Anomaly-Based Intrusion Detection System To Detect Advanced Persistent Threats: Environmental Sustainability

In an evolving digital world, Advanced Persistent Threats (APTs) pose severe cybersecurity challenges. These extended, stealthy cyber-attacks, often elude conventional Intrusion Detection Systems (IDS). To bridge this gap, our research introduces a novel, environmentally conscious, deep learning-based IDS designed for APT detection. The system encompasses various stages from objective definition, data collection and preprocessing, to model development, integration, validation, and deployment. The system, utilizing deep learning algorithms, scrutinizes network traffic to detect patterns characteristic of APTs. This approach improves IDS accuracy and allows real-time threat detection, enabling prompt response to potential threats. Importantly, our system contributes to environmental protection by minimizing power consumption and electronic waste associated with cyberattacks, promoting sustainable cybersecurity practices. Our research outcomes are expected to enhance APT detection, providing robust defense against sophisticated cyber threats. Our environmentally-conscious perspective adds a unique dimension to the cybersecurity domain, underlining its role in sustainable practices

Anomaly-Based Intrusion Detection System To Detect Advanced Persistent Threats: Environmental Sustainability

In an evolving digital world, Advanced Persistent Threats (APTs) pose severe cybersecurity challenges. These extended, stealthy cyber-attacks, often elude conventional Intrusion Detection Systems (IDS