Using Quantum Nodes Connected via the Quantum Cloud to Perform IoT Quantum Network

IF 1.9 Q3 PHYSICS, CONDENSED MATTER

Condensed Matter Pub Date : 2023-02-23 DOI:10.3390/condmat8010024

Doaa Subhi, L. Bacsardi

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引用次数: 0

Abstract

Computer networks consist of millions of nodes that need constant protection because of their continued vulnerability to attacks. Classical security methods for protecting such networks will not be effective enough if quantum computers become widespread. On the other hand, we can exploit the capabilities of quantum computing and communications to build a new quantum communication network. In this paper, we focused on enhancing the performance of the classical client–server Internet application. For this sake, we introduced a novel Internet of Things (IoT) quantum network that provides high security and Quality of Service (QoS) compared with the traditional IoT network. This can be achieved by adding quantum components to the traditional IoT network. Quantum counterpart nodes, channels, and servers are used. In order to establish a secure communication between the quantum nodes and the quantum server, we defined a new Communication Procedure (CP) for the suggested IoT quantum network. The currently available quantum computer has a small qubit size (from 50 to 433 qubits). The proposed IoT quantum network allows us to overcome this problem by concatenating the computation efforts of multiple quantum nodes (quantum processors).

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利用量子云连接的量子节点实现物联网量子网络

计算机网络由数百万个节点组成，这些节点由于持续易受攻击而需要持续保护。如果量子计算机普及，保护此类网络的经典安全方法将不够有效。另一方面，我们可以利用量子计算和通信的能力来构建一个新的量子通信网络。在本文中，我们专注于增强经典的客户端-服务器互联网应用程序的性能。为此，我们介绍了一种新型物联网（IoT）量子网络，与传统物联网网络相比，该网络提供了高安全性和高服务质量（QoS）。这可以通过在传统物联网网络中添加量子组件来实现。使用Quantum对等节点、通道和服务器。为了在量子节点和量子服务器之间建立安全的通信，我们为所建议的物联网量子网络定义了一个新的通信程序（CP）。目前可用的量子计算机具有较小的量子位大小（从50到433个量子位）。所提出的物联网量子网络使我们能够通过连接多个量子节点（量子处理器）的计算工作来克服这个问题。

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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