Parametrization of closed surfaces for 3-D shape description
Computer Vision and Image Understanding
IEEE Transactions on Pattern Analysis and Machine Intelligence
Computer Vision
A user-guided tool for efficient segmentation of medical image data
CVRMed-MRCAS '97 Proceedings of the First Joint Conference on Computer Vision, Virtual Reality and Robotics in Medicine and Medial Robotics and Computer-Assisted Surgery
Clustering
ISVC '09 Proceedings of the 5th International Symposium on Advances in Visual Computing: Part I
DAGM'06 Proceedings of the 28th conference on Pattern Recognition
Snakes, shapes, and gradient vector flow
IEEE Transactions on Image Processing
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For every segmentation task, prior knowledge about the object that shall be segmented has to be incorporated. This is typically performed either automatically by using labeled data to train the used algorithm, or by manual adaptation of the algorithm to the specific application. For the segmentation of 3D data, the generation of training sets is very tedious and time consuming, since in most cases, an expert has to mark the object boundaries in all slices of the 3D volume. To avoid this, we developed a new framework that combines unsupervised and supervised learning. First, the possible edge appearances are grouped, such that, in the second step, the expert only has to choose between relevant and non-relevant clusters. This way, even objects with very different edge appearances in different regions of the boundary can be segmented, while the user interaction is limited to a very simple operation. In the presented work, the chosen edge clusters are used to generate a filter for all relevant edges. The filter response is used to generate an edge map based on which an active surface segmentation is performed. The evaluation on the segmentation of plant cells recorded with 3D confocal microscopy yields convincing results.