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Performance Paradox: Evaluating Machine Learning and Deep Learning Strategies for Enhanced Mobile Security

Publication Type : Conference Paper

Publisher : IEEE

Source : 2025 International Conference on Emerging Systems and Intelligent Computing (ESIC)

Url : https://doi.org/10.1109/esic64052.2025.10962743

Campus : Chennai

School : School of Computing

Department : Computer Science and Engineering

Year : 2025

Abstract : With the rapid expansion of mobile device usage and the increasingly sophisticated nature of cyber threats, mobile security has become critically important. Mobile malware poses significant risks by targeting sensitive data and exploiting system vulnerabilities. This study presents a comparative analysis of ten machine learning and deep learning models aimed at improving mobile malware detection and overall mobile security. The models were tested on a dataset of 15,036 mobile applications, comprising 5,560 malware samples and 9,476 benign applications, sourced from real-life data on Datahub. Among the evaluated models, the Deep Neural Network (DNN) achieved the best performance, with an accuracy of 99.40 percentage. These findings underscore the potential of DNN for real-time mobile security applications, enabling effective detection and prevention of malicious activities on mobile platforms.

Cite this Research Publication : Kausal S D, Saranya G, Performance Paradox: Evaluating Machine Learning and Deep Learning Strategies for Enhanced Mobile Security, 2025 International Conference on Emerging Systems and Intelligent Computing (ESIC), IEEE, 2025, https://doi.org/10.1109/esic64052.2025.10962743

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