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Proceedings Paper

Speckle reduction based on signal decorrelation under different strain states
Author(s): Pai-Chi Li; Chi-Lin Wu; Mei-Ju Chen
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Paper Abstract

Low contrast detectability of diagnostic ultrasound is fundamentally limited by speckle brightness variations. Several compounding techniques have been proposed for speckle reduction by incoherently averaging partially correlated measurements. The conventional approaches obtain partially correlated measurements by imaging the same object from different spatial positions or within different frequency ranges. In this paper, a new technique based on signal decorrelation under different strain states is proposed. The different strain states can be created using external applied forces. By correcting on ly the in-plane motion, images under different strain states have identical characteristics except for speckle appearance due to the un- corrected out-of-plane motion. Therefore, these images can be combined for speckle reduction without significantly affecting the in-plane spatial resolution. Efficacy of the new compounding technique was previously tested using data acquired by a single crystal transducer. However, only the axial motion was corrected and RF data were used to estimate the displacement fields. In this paper, results are extended to full two-dimensional motion correction using post-detection images from a commercial array system. Images from human thyroids and gelatin based phantoms are investigated. It is shown that speckle brightness variation's can be effectively reduced without significant degradation in spatial resolution.

Paper Details

Date Published: 30 May 2001
PDF: 8 pages
Proc. SPIE 4325, Medical Imaging 2001: Ultrasonic Imaging and Signal Processing, (30 May 2001); doi: 10.1117/12.428196
Show Author Affiliations
Pai-Chi Li, National Taiwan Univ. (Taiwan)
Chi-Lin Wu, National Taiwan Univ. (Taiwan)
Mei-Ju Chen, National Taiwan Univ. (Taiwan)


Published in SPIE Proceedings Vol. 4325:
Medical Imaging 2001: Ultrasonic Imaging and Signal Processing
Michael F. Insana; K. Kirk Shung, Editor(s)

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