Ahed Abugabah scite author profile

The Covid-19 pandemic has emerged as one of the most disquieting worldwide public health emergencies of the 21st century and has thrown into sharp relief, among other factors, the dire need for robust forecasting techniques for disease detection, alleviation as well as prevention. Forecasting has been one of the most powerful statistical methods employed the world over in various disciplines for detecting and analyzing trends and predicting future outcomes based on which timely and mitigating actions can be undertaken. To that end, several statistical methods and machine learning techniques have been harnessed depending upon the analysis desired and the availability of data. Historically speaking, most predictions thus arrived at have been short term and country-specific in nature. In this work, multimodel machine learning technique is called EAMA for forecasting Covid-19 related parameters in the long-term both within India and on a global scale have been proposed. This proposed EAMA hybrid model is well-suited to predictions based on past and present data. For this study, two datasets from the Ministry of Health & Family Welfare of India and Worldometers, respectively, have been exploited. Using these two datasets, long-term data predictions for both India and the world have been outlined, and observed that predicted data being very similar to real-time values. The experiment also conducted for statewise predictions of India and the countrywise predictions across the world and it has been included in the Appendix.

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A review of challenges and barriers implementing RFID technology in the Healthcare sector

Abugabah

Nizamuddin

Abuqabbeh

2020

Procedia Computer Science

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Scalable and Secure Big Data IoT System Based on Multifactor Authentication and Lightweight Cryptography

et al. 2020

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Organizations share an evolving interest in adopting a cloud computing approach for Internet of Things (IoT) applications. Integrating IoT devices and cloud computing technology is considered as an effective approach to storing and managing the enormous amount of data generated by various devices. However, big data security of these organizations presents a challenge in the IoT-cloud architecture. To overcome security issues, we propose a cloud-enabled IoT environment supported by multifactor authentication and lightweight cryptography encryption schemes to protect big data system. The proposed hybrid cloud environment is aimed at protecting organizations' data in a highly secure manner. The hybrid cloud environment is a combination of private and public cloud. Our IoT devices are divided into sensitive and nonsensitive devices. Sensitive devices generate sensitive data, such as healthcare data; whereas nonsensitive devices generate nonsensitive data, such as home appliance data. IoT devices send their data to the cloud via a gateway device. Herein, sensitive data are split into two parts: one part of the data is encrypted using RC6, and the other part is encrypted using the Fiestel encryption scheme. Nonsensitive data are encrypted using the Advanced Encryption Standard (AES) encryption scheme. Sensitive and nonsensitive data are respectively stored in private and public cloud to ensure high security. The use of multifactor authentication to access the data stored in the cloud is also proposed. During login, data users send their registered credentials to the Trusted Authority (TA). The TA provides three levels of authentication to access the stored data: first-level authentication-read file, second-level authentication-download file, and thirdlevel authentication-download file from the hybrid cloud. We implement the proposed cloud-IoT architecture in the NS3 network simulator. We evaluated the performance of the proposed architecture using metrics such as computational time, security strength, encryption time, and decryption time.

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Blockchain for automotive: An insight towards the IPFS blockchain-based auto insurance sector

Nizamuddin

Abugabah

2021

IJECE

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The advancing technology and industrial revolution have taken the automotive industry by storm in recent times. The auto sector’s constantly growing demand has paved the way for the automobile sector to embrace new technologies and disruptive innovations. The multi-trillion dollar, complex auto insurance sector is still stuck in the regulations of the past. Most of the customers still contact the insurance company by phone to buy new policies and process existing insurance claims. The customers still face the risk of fraudulent online brokers, as policies are mostly signed and processed on papers which often require human supervision, with a risk of error. The insurance sector faces a threat of failure due to losing and misconception of policies and information. We present a decentralized IPFS and blockchain-based framework for the auto insurance sector that regulates the activities in terms of insurance claims for automobiles and automates payments. This article also discusses how blockchain technology’s features can be useful for the decentralized autonomous vehicle’s ecosystem.

