Victor Sineglazov

Work place: Department of Aviation Computer Integrated Complexes, National Aviation University, Kyiv, Ukraine

E-mail: svm@nau.edu.ua

Website: https://orcid.org/0000-0002-3297-9060

Research Interests:

Biography

Victor Sineglazov is a Doctor of Engineering Science and a Professor, serving as the Head of the Aviation Computer-Integrated Complexes Department at the Faculty of Air Navigation Electronics and Telecommunications, National Aviation University in Kyiv, Ukraine. He graduated from Kyiv Polytechnic Institute in 1973. His research areas include air navigation, air traffic control, identification of complex systems, wind and solar power plants, and artificial intelligence. He has authored more than 700 publications.

Author Articles
Intelligent Infective Endocarditis Diagnostic System Based on Echocardiography

By Victor Sineglazov Kirill Ryazanovskiy Andrew Sheruda

DOI: https://doi.org/10.5815/ijigsp.2024.05.08, Pub. Date: 8 Oct. 2024

In this paper, we developed a new approach to solve the problem of infective endocarditis (IE) diagnostics based on intelligent analysis of patients’ echocardiography images. The approach is based on echocardiography segmentation results and detection of valvular anomalies (namely vegetations). In this article for the first time investigates CNNs and Visual Transformers (ViT) based segmentation methods within the framework of the vegetation segmentation task on echocardiography images. Additionally, ensemble methods for combining segmentation models using a new method of models competition for data points were proposed. Furthermore, we investigated methods for aggregating the results of the ensemble based on a new meta-model, pointwise weighted aggregation, which weighs the results of each model pixel by pixel. The last proposed step was to automatically calculate the volume of segmented vegetation to determine the degree of disease and the need for urgent surgical intervention. For the studied and proposed methods, the following ensemble segmentation accuracy was achieved on the test dataset: iou 0.7822, dice score 0.886. The proposed empirical algorithm for calculating the volume of vegetations provided the basis for further improvements of the studied approach. The results obtained indicate the great potential of the developed approaches in clinical practice.

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