CoopECC: A Collaborative Cryptographic Mechanism for the Internet of Things

Jerbi, Wassim; Guermazi, Abderrahmen; Cheikhrouhou, Omar; Trabelsi, Hafedh

doi:10.1155/2021/8878513

Cited by 16 publications

(5 citation statements)

References 50 publications

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“…Jerbi et al [26] present CoopECC, a collaborative cryptographic mechanism specifically designed for the Internet of Things (IoT). Published in the Journal of Sensors, their research introduces a novel approach to cryptographic key management in IoT environments.…”

Section: Related Workmentioning

confidence: 99%

Enhancing the Internet of Vehicles through Collaborative Cryptographic Mechanisms with IRS

Aljumaili,

Trabelsi,

Jerbi

et al. 2024

icisna

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The Internet of Vehicles (IoV) is transforming transportation systems by allowing for seamless communication and collaboration between vehicles, roadside units (RSUs), and cloud servers. However, the dynamic and varied character of IoV settings raises serious security and efficiency concerns. This work suggests a novel strategy to addressing these issues by combining collaborative cryptographic processes and intelligent reflecting surfaces (IRS). Our method uses modern encryption techniques, such as the modern Encryption Standard (AES), to assure safe data delivery, while intelligent reflecting surfaces dynamically modify their reflection qualities to improve signal propagation and reception. We provide a detailed network model and algorithmic framework for implementing the suggested strategy, with a focus on cryptographic techniques and the role of intelligent reflecting surfaces in improving communication security and efficiency. Through theoretical analysis and debate, we emphasize the possible benefits of incorporating intelligent reflecting surfaces in IoV networks, such as improved network coverage, lower communication costs, and increased energy efficiency. Furthermore, we explore the implications of our strategy for IoV security and suggest future research areas in this area.

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Section: Related Workmentioning

confidence: 99%

Enhancing the Internet of Vehicles through Collaborative Cryptographic Mechanisms with IRS

Aljumaili,

Trabelsi,

Jerbi

et al. 2024

icisna

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“…The scheme makes the content data only accessed by authorized nodes and authenticated by routing messages [22]. Jerbi made a new data encryption transmission scheme, which adopts lightweight encryption technology to make multiple sensor nodes cooperate to encrypt and transmit data, thus reducing the load of a single sensor node and ensuring communication security [23]. Zhang gave a lightweight block cipher scheme under chaos mapping and genetic operation, which uses elliptic curve points to prove communication nodes, which is 9 times faster than led protocol [24].…”

Section: B Security Authentication Schemementioning

confidence: 99%

5G Communication Network Attack Prevention Using SDN Technology under Internet of Things

Li¹,

Zhang²,

Song

et al. 2022

Preprint

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the purpose is to guarantee the security of 5G (5-Generation Mobile Networks) technology in IoT (Internet of Things) environment, and improve the ability of wireless network communication to resist attacks. First, in terms of attack prevention, the 5G network security structure is proposed to replace the plaintext information commonly used in the original system with Ciphertext based on SDN (Software Defined Networking), thereby alleviating the security risks of the data dimension. Second, concerning attack detection, the signal is identified by using the imperfections and differences of equipment manufacturing based on the above security structure, preventing the attacker from further harming the sensitive data leaked. It is found that the SDN-based 5G network attack prevention scheme avoids the centralized exposure of sensitive data, improves security, reduces computational overhead, and simplifies encryption logic. Without affecting the bandwidth, the existing 5G network system is greatly prevented from network attacks. The detection mechanism is not limited by the low-dimensional feature space, and has strong robustness and stability. It can effectively detect the network attacks that 5G network systems are suffering. This study provides an important reference for the protection of 5G communication network attacks under IoT.

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“…The scheme makes the content data only accessible by authorized nodes and authenticated by routing messages (Vivekrabinson and Muneeswaran, 2021). Jerbi made a new data encryption transmission scheme, which adopts lightweight encryption technology to make multiple sensor nodes cooperate to encrypt and transmit data, thus reducing the load of a single sensor node and ensuring communication security (Jerbi et al, 2021). Zhang gave a lightweight block cipher scheme under chaos mapping and genetic operation, which uses elliptic curve points to prove communication nodes, which is nine times faster than led protocol (Zhang et al, 2021).…”

Section: Security Authentication Schemementioning

confidence: 99%

Fifth Generation Mobile Communication Technology Network Attack Defense Based on Software Defined network Technology in Power Internet of Things

Zhang²,

Song³

et al. 2022

Front. Energy Res.

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The purpose is to guarantee the security of fifth generation mobile communication technology (5G) network in power Internet of Things environment and improve the ability of wireless network communication to resist attacks. First, in terms of attack prevention, the 5G network security structure is proposed to replace the plaintext information commonly used in the original system with Ciphertext based on software defined network (SDN), thereby alleviating the security risks of the data dimension. Second, concerning attack detection, the signal is identified by using the imperfections and differences of equipment manufacturing based on the above security structure, preventing the attacker from further harming the sensitive data leaked. Researchers found that the SDN-based 5G network attack prevention scheme avoids the centralized exposure of sensitive data, improves security, reduces computational overhead, and simplifies encryption logic. Without affecting the bandwidth, the existing 5G network system is greatly prevented from attacks. The detection mechanism is not limited by the low-dimensional feature space, and it demonstrates strong robustness and stability. It can effectively detect the attacks on 5G network system in power Internet of Things (IoT). This study provides an important reference for the protection of 5G communication network attacks under IoT.

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CoopECC: A Collaborative Cryptographic Mechanism for the Internet of Things

Cited by 16 publications

References 50 publications

Enhancing the Internet of Vehicles through Collaborative Cryptographic Mechanisms with IRS

Enhancing the Internet of Vehicles through Collaborative Cryptographic Mechanisms with IRS

5G Communication Network Attack Prevention Using SDN Technology under Internet of Things

Fifth Generation Mobile Communication Technology Network Attack Defense Based on Software Defined network Technology in Power Internet of Things

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