Segmentation of Computed Tomography using The Geometric Active Contour Model

기하학적 동적 외곽선 모델을 이용한 X-ray 단층촬영영상의 영상추출

  • Jang, D.P. (Department of Medical Information and Management, College of Medicine, Hanyang University) ;
  • Kim, S.I. (Department of Medical Information and Management, College of Medicine, Hanyang University)
  • 장동표 (한양대학과 의과대학 계량의학교실) ;
  • 김선일 (한양대학과 의과대학 계량의학교실)
  • Published : 1997.11.28

Abstract

This paper presents a modified geometric active contour model or edge detection and segmentation of computed tomography(CT) scan images. The method is based on the level setup approach developed by Osher and Sethian and the modeling of propagation fronts with curvature dependent speeds by Malladi. Based on above algorithms, the geometric active contour is obtained through a particular level set of hypersurface lowing along its gradient force and curvature force. This technique retains the attractive feature which is topological and geometric flexibility of the contour in recovering objects with complex shapes and unknown topologies. But there are limitations in this algorithm which are being not able to separate the object with weak difference from neighbor object. So we use speed limitation filter to overcome those problems. We apply a 2D model to various synthetic cases and the three cases of real CT scan images in order to segment objects with complicated shapes and topologies. From the results, the presented model confirms that it attracts very naturally and efficiently to the desired feature of CT scan images.

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