-called subspace methods for high-resolution direction finding has received a great deal of attention in the literature. When a real-time implementation is aimed at, the computational complexity involved is known to represent a serious impediment. In this paper, an ESPRIT-type algorithm is developed, which is fully adaptive and therefore particularly suited for real-time processing. Furthermore, a systolic array is described, which allows the processing of incoming data at a rate which is independent of the problem size. The algorithm is based on orthogonal transformations only. Estimates are computed for the angles of arrival, as well as for the source signals. Our aim is not so much to develop yet another ESPRIT-type algorithm but rather to show that it is indeed possible to develop an algorithm that is fully parallel and adaptive. This is something that has not been done before
Keywords :
array signal processing; parallel algorithms; parameter estimation; systolic arrays; ESPRIT-type algorithm; adaptive algorithm; adaptive high-resolution direction finding; angles of arrival; computational complexity; direction-of-arrival estimation; orthogonal transformations; parallel algorithm; parallel high-resolution direction finding; real-time processing; source signals; subspace method; systolic array; Additive noise; Computational complexity; Direction of arrival estimation; Displacement measurement; Equations; Helium; Impedance; Phased arrays; Sensor arrays; Sensor phenomena and characterization;
Journal_Title :
Signal Processing, IEEE Transactions on
