Cervic cancer classification using quantum fuzzy set

Authors : Rajesh Dennison, Giji Kiruba Dasebenezer, Ramesh Dennison

Pages : 687-694

Doi:10.31127/tuje.1455056

View : 26 | Download : 18

Publication Date : 2024-10-31

Article Type : Research

Abstract :In this sophisticated world living with CIN cervic cancer is much jeopardy. Cancer is a stochastic (random) process. So, in that CIN in initial stage is not jeopardy. It is totally because of hazardous malign cells. Using its modality in image is selected in existing system only automated classification depends on input image. But in proposed methodology the innovative alludes the jeopardy of CIN cancer is found using the size of /area of nucleus or cytoplasm. This proposed methodology was developed with an algorithm to find CIN area/size. This research work establishes a Cervic Cancer Classification Using Contour Based on Area of Nucleolus and Cytoplasm in Cells (CBANC) which classifies noise spread images into any one of five phases. A similarity measure produces 90% efficiency in proposed system as par with inefficient existing system which fetches us 50%. By pragmatic application it is proved that CBANC with fuzzy is better than Baye’s. This can be accomplished by removing well distinct consistency features and choosing preeminent classifier. Proposed work can extend with 3D input images for future research. It produces mightiest parameter shape and intensity which is very essential for 3D approach. The inference of proposed system can extend the latest classifier engines for more accuracy. It can easily predict more than 90% accuracy will be there. And also derive cancer growing and after therapy for cancer shrinking algorithm will be used for 2D or 3D CIN cancer classification. The outcomes of the proposed methodology CBANC shows that better when compared to the existing methodology like Bayes. It can be implemented in the real world environments of the medical field.
Keywords : Fourier transform, CBANC, SVM, BAYE’S, GLCM