3D reconstruction of ultrasound scanned data for tissue mimicking material sample

被引:1
|
作者
Zhu, Haijiang [1 ]
Yang, Ping [2 ]
Yao, Tianbin [1 ]
机构
[1] Beijing Univ Chem Technol, Coll Informat Sci & Technol, Beijing 100029, Peoples R China
[2] Natl Inst Metrol, Div Mech & Acoust, Beijing 100013, Peoples R China
来源
BIO-MEDICAL MATERIALS AND ENGINEERING | 2014年 / 24卷 / 06期
关键词
3D ultrasound reconstruction; tissue mimicking materials; two-step varied window filter; anisotropic diffusion filter;
D O I
10.3233/BME-141095
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
This paper investigates a 3D reconstruction based on the ultrasonic scanned data for tissue mimicking material (TMM) sample. A two-step varied window filter is developed to smooth ultrasound backscatter signals at first. Next, the anisotropic diffusion filter with a triangular window is presented to reduce the noise of the 2D images by aligning one-dimensional signals. Finally, the 3D structure of the object embedded in the TMM sample is reconstructed using the detected edges images. The performance of the proposed method is analyzed and validated through a number of experiments in both 2D imaging and 3D reconstruction.
引用
下载
收藏
页码:2771 / 2781
页数:11
相关论文
共 50 条
  • [31] Improving the visualization of 3D ultrasound data with 3D filtering
    Shamdasani, V
    Bae, U
    Managuli, R
    Kim, Y
    MEDICAL IMAGING 2005: VISUALIZATION, IMAGE-GUIDED PROCEDURES, AND DISPLAY, PTS 1 AND 2, 2005, 5744 : 455 - 461
  • [32] Interactive Material Annotation on 3D Scanned Models leveraging Color-Material Correlation
    Kawabe, Wataru
    Hashimoto, Taisuke
    Matulic, Fabrice
    Igarashi, Takeo
    Higuchi, Keita
    PROCEEDINGS SIGGRAPH ASIA 2023 TECHNICAL COMMUNICATIONS, SA TECHNICAL COMMUNICATIONS 2023, 2023,
  • [33] Identification of material parameters of complex cables from scanned 3D shapes
    Hermansson, Tomas
    Vajedi, Simon
    Forsberg, Tobias
    Ekstedt, Fredrik
    Kressin, Jonas
    Toft, Carl
    Carlson, Johan S.
    14TH CIRP CAT 2016 - CIRP CONFERENCE ON COMPUTER AIDED TOLERANCING, 2016, 43 : 280 - 285
  • [34] Geometric techniques for 3D tracking of ultrasound sensor, tumor segmentation in ultrasound images, and 3D reconstruction
    Machucho-Cadena, Ruben
    Rivera-Rovelo, Jorge
    Bayro-Corrochano, Eduardo
    PATTERN RECOGNITION, 2014, 47 (05) : 1968 - 1987
  • [35] Rapid prototyping 3D objects from scanned measurement data
    Willis, Andrew
    Speicher, Jasper
    Cooper, David B.
    IMAGE AND VISION COMPUTING, 2007, 25 (07) : 1174 - 1184
  • [36] Minimum total variation in 3D ultrasound reconstruction
    Sanches, J
    Bioucas-Dias, JM
    Marques, JS
    2005 INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP), VOLS 1-5, 2005, : 2889 - 2892
  • [37] MMSE Reconstruction for 3D Freehand Ultrasound Imaging
    Huang, Wei
    Zheng, Yibin
    INTERNATIONAL JOURNAL OF BIOMEDICAL IMAGING, 2008, 2008 (2008)
  • [38] A Rayleigh reconstruction/interpolation algorithm for 3D ultrasound
    Sanches, JM
    Marques, JS
    PATTERN RECOGNITION LETTERS, 2000, 21 (10) : 917 - 926
  • [39] Alignment-by-reconstruction for 3D ultrasound imaging
    Sanches, JM
    Marques, JS
    15TH INTERNATIONAL CONFERENCE ON PATTERN RECOGNITION, VOL 3, PROCEEDINGS: IMAGE, SPEECH AND SIGNAL PROCESSING, 2000, : 37 - 40
  • [40] Time Regarded Method of 3D Ultrasound Reconstruction
    Juszczyk, Jan
    Galinska, Marta
    Pietka, Ewa
    INFORMATION TECHNOLOGY IN BIOMEDICINE (ITIB 2018), 2019, 762 : 205 - 216
12345