Deevyankar Agarwal scite author profile

COVID-19 infection was reported in December 2019 at Wuhan, China. This virus critically affects several countries such as the USA, Brazil, India and Italy. Numerous research units are working at their higher level of effort to develop novel methods to prevent and control this pandemic scenario. The main objective of this paper is to propose a medical decision support system using the implementation of a convolutional neural network (CNN). This CNN has been developed using EfficientNet architecture. To the best of the authors’ knowledge, there is no similar study that proposes an automated method for COVID-19 diagnosis using EfficientNet. Therefore, the main contribution is to present the results of a CNN developed using EfficientNet and 10-fold stratified cross-validation. This paper presents two main experiments. First, the binary classification results using images from COVID-19 patients and normal patients are shown. Second, the multi-class results using images from COVID-19, pneumonia and normal patients are discussed. The results show average accuracy values for binary and multi-class of 99.62% and 96.70%, respectively. On the one hand, the proposed CNN model using EfficientNet presents an average recall value of 99.63% and 96.69% concerning binary and multi-class, respectively. On the other hand, 99.64% is the average precision value reported by binary classification, and 97.54% is presented in multi-class. Finally, the average F1-score for multi-class is 97.11%, and 99.62% is presented for binary classification. In conclusion, the proposed architecture can provide an automated medical diagnostics system to support healthcare specialists for enhanced decision making during this pandemic scenario.

show abstract

Transfer Learning for Alzheimer’s Disease through Neuroimaging Biomarkers: A Systematic Review

Agarwal

Marques

Díez

et al. 2021

Sensors

View full text Add to dashboard Cite

Alzheimer’s disease (AD) is a remarkable challenge for healthcare in the 21st century. Since 2017, deep learning models with transfer learning approaches have been gaining recognition in AD detection, and progression prediction by using neuroimaging biomarkers. This paper presents a systematic review of the current state of early AD detection by using deep learning models with transfer learning and neuroimaging biomarkers. Five databases were used and the results before screening report 215 studies published between 2010 and 2020. After screening, 13 studies met the inclusion criteria. We noted that the maximum accuracy achieved to date for AD classification is 98.20% by using the combination of 3D convolutional networks and local transfer learning, and that for the prognostic prediction of AD is 87.78% by using pre-trained 3D convolutional network-based architectures. The results show that transfer learning helps researchers in developing a more accurate system for the early diagnosis of AD. However, there is a need to consider some points in future research, such as improving the accuracy of the prognostic prediction of AD, exploring additional biomarkers such as tau-PET and amyloid-PET to understand highly discriminative feature representation to separate similar brain patterns, managing the size of the datasets due to the limited availability.

show abstract

Comparison of Machine Learning Algorithms in the Prediction of Hospitalized Patients with Schizophrenia

Alonso

Marques

Agarwal

et al. 2022

Sensors

View full text Add to dashboard Cite

New computational methods have emerged through science and technology to support the diagnosis of mental health disorders. Predictive models developed from machine learning algorithms can identify disorders such as schizophrenia and support clinical decision making. This research aims to compare the performance of machine learning algorithms: Decision Tree, AdaBoost, Random Forest, Naïve Bayes, Support Vector Machine, and k-Nearest Neighbor in the prediction of hospitalized patients with schizophrenia. The data set used in the study contains a total of 11,884 electronic admission records corresponding to 6933 patients with various mental health disorders; these records belong to the acute units of 11 public hospitals in a region of Spain. Of the total, 5968 records correspond to patients diagnosed with schizophrenia (3002 patients) and 5916 records correspond to patients with other mental health disorders (3931 patients). The results recommend Random Forest with the best accuracy of 72.7%. Furthermore, this algorithm presents 79.6%, 72.8%, 72.7%, and 72.7% for AUC, precision, F1-Score, and recall, respectively. The results obtained suggest that the use of machine learning algorithms can classify hospitalized patients with schizophrenia in this population and help in the hospital management of this type of disorder, to reduce the costs associated with hospitalization.

show abstract

Deep Learning in Gaming and Animations

Chaudhary¹,

Sharma²,

Sharma³

et al. 2021

View full text Add to dashboard Cite

End-to-End Deep Learning Architectures Using 3D Neuroimaging Biomarkers for Early Alzheimer’s Diagnosis

