Network Intrusion Automatic Detection Based on Mobile Wireless Network Application in Clothing Design Virtual Reality System

Yi Chen, Jia Wang
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Abstract

The rapid advancement of mobile network technology has led to an increasing popularity of virtual reality (VR) systems in fashion design. However, this proliferation has also introduced significant network security vulnerabilities. This paper presents a discussion on establishing an effective network intrusion detection system tailored to the unique aspects of mobile networks, aiming to safeguard the security and reliability of VR applications in clothing design. We propose a deep learning-based intrusion detection algorithm that leverages the features of wireless networks and mobile applications to monitor and analyze traffic data in real time. Training and validation datasets are utilized to assess the model's detection performance across various scenarios. Experimental findings indicate that the proposed intrusion detection system can proficiently identify multiple types of network attacks, achieving a high detection rate coupled with a low false positive rate. The system demonstrates strong real-time performance and accuracy, allowing it to adapt to the dynamic nature of mobile network environments. The mobile network-based intrusion detection system holds significant application potential in the realm of VR fashion design, providing a secure and dependable platform for designers.

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基于移动无线网络的网络入侵自动检测 在服装设计虚拟现实系统中的应用
移动网络技术的飞速发展导致虚拟现实(VR)系统在时装设计中越来越受欢迎。然而,这种普及也带来了严重的网络安全漏洞。本文探讨了如何针对移动网络的独特性建立有效的网络入侵检测系统,以保障服装设计中 VR 应用的安全性和可靠性。我们提出了一种基于深度学习的入侵检测算法,该算法利用无线网络和移动应用的特点来实时监控和分析流量数据。我们利用训练和验证数据集来评估模型在各种场景下的检测性能。实验结果表明,所提出的入侵检测系统能熟练识别多种类型的网络攻击,实现了高检测率和低误报率。该系统具有很强的实时性和准确性,能够适应移动网络环境的动态特性。基于移动网络的入侵检测系统在 VR 时尚设计领域具有巨大的应用潜力,可为设计师提供一个安全可靠的平台。
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