Title :
Determining Autocorrelation Matrix Size and Sampling Frequency for MUSIC Algorithm
Author :
Naha, Arunava ; Samanta, Anik Kumar ; Routray, Aurobinda ; Deb, Alok Kanti
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol., Kharagpur, Kharagpur, India
Abstract :
Detectability of closely spaced sinusoids in a noisy signal using MUltiple SIgnal Classifier (MUSIC) depends to a great extent on the sampling frequency (Fs) and the size of the autocorrelation matrix (N). Improper choice of any of these may result in increased computational burden and/or unresolved frequency components. This paper presents an analytical approach to determine expressions of lobe width using Fs and N at lobe base (Δfb) and half of the lobe height (Δfh). The required values of Fs and N can be derived from the expression of Δfb for distortion-less lobe heights of two closely spaced sinusoids. A tighter bound can be found using the expression of only Δfh to resolve two distinct peaks. Probability of resolution using reciprocal of MUSIC peaks is determined for various N and it´s limit for full resolvability was verified with the derived analytical expressions.
Keywords :
correlation methods; signal classification; signal detection; signal sampling; MUSIC algorithm; autocorrelation matrix size; closely spaced sinusoids; multiple signal classifier; noisy signal; sampling frequency; signal detection; signal sampling; Correlation; Eigenvalues and eigenfunctions; Multiple signal classification; Noise; Signal processing algorithms; Signal resolution; Symmetric matrices; Autocorrelation matrix; closely spaced sinusoids; detectability; matrix perturbation; music; subspaces;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2014.2366638
