. . "80-210-3226-X" . . . "631076" . "Tissue image reconstruction: Localization of nuclei markers and segmentation based on deformable models" . . . . "Tissue image reconstruction: Localization of nuclei markers and segmentation based on deformable models"@en . . . . "Tissue image reconstruction: Localization of nuclei markers and segmentation based on deformable models" . "image analysis"@en . "RIV/00216224:14330/03:00008575" . "2"^^ . "Masaryk University" . . "RIV/00216224:14330/03:00008575!RIV11-AV0-14330___" . . . "2003-01-01+01:00"^^ . . "Svoboda, David" . "4"^^ . "Biophysics of the Genome" . "2"^^ . . "Matula, Pavel" . . . "Tissue segmentation has not been safisfactory solved yet. Several recent papers [3,4] brought some new pieces of knowledge into this area. However there is a lot of open questions. Improving the degree of automation of tissue segmentation is a great challenge. A new 3-step semiautomatic method was developed for tissue segmentation. The method is suitable for specifically-shaped cells. The first step includes searching for cells markers, i. e. the approximate center of each cell is localized. The localization is based on careful analysis of cell boundaries and on the assumption that the cells are sphere-like objects. The main contribution of the method is the possibility to find the cells markers without choosing the particular cells by hand. In the next step the surface of each cell is reconstructed. The procedure is based on the method for spherical object reconstruction presented in [7]. That method uses star-shaped simplex mesh to reconstruct the cell surface." . "Hlohovec, Czech Republic" . "[AC073922D8EB]" . . "Brno" . "P(IAB5004102), P(IBS5004010), Z(MSM 143300002)" . "Tissue segmentation has not been safisfactory solved yet. Several recent papers [3,4] brought some new pieces of knowledge into this area. However there is a lot of open questions. Improving the degree of automation of tissue segmentation is a great challenge. A new 3-step semiautomatic method was developed for tissue segmentation. The method is suitable for specifically-shaped cells. The first step includes searching for cells markers, i. e. the approximate center of each cell is localized. The localization is based on careful analysis of cell boundaries and on the assumption that the cells are sphere-like objects. The main contribution of the method is the possibility to find the cells markers without choosing the particular cells by hand. In the next step the surface of each cell is reconstructed. The procedure is based on the method for spherical object reconstruction presented in [7]. That method uses star-shaped simplex mesh to reconstruct the cell surface."@en . "Tissue image reconstruction: Localization of nuclei markers and segmentation based on deformable models"@en . "14330" .