A Lightweight Cryptographic Protocol with Certificateless Signature for the Internet of Things

Abstract

The universality of smart-devices has brought rapid development and the significant advancement of ubiquitous applications for the Internet of Things (IoT). Designing new types of IoT-compatible cryptographic protocols has become a more popular way to secure IoT-based applications. Significant attention has been dedicated to the challenge of implementing a lightweight and secure cryptographic protocol for IoT devices. In this study, we propose a lightweight cryptographic protocol integrating certificateless signature and bilinear pairing crypto-primitives. In the proposed protocol, we elegantly refine the processes to account for computation-limited IoT devices during security operations. Rigorous security analyses are conducted to guarantee the robustness of the proposed cryptographic protocol. In addition, we demonstrate a thorough performance evaluation, where an IoT-based test-bed, i.e., the Raspberry PI, is simulated as the underlying platform of the implementation of our proposed cryptographic protocol. The results show the practicability of the proposed protocol.