A comprehensive review towards segmentation and detection of cancer cell and tumor for dynamic 3D reconstruction
Automated cancer cell and tumor segmentation and detection for 3D modeling are still an unsolved research problem in computer vision, image processing and pattern recognition research domains. Human body is complex three-dimensional structure where numerous types of cancer and tumor may exist rega...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
Penerbit Universiti Kebangsaan Malaysia
2020
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| Online Access: | http://journalarticle.ukm.my/15416/1/03.pdf http://journalarticle.ukm.my/15416/ http://www.ukm.my/apjitm/articles-year.php |
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| Summary: | Automated cancer cell and tumor segmentation and detection for 3D modeling are still an unsolved research
problem in computer vision, image processing and pattern recognition research domains. Human body is
complex three-dimensional structure where numerous types of cancer and tumor may exist regardless of shape
or position. A three-dimensional (3D) reconstruction of cancer cell and tumor from body parts does not lead to
loss of information like 2D shape visualization. Various research methodologies for segmentation and detection
for 3D reconstruction of cancer cell and tumor were performed by previous research. However, the pursuit for
better methodology for segmentation and detection for 3D reconstruction of cancer cell and tumor are still
unsolved research problem due to lack of efficient feature extraction for details surface information,
misclassification during training phases and low tissue contrast which causes low detection and precision rate
with high computational complexity during detection and segmentation. This research addresses comprehensive
and critical review of various segmentation and detection research methodologies for cancer affected cell and
tumor in human body in the basis of three-dimensional reconstruction from MRI or CT images. At first, core
research background is illustrated highlighting various aspects addressed by this research. After that, various
previous methods with advantages and disadvantages followed by various phases used as frameworks exist in
the previous research demonstrated by this research. Then, extensive experimental evaluations done by previous
research are demonstrated by this research with various performance metrics. At last, this research summarized
overall observation on previous research categorized into two aspects, i.e. observation on common research
methodologies and recommended area for further research. Overall reviews proposed in this paper have been
extensively studied in various research papers which can significantly contribute to computer vision research
and can be potential for future development and direction for future research. |
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