Inhomogeneous acoustic velocity in human tissue introduces phase aberration in ultrasonic imaging systems and degrades image quality. A novel technique that employs echo signals from moving diffuse targets, such as flowing blood, as an image quality factor to compensate for phase aberration is described. Such signals can be obtained by subtracting the images of two consecutive target interrogations. The fundamental statistics of the quality factor and other related parameters are developed to provide a theoretical basis for the technique. Key words: Image quality factor; moving target; phase aberration correction; speckle statistics
Phase aberration due to tissues with inhomogeneous acoustic speeds is a major source for image degra...
Abstract—Our experimental setup for ultrasound computer tomography (USCT) has a cylindrical aperture...
[[abstract]]© 2003 Institute of Electrical and Electronics Engineers-Sound-velocity inhomogeneities ...
Echography relies on the transmission of ultrasound signals through biological tissues, and the proc...
Ultrasound technology has been widely used in medical imaging. Techniques using phased array transdu...
Ultrasound images are riddled with system dependent imperfections called speckle (multiplicative noi...
Medical ultrasound imaging is in widespread use today due to its low cost, portability, lack of side...
Phase aberrations in soft tissues have been shown in previous studies to create disturbing degradati...
Ultrasonic images are affected by multiplicative speckle noise that reduces the quality of images in...
Speckle noise, which is inherent in all coherent energy forms, can limit the quality of ultrasonic i...
Signal-to-noise-ratio (SNR) images were constructed by a sliding window technique. Theoretical deriv...
A new approach to ultrasonic imaging which is designed to form faithful images in spite of severe pr...
The correlation function of the echo signal intensities at a fixed region on a series of B-mode imag...
High intensity ultrasound can create hyperechoic regions in an ultrasound image due to local generat...
Two major topics in clinical ultrasound imaging are addressed in this thesis. The first is phase abe...
Phase aberration due to tissues with inhomogeneous acoustic speeds is a major source for image degra...
Abstract—Our experimental setup for ultrasound computer tomography (USCT) has a cylindrical aperture...
[[abstract]]© 2003 Institute of Electrical and Electronics Engineers-Sound-velocity inhomogeneities ...
Echography relies on the transmission of ultrasound signals through biological tissues, and the proc...
Ultrasound technology has been widely used in medical imaging. Techniques using phased array transdu...
Ultrasound images are riddled with system dependent imperfections called speckle (multiplicative noi...
Medical ultrasound imaging is in widespread use today due to its low cost, portability, lack of side...
Phase aberrations in soft tissues have been shown in previous studies to create disturbing degradati...
Ultrasonic images are affected by multiplicative speckle noise that reduces the quality of images in...
Speckle noise, which is inherent in all coherent energy forms, can limit the quality of ultrasonic i...
Signal-to-noise-ratio (SNR) images were constructed by a sliding window technique. Theoretical deriv...
A new approach to ultrasonic imaging which is designed to form faithful images in spite of severe pr...
The correlation function of the echo signal intensities at a fixed region on a series of B-mode imag...
High intensity ultrasound can create hyperechoic regions in an ultrasound image due to local generat...
Two major topics in clinical ultrasound imaging are addressed in this thesis. The first is phase abe...
Phase aberration due to tissues with inhomogeneous acoustic speeds is a major source for image degra...
Abstract—Our experimental setup for ultrasound computer tomography (USCT) has a cylindrical aperture...
[[abstract]]© 2003 Institute of Electrical and Electronics Engineers-Sound-velocity inhomogeneities ...