Title :
A two-dimensional version of the matrix pencil method to solve the DOA problem
Author :
Krekel, P.F.C. ; Deprettere, E.F.
Author_Institution :
Delft Univ. of Technol., Netherlands
Abstract :
A method is presented to estimate the 2-dimensional directions of arrival of (coherent) narrow-band plane waves radiated by sources located in the far-field of a receiving array. The approach is an extension of the matrix pencil based ESPRIT algorithm to the multi-dimensional parameter space. The basic strategy that is followed is to decouple the problem into two independent 1-dimensional subproblems, resulting in two 1-D solution sets. Then the correct combination of angles from the two sets, forming a tuple associated with one specific signal, is obtained without doing an extensive search over the 1-D sets. For the coherent situation the concept of spatial smoothing is discussed in combination with a TLS approximation technique that is applicable in both the one- and multi-dimensional cases. Simulation results of the 2-D TLS pencil method for the coherent and non-coherent situation are given
Keywords :
antenna arrays; antenna radiation patterns; antenna theory; electromagnetic wave propagation; receiving antennas; ESPRIT algorithm; TLS approximation technique; matrix pencil method; multi-dimensional parameter space; narrow-band plane waves; receiving array far-field; simulation; spatial smoothing; total least squares; two-dimensional direction of arrival;
Conference_Titel :
Circuit Theory and Design, 1989., European Conference on
Conference_Location :
Brighton
