Bhavya Alankar scite author profile

With the rise in cases of COVID-19, a bizarre situation of pressure was mounted on each country to make arrangements to control the population and utilize the available resources appropriately. The swiftly rising of positive cases globally created panic, anxiety and depression among people. The effect of this deadly disease was found to be directly proportional to the physical and mental health of the population. As of 28 October 2020, more than 40 million people are tested positive and more than 1 million deaths have been recorded. The most dominant tool that disturbed human life during this time is social media. The tweets regarding COVID-19, whether it was a number of positive cases or deaths, induced a wave of fear and anxiety among people living in different parts of the world. Nobody can deny the truth that social media is everywhere and everybody is connected with it directly or indirectly. This offers an opportunity for researchers and data scientists to access the data for academic and research use. The social media data contains many data that relate to real-life events like COVID-19. In this paper, an analysis of Twitter data has been done through the R programming language. We have collected the Twitter data based on hashtag keywords, including COVID-19, coronavirus, deaths, new case, recovered. In this study, we have designed an algorithm called Hybrid Heterogeneous Support Vector Machine (H-SVM) and performed the sentiment classification and classified them positive, negative and neutral sentiment scores. We have also compared the performance of the proposed algorithm on certain parameters like precision, recall, F1 score and accuracy with Recurrent Neural Network (RNN) and Support Vector Machine (SVM).

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Air Quality Forecast using Convolutional Neural Network for Sustainable Development in Urban Environments

Chauhan

Kaur

Alankar

2021

Sustainable Cities and Society

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A Prediction of Heart Disease Using Machine Learning Algorithms

Ansari

Alankar

Kaur

2020

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Experimental Setup for Investigating the Efficient Load Balancing Algorithms on Virtual Cloud

Alankar

Sharma

Kaur

et al. 2020

Sensors

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Cloud computing has emerged as the primary choice for developers in developing applications that require high-performance computing. Virtualization technology has helped in the distribution of resources to multiple users. Increased use of cloud infrastructure has led to the challenge of developing a load balancing mechanism to provide optimized use of resources and better performance. Round robin and least connections load balancing algorithms have been developed to allocate user requests across a cluster of servers in the cloud in a time-bound manner. In this paper, we have applied the round robin and least connections approach of load balancing to HAProxy, virtual machine clusters and web servers. The experimental results are visualized and summarized using Apache Jmeter and a further comparative study of round robin and least connections is also depicted. Experimental setup and results show that the round robin algorithm performs better as compared to the least connections algorithm in all measuring parameters of load balancer in this paper.

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Combined transcriptomics and in-silico approach uncovers the role of prognostic biomarkers in hepatocellular carcinoma

et al. 2023

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Bhavya Alankar

A Proposed Sentiment Analysis Deep Learning Algorithm for Analyzing COVID-19 Tweets

Air Quality Forecast using Convolutional Neural Network for Sustainable Development in Urban Environments

A Prediction of Heart Disease Using Machine Learning Algorithms

Experimental Setup for Investigating the Efficient Load Balancing Algorithms on Virtual Cloud

Combined transcriptomics and in-silico approach uncovers the role of prognostic biomarkers in hepatocellular carcinoma

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