Dynamically stabilized recurrent neural network optimized with intensified sand cat swarm optimization for intrusion detection in wireless sensor network

IF 4.8 2区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
A. Punitha , P. Ramani , Ezhilarasi P , Sridhar S
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引用次数: 0

Abstract

Wireless Sensor Networks (WSNs) are susceptible to various security threats owing to its deployment in hostile environments. Intrusion detection system (IDS) contributes a critical role on securing WSNs by identifying malevolent activities and ensuring data integrity. Traditional IDS techniques often struggle with the dynamic and resource-constrained nature of WSNs. In this paper, Dynamically Stabilized Recurrent Neural Network Optimized with Intensified Sand Cat Swarm Optimization for Wireless Sensor Network Intrusion identification (DSRNN-ISCOA-ID-WSN) is proposed. Initially, the input data is amassed from WSN-DS dataset. After that, the pre-processing segment receives the data. In pre-processing stage, redundant and biased records are removed from input data with the help of Adaptive multi-scale improved differential filter (AMSIDF). Then the optimal are selected by utilizing Wolf-Bird Optimization Algorithm (WBOA). DSRNN is used to classify the data as Normal, Grey hole, Black hole, Time division multiple access (TDMA), and Flooding attacks. Then Intensified Sand Cat Swarm Optimization (ISCOA) is employed to optimize the weight parameters of DSRNN for accuracte classification. The proposed DSRNN-ISCOA-ID-WSN technique is implemented Python. The performance of the proposed DSRNN-ISCOA-ID-WSN approach attains 29.24 %, 33.45 %, and 28.73 % high accuracy; 30.53 %, 27.64 %, and 26.25 % higher precision when compared with existing method such as Machine Learning-Powered Stochastic Gradient Descent Intrusions Detection System for WSN Attacks (SGDA-ID-WSN), An updated dataset to identify threats in WSN (CNN-ID-WSN) and Denial-of-Service attack detection in WSN: a Low-Complexity Machine Learning Model (DTA-ID-WSN) respectively.

利用强化沙猫群优化技术优化的动态稳定递归神经网络,用于无线传感器网络的入侵检测
无线传感器网络(WSN)由于部署在恶劣的环境中,很容易受到各种安全威胁。入侵检测系统(IDS)通过识别恶意活动和确保数据完整性,在确保 WSN 安全方面发挥着至关重要的作用。传统的 IDS 技术往往难以应对 WSN 的动态性和资源受限性。本文提出了针对无线传感器网络入侵识别的强化沙猫群优化动态稳定循环神经网络(DSRNN-ISCOA-ID-WSN)。首先,从 WSN-DS 数据集中收集输入数据。然后,预处理部分接收数据。在预处理阶段,利用自适应多尺度改进差分滤波器(AMSIDF)去除输入数据中的冗余和偏差记录。然后利用狼鸟优化算法(WBOA)选出最优。DSRNN 用于将数据分类为正常、灰洞、黑洞、时分多址(TDMA)和洪水攻击。然后,采用强化沙猫群优化(ISCOA)来优化 DSRNN 的权重参数,以实现准确的分类。Python 实现了所提出的 DSRNN-ISCOA-ID-WSN 技术。所提出的 DSRNN-ISCOA-ID-WSN 方法的准确率分别达到 29.24 %、33.45 % 和 28.73 %;精度分别达到 30.53 %、27.64 % 和 26.25 %。与机器学习驱动的随机梯度下降 WSN 攻击入侵检测系统(SGDA-ID-WSN)、识别 WSN 威胁的最新数据集(CNN-ID-WSN)和 WSN 中的拒绝服务攻击检测:一种低复杂度机器学习模型(DTA-ID-WSN)等现有方法相比,所提出的 DSRNN-ISCOA-ID-WSN 方法分别获得了 29.24 %、33.45 % 和 28.73 % 的高准确率;30.53 %、27.64 % 和 26.25 % 的高精度。
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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来源期刊
Computers & Security
Computers & Security 工程技术-计算机:信息系统
CiteScore
12.40
自引率
7.10%
发文量
365
审稿时长
10.7 months
期刊介绍: Computers & Security is the most respected technical journal in the IT security field. With its high-profile editorial board and informative regular features and columns, the journal is essential reading for IT security professionals around the world. Computers & Security provides you with a unique blend of leading edge research and sound practical management advice. It is aimed at the professional involved with computer security, audit, control and data integrity in all sectors - industry, commerce and academia. Recognized worldwide as THE primary source of reference for applied research and technical expertise it is your first step to fully secure systems.
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