A Reliable Software Defifined Networking based Framework for IoT Devices

S. Anand, Neha Manjunath
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Abstract

With the help of IoT (Internet of Things) devices, the world is becoming more connected. To accomplish this, a vast amount of data must be safely stored and accessed, yet IoT devices have limited memory and computing time. As a result, a huge storage room with secure space for storage is required. SDN (Software-Defined Networking) is a revolutionary network technology that incorporates a new paradigm of unsecured apps and Internet-of- Things (IoT) services. Enemies hoping to upset the activity of an IoT framework can use the malevolent bundle change assault (MP A), a basic however powerful assault that has recently been found in loT in light of remote sensor organizations. We offer a strategy for securing and dependably conveying information within the sight of dynamic aggressors to oppose MP As that takes advantage of SDN's programmability and flexibility. Our method ensures that loT devices are aware of any changes. The suggested solution's effectiveness and performance were assessed in a series of extensive tests using a prototype implementation. The findings show that even if malicious forwarding devices only modify a small percentage of the data, they may be reliably and promptly identified and circumvented. We examined the exhibition of our proposed framework utilizing OMNeT++ to recreate our whole situation and affirmed that the framework is secure and dependable in loT applications.
基于物联网设备的可靠软件定义网络框架
在物联网(IoT)设备的帮助下,世界变得更加紧密相连。为了实现这一目标,必须安全地存储和访问大量数据,但物联网设备的内存和计算时间有限。因此,需要一个巨大的储藏室和安全的存储空间。SDN(软件定义网络)是一项革命性的网络技术,它融合了不安全应用程序和物联网(IoT)服务的新范式。希望破坏物联网框架活动的敌人可以使用恶意捆绑更改攻击(MP A),这是一种基本但强大的攻击,最近在loT中发现了远程传感器组织。我们提供了一种在动态攻击者的视线内保护和可靠地传递信息的策略,以反对利用SDN的可编程性和灵活性的MP As。我们的方法确保loT设备知道任何更改。建议的解决方案的有效性和性能在使用原型实现的一系列广泛测试中进行了评估。研究结果表明,即使恶意转发设备只修改了一小部分数据,也可以可靠、及时地识别和规避。我们使用omnet++对我们提出的框架的展示进行了检查,以重新创建我们的整个情况,并确认该框架在loT应用程序中是安全可靠的。
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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