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A Comprehensive Review on Medical Diagnosis Using Machine Learning

Bhavsar¹,

Abugabah²,

Singla³

et al. 2021

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Smart pansharpening approach using kernel‐based image filtering

Yang

Mehmood

Abugabah

et al. 2021

IET Image Processing

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Remote sensing image fusion plays important roles in numerous applications, including monitoring, metrology, and agriculture. Image fusion gathers essential information from several image sources and consolidates them into a single image called a fused image. The fused image involves relevant data, and it is more informative than any other images extracted from one source. This study proposed a pansharpening technique based on image filtering utilising a bilateral filter to generate high-frequency details from panchromatic image. The various types of side window guided filters are employed to enhance the multispectral band from panchromatic image and then used these filters to adjust spatial data misfortune that happens when images are combined. Experimental results demonstrated that the proposed method provides consistent results concise with reported by the previous research in terms of subjective and objective assessments on remote sensing data. INTRODUCTIONImage fusion is the way toward integrating two or more images into one image. It helps detectable human quality since it joins correlative information of images. Pansharpening consolidates high-spatial panchromatic (PAN) and multispectral (MS) images to create high-resolution multispectral images (HRMS). Remote sensing satellite images are broadly utilised in numerous applications, such as monitoring, metrology, agriculture, planning applications, and military [1, 2], and so forth. Most of the satellite sensors provide high spatial resolution PAN and several MS bands, which lead to difficulty for having a high-resolution multispectral image (HRMS). Along these lines, numerous techniques for the fusion of (MS) and (PAN) images have been proposed. To date, deep learning-based methods provide promising results in many domains, such as image processing, image fusion and computer vision [3, 4]. Recently, various pansharpening techniques have been implemented [5-7] to fuse PAN and MS images to acquire HRMS. The essential part of such strategies is the extraction of the detailed information from the PAN image,This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Brain epilepsy seizure detection using bio-inspired krill herd and artificial alga optimized neural network approaches

Abugabah

AlZubi

Al‐Maitah

et al. 2020

J Ambient Intell Human Comput

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An Experimental Analysis of Various Machine Learning Algorithms for Hand Gesture Recognition

et al. 2022

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Nowadays, hand gestures have become a booming area for researchers to work on. In communication, hand gestures play an important role so that humans can communicate through this. So, for accurate communication, it is necessary to capture the real meaning behind any hand gesture so that an appropriate response can be sent back. The correct prediction of gestures is a priority for meaningful communication, which will also enhance human–computer interactions. So, there are several techniques, classifiers, and methods available to improve this gesture recognition. In this research, analysis was conducted on some of the most popular classification techniques such as Naïve Bayes, K-Nearest Neighbor (KNN), random forest, XGBoost, Support vector classifier (SVC), logistic regression, Stochastic Gradient Descent Classifier (SGDC), and Convolution Neural Networks (CNN). By performing an analysis and comparative study on classifiers for gesture recognition, we found that the sign language MNIST dataset and random forest outperform traditional machine-learning classifiers, such as SVC, SGDC, KNN, Naïve Bayes, XG Boost, and logistic regression, predicting more accurate results. Still, the best results were obtained by the CNN algorithm.

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Ahed Abugabah

An approach to forecast impact of Covid‐19 using supervised machine learning model

A review of challenges and barriers implementing RFID technology in the Healthcare sector

Scalable and Secure Big Data IoT System Based on Multifactor Authentication and Lightweight Cryptography

Blockchain for automotive: An insight towards the IPFS blockchain-based auto insurance sector

A Comprehensive Review on Medical Diagnosis Using Machine Learning

Smart pansharpening approach using kernel‐based image filtering

Brain epilepsy seizure detection using bio-inspired krill herd and artificial alga optimized neural network approaches

An Experimental Analysis of Various Machine Learning Algorithms for Hand Gesture Recognition

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