Adaptive-time Synchronization Algorithm for Superlattice Key Distribution

TL;DR

This paper introduces an adaptive synchronization algorithm for superlattice key distribution that optimizes waveform alignment, achieving reconstruction errors of approximately 5-6%, enhancing secure symmetric encryption.

Contribution

It proposes a novel time synchronization algorithm for superlattice key distribution, improving waveform reconstruction accuracy in chaotic encryption systems.

Findings

Waveform reconstruction error of 5-6% achieved

Algorithm effectively synchronizes chaotic waveforms

Enhances security in symmetric encryption

Abstract

This paper presents a synchronization algorithm for superlattice key distribution, which is a symmetric encryption solution, by optimizing the Euclidian distance between the two chaotic waveforms generated in the receiver and the sender, respectively. This algorithm based on time synchronization is capable of reconstructing the generated waveforms in the receiver and the sender within the error of 5% to 6% (given the fact that the waveforms were not perfectly congruent when they were originally created).