Abstract
Flying ad-Hoc networks (FANETs) are the embodiment of a vital expansion in wireless communication in that they have become enablers of a variety of applications ranging from disaster management to military operations. Nonetheless, the dynamic and decentralized nature of FANETs introduces significant security challenges like sibyl attacks, hidden and exposed node problems that necessitate robust and adaptable security frameworks. The review categorizes and evaluates from the general to the granular current security solutions, encompassing secure routing protocols, intrusion detection systems (IDS), lightweight cryptographic methods, and trust management frameworks before outline the limits and research gaps of the currently available literature. The paper then suggests a novel security framework based on the dynamic integration of the advanced technologies of blockchain, edge and fog computing and enabler tools. With this novel framework, this paper aims to signpost stakeholders like academic and industrial researchers and practitioners towards innovative solutions that ensure the confidentiality, integrity, availability, non-repudiation, scalability, and performance aware operation of UAV networks in increasingly intricate and antagonistic milieus.
Original language | English |
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Title of host publication | Proceedings of the 2024 IEEE International Conference on e-Business Engineering (ICEBE) |
Editors | Omar Hussain, Yinsheng Li, Shang-Pin Ma, Xin Lu, Kuo-Ming Chao |
Publisher | IEEE |
Pages | 183-190 |
Number of pages | 8 |
ISBN (Electronic) | 9798350365856 |
ISBN (Print) | 9798350365863 |
DOIs | |
Publication status | Published - 16 Dec 2024 |
Event | IEEE International Conference on E-Business Engineering 2024 - Fudan University, Shanghai Duration: 11 Oct 2024 → 13 Oct 2024 https://conferences.computer.org/icebe/2024/index.html |
Academic conference
Academic conference | IEEE International Conference on E-Business Engineering 2024 |
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Abbreviated title | ICEBE 2024 |
City | Shanghai |
Period | 11/10/24 → 13/10/24 |
Internet address |
Keywords
- drone network security frameworks
- FANET security
- FANET threat mitigation
- flying ad-hoc networks security
- secure FANET communication
- UAV network security