Your search keyword '"Appathurai, Ahilan"' showing total 3 results

1. Energy aware Clustered blockchain data for IoT: An end-to-end lightweight secure & Enroute filtering approach

Author

S., Ramamoorthi, B., Muthu Kumar, and Appathurai, Ahilan

Published

2023

2. Kidney disease detection and segmentation using artificial neural network and multi-kernel k-means clustering for ultrasound images.

Author

Nithya, A., Appathurai, Ahilan, Venkatadri, N., Ramji, D.R., and Anna Palagan, C.

Subjects

*ARTIFICIAL neural networks, *K-means clustering, *ULTRASONIC imaging, *KIDNEY diseases, *IMAGE segmentation, *KIDNEY stones

Abstract

• To design and develop effective kidney disease detection approach. • An artificial neural network and multi-kernel k-means clustering algorithms were used. • Stone and tumor were effectively identified by medical ultra sound images. • Performance of linear + Quadratic kernel approach is analyzed with sensitivity, specificity and accuracy. • The proposed linear + Quadratic kernel approach achieves the maximum accuracy compare to other methods. The main aim of this paper is to design and develop an approach for kidney disease detection and segmentation using a combination of clustering and classification approach. Nowadays, kidney stone detection and segmentation is one of the crucial procedures in surgical and treatment planning for ultrasound images. However, at present, kidney stone segmentation in ultrasound images is mostly performed manually in clinical practice. Apart from being time-consuming, manual stone delineation is difficult and depends on the individual operator. Therefore, in this work, we proposed a kidney stone detection using artificial neural network and segmentation using multi-kernel k-means clustering algorithm. Normally, the system comprises of four modules like (i) preprocessing, (ii) feature extraction, (iii) classification and (iv) segmentation. Primarily, we eliminate the noise present in the input image using median filter. Then, we extract the important GLCM features from the image. After that, we classify the image as normal or abnormal using neural network classifier. Finally, the abnormal images are given to the segmentation stage to segment the stone and tumor part separately using multi. Kernel K-means clustering algorithm. The experimentation results show that the proposed system as linear + quadratic based segmentation achieves the maximum accuracy of 99.61%, compare with all other methods. [ABSTRACT FROM AUTHOR]

Published

2020

3. A study on ECG signal characterization and practical implementation of some ECG characterization techniques.

Author

Appathurai, Ahilan, Jerusalin Carol, J., Raja, C., Kumar, S.N., Daniel, Ashy V., Jasmine Gnana Malar, A., Fred, A. Lenin, and Krishnamoorthy, Sujatha

Subjects

*ELECTROCARDIOGRAPHY, *NOTCH filters, *EXERCISE physiology, *ELECTRIC lines, *CLASSIFICATION algorithms, *SIGNAL processing, *SIGNAL denoising

Abstract

The role of ECG is pivotal in medical field for the analysis of cardiac physiology and abnormalities. The interpretation of ECG signal is performed by signal processing algorithms for diagnosis of cardiac diseases. This work analyses filtering approaches, component extraction, classification and compression algorithms for the ECG signal. The portable ECG systems are also analysed; results and discussion comprises of IIR notch filter for the removal of power line interference, hybrid wavelet filter for removal of baseline wander, FFT algorithm for R peak detection and hybrid filtering approach for the detection of P, QRS and T components. The outcome of this research work is an aid for researchers developing novel algorithms in ECG filtering, segmentation and classification. The algorithms are developed in Matlab 2015b and tested on fantasia database data sets. [ABSTRACT FROM AUTHOR]

Published

2019