Title :
Wavefront amplitude distortion and image sidelobe levels. I. Theory and computer simulations
Author :
Zhu, Qing ; Steinberg, Bernard D.
Author_Institution :
Moore Sch. of Electr. Eng., Pennsylvania Univ., Philadelphia, PA, USA
Abstract :
The quality of an imaging system is degraded by propagation anomalies that distort wavefronts propagating through the medium. Adaptive phase-deaberration algorithms compensate for phase errors in the wavefront. The algorithms suffer, however, when the wavefront is also significantly distorted. A theory which shows that the rise of image background level, which is the average sidelobe floor (ASF), in a single point-like source image is proportional to the amplitude distortion of the wavefront and inversely proportional to the effective number of array elements is derived. From the theory, the tolerance to the amplitude distortion, after the phasefront has been corrected by a deaberration algorithm, can be calculated based on the design requirement of the sidelobe floor for a given array. Computer simulations show good agreement with the theory.<>
Keywords :
acoustic arrays; acoustic imaging; biomedical ultrasonics; digital simulation; medical image processing; ultrasonic propagation; ASF; adaptive phase deaberration algorithms; array elements; average sidelobe floor; computer simulations; image background level; image sidelobe levels; imaging system quality; phase errors; propagation anomalies; single point-like source image; soft tissue; ultrasonic wave propagation; wavefront amplitude distortion; Acoustic distortion; Acoustic scattering; Breast; Computer simulation; Degradation; Distortion measurement; In vivo; Liver; Phase distortion; Phased arrays;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
