Litcius/Paper detail

Quantum-Safe Lattice-Based Certificateless Anonymous Authenticated Key Agreement for Internet of Things

Guanglu Wei, Kai Fan, Kuan Zhang, Haoyang Wang, Hui Li, Yintang Yang

2023IEEE Internet of Things Journal20 citationsDOI

Abstract

In recent years, the Internet of Things (IoT) has gained immense popularity in various aspects of work, learning, and daily life. Within the IoT realm, there is a growing concern regarding communication security issues between users and servers. However, addressing the communication security between servers is equally imperative, which has not received as much attention. To this end, we propose a certificateless anonymous authenticated key agreement (AKA) algorithm based on learning with errors (LWEs) and inhomogeneous small integer solution (ISIS) security assumptions. Our scheme provides strong resistance to quantum attacks and protects the privacy of communication servers. It also has constant communication costs and lower computational requirements than existing lattice-based anonymous AKA algorithms on the broadcast channel. Additionally, the proposed scheme eliminates the resource consumption of managing complex certificates and addresses the security risks associated with key escrow in the key generation center (KGC). Through security and performance analysis, we demonstrate that our approach can enhance the security of IoT-based healthcare systems while significantly improving communication efficiency. Our proposed scheme provides a promising solution to security issues related to server communication in IoT systems.

Topics & Concepts

Computer scienceComputer networkComputer securityThe InternetKey (lock)World Wide WebCryptography and Data SecurityBlockchain Technology Applications and SecurityCloud Data Security Solutions
Quantum-Safe Lattice-Based Certificateless Anonymous Authenticated Key Agreement for Internet of Things | Litcius