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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
La visualisation d’images échographiques 3D est une tâche difficile en raison de la nature bruyante et floue de l’imagerie échographique. Cet article présente une technique efficace de rendu de volume pour l’image échographique 3D. Une technique de prétraitement de filtrage médian tronqué 2D est proposée pour réduire le bruit de chatoiement de l'image échographique. Cet article présente également une méthode de détection adaptative des limites pour réduire le temps de calcul pour le rendu volumique de l’image échographique. La technique proposée est comparée aux méthodes conventionnelles de rendu de volume en ce qui concerne le temps de calcul et la qualité subjective de l'image. Selon l'étude comparative, la méthode de rendu de volume proposée présente de bonnes performances pour la visualisation d'images échographiques 3D.
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CheolAn KIM, HyunWook PARK, "Preprocessing and Efficient Volume Rendering of 3-D Ultrasound Image" in IEICE TRANSACTIONS on Information,
vol. E83-D, no. 2, pp. 259-264, February 2000, doi: .
Abstract: Visualization of 3-D ultrasound images is a challenging task due to the noisy and fuzzy nature of ultrasound imaging. This paper presents an efficient volume rendering technique for 3-D ultrasound image. A preprocessing technique of 2-D truncated-median filtering is proposed to reduce speckle noise of the ultrasound image. This paper also introduces an adaptive boundary detection method to reduce the computation time for volume rendering of ultrasound image. The proposed technique is compared to the conventional volume rendering methods with respect to the computation time and the subjective image quality. According to the comparison study, the proposed volume rendering method shows good performance for visualization of 3-D ultrasound image.
URL: https://global.ieice.org/en_transactions/information/10.1587/e83-d_2_259/_p
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@ARTICLE{e83-d_2_259,
author={CheolAn KIM, HyunWook PARK, },
journal={IEICE TRANSACTIONS on Information},
title={Preprocessing and Efficient Volume Rendering of 3-D Ultrasound Image},
year={2000},
volume={E83-D},
number={2},
pages={259-264},
abstract={Visualization of 3-D ultrasound images is a challenging task due to the noisy and fuzzy nature of ultrasound imaging. This paper presents an efficient volume rendering technique for 3-D ultrasound image. A preprocessing technique of 2-D truncated-median filtering is proposed to reduce speckle noise of the ultrasound image. This paper also introduces an adaptive boundary detection method to reduce the computation time for volume rendering of ultrasound image. The proposed technique is compared to the conventional volume rendering methods with respect to the computation time and the subjective image quality. According to the comparison study, the proposed volume rendering method shows good performance for visualization of 3-D ultrasound image.},
keywords={},
doi={},
ISSN={},
month={February},}
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TY - JOUR
TI - Preprocessing and Efficient Volume Rendering of 3-D Ultrasound Image
T2 - IEICE TRANSACTIONS on Information
SP - 259
EP - 264
AU - CheolAn KIM
AU - HyunWook PARK
PY - 2000
DO -
JO - IEICE TRANSACTIONS on Information
SN -
VL - E83-D
IS - 2
JA - IEICE TRANSACTIONS on Information
Y1 - February 2000
AB - Visualization of 3-D ultrasound images is a challenging task due to the noisy and fuzzy nature of ultrasound imaging. This paper presents an efficient volume rendering technique for 3-D ultrasound image. A preprocessing technique of 2-D truncated-median filtering is proposed to reduce speckle noise of the ultrasound image. This paper also introduces an adaptive boundary detection method to reduce the computation time for volume rendering of ultrasound image. The proposed technique is compared to the conventional volume rendering methods with respect to the computation time and the subjective image quality. According to the comparison study, the proposed volume rendering method shows good performance for visualization of 3-D ultrasound image.
ER -