Title :
Spatial coherence of ultrasonic speckle in composites
Author :
Derode, Arnaud ; Fink, Mathias
Author_Institution :
Lab. Ondes et Acoustique, Paris 7 Univ., France
Abstract :
Pulsed echography in a scattering medium generates speckle noise. Its random nature implies a statistical processing of the backscattered signal. The second-order statistics, such as autocorrelation, can provide information about the structure of the medium and help detect a possible defect. The spatial autocorrelation function is related to the spatial coherence of the backscattered waves, which determines the speckle noise level. Specifically, this spatial coherence approach is applied to anisotropic fiber-reinforced composites. The authors present theoretical as well as experimental results and show how the autocorrelation function changes with the orientation of the layers inside the composite, thus pointing out its anisotropy.<>
Keywords :
acoustic signal processing; echo; fibre reinforced composites; speckle; ultrasonic materials testing; ultrasonic scattering; anisotropic fiber-reinforced composites; anisotropy; backscattered signal; backscattered waves; pulsed echography; scattering medium; second-order statistics; spatial autocorrelation function; spatial coherence; speckle noise; statistical processing; ultrasonic pulse echo measurement; ultrasonic speckle; Anisotropic magnetoresistance; Autocorrelation; Noise generators; Noise level; Pulse generation; Scattering; Signal processing; Spatial coherence; Speckle; Statistics;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
