3-D companding using linear arrays for improved strain imaging

Three-dimensional (3-D) companding is applied to volume sets of RF echo signals to reduce decorrelation noise in strain images. Companding conditions echo signals to be cross-correlated to improve coherence and minimize decorrelation noise caused by complex 3-D motion. Previously, the authors showed that 2-D companding was able to eliminate decorrelation noise in strain images up to 50% compression if the out-of-plane displacement was negligible. This paper extends those methods to three dimensions, thus reducing the need to control boundary conditions. 3-D companding is also limited at high compressions (>5%) because of high strain gradients and rotation and shearing motions. A series of phantom studies illustrate the advantages and limitation of 3-D companding with and without aberrating layers.

[1]  Jean Meunier,et al.  A Model For Dynamic Texture Analysis In Two-Dimensional Echocardiograms Of The Myocardium , 1987, Other Conferences.

[2]  G. Clifford Carter,et al.  Estimation of time delay in the presence of source or receiver motion , 1977 .

[3]  T. Hall,et al.  2-D companding for noise reduction in strain imaging , 1998, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[4]  M. Bilgen,et al.  Error analysis in acoustic elastography. I. Displacement estimation. , 1997, The Journal of the Acoustical Society of America.