A Proxy Signature-Based Swarm Drone Authentication With Leader Selection in 5G Networks

Abdel-Malek, Mai A.; Akkaya, Kemal; Bhuyan, Arupjyoti; Ibrahim, Ahmed S.

doi:10.1109/access.2022.3178121

Cited by 15 publications

(7 citation statements)

References 42 publications

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“…Ref. [10] proposed a distributed-based authentication mechanism for drones in a swarm compatible with 5G D2D ProSe standard [11] mechanisms. It relies on a delegation-based proxy signature authentication scheme, reducing drones' communication overhead to the core network.…”

Section: Related Workmentioning

confidence: 99%

Secure Proxy Re-Encryption Protocol for FANETs Resistant to Chosen-Ciphertext Attacks

Park

2024

Applied Sciences

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In emergency situations, ensuring the secure transmission of medical information is critical. While existing schemes address on-road emergencies, off-road scenarios present unique challenges due to hazardous locations inaccessible to conventional vehicles. This research introduces a protocol for off-road emergencies, leveraging flying ad hoc networks (FANETs) formed by drones. The protocol, designed for users receiving emergency treatment, employs cryptographic techniques to protect sensitive information. To overcome the challenge of decrypting user medical records at emergency centers without the healthcare provider’s key, proxy re-encryption is employed. The control center (CC) securely generates encryption and decryption keys, facilitating the re-encryption process by the cloud server (CS) and transmission to the emergency center (E). The proposed protocol, free from pairing functions, underwent security and efficiency analyses, demonstrating resilience against chosen-ciphertext attacks (CCA) and collusion resistance (CR). Execution times of approximately 0.02 and 0.0 s for re-encryption and decryption processes, respectively, for a message size of 2000 bytes highlighted the efficiency of the protocol. The research contributes a secure and efficient proxy re-encryption protocol for off-road emergency medical information transmission within FANETs.

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Section: Related Workmentioning

confidence: 99%

Secure Proxy Re-Encryption Protocol for FANETs Resistant to Chosen-Ciphertext Attacks

Park

2024

Applied Sciences

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“…Abdel-Malek et al [28] proposed a distributed delegation-based authentication mechanism for overcoming drone resource limitations and scalability. The proposed method can reduce traffic overhead from the 5G core network.…”

Section: Drone Swarm Authentication Protocolmentioning

confidence: 99%

“…These reasons make it necessary to develop a remote identification system for drones, including drone swarms. There have been numerous works on drone identification and authentication methods [18][19][20][21][22][23][24][25], but only a few on authentication methods for drone swarms [26][27][28][29][30]. Also, there is still no effective method of identification for drone swarms.…”

Section: Introductionmentioning

confidence: 99%

Efficient Remote Identification for Drone Swarms

Seo,

Kim,

Lee

et al. 2023

Computers, Materials &Amp; Continua

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With the advancement of unmanned aerial vehicle (UAV) technology, the market for drones and the cooperation of many drones are expanding. Drone swarms move together in multiple regions to perform their tasks. A Ground Control Server (GCS) located in each region identifies drone swarm members to prevent unauthorized drones from trespassing. Studies on drone identification have been actively conducted, but existing studies did not consider multiple drone identification environments. Thus, developing a secure and effective identification mechanism for drone swarms is necessary. We suggested a novel approach for the remote identification of drone swarms. For an efficient identification process between the drone swarm and the GCS, each Reader drone in the region collects the identification information of the drone swarm and submits it to the GCS for verification. The proposed identification protocol reduces the verification time for a drone swarm by utilizing batch verification to verify numerous drones in a drone swarm simultaneously. To prove the security and correctness of the proposed protocol, we conducted a formal security verification using ProVerif, an automatic cryptographic protocol verifier. We also implemented a non-flying drone swarm prototype using multiple Raspberry Pis to evaluate the proposed protocol's computational overhead and effectiveness. We showed simulation results regarding various drone simulation scenarios.

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“…Therefore, traditional authentication technology is not suitable for the IoD environment. At present, there are also some studies using public key infrastructure (PKI), trusted third party (TTP), or blockchain technology to verify the identity of the drone and the authenticity of the task [18,19]. The existing methods are shown in Figure 1a.…”

Section: Introductionmentioning

confidence: 99%

BCDAIoD: An Efficient Blockchain-Based Cross-Domain Authentication Scheme for Internet of Drones

Qiao

Zhuang

et al. 2023

Drones

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During long-distance flight, unmanned aerial vehicles (UAVs) need to perform cross-domain authentication to prove their identity and receive information from the ground control station (GCS). However, the GCS needs to verify all drones arriving at the area it is responsible for, which leads to the GCS being unable to complete authentication in time when facing cross-domain requests from a large number of drones. Additionally, due to potential threats from attackers, drones and GCSs are likely to be deceived. To improve the efficiency and security of cross-domain authentication, we propose an efficient blockchain-based cross-domain authentication scheme for the Internet of Drones (BCDAIoD). By using a consortium chain with a multi-chain architecture, the proposed method can query and update different types of data efficiently. By mutual authentication before cross-domain authentication, drones can compose drone groups to lighten the authentication workload of domain management nodes. BCDAIoD uses the notification mechanism between domains to enable path planning for drones in advance, which can further improve the efficiency of cross-domain authentication. The performance of BCDAIoD was evaluated through experiments. The results show that the cross-domain authentication time cost and computational overhead of BCDAIoD are significantly lower those of than existing methods when the number of drones is large.

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A Proxy Signature-Based Swarm Drone Authentication With Leader Selection in 5G Networks

Cited by 15 publications

References 42 publications

Secure Proxy Re-Encryption Protocol for FANETs Resistant to Chosen-Ciphertext Attacks

Secure Proxy Re-Encryption Protocol for FANETs Resistant to Chosen-Ciphertext Attacks

Efficient Remote Identification for Drone Swarms

BCDAIoD: An Efficient Blockchain-Based Cross-Domain Authentication Scheme for Internet of Drones

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