INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS
Elhoshy, M., Mohmed El Sayed Alatsy, A., I.saleh, A., Rabie, A. (2025). INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS. EKB Journal Management System, 05(01), 1-24. doi: 10.21608/ijt.2025.370811.1090
Mostafa Elhoshy; AHMED Mohmed El Sayed Alatsy; A I.saleh; Asmaa Hamdy Rabie. "INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS". EKB Journal Management System, 05, 01, 2025, 1-24. doi: 10.21608/ijt.2025.370811.1090
Elhoshy, M., Mohmed El Sayed Alatsy, A., I.saleh, A., Rabie, A. (2025). 'INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS', EKB Journal Management System, 05(01), pp. 1-24. doi: 10.21608/ijt.2025.370811.1090
Elhoshy, M., Mohmed El Sayed Alatsy, A., I.saleh, A., Rabie, A. INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS. EKB Journal Management System, 2025; 05(01): 1-24. doi: 10.21608/ijt.2025.370811.1090

INNOVATIVE MODELING AND ANALYTICAL APPROACH FOR ENHANCING COMMUNICATION EFFICIENCY IS BASED ON AERIAL AD HOC NETWORKS

International Journal of Telecommunications
Volume 05, Issue 01, January 2025, Page 1-24  XML PDF (3.45 MB)
Document Type: Original Article
DOI: 10.21608/ijt.2025.370811.1090
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Authors
Mostafa Elhoshy email 1; AHMED Mohmed El Sayed Alatsy2; A I.saleh3; Asmaa Hamdy Rabie4
1Dept. of Electronics & Comm., Egyptian Air Defense College
2Computer and systems Engineering Department - faculty of engineering - Mansoura university - Egypt
3Computers and Control Dept. Faculty of Engineering, Mansoura University, Mansoura, Egypt
4Computers and Control Systems Engineering Department, faculty of engineering Mansoura University, Mansoura, Egypt
Abstract
Abstract: Aerial Ad Hoc Networks (AANET) connect devices and aerial platforms without a network, drawing interest. These platforms have different goals but need communication infrastructure. Mobility and poor power supply management are particular to these networks and devices. The study shows a user-friendly, adaptable technique. Changing communication network designs and using UAV-mounted base stations enhances results. This role involves selecting station sites in the case of a communications network collapse due to an incident, natural disaster, or technical failure and determining the financial and logistical requirements for aircraft. Game theory and drone communication helped us examine and solve the situation according to its complexities. The simulation covered all possible outcomes after the communication network tower failed. The study recommends creative disaster communication methods: The study encourages faster and more flexible emergency drone-mounted base station deployment. Natural disasters, technology failures, and other events reconstruct communication networks. Innovative drone deployment optimization using game theory across fields achieves this. The article specifies drone base station locations for optimal connectivity. Drone numbers depend on economic or humanitarian requirements, cost-effectiveness, and emergency reaction. Prioritizing network restoration after disasters enhances crisis management and recovery. Using game theory to build drone communication networks is innovative. Our method increased average throughput by 48.4% and user coverage by 36.7% over random deployment while reducing reaction time compared to fixed-cell options.
Keywords
AANET; UAV; ATG; SIR; SNR
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