Agarwal

Berbís²,

Martín-Noguerol³

et al. 2022

Mathematics

View full text Add to dashboard Cite

This study uses magnetic resonance imaging (MRI) data to propose end-to-end learning implementing volumetric convolutional neural network (CNN) models for two binary classification tasks: Alzheimer’s disease (AD) vs. cognitively normal (CN) and stable mild cognitive impairment (sMCI) vs. AD. The baseline MP-RAGE T1 MR images of 245 AD patients and 229 with sMCI were obtained from the ADNI dataset, whereas 245 T1 MR images of CN people were obtained from the IXI dataset. All of the images were preprocessed in four steps: N4 bias field correction, denoising, brain extraction, and registration. End-to-end-learning-based deep CNNs were used to discern between different phases of AD. Eight CNN-based architectures were implemented and assessed. The DenseNet264 excelled in both types of classification, with 82.5% accuracy and 87.63% AUC for training and 81.03% accuracy for testing relating to the sMCI vs. AD and 100% accuracy and 100% AUC for training and 99.56% accuracy for testing relating to the AD vs. CN. Deep learning approaches based on CNN and end-to-end learning offer a strong tool for examining minute but complex properties in MR images which could aid in the early detection and prediction of Alzheimer’s disease in clinical settings.

show abstract

Secular Form to Affiliation Rule Mining Employing P-tree and T-tree

Agarwal

Agarwal²

2017

IJARCSSE

View full text Add to dashboard Cite

The real commercialisminformation often demonstrates temporal feature and time varying behavior. Temporal affiliation rule has thus got an active area of explore. A calendar part such as months and days, clock parts such as hours and seconds and differentiated units such as business days and academic years, act a major role in a wide range of information system applications. The calendar-based form has already been proposed by explorers to restrict the time-based association ships. This paper advises a novel algorithmic program to determine association rule on time dependent data employingeffective T tree and P-tree data structures. The algorithm complicates the significant advantage in terms of time and memory while comprising time dimension. Our approach path of scanning based on time-intervals yields littlerinformation set for a given valid interval thus cutting down the processing time. This approach is enforced on a synthetic data-set and result shows that temporal TFP tree collapses better performance over a TFP tree access.

show abstract

Implication of online learning on the physical and mental well-being of students

Agarwal¹,

Agarwal²

2022

IJREI

View full text Add to dashboard Cite

All universities and colleges worldwide had been closed due to the coronavirus outbreak. Due to the unexpected growth of online education, many teachers now conduct classes remotely using electronic devices like laptops and mobile phones to deliver instruction on digital platforms. Numerous studies have linked excessive or extended screen time to negative psychological and physiological outcomes. Stress, sadness, sleep difficulties, effects on eyesight, posture pain, hand limitations, and musculoskeletal issues are all mental and physical ailments. This research aims to examine how the COVID-19 epidemic has affected students' attendance and performance in online courses. The survey was administered online using Google forms. Undergraduates of both sexes between the ages of 18 and 25 who were enrolled in online courses for at least one month were considered for participation. In contrast, their physical health was evaluated using the Neck disability index and the Oswestry low back pain disability index. Statistical Methods Understood Karl Pearson's correlation coefficient was used to examine the relationship between the duration of an online course and feelings of anxiety, depression, and pain in the neck, shoulders, and back. Researchers showed that online learning harmed students' mental and physical health, with 57.3% of the student body reporting high levels of stress, 32.5% reporting mild depression, 48.5% reporting mild neck aches, and 41.3% reporting moderate back pain. Students' emotional and physical well-being has suffered due to the increased time they spend online for completing their work on computers and smartphones.

show abstract

Automated Medical Diagnosis of Alzheimer´s Disease Using an Efficient Net Convolutional Neural Network

Agarwal

Berbís²,

Luna

et al. 2023

J Med Syst

View full text Add to dashboard Cite

Alzheimer's disease (AD) poses an enormous challenge to modern healthcare. Since 2017, researchers have been using deep learning (DL) models for the early detection of AD using neuroimaging biomarkers. In this paper, we implement the EfficietNet-b0 convolutional neural network (CNN) with a novel approach—"fusion of end-to-end and transfer learning"—to classify different stages of AD. 245 T1W MRI scans of cognitively normal (CN) subjects, 229 scans of AD subjects, and 229 scans of subjects with stable mild cognitive impairment (sMCI) were employed. Each scan was preprocessed using a standard pipeline. The proposed models were trained and evaluated using preprocessed scans. For the sMCI vs. AD classification task we obtained 95.29% accuracy and 95.35% area under the curve (AUC) for model training and 93.10% accuracy and 93.00% AUC for model testing. For the multiclass AD vs. CN vs. sMCI classification task we obtained 85.66% accuracy and 86% AUC for model training and 87.38% accuracy and 88.00% AUC for model testing. Based on our experimental results, we conclude that CNN-based DL models can be used to analyze complicated MRI scan features in clinical settings.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.