Multi-Objective Genetic Algorithm and CNN-Based Deep Learning Architectural Scheme for effective spam detection

Jenifer Darling Rosita P , W. Stalin Jacob
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引用次数: 13

Abstract

E-mail has traditionally been regarded as the most powerful medium in online social networks, where users can discuss, connect, and share links with other online social media users. In particular, Twitter, in particular, has been determined to be the most popular social network that serves as the best communication channel for its users to share current news, ideas, thoughts, comments, and beliefs with other online social media users. Despite the efforts put in to combat spam operations on the online social network, Twitter spam has a new type of functionality that is limited to 140 characters. It is not only the major cause of annoyance for day-to-day users, but also responsible for the majority of computer security issues that cost billions of dollars in terms of productivity losses. In this paper, we propose a Multi-Objective Genetic Algorithm and a CNN-based Deep Learning Architectural Scheme (MOGA–CNN–DLAS) for the predominant Twitter spam detection process. The experimental details and results discussions of the proposed MOGA-CNN-DLAS are evaluated in terms of accuracy, precision, recall, F-Score, RMSE, and MAE by varying the ratio of training data under the utilization of three real datasets, such as the Twitter 100k dataset and the ASU dataset.

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多目标遗传算法和基于cnn的深度学习体系结构方案的有效垃圾邮件检测
电子邮件历来被认为是在线社交网络中最强大的媒介,用户可以在其中与其他在线社交媒体用户讨论、连接和分享链接。尤其是Twitter,已经被确定为最受欢迎的社交网络,它是用户与其他在线社交媒体用户分享当前新闻、观点、思想、评论和信仰的最佳沟通渠道。尽管在打击在线社交网络上的垃圾邮件操作方面付出了努力,但Twitter上的垃圾邮件有一种新的功能,限制在140个字符以内。它不仅是日常用户烦恼的主要原因,而且也是造成大多数计算机安全问题的原因,这些问题造成了数十亿美元的生产力损失。在本文中,我们提出了一种多目标遗传算法和一种基于cnn的深度学习架构方案(MOGA-CNN-DLAS),用于主流的Twitter垃圾邮件检测过程。利用Twitter 100k数据集和ASU数据集,通过改变训练数据的比例,从正确率、精密度、召回率、F-Score、RMSE和MAE等方面评估了本文提出的MOGA-CNN-DLAS的实验细节和结果讨论。
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