Abstract
Current research in Internet of Things (IoT) is focused on the security enhancements to every communicated message in the network. Keeping this thought in mind, researcher in this work emphasizes on a security oriented cryptographic solution. Commonly used security cryptographic solutions are heavy in nature considering their key size, operations, and mechanism they follow to secure a message. This work first determines the benefit of applying lightweight security cryptographic solutions in IoT. The existing lightweight counterparts are still vulnerable to attacks and also consume calculative more power. Therefore, this research work proposes a new hybrid lightweight logical security framework for offering security in IoT (LLSFIoT). The operations, key size, and mechanism used in the proposed framework make its lightweight. The proposed framework is divided into three phases: registration, authentication, and light data security (LDS). LDS offers security by using unique keys at each round bearing small size. Key generation mechanism used is comparatively fast making the compromise of keys as a difficult task. These steps followed in the proposed algorithm design make it lightweight and a better solution for IoT-based networks as compared to the existing solutions that are relatively heavy weight in nature.
Highlights
A fresh primitive cryptography known as lightweight cryptography is being put on the market for use as integrated systems in resource-restricted settings like radio frequency identification (RFID) Internet of Things (IoT) [1]
The limitations in existing network are the use of large key size, block size, complex round structure, and the implementation requirements [7]
This research work proposes a LLSFIoT model consisting of three phases
Summary
A fresh primitive cryptography known as lightweight cryptography is being put on the market for use as integrated systems in resource-restricted settings like radio frequency identification (RFID) IoT [1]. The limitations in existing network are the use of large key size, block size, complex round structure, and the implementation requirements [7]. Rather than implementing the entire cypher, only required operations should be implemented [14, 15] This comes out with an issue while implementing lightweight solutions in IoT but once it is implemented, the overall resources and life of network can be improved [16]. In comparison to conventional block cyphers, the requirements of lightweight security solutions are lower for key size. Existing security solutions like AES, SIMON, and SPECK, they have more key size requirements as compared to the proposed algorithm. Conclusion states the currents state of art and the benefit of the proposed security framework
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