A Framework for Improving the Performance of QKDN using Machine Learning Approach

IF 1.7 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

ADCAIJ-Advances in Distributed Computing and Artificial Intelligence Journal Pub Date : 2023-09-19 DOI:10.14201/adcaij.30240

R Arthi, A Saravanan, J S Nayana, Chandresh MuthuKumaran

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引用次数: 0

Abstract

A reliable secure communication can be given between two remote parties by key sharing, quantum key distribution (QKD) is widely concentrated as the information in QKD is safeguarded by the laws of quantum physics. There are many techniques that deal with quantum key distribution network (QKDN), however, only few of them use machine learning (ML) and soft computing techniques to improve QKDN. ML can analyze data and improve itself through model training without having to be programmed manually. There has been a lot of progress in both the hardware and software of ML technologies. Given ML’s advantageous features, it can help improve and resolve issues in QKDN, facilitating its commercialization. The proposed work provides a detailed understanding of role of each layer of QKDN, addressing the limitations of each layer, and suggesting a framework to improve the performance metrics for various applications of QKDN by applying machine learning techniques, such as support vector machine and decision tree algorithms.

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使用机器学习方法提高QKDN性能的框架

量子密钥分发(quantum key distribution, QKD)是一种广泛集中的通信方式，由于量子密钥分发中的信息受到量子物理定律的保护。处理量子密钥分发网络(QKDN)的技术有很多，但利用机器学习(ML)和软计算技术来改进QKDN的技术很少。机器学习可以通过模型训练来分析数据并改进自身，而无需手动编程。机器学习技术在硬件和软件方面都取得了很大的进步。鉴于ML的优势特性，它可以帮助改进和解决QKDN中的问题，促进其商业化。提出的工作提供了对QKDN每层作用的详细理解，解决了每层的局限性，并提出了一个框架，通过应用机器学习技术，如支持向量机和决策树算法，来提高QKDN各种应用的性能指标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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