Title :
On Generalized Auto-Spectral Coherence Function and Its Applications to Signal Detection
Author :
Chengshi Zheng ; Hefei Yang ; Xiaodong Li
Author_Institution :
Commun. Acoust. Lab., Inst. of Acoust., Beijing, China
Abstract :
Considering that spectral components of one random process are not necessarily independent for all types of signals, this paper defines a generalized auto-spectral coherence function (GAS-CF) to measure this spectral correlation. The GAS-CF is a generalization of the temporal coherence function and the spectral coherence function, where they have already been successfully applied to detect howling components and transient noise components, respectively. After defining the GAS-CF, this paper studies its statistical properties in detail. Simulation results show that the proposed GAS-CF can be applied to detect different types of signals, including transient noise, howling frequency and chirp signal, in a simple way.
Keywords :
signal detection; GAS-CF; chirp signal; generalized auto-spectral coherence function; howling components detection; howling frequency; signal detection; spectral components; temporal coherence function; transient noise components; Chirp; Coherence; Estimation; Noise; Random processes; Speech; Transient analysis; Auto-spectral coherence; chirp signal; signal detection; temporal coherence; transient noise;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2014.2310772
