Enhancing PDF Malware Detection through Logistic Model Trees.

Malware is an ever-present and dynamic threat to networks and computer systems in cybersecurity, and because of its complexity and evasiveness, it is challenging to identify using traditional signature-based detection approaches. The study article discusses the growing danger to cyber security that malware hidden in PDF files poses, highlighting the shortcomings of conventional detection techniques and the difficulties presented by adversarial methodologies. The article presents a new method that improves PDF virus detection by using document analysis and a Logistic Model Tree. Using a dataset from the Canadian Institute for Cybersecurity, a comparative analysis is carried out with well-known machine learning models, such as Credal Decision Tree, Naïve Bayes, Average One Dependency Estimator, Locally Weighted Learning, and Stochastic Gradient Descent. Beyond traditional structural and Java Scriptcentric PDF analysis, the research makes a substantial contribution to the area by boosting precision and resilience in malware detection. The use of Logistic Model Tree, a thorough feature selection approach, and increased focus on PDF file attributes all contribute to the efficiency of PDF virus detection. The paper emphasizes Logistic Model Tree's critical role in tackling increasing cybersecurity threats and proposes a viable answer to practical issues in the sector. The results reveal that the Logistic Model Tree is superior, with improved accuracy of 97.46% when compared to benchmark models, demonstrating its usefulness in addressing the ever-changing threat landscape. [ABSTRACT FROM AUTHOR]