Optimized ROI Extraction and Pixel Reduction Methods for Kidney Abnormality Detection

A global public health concern, Chronic Kidney Disease causes renal failure, cardiovascular disease, and premature death. Given the frequency of kidney diseases and their significant impact on public health, detection of any abnormalities in the kidney is crucial. Effective patient treatment and med...

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Published in	Proceedings of IEEE Southeastcon pp. 1091 - 1096
Main Authors	Hossain, Md Junayed, Monir, Md Fahad, Ahmed, Tarem
Format	Conference Proceeding
Language	English
Published	IEEE 22.03.2025
Subjects	Classification Data mining Data models Deep learning Efficient-Net B7 Inception V3 Interpolation Kidney Kidney Abnormalities Medical diagnostic imaging Medical treatment Pixel Reduction Planning Public healthcare Region of Interest Strain
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Abstract	A global public health concern, Chronic Kidney Disease causes renal failure, cardiovascular disease, and premature death. Given the frequency of kidney diseases and their significant impact on public health, detection of any abnormalities in the kidney is crucial. Effective patient treatment and medical care planning depend on the early and precise diagnosis of a variety of kidney abnormalities. Early detection enable treatments that enhance patient outcomes, slow the progression of disease, and lessen the strain on healthcare systems. In order to detect anomalies in kidney, we utilized the Region of Interest (ROI) and Pixel Reduction techniques separately in this work. We have applied the Bicubic Interpolation method to reduce the size of individual pixels in an image while preserving a significant data of the original image data. A novel hybrid strategy that aims to preserve diagnostic data while reducing computing complexity uses the original images for ROI extraction. The deep learning method is then independently trained and tested using the pixel-reduced and localized dataset. In order to categorize the images, we use Inception V3 and EfficientNet B7 as Deep Learning models. Using the ROI-extracted data, we were able to achieve approximately 99.75% accuracy with the EfficientNet B7 model. Moreover, the same algorithm and dataset were used to obtain 98.45%, 99.02%, and 98.78% Precision, Recall, and F1-score, respectively. This framework provides medical professionals with a helpful prognostic tool to early detect identify various forms of kidney abnormalities.
AbstractList	A global public health concern, Chronic Kidney Disease causes renal failure, cardiovascular disease, and premature death. Given the frequency of kidney diseases and their significant impact on public health, detection of any abnormalities in the kidney is crucial. Effective patient treatment and medical care planning depend on the early and precise diagnosis of a variety of kidney abnormalities. Early detection enable treatments that enhance patient outcomes, slow the progression of disease, and lessen the strain on healthcare systems. In order to detect anomalies in kidney, we utilized the Region of Interest (ROI) and Pixel Reduction techniques separately in this work. We have applied the Bicubic Interpolation method to reduce the size of individual pixels in an image while preserving a significant data of the original image data. A novel hybrid strategy that aims to preserve diagnostic data while reducing computing complexity uses the original images for ROI extraction. The deep learning method is then independently trained and tested using the pixel-reduced and localized dataset. In order to categorize the images, we use Inception V3 and EfficientNet B7 as Deep Learning models. Using the ROI-extracted data, we were able to achieve approximately 99.75% accuracy with the EfficientNet B7 model. Moreover, the same algorithm and dataset were used to obtain 98.45%, 99.02%, and 98.78% Precision, Recall, and F1-score, respectively. This framework provides medical professionals with a helpful prognostic tool to early detect identify various forms of kidney abnormalities.
Author	Hossain, Md Junayed Monir, Md Fahad Ahmed, Tarem
Author_xml	– sequence: 1 givenname: Md Junayed surname: Hossain fullname: Hossain, Md Junayed organization: Independent University, Bangladesh (IUB),Department of Computer Science & Engineering,Bangladesh – sequence: 2 givenname: Md Fahad surname: Monir fullname: Monir, Md Fahad organization: Virginia Polytechnic Institute and State University,Department of Electrical and Computer Engineering,USA – sequence: 3 givenname: Tarem surname: Ahmed fullname: Ahmed, Tarem organization: Independent University, Bangladesh (IUB),Department of Computer Science & Engineering,Bangladesh
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Snippet	A global public health concern, Chronic Kidney Disease causes renal failure, cardiovascular disease, and premature death. Given the frequency of kidney...
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SubjectTerms	Classification Data mining Data models Deep learning Efficient-Net B7 Inception V3 Interpolation Kidney Kidney Abnormalities Medical diagnostic imaging Medical treatment Pixel Reduction Planning Public healthcare Region of Interest Strain
Title	Optimized ROI Extraction and Pixel Reduction Methods for Kidney Abnormality Detection
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