基于Box-Cox变换的基于自适应蜘蛛鸟群算法的深度递归神经网络恶意JavaScript检测

Q4 Computer Science

International Journal of Open Source Software and Processes Pub Date : 2020-01-01 DOI:10.4018/IJOSSP.2020100103

Scaria Alex, T. Rajkumar

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引用次数: 0

摘要

JavaScript是一种脚本语言，通常用于网页中提供动态功能，以增强用户体验。恶意JavaScript由于其潜在的、普遍的、严重的影响而成为一个重要的网络安全问题。在研究社区中，查找恶意JavaScript通常是一项更加困难和耗时的任务。为此，提出了一种基于自适应蜘蛛鸟群算法的深度递归神经网络(adaptive SBSA-based deep RNN)来检测web应用程序中的恶意JavaScript代码。然而，本文提出的自适应SBSA是将自适应概念与鸟群算法(BSA)和蜘蛛猴优化(SMO)相结合而设计的。深度RNN分类器通过分层计算的过程，有效地解决了恶意代码检测中存在的复杂性问题。由于该方法的有效性，它可以在大型真实数据集下进行评估。

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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Adaptive Spider Bird Swarm Algorithm-Based Deep Recurrent Neural Network for Malicious JavaScript Detection Using Box-Cox Transformation

JavaScript is a scripting language that is commonly used in the web pages for providing dynamic functionality in order to enhance user experience. Malicious JavaScript in webpages on internet is an important security issue due to their potentially and universality severe impact. Finding the malicious JavaScript is usually more difficult and time-consuming task in the research community. Hence, an adaptive spider bird swarm algorithm-based deep recurrent neural network (adaptive SBSA-based deep RNN) is proposed for detecting the malicious JavaScript codes in web applications. However, the proposed adaptive SBSA is designed by integrating the adaptive concept with the bird swarm algorithm (BSA) and spider monkey optimization (SMO). With the deep RNN classifier, the complexity issues exists in detecting the malicious codes is effectively resolved through the process of hierarchical computation. Due to the efficiency of the proposed approach, it can evaluate under large real-life datasets.

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来源期刊

International Journal of Open Source Software and Processes Computer Science-Software

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The International Journal of Open Source Software and Processes (IJOSSP) publishes high-quality peer-reviewed and original research articles on the large field of open source software and processes. This wide area entails many intriguing question and facets, including the special development process performed by a large number of geographically dispersed programmers, community issues like coordination and communication, motivations of the participants, and also economic and legal issues. Beyond this topic, open source software is an example of a highly distributed innovation process led by the users. Therefore, many aspects have relevance beyond the realm of software and its development. In this tradition, IJOSSP also publishes papers on these topics. IJOSSP is a multi-disciplinary outlet, and welcomes submissions from all relevant fields of research and applying a multitude of research approaches.