Prateek Agrawal scite author profile

Social media is a popular medium for the dissemination of real-time news all over the world. Easy and quick information proliferation is one of the reasons for its popularity. An extensive number of users with different age groups, gender, and societal beliefs are engaged in social media websites. Despite these favorable aspects, a significant disadvantage comes in the form of fake news, as people usually read and share information without caring about its genuineness. Therefore, it is imperative to research methods for the authentication of news. To address this issue, this article proposes a two-phase benchmark model named WELFake based on word embedding (WE) over linguistic features for fake news detection using machine learning classification. The first phase preprocesses the data set and validates the veracity of news content by using linguistic features. The second phase merges the linguistic feature sets with WE and applies voting classification. To validate its approach, this article also carefully designs a novel WELFake data set with approximately 72 000 articles, which incorporates different data sets to generate an unbiased classification output. Experimental results show that the WELFake model categorizes the news in real and fake with a 96.73% which improves the overall accuracy by 1.31% compared to bidirectional encoder representations from transformer (BERT) and 4.25% compared to convolutional neural network (CNN) models. Our frequencybased and focused analyzing writing patterns model outperforms predictive-based related works implemented using the Word2vec WE method by up to 1.73%.

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XCOVNet: Chest X-ray Image Classification for COVID-19 Early Detection Using Convolutional Neural Networks

Madaan

Roy

Gupta

et al. 2021

New Gener. Comput.

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COVID-19 (also known as SARS-COV-2) pandemic has spread in the entire world. It is a contagious disease that easily spreads from one person in direct contact to another, classified by experts in five categories: asymptomatic, mild, moderate, severe, and critical. Already more than 66 million people got infected worldwide with more than 22 million active patients as of 5 December 2020 and the rate is accelerating. More than 1.5 million patients (approximately 2.5% of total reported cases) across the world lost their life. In many places, the COVID-19 detection takes place through reverse transcription polymerase chain reaction (RT-PCR) tests which may take longer than 48 h. This is one major reason of its severity and rapid spread. We propose in this paper a two-phase X-ray image classification called XCOVNet for early COVID-19 detection using convolutional neural Networks model. XCOVNet detects COVID-19 infections in chest X-ray patient images in two phases. The first phase pre-processes a dataset of 392 chest X-ray images of which half are COVID-19 positive and half are negative. The second phase trains and tunes the neural network model to achieve a 98.44% accuracy in patient classification.

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A dynamic evolutionary multi-objective virtual machine placement heuristic for cloud data centers

Torre

Durillo

Maio

et al. 2020

Information and Software Technology

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Automated bank cheque verification using image processing and deep learning methods

Agrawal

Chaudhary

Madaan

et al. 2020

Multimed Tools Appl

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Automated bank cheque verification using image processing is an attempt to complement the present cheque truncation system, as well as to provide an alternate methodology for the processing of bank cheques with minimal human intervention. When it comes to the clearance of the bank cheques and monetary transactions, this should not only be reliable and robust but also save time which is one of the major factor for the countries having large population. In order to perform the task of cheque verification, we developed a tool which acquires the cheque leaflet key components, essential for the

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Smart Border Surveillance System using Wireless Sensor Network and Computer Vision

Bhadwal

Madaan

Agrawal

et al. 2019

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MCred: multi-modal message credibility for fake news detection using BERT and CNN

Agrawal

Madaan

Prodan

2022

J Ambient Intell Human Comput

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Online social media enables low cost, easy access, rapid propagation, and easy communication of information, including spreading low-quality fake news. Fake news has become a huge threat to every sector in society, and resulting in decrements in the trust quotient for media and leading the audience into bewilderment. In this paper, we proposed a new framework called Message Credibility (MCred) for fake news detection that utilizes the benefits of local and global text semantics. This framework is the fusion of Bidirectional Encoder Representations from Transformers (BERT) using the relationship between words in sentences for global text semantics, and Convolutional Neural Networks (CNN) using N-gram features for local text semantics. We demonstrate through experimental results a popular Kaggle dataset that MCred improves the accuracy over a state-of-the-art model by 1.10% thanks to its combination of local and global text semantics.

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Fuzzy rule based students' performance analysis expert system

Kaur

Agrawal

Singh

et al. 2014

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UCred: fusion of machine learning and deep learning methods for user credibility on social media

Verma

Agrawal

Madaan

et al. 2022

Soc. Netw. Anal. Min.

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Prateek Agrawal

WELFake: Word Embedding Over Linguistic Features for Fake News Detection

XCOVNet: Chest X-ray Image Classification for COVID-19 Early Detection Using Convolutional Neural Networks

A dynamic evolutionary multi-objective virtual machine placement heuristic for cloud data centers

Automated bank cheque verification using image processing and deep learning methods

Smart Border Surveillance System using Wireless Sensor Network and Computer Vision

MCred: multi-modal message credibility for fake news detection using BERT and CNN

Fuzzy rule based students' performance analysis expert system

UCred: fusion of machine learning and deep learning methods for user credibility on social media

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