Mean sound speed estimation with focusing quality evaluation for medical ultrasound imaging

Author

Park, Seok Joon ; Lee, Jaejin ; Lee, Woo Youl ; Yoo, Yangmo

Author_Institution

Dept. of Electron. Eng., Sogang Univ., Seoul, South Korea

fYear

2011

fDate

18-21 Oct. 2011

Firstpage

2205

Lastpage

2208

Abstract

In ultrasound receive beamforming, a fixed sound speed (e.g., 1540 m/s) is assumed for calculating focusing time delays. However, due to the variations of sound speeds incurring in soft tissues, phase distortions are introduced, leading to defocusing and consequent degradation in image quality. The phase distortion becomes severe when imaging fatty tissues and obese patients. The various sound speed estimation methods have been proposed, but these methods require the substantial amount of the computer complexity. In this paper, a new mean sound speed estimation method, in which focusing quality is examined by computing the minimum average sum of the absolute difference (MASAD) of raw radio-frequency (RF) data during receive beamforming, is presented to enhance spatial and contrast resolution. The proposed MASAD method was evaluated with the in vitro data from a tissue mimicking phantom by using a 7.5-MHZ linear array transducer with the Ultrasonix´s SonixTouch research platform connected the SonixDAQ parallel data acquisition system. For quantitative evaluation, the lateral resolution was measured with contour maps of -3 dB, -6 dB and -12 dB.

Keywords

biological tissues; biomedical ultrasonics; data acquisition; diseases; estimation theory; image enhancement; image resolution; medical image processing; phantoms; ultrasonic focusing; ultrasonic imaging; ultrasonic transducers; SonixDAQ parallel data acquisition system; Ultrasonix´s SonixTouch research platform; computer complexity; contrast resolution; fatty tissue imaging; fixed sound speed; focusing quality evaluation; frequency 7.5 MHz; image quality; linear array transducer; medical ultrasound imaging; minimum average sum-of-the-absolute difference; obese patients; phase distortion; raw radio-frequency data; soft tissues; sound speed estimation methods; spatial resolution; tissue mimicking phantom; ultrasound receive beamforming; velocity 1540 m/s; Estimation; Focusing; Image resolution; Phantoms; Radio frequency; Ultrasonic imaging; Beamforming; Mean Sound Speed Estimation; Medical Ultrasound Imaging;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium (IUS), 2011 IEEE International

Conference_Location

Orlando, FL

ISSN

1948-5719

Print_ISBN

978-1-4577-1253-1

Type

conf

DOI

10.1109/ULTSYM.2011.0547

Filename

6293345