Vulnerability Detection in Computer Networks using Virtual Reality Technology

Pub Date : 2023-09-10 DOI:10.12694/scpe.v24i3.2162
Songlin Liu
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Abstract

This paper challenges the time-related challenges inherent in conventional network security detection methodologies. It is achieved by incorporating virtual reality technology into the domain of computer network security detection. The research methodology employs optimization calculations to extract attributes that characterize network security vulnerabilities. Concurrently, the weighting of diverse vulnerability attributes is adjusted using a web crawler, a comprehensive list of injection points, and meticulous analyses of the attacks’ genetic characteristics. This collective approach facilitates the exploration of automated network security vulnerability detection within a virtual reality framework. The study’s empirical results demonstrate that the detection method proposed within this investigation exhibits a notably reduced delay of 75.33 milliseconds. The respective delays observed in the two conventional methods stand at 290.11 milliseconds and 337.30 milliseconds. The substantial decrease in detection delay validates the effectiveness and efficiency of the devised automated network vulnerability detection approach grounded in virtual reality technology.
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基于虚拟现实技术的计算机网络漏洞检测
本文挑战了传统网络安全检测方法固有的与时间相关的挑战。它是通过将虚拟现实技术引入计算机网络安全检测领域来实现的。研究方法采用优化计算来提取表征网络安全漏洞的属性。同时,使用网络爬虫、全面的注入点列表和对攻击遗传特征的细致分析来调整各种漏洞属性的权重。这种集体方法有助于在虚拟现实框架内探索自动网络安全漏洞检测。研究的实证结果表明,本研究提出的检测方法显著降低了75.33毫秒的延迟。在两种传统方法中观察到的延迟分别为290.11毫秒和337.30毫秒。检测延迟的大幅降低验证了基于虚拟现实技术的网络漏洞自动检测方法的有效性和高效性。
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