Secured Mutual Authentication Framework using Hybrid Chaotic Encryption for IoT Edge Devices

The accelerated growth of IoT edge devices requires better data transmission methods which need to be both secure and dependable because of the security risks from resource-constrained distributed environments. This article design and build a Hybrid Optimized Chaotic Encryption Scheme for Mutual Authentication in IoT Edge Environments. The proposed security system enhances Tent logistics chaotic algorithm with Seasoning Optimization as its main components. The Tent logistics algorithm demonstrates successful encryption capabilities because of its vulnerability to initial values and random behavior. The algorithm functions with Seasoning Optimization to achieve better security and lower its processing cost. The implementation of the proposed method leads to 30% less computational workload and superior speed and precision for encrypting data when compared against general encryption protocols. The strong encryption security of the algorithm has been validated through NIST (National Institute of Standards and Technology) randomness tests which protect against attacks. The validated findings confirm both the high-security performance and efficient usage of the proposed solution for IoT edge environments that have limited resources.