Citation to this article as recorded by
Britto, A.P. and G. Ravindran, 2006. Detection of specific human chromosomal abnormalities using discrete cosine transform based gradient vector flow active contours. Biotechnology, 6: 111-117. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. A study into the merit of the DCT Based NGVF active contours in comparison with DCT based GVF active contours. Inform. Technol. J., 6: 1171-1180. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. Discrete cosine transform based gradient vector flow active contours for chromosome image segmentation-an analysis. Inform. Technol. J., 6: 441-447. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. Novel findings in chromosome image segmentation using discrete cosine transform based gradient vector flow active contours. Inform. Technol. J., 6: 1-7. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. Review of deformable curves-a retro analysis. Inform. Technol. J., 6: 26-36. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. Robustness in efficient chromosome image segmentation using discrete cosine transform based gradient vector flow active contours. Inform. Technol. J., 6: 405-413. CrossRefDirect Link |
Britto, A.P. and G. Ravindran, 2007. Unraveling new strengths in discrete cosine transform based gradient vector flow active contours for chromosome image segmentation. Inform. Technol. J., 6: 1029-1035. CrossRefDirect Link |
Britto, P. and G. Ravindran, 2007. Discrete cosine transform based gradient vector flow in normal direction active contours. Inform. Technol. J., 6: 1050-1056. CrossRefDirect Link |
Xie, Z. and S. Wang, 2011. A new motion segmentation method for dynamic scenes. Inform. Technol. J., 10: 1942-1949. CrossRef |
Citation to this article as recorded by
Preprocessing G-banded metaphase: towards the design of automated karyotyping SN Applied Sciences Vol. 1, Issue 12, , 2019 |
Traditional and deep‐based techniques for end‐to‐end automated karyotyping: A review Expert Systems |
Detection of Specific Human Chromosomal Abnormalities Using Discrete Cosine Transform Based Gradient Vector Flow Active Contours Biotechnology(Faisalabad) Vol. 5, Issue 1, 111, 2006 |
Novel Findings in Chromosome Image Segmentation Using Discrete Cosine Transform Based Gradient Vector Flow Active Contours Information Technology Journal Vol. 6, Issue 1, 1, 2007 |
Unraveling New Strengths in Discrete Cosine Transform Based Gradient Vector Flow Active Contours for Chromosome Image Segmentation Information Technology Journal Vol. 6, Issue 7, 1029, 2007 |
Discrete Cosine Transform Based Gradient Vector Flow in Normal Direction Active Contours Information Technology Journal Vol. 6, Issue 7, 1050, 2007 |
A Study into the Merit of the DCT Based NGVF Active Contours in Comparison with DCT Based GVF Active Contours Information Technology Journal Vol. 6, Issue 8, 1171, 2007 |
Review of deformable curves-a retro analysis. Information Technology Journal Vol. 6, Issue 1, 26, 2007 |
Robustness in Efficient Chromosome Image Segmentation Using Discrete Cosine Transform Based Gradient Vector Flow Active Contours Information Technology Journal Vol. 6, Issue 3, 405, 2007 |
Discrete Cosine Transform Based Gradient Vector Flow Active Contours for Chromosome Image Segmentation-an Analysis Information Technology Journal Vol. 6, Issue 3, 441, 2007 |
A New Motion Segmentation Method for Dynamic Scenes Information Technology Journal Vol. 10, Issue 10, 1942, 2011 |
How to cite this article
A. Prabhu Britto and G. Ravindran, 2005. A Review of Deformable Curves from the Perspective of Chromosome Image Segmentation. Journal of Medical Sciences, 5: 363-370.
DOI: 10.3923/jms.2005.363.370
URL: https://scialert.net/abstract/?doi=jms.2005.363.370
DOI: 10.3923/jms.2005.363.370
URL: https://scialert.net/abstract/?doi=jms.2005.363.370