Provably Efficient Multi-Cancer Image Segmentation Based on Multi-Class Fuzzy Entropy

Authors

  • Hend Muslim Jasim
  • Mudhafar Jalil Jassim Ghrabat
  • Luqman Qader Abdulrahman
  • Vincent Omollo Nyangaresi
  • Junchao Ma
  • Zaid Ameen Abduljabbar
  • Iman Qays Abduljaleel

DOI:

https://doi.org/10.31449/inf.v47i8.4840

Abstract

One of the segmentation techniques with the greatest degree of success used in numerous recent applications is multi-level thresholding. The selection of appropriate threshold values presents difficulties for traditional methods, however, and, as a result, techniques have been developed to address these difficulties multidimensionally. Such approaches have been shown to be an efficient way of identifying the areas affected in multi-cancer cases in order to define the treatment area. Multi-cancer methods that facilitate a certain degree of competence are thus required. This study tested storing MRI brain scans in a multidimensional image database, which is a significant departure from past studies, as a way to improve the efficacy, efficiency, and sensitivity of cancer detection.  The evaluation findings offered success rates for cancer diagnoses of 99.08%, 99.87%, 94%; 97.08%, 98.3%, and 93.38% sensitivity; the success rates of the LED Internet connection in particular were 99.99%; 98.23%, 99.53%, and 99.98%.

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Published

2023-09-28

How to Cite

Jasim, H. M., Jassim Ghrabat, M. J., Abdulrahman, L. Q., Nyangaresi, V. O., Ma, J., Abduljabbar, Z. A., & Abduljaleel, I. Q. (2023). Provably Efficient Multi-Cancer Image Segmentation Based on Multi-Class Fuzzy Entropy. Informatica, 47(8). https://doi.org/10.31449/inf.v47i8.4840

Issue

Vol. 47 No. 8 (2023): Online-only issue

Section

Online-only

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