IJEEDC An Image Segmentation Approach for Synthetic Nervous Tisular Data at The Human Forearm Region with Convolutional Neural Networks

Journal Paper

Paper Title :An Image Segmentation Approach for Synthetic Nervous Tisular Data at The Human Forearm Region with Convolutional Neural Networks

Author :Ronald Loaiza-Baldares, Dilan Andrey Loria-Quesada, Marta Vilchez-Monge, Juan Luis Crespo-Marino

Article Citation :Ronald Loaiza-Baldares ,Dilan Andrey Loria-Quesada ,Marta Vilchez-Monge ,Juan Luis Crespo-Marino , (2019 ) " An Image Segmentation Approach for Synthetic Nervous Tisular Data at The Human Forearm Region with Convolutional Neural Networks " , International Journal of Electrical, Electronics and Data Communication (IJEEDC) , pp. 5-13, Volume-7,Issue-11

Abstract : Electrical impedance tomography allows biomedical images to be obtained safely, non-invasively and at low cost. In the region of the human forearm, aspects such as the low dynamism and the conductive nature of the tissues impede the reliable recognition of the nerve terminals. The segmentation of images in electrical impedance tomography is a challenging field and has not been addressed for the area of the human forearm up to date. This study presents a segmentation tool for synthetic tomograms that emulates the conductive behavior of the human forearm, through a U-Net architecture CNN. Segmentation has close to 96 % accuracy and is able to detect the nerve conductivity regions in different positions. Keywords - Electrical Impedance Tomography, Human Forearm, Image Segmentation, Convolutional Neuronal Networks, U-Net.

Type : Research paper

Published : Volume-7,Issue-11


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Apr. 2025
Submitted Papers	:	80
Accepted Papers	:	10
Rejected Papers	:	70
Acc. Perc	:	12%
Issue Published	:	143
Paper Published	:	1781
No. of Authors	:	4956

Published : Volume-7,Issue-11

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