通过 WSN 中的高能效集群和基于模糊的 IDS 路由方法实现有效的数据传输

Q1 Computer Science Virtual Reality Intelligent Hardware Pub Date : 2024-02-01 DOI:10.1016/j.vrih.2022.10.002
Saziya Tabbassum (Research Scholar) , Rajesh Kumar Pathak (Vice Chancellor)
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引用次数: 0

摘要

无线传感器网络(WSN)在一定区域内收集信息和感知信息样本,并将这些读数传送到基站(BS)。能源效率被认为是 WSN 的一个主要设计问题,可通过聚类和路由技术来解决。信息通过路由程序从源发送到 BS。但是,这些路由协议必须确保数据包的安全传输,保证对手或非认证者都无法获取发送的信息。安全数据传输的目的是保护数据不被非法访问、破坏或中断。因此,在所提出的模型中,安全数据传输是以节能的方式进行的。为有效传输数据,开发了一种低能耗自适应聚类层次结构(LEACH)。对于入侵检测系统(IDS),提出了模糊逻辑和人工神经网络(ANN)。最初,节点被随机放置在网络中,并进行初始化以收集信息。为确保节点之间的能量消耗公平,LEACH 随机选择簇头(CHs),并根据轮循管理机制将这一角色分配给各个节点。然后利用入侵检测程序来确定网络中是否存在入侵者。在 WSN 中,利用模糊干扰规则来区分恶意节点和合法节点。随后,利用 ANN 区分有害节点和可疑节点。所提方法的有效性得到了验证,准确率达到了 97%,特异性达到了 97%,灵敏度达到了 95%。由此证明,LEACH 和基于模糊的 IDS 方法是以节能方式确保数据传输安全的最佳选择。
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Effective data transmission through energy-efficient clus- tering and Fuzzy-Based IDS routing approach in WSNs

Wireless sensor networks (WSN) gather information and sense information samples in a certain region and communicate these readings to a base station (BS). Energy efficiency is considered a major design issue in the WSNs, and can be addressed using clustering and routing techniques. Information is sent from the source to the BS via routing procedures. However, these routing protocols must ensure that packets are delivered securely, guar- anteeing that neither adversaries nor unauthentic individuals have access to the sent information. Secure data transfer is intended to protect the data from illegal access, damage, or disruption. Thus, in the proposed model, secure data transmission is developed in an energy-effective manner. A low-energy adaptive clustering hierarchy (LEACH) is developed to efficiently transfer the data. For the intrusion detection systems (IDS), Fuzzy logic and artificial neural networks (ANNs) are proposed. Initially, the nodes were randomly placed in the network and initialized to gather information. To ensure fair energy dissipation between the nodes, LEACH randomly chooses cluster heads (CHs) and allocates this role to the various nodes based on a round-robin management mechanism. The intrusion-detection procedure was then utilized to determine whether intruders were present in the network. Within the WSN, a Fuzzy interference rule was utilized to distinguish the malicious nodes from legal nodes. Subsequently, an ANN was employed to distinguish the harmful nodes from suspicious nodes. The effectiveness of the proposed approach was validated using metrics that attained 97% accuracy, 97% specificity, and 97% sensitivity of 95%. Thus, it was proved that the LEACH and Fuzzy-based IDS approaches are the best choices for securing data transmission in an energy-efficient manner.

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来源期刊
Virtual Reality  Intelligent Hardware
Virtual Reality Intelligent Hardware Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
6.40
自引率
0.00%
发文量
35
审稿时长
12 weeks
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