Title :
Total least squares phased averaging and 3-D ESPRIT for joint azimuth-elevation-carrier estimation
fDate :
1/1/2001 12:00:00 AM
Abstract :
The method of total least squares (TLS) phased averaging for high-performance subspace fitting in the three-dimensional (3-D) case of spectral estimation with 3-D ESPRIT is introduced and applied to the joint azimuth elevation-carrier estimation problem with two-dimensional (2-D) uniform rectangular arrays. The method is highly efficient computationally and is suitable for large arrays. Detailed computer experiments and comparisons are provided. For a 16×16 array of sensors and heavy noise, TLS phased-averaging 3-D ESPRIT exceeds the 3-D TLS unitary ESPRIT estimator by 300% in RMSE performance
Keywords :
antenna phased arrays; array signal processing; direction-of-arrival estimation; least squares approximations; noise; spectral analysis; 2D uniform rectangular arrays; 3D ESPRIT; 3D TLS unitary ESPRIT estimator; DOA estimation; RMSE performance; TLS phased averaging; array processing; computer experiments; high-performance subspace fitting; joint azimuth elevation-carrier estimation; sensor array; spectral estimation; total least squares phased averaging; Array signal processing; Frequency; Least squares approximation; Multidimensional systems; Noise level; Phase estimation; Phase noise; Phased arrays; Sensor arrays; Two dimensional displays;
Journal_Title :
Signal Processing, IEEE Transactions on
