TY - GEN
T1 - Surface reconstruction from sparse and mutually intersected contours for freehand 3D ultrasound using variational method
AU - Deng, Shuangcheng
AU - Li, Yunhua
AU - Jiang, Lipei
AU - Cao, Yingyu
AU - Zhang, Junwen
PY - 2012
Y1 - 2012
N2 - The 3D reconstruction for freehand 3D ultrasound is a challenging issue because the recorded B-scans are not only sparse, but also non-parallel (actually they may intersect each other). Conventional volume reconstruction methods can't reconstruct sparse data efficiently while not introducing geometrical artifacts, and conventional surface reconstruction methods can't reconstruct surfaces from contours that are arbitrarily oriented in 3D space. We developed a new surface reconstruction method for freehand 3D ultrasound. It is based on variational implicit function which is presented by Greg Turk for shape transformation. In the new method, we first constructed on-& off-surface constraints from the segmented contours of all recorded B-scans, then used a variational interpolation technique to get a single implicit function in 3D. Finally, the implicit function was evaluated to extract the zero-valued surface as reconstruction result. Two experiment was conducted to assess our variational surface reconstruction method, and the experiment results have shown that the new method is capable of reconstructing surface smoothly from sparse contours which can be arbitrarily oriented in 3D space.
AB - The 3D reconstruction for freehand 3D ultrasound is a challenging issue because the recorded B-scans are not only sparse, but also non-parallel (actually they may intersect each other). Conventional volume reconstruction methods can't reconstruct sparse data efficiently while not introducing geometrical artifacts, and conventional surface reconstruction methods can't reconstruct surfaces from contours that are arbitrarily oriented in 3D space. We developed a new surface reconstruction method for freehand 3D ultrasound. It is based on variational implicit function which is presented by Greg Turk for shape transformation. In the new method, we first constructed on-& off-surface constraints from the segmented contours of all recorded B-scans, then used a variational interpolation technique to get a single implicit function in 3D. Finally, the implicit function was evaluated to extract the zero-valued surface as reconstruction result. Two experiment was conducted to assess our variational surface reconstruction method, and the experiment results have shown that the new method is capable of reconstructing surface smoothly from sparse contours which can be arbitrarily oriented in 3D space.
KW - Surface Reconstruction
KW - freehand 3D ultrasound
KW - medical imaging
KW - variational method
UR - https://www.scopus.com/pages/publications/84861013027
U2 - 10.1109/ISdea.2012.653
DO - 10.1109/ISdea.2012.653
M3 - 会议稿件
AN - SCOPUS:84861013027
SN - 9780769546087
T3 - Proceedings - 2012 International Conference on Intelligent Systems Design and Engineering Applications, ISDEA 2012
SP - 1511
EP - 1516
BT - Proceedings - 2012 International Conference on Intelligent Systems Design and Engineering Applications, ISDEA 2012
T2 - 2nd International Conference on Intelligent Systems Design and Engineering Applications, ISDEA 2012
Y2 - 6 January 2012 through 7 January 2012
ER -