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Quantum AI for Cybersecurity: A Hybrid Quantum-Classical Models for Attack Path Analysis
Modern cyberattacks are increasingly complex, posing significant challenges to classical machine learning methods, particularly when labeled data is limited and feature interactions are highly non-linear. In this study we investigates the potential of hybrid quantum-classical learning to enhance...
Code Vulnerability Detection across Different Programming Languages with AI Models
Security vulnerabilities present in a code that has been written in diverse programming languages are among the most critical yet complicated aspects of source code to detect. Static analysis tools based on rule-based patterns usually do not work well at detecting the context-dependent bugs and...
Understanding Malware Propagation Dynamics through Scientific Machine Learning
Accurately modeling malware propagation is essential for designing effective cybersecurity defenses, particularly against adaptive threats that evolve in real time. While traditional epidemiological models and recent neural approaches offer useful foundations, they often fail to fully capture the...
A Systematic Review of Metaheuristics-Based and Machine Learning-Driven Intrusion Detection Systems in IoT
The widespread adoption of the Internet of Things IoT has raised a new challenge for developers since it is prone to known and unknown cyberattacks due to its heterogeneity, flexibility, and close connectivity. To defend against such security breaches, researchers have focused on building...
Riccardo Di Blasio joins Wallarm as an advisor
We are excited to welcome Riccardo Di Blasio to Wallarm advisory team. Riccardo is a well known industry executive who brings his experience running go-to-market operations and managing business worldwide for large internationals like EMC Corp and VMware, including RSA Security. Riccardo’s...