EECAAP: Efficient Edge-Computing based Anonymous Authentication Protocol for IoV

2022 IEEE 29th International Conference on High Performance Computing, Data, and Analytics (HiPC) Pub Date : 2022-12-01 DOI:10.1109/HiPC56025.2022.00047

Himani Sikarwar, D. Das

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Abstract

Traditional security solutions for the edge have lots of challenges like high power consumption, communication, and computation overhead. These solutions are not feasible for highly dynamic resource-constrained (memory and processing power) Internet of Vehicles (IoV) networks. We can use Physical Unclonable Functions (PUFs) to address this issue. This paper discusses a new PUF-based anonymous mutual authentication and key exchange protocol for the IoV communication environment by combining unique, unpredictable PUFs and one-way hash functions. In the proposed protocol, a three-layered infrastructure, i.e., vehicle layer, edge computing layer, and cloud layer, is used for the IoV networks to make it efficient and improve the throughput and Quality of Service (QoS). The proposed hybrid system provides a security solution for cloning, side-channel and physical attacks along with the less computation and negligible storage cost. The implementation and performance analysis shows that the proposed protocol reduces the computation-communication overhead maximum upto 80% and 60% respectively. It also reduces the time complexity.

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EECAAP:基于高效边缘计算的车联网匿名认证协议

传统的边缘安全解决方案存在许多挑战，如高功耗、通信和计算开销。这些解决方案对于高度动态资源受限(内存和处理能力)的车联网(IoV)网络是不可行的。我们可以使用物理不可克隆函数(puf)来解决这个问题。本文结合独特的、不可预测的puf和单向哈希函数，讨论了一种新的基于puf的车联网通信环境匿名相互认证和密钥交换协议。该协议采用车辆层、边缘计算层、云计算层三层基础架构，提高了车联网的效率，提高了吞吐量和QoS (Quality of Service)。该混合系统提供了克隆、侧信道和物理攻击的安全解决方案，并且计算量少，存储成本可以忽略不计。实现和性能分析表明，该协议最大可减少80%和60%的计算通信开销。它还减少了时间复杂度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 29th International Conference on High Performance Computing, Data, and Analytics (HiPC)

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