Validation of performance homogeneity of chan-vese model on selected tumour cells

Justice Kwame Appati, Franklin Iron Badzi, Michael Agbo Tettey Soli, Stephane Jnr Nwolley, Ismail Wafaa Denwar

Research output: Contribution to journalArticlepeer-review

Abstract

This study aims to analyze the Chan-Vese model's performance using a variety of tumor images. The processes involve the tumors' segmentation, detecting the tumors, identifying the segmented tumor region, and extracting the features before classification occurs. In the findings, the Chan-Vese model performed well with brain and breast tumor segmentation. The model on the skin performed poorly. The brain recorded DSC 0.6949903, Jaccard 0.532558; the time elapsed 7.389940 with an iteration of 100. The breast recorded a DSC of 0.554107, Jaccard 0.383228; the time elapsed 9.577161 with an iteration of 100. According to this study, a higher DSC does not signify a well-segmented image, as the breast had a lower DSC than the skin. The skin recorded a DSC of 0.620420, Jaccard 0.449717; the time elapsed 17.566681 with an iteration of 200.

Original languageEnglish
Article number7
JournalInternational Journal of E-Health and Medical Communications
Volume12
Issue number6
DOIs
Publication statusPublished - 1 Nov 2021

Keywords

  • Chan-Vese
  • Deformable models
  • Dice similarity coefficient
  • Level set
  • Tumor

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