基于通信频率随机分布的物联网安全方法

IF 1.9 Q2 MULTIDISCIPLINARY SCIENCES

MethodsX Pub Date : 2025-06-25 DOI:10.1016/j.mex.2025.103465

Manga Tonga V Joseph Salomon , Mpoh Lobe Henri Pascal-Will , Malong Yannick , Maka Maka Ebenezer , Ihonock Eyembe Luc , Essiben Dikoundou Jean-François , Paul-Marie Moulema Douala , Yong Suk Joe

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引用次数: 0

摘要

物联网是一项在我们日常生活中无处不在的技术。大部分物联网（IoT）技术依赖于无线传输；然而，这些通常会受到通信拦截等安全威胁。本文的目的是通过提出一种基于通信频率随机分布的方法来解决这些威胁。采用LoRa技术在实验测试台上对所提出的方法进行了测试。验证结果表明，随机改变通信频率会在发送和接收过程中产生小于1秒的处理延迟。此外，实验表明，该策略增强了与其他LoRa设备的共存。所取得的性能为安全高效的数据传输应用提供了前景。•关注物理层物联网系统网络中出现的漏洞•我们提出了一种方法，通过在LoRa卡之间随机分配通信频率来缩小这种安全差距。•结果表明，物联网之间的共存是可能的，并且在数据包的传输和接收中不到一秒引入通信频率的随机分配。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

IoT security approach based random distribution of communication frequency

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IoT security approach based random distribution of communication frequency

IoT is a technology that can be found everywhere in our daily lives. The bulk of Internet of Things (IoT) technologies relies on wireless transmissions; however, these are often subjected to security threats such as communication intercepts. The aims of this paper is to address these threats by suggesting a method based on a random distribution of communication frequencies. The proposed approach was tested using LoRa technology within an experimental testbed. The validation results show that randomly changing communication frequencies introduce a processing delay of less than one second during transmission and reception. Furthermore, the experiments showed that the proposed strategy enhances coexistence with other LoRa devices. The performance achieved is promising for secure and efficient data transmission applications.

•
The concentrate on the vulnerabilities that arise in the network of IoT systems at the physical layer
•
We propose a method to close this security gap by using a random allocation of communication frequency between LoRa cards.
•
The results show that the coexistence between IoT is possible and the random allocation of communication frequencies introduced less than a second in transmission and reception of packets.

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