Blockchain-Based Secure Authentication with Improved Performance for Fog Computing

【Author】 Umoren, Otuekong; Singh, Raman; Awan, Shahid; Pervez, Zeeshan; Dahal, Keshav

【Source】SENSORS

【影响因子】3.847

【Abstract】Advancement in the Internet of Things (IoT) and cloud computing has escalated the number of connected edge devices in a smart city environment. Having billions more devices has contributed to security concerns, and an attack-proof authentication mechanism is the need of the hour to sustain the IoT environment. Securing all devices could be a huge task and require lots of computational power, and can be a bottleneck for devices with fewer computational resources. To improve the authentication mechanism, many researchers have proposed decentralized applications such as blockchain technology for securing fog and IoT environments. Ethereum is considered a popular blockchain platform and is used by researchers to implement the authentication mechanism due to its programable smart contract. In this research, we proposed a secure authentication mechanism with improved performance. Neo blockchain is a platform that has properties that can provide improved security and faster execution. The research utilizes the intrinsic properties of Neo blockchain to develop a secure authentication mechanism. The proposed authentication mechanism is compared with the existing algorithms and shows that the proposed mechanism is 20 to 90 per cent faster in execution time and has over 30 to 70 per cent decrease in registration and authentication when compared to existing methods.

【Keywords】authentication; Neo blockchain; fog computing; internet of things; blockchain technology; cloud computing; smart contracts

【发表时间】2022 NOV

【收录时间】2022-12-14

【文献类型】理论模型

【主题类别】

区块链应用-实体经济-网安领域