M. G. Anany scite author profile

The unprecedented spread of COVID-19 pandemic has become the main challenge for several countries around the world. One of the crucial measures taken to control and manage the diffusion of COVID-19 pandemic is contact tracing. The approach is based on tracing and identifying people who have been exposed to an infected individual to prevent onward transmission by alerting those who came in contact with the positive case; thus, isolation measures and suitable precautions can be taken. By using the communication and localization technologies embedded on the smartphones, those who made contact can be effectively traced by continuously collecting the timestamped locations and contacts of the owners. In this paper, an innovative privacy preserving smartphone-based contact tracing solution named 'Tracy' is proposed to help the health facilities to limit and control the spread of COVID-19 especially with the upcoming second wave of the virus. The proposed system consists of three main components: an intelligent application installed on smartphones, a data processing platform, and a website on which the different functions of those parts are integrated to provide the required services for the contact tracing solution. The system is designed to allow individuals to investigate the possibility of them contacting a person infected with the emerging coronavirus. A novel algorithm is designed to determine the effective location points in the individual's routes in which possible contacts can happen and based on these effective points, the prior contacts are decided. The system is also designed to provide an effective communication method with the local health facilities to receive medical advice and precautionary measures required for those who have discovered the possibility of contact with COVID-19. The reliability and scalability of the proposed solution is recognized by the usage of effective contact location points to determine the point of contact with the infected rather than using all the points of the individual's route.

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A Matching Game-Based Laboratory Learning System for Resources Management in Remote Laboratories

El-Haleem

Anany

Elmesalawy

et al. 2023

IEEE Access

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and 2012, respectively. Dr. Abd El-Haleem's current research interests are mainly focused on Mobile/Vehicular Ad-Hoc communication networks, 5G and 6G Radio Access Networks, Cognitive radio networking, Device to Device Communication, Internet of Things (IoT), Reconfigurable Intelligent Surface (RIS), and AI application in Wireless Communication. This includes mobility management techniques and routing schemes for Mobile Ad-Hoc Networks (MANET), security and secure routing algorithms for Ad-Hoc Wireless Networks, and routing protocols for cognitive radio communication networks. His research was well received and has been published in several prestigious journals and conferences in the field of electrical and communication engineering including, IEEE, Springer, IJNSA, IJCSI, and Hindawi and Wiley journals with more than 27 journal and conference papers. Dr. Abd El-Haleem has supervised undergraduate and postgraduate students and worked on projects in areas related Device-to-Device Communication, Internet of Things (IoT), and Software Defined Network (SDN) including mobility and resource management. He is a member of a research teams that awards several applied research projects funded by National and International funding agencies in the field of wireless communication, IoT and its applications, and smart Education systems.

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M. G. Anany

Matching Game-Based Cell Association in Multi-RAT HetNet Considering Device Requirements

Outage-aware Matching Game Approach for Cell Selection in LTE/WLAN Multi-RAT HetNets

AI-based Flexible Online Laboratory Learning System for Post-COVID-19 Era: Requirements and Design

Tracy: Smartphone-based Contact Tracing Solution that Supports Self-investigation to Limit the Spread of COVID-19

A Matching Game-Based Laboratory Learning System for Resources Management in Remote Laboratories

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