The problem of resolving frequency components close to the Rayleigh threshold, while using time-domain sample sequences of length not greater than N, is relevant to several waveform monitoring applications where acquisition time is upper-bounded. The paper presents a compressive sensing (CS) algorithm that enhances frequency resolution by introducing a dictionary that explicitly accounts for spectral leakage on a fine frequency grid. The proposed algorithm achieves good estimation accuracy without significantly extending total measurement time.
Compressive sensing with an overcomplete dictionary for high-resolution DFT analysis
FRIGO, GUGLIELMO;NARDUZZI, CLAUDIO
2014
Abstract
The problem of resolving frequency components close to the Rayleigh threshold, while using time-domain sample sequences of length not greater than N, is relevant to several waveform monitoring applications where acquisition time is upper-bounded. The paper presents a compressive sensing (CS) algorithm that enhances frequency resolution by introducing a dictionary that explicitly accounts for spectral leakage on a fine frequency grid. The proposed algorithm achieves good estimation accuracy without significantly extending total measurement time.File in questo prodotto:
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