实验结果表明该算法在器官轮廓分割中是有效的。
Experimental result shows the effectiveness of the proposed method.
本文针对人体器官重建这一研究课题,对基于医学影像的器官轮廓检测、分割和模型重建等技术进行了深入的研究。
Aiming at the task of the organ modeling, this thesis focuses on the techniques of organ contour-detecting, segmentation and modeling based on medical image.
对岩石薄片的X 射线检查有时会发现可怕的触角轮廓、消化道和很多种海洋生物的视觉器官。
X-ray examination of thin slabs of rock sometimes reveals the ghostly outlines of tentacles, digestive tracts, and visual organs of a variety of marine creatures.
方法采用符合4项准则的轮廓线重建算法建立人体器官三维数字化模型。
Method Human organ models were built by contour reconstruction algorithm conforming to 4 criteria.
在得到人体实体切片序列图像中大脑器官的边缘轮廓线的基础上,提取图像中的标尺,利用图像中提供的标尺计算像素和实物的比例关系;
On the base of distilling edges from images of human slices, by calibrating the gauge, the ratio relationship between the pixels of the gauge and the real section areas were obtained.
在得到人体实体切片序列图像中大脑器官的边缘轮廓线的基础上,提取图像中的标尺,利用图像中提供的标尺计算像素和实物的比例关系;
On the base of distilling edges from images of human slices, by calibrating the gauge, the ratio relationship between the pixels of the gauge and the real section areas were obtained.
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