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.
2014
Proceedings of the 22nd EuropeanSignal Processing Conference (EUSIPCO), 2014
European Signal Processing Conference (EUSIPCO), 2014
9780992862619
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3116122
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