计算机科学
密码
Diffie–Hellman密钥交换
密钥交换
零知识密码证明
认证密钥交换
椭圆曲线密码
计算机网络
服务器
身份验证协议
计算机安全
分布式计算
质询-响应身份验证
加密
公钥密码术
作者
K. Anitha Kumari,T. P. Kamatchi,R. Senthil Prabha,Bharath K. Samanthula
标识
DOI:10.1080/03772063.2021.1951371
摘要
Due to the unprecedented growth of data, edge computing is transforming our lives in a better manner by increasing the performance and reducing the latency. It is the key framework deployed close to the data for processing effectively by connecting millions of devices together. Though it handles accelerated growth of data efficiently in real-time, data security and edge device authentication are still a nightmare. On the contrary, it is not possible to use complex protocols for authentication of edge devices due to its resource-constrained in nature. To address this issue, a state-of-art Hyperelliptic Curve Diffie–Hellman-based two-server Password-Only Authenticated Key Exchange Protocol is proposed in this paper by utilizing the properties of a geometrical shape, namely, tetrahedron. As a primary mandate, edge devices are authenticated to centralize cloud servers that store password information as tetrahedron properties using Hyperelliptic Curve Cryptography and Diffie–Hellman key exchange mechanisms. The proposed work is compared with similar existing works and proves its strength by considering communication cost, computational cost, security defense rate, and attack resistance rate as its core evaluation parameters.
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