SWINC: Secured Wireless Intelligent Network Using Cryptography

Abstract

According to the International Telecommunication Union, wireless intelligence networks (WINs) are the most significant technology in wireless communication technology in the twenty-first century. Because of the potential applications, it is becoming increasingly influential and appealing. It is becoming a progressively important issue in the automation of homes and factories and environmental monitoring. As a result, this wireless network technology’s popularity continues to grow worldwide. Despite this, it has been discovered that the wireless intelligence network does not have proper protection and is vulnerable to hacking attacks. The authentication conundrum is one of them, and it becomes a big issue in wireless security when it is not appropriately addressed. In this study, we propose a model named SWINC (Secured Wireless Intelligent Network using Cryptography) to overcome the uncertainties associated with authentication. The elliptic curve digital signature technique, one of the most well-known and straightforward cryptographic approaches, is included in our proposed solution.