Title :
Pulse elongation and deconvolution filtering for medical ultrasonic imaging
Author :
Haider, Bruno ; Lewin, Peter A. ; Thomenius, Kai E.
Author_Institution :
Corp. Res. & Dev., Gen. Electr. Co., Schenectady, NY, USA
Abstract :
Range sidelobe artifacts which are associated with pulse compression methods can be reduced with a new method composed of pulse elongation and deconvolution (PED). While pulse compression and PED yield similar signal-to-noise ratio (SNR) improvements, PED inherently minimizes the range sidelobe artifacts. The deconvolution is implemented as a stabilized inverse filter. With proper selection of the excitation waveform an exact inverse filter can be implemented. The excitation waveform is optimized in a minimum mean square error (MMSE) sense. An analytical expression for the power spectrum of the optimal pulse is presented and several techniques to numerically optimize the excitation pulse are shown. The effects of PED are demonstrated in computer simulations as well as ultrasonic images.
Keywords :
acoustic filters; acoustic signal processing; biomedical ultrasonics; deconvolution; medical image processing; pulse compression; analytical expression; computer simulations; deconvolution filtering; medical diagnostic imaging; medical ultrasonic imaging; minimum mean square error; optimal pulse power spectrum; optimized excitation waveform; pulse compression methods; pulse elongation; range sidelobe artifacts; signal-to-noise ratio improvements; stabilized inverse filter; Acoustic pulses; Additive noise; Biomedical imaging; Deconvolution; Filtering; Filters; Noise level; Pulse compression methods; Signal to noise ratio; Ultrasonic imaging;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
