Title :
Two-dimensional equirotational stack subspace fitting with an application to uniform rectangular arrays and ESPRIT
Author_Institution :
Fachhochschule Furtwangen, Germany
fDate :
7/1/2000 12:00:00 AM
Abstract :
A two-dimensional (2-D) multiple invariance technique for computing signal subspaces for uniform rectangular arrays (URAs) of size M×N sensors is introduced. The method is based on a multiple maximum overlap configuration of the sensors in the array with m×n subarrays of (M-m+1)×(N-n+1) sensors each. We exploit the fact that the stacked subspace of the subarray sensor output signals admits a two-level equirotational stack parametrization. We introduce a TLS-type algorithm for estimating the parameters of this equirotational stack subspace model. Based on this method of equirotational stack subspace fitting, the overall array signal subspace can be estimated with a much higher accuracy than with conventional unstructured SVD and TLS techniques. Detailed experiments validate the theoretical results. We propose a variant of 2-D ESPRIT based on equirotational stack subspace fitting. This 2-D equirotational stack ESPRIT (2-D ES-ESPRIT) algorithm clearly outperforms conventional unstructured variants of 2-D ESPRIT. A detailed comparison with 2-D unitary ESPRIT is presented
Keywords :
array signal processing; direction-of-arrival estimation; least squares approximations; noise; signal representation; singular value decomposition; 2D ES-ESPRIT algorithm; 2D equirotational stack ESPRIT algorithm; 2D equirotational stack subspace fitting; 2D multiple invariance technique; 2D unitary ESPRIT; EVD; SVD; TLS-type algorithm; array signal subspace; eigenvalue decomposition; equirotational stack subspace fitting; experiments; irotational stack subspace model; multiple maximum overlap configuration; parameter estimation; sensors array; signal subspace representations; signal subspaces; singular value decomposition; subarray sensor output signals; total least squares; two-level equirotational stack parametrization; uniform rectangular arrays; unstructured 2D ESPRIT; unstructured SVD; Delay; Eigenvalues and eigenfunctions; Least squares methods; Narrowband; Parameter estimation; Sensor arrays; Signal processing; Signal sampling; Singular value decomposition; Two dimensional displays;
Journal_Title :
Signal Processing, IEEE Transactions on
