S.Prasath

Work place: Department of Computer Science, VET Institute of Arts and Science (Coeducation) College, Thindal, Erode, Tamil Nadu, India

E-mail: softprasaths@gmail.com

Website:

Research Interests: Image Processing, Computational Learning Theory, Software Engineering, Data Mining, Data Structures and Algorithms

Biography

Dr.S.Prasath received the Doctor of Philosophy in Computer Science degree from Bharathiar University, Coimbatore. Master of Philosophy in Computer Science from Vinayaka Mission University, Salem and Master of Science in Software Engineering (Integrated) degree from the M.Kumarsamy College of Engineering, Karur under the Anna University of Chennai, Tamil Nadu, India. He is currently working as a Assistant Professor in the Computer Science at VET Institute of Arts and Science Co-education College, Thindal, Erode, Tamil Nadu, India. His research interest includes image processing, data mining, networking, applications of machine learning and software engineering for self-adaptive systems.

Author Articles
Cystic Region Detection Using Hybrid Fuzzy-based Multi-Region Normalization

By S.Prasath D.Karthiga Rani

DOI: https://doi.org/10.5815/ijem.2022.01.03, Pub. Date: 8 Feb. 2022

One of the main purposes of this approach is to automatically extract the cystic border. Several of the semi-automatic segmentation strategies that have already been used may result in incomplete categorization, which is likely to fail as well as causes solitary pixel in noise dentistry x-rays images due to sampling artifact. As such, cyst boundaries are not removed appropriately. It focuses on the elimination of solitary pixels caused by artefacts. This suggested technique uses both the fuzzy memberships function of every pixel as well as localized spatially information of the neighbor pixels to accomplish the maximum feasible levels of automated processes for computers-aided diagnostics or identification of illnesses. That fuzzy-based multi-region normalization is implemented in five phases. To begin, FCM techniques are used to determine the numbers of centroids. This fuzzified function is constructed as well as provides memberships degree numbers to any and every pixel within every class based on the number of cluster centers as well as the shape of the histogram. It generates an intermediary segmentation output by fuzzy memberships degrees at about this step. This fuzzy localized aggregating of the neighborhood pixels will be the fourth phase, with the greatest responsiveness of the memberships degree generating pixels being kept in mind only for ultimate cystic area retrieved outputs.

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