V. Rajinikanth scite author profile

Lung abnormality is one of the common diseases in humans of all age group and this disease may arise due to various reasons. Recently, the lung infection due to SARS-CoV-2 has affected a larger human community globally, and due to its rapidity, the World-Health-Organisation (WHO) declared it as pandemic disease. The COVID-19 disease has adverse effects on the respiratory system, and the infection severity can be detected using a chosen imaging modality. In the proposed research work; the COVID-19 is detected using transfer learning from CT scan images decomposed to three-level using stationary wavelet. A three-phase detection model is proposed to improve the detection accuracy and the procedures are as follows; Phase1-data augmentation using stationary wavelets, Phase2-COVID-19 detection using pre-trained CNN model and Phase3-abnormality localization in CT scan images. This work has considered the well known pre-trained architectures, such as ResNet18, ResNet50, ResNet101, and SqueezeNet for the experimental evaluation. In this work, 70% of images are considered to train the network and 30% images are considered to validate the network. The performance of the considered architectures is evaluated by computing the common performance measures. The result of the experimental evaluation confirms that the ResNet18 pre-trained transfer learning-based model offered better classification accuracy (training=99.82%, validation=97.32%, and testing=99.4%) on the considered image dataset compared with the alternatives.

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Deep-learning framework to detect lung abnormality – A study with chest X-Ray and lung CT scan images

Bhandary¹,

Prabhu

Rajinikanth

et al. 2020

Pattern Recognition Letters

293

142

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Lung abnormalities are highly risky conditions in humans. The early diagnosis of lung abnormalities is essential to reduce the risk by enabling quick and efficient treatment. This research work aims to propose a Deep-Learning (DL) framework to examine lung pneumonia and the cancer. This work proposes two different DL practices to evaluate the considered problem: (i) The initial DL method, named a modified AlexNet (MAN), is implemented to classify chest X-Ray images into normal and pneumonia class. In the MAN, the classification is implemented using with Support Vector Machine (SVM), and its performance is compared against Softmax. Further, its performance is validated with other pre-trained DL techniques, such as AlexNet, VGG16, VGG19 and ResNet50. (ii) The second DL work implements a fusion of handcrafted and learned features in the MAN to improve the classification accuracy during lung cancer assessment. This work employs serial fusion and Principal Component Analysis (PCA) based features selection to enhance the feature vector. The performance of this DL structure is tested by the benchmark lung cancer CT images of LIDC-IDRI and superior classification accuracy of >97.27% is achieved.

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Automated Detection of Alzheimer’s Disease Using Brain MRI Images– A Study with Various Feature Extraction Techniques

et al. 2019

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Entropy based segmentation of tumor from brain MR images – a study with teaching learning based optimization

Rajinikanth

Satapathy

Fernandes

et al. 2017

Pattern Recognition Letters

208

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Multi-level image thresholding using Otsu and chaotic bat algorithm

Satapathy

Raja

Rajinikanth

et al. 2016

Neural Comput & Applic

171

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Automated detection of schizophrenia using nonlinear signal processing methods

Vicnesh

Rajinikanth

et al. 2019

Artificial Intelligence in Medicine

166

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Segmentation of Ischemic Stroke Lesion in Brain MRI Based on Social Group Optimization and Fuzzy-Tsallis Entropy

2018

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Customized VGG19 Architecture for Pneumonia Detection in Chest X-Rays

Dey¹,

Zhang

Rajinikanth

et al. 2021

Pattern Recognition Letters

120

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V. Rajinikanth

Deep transfer learning-based automated detection of COVID-19 from lung CT scan slices

Deep-learning framework to detect lung abnormality – A study with chest X-Ray and lung CT scan images

Automated Detection of Alzheimer’s Disease Using Brain MRI Images– A Study with Various Feature Extraction Techniques

Entropy based segmentation of tumor from brain MR images – a study with teaching learning based optimization

Multi-level image thresholding using Otsu and chaotic bat algorithm

Automated detection of schizophrenia using nonlinear signal processing methods

Segmentation of Ischemic Stroke Lesion in Brain MRI Based on Social Group Optimization and Fuzzy-Tsallis Entropy

Customized VGG19 Architecture for Pneumonia Detection in Chest X-Rays

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