Ammar Hawbani scite author profile

Disasters are crisis circumstances that put human life in jeopardy. During disasters, public communication infrastructure is particularly damaged, obstructing Search And Rescue (SAR) efforts, and it takes significant time and effort to re-establish functioning communication infrastructure. SAR is a critical component of mitigating human and environmental risks in disasters and harsh environments. As a result, there is an urgent need to construct communication networks swiftly to help SAR efforts exchange emergency data. UAV technology has the potential to provide key solutions to mitigate such disaster situations. UAVs can be used to provide an adaptable and reliable emergency communication backbone and to resolve major issues in disasters for SAR operations. In this paper, we evaluate the network performance of UAV-assisted intelligent edge computing to expedite SAR missions and functionality, as this technology can be deployed within a short time and can help to rescue most people during a disaster. We have considered network parameters such as delay, throughput, and traffic sent and received, as well as path loss for the proposed network. It is also demonstrated that with the proposed parameter optimization, network performance improves significantly, eventually leading to far more efficient SAR missions in disasters and harsh environments.

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Drones’ Edge Intelligence Over Smart Environments in B5G: Blockchain and Federated Learning Synergy

Alsamhi

Almalki

Afghah

et al. 2022

IEEE Trans. on Green Commun. Netw.

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Ammar Hawbani

Green internet of things using UAVs in B5G networks: A review of applications and strategies

LORA: Load-Balanced Opportunistic Routing for Asynchronous Duty-Cycled WSN

A new scheme for covert communication via 3G encoded speech

UAV Computing-Assisted Search and Rescue Mission Framework for Disaster and Harsh Environment Mitigation

Drones’ Edge Intelligence Over Smart Environments in B5G: Blockchain and Federated Learning Synergy

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