.

ISSN 2063-5346
For urgent queries please contact : +918130348310

LWES: THE EFFICIENCY OF NEW LIGHTWEIGHT ENCRYPTION FRAMEWORK FOR INTERNET OF THINGS SECURITY

Main Article Content

Ahmed Mohamed Maher1 , S.Suganya2
» doi: 10.31838/ecb/2023.12.s1-B.312

Abstract

Because of the technological invasion in all areas of life (medical, agricultural, industrial, societal) etc., it has made the Internet of things an indispensable technology in terms of advantages and flexibility. But because of this huge expansion, there has also been a major flaw in terms of the security of mobile information between billions of devices, in addition to attacks and threats to the Internet of Things. This study proposes a Lightweight Encryption Security (LWES) Framework have three- phases for securing, the first phase Registration is Establish a secure connection between the server and the device. The second phase Authentication is the server verifying the authentication of the connected devices. Third phase is securing data by using (LWES). The algorithm is a 16-byte block cypher and wants the data to be encrypted using a 16-byte (128-bit) key for the Internet of Things security. It raises the level of security and improves network functionality by utilizing energy-efficient techniques. Cooja simulator helps in implementing and comparing the performance of the proposed mechanism with existing mechanisms such as the Objective Security Framework and Constrained Application Protocol Even in the existence of attackers, Lightweight Encryption Security Framework beats Objective Security Framework and Constrained Application Protocol in terms of throughput with low computational, storage, and energy overhead.

Article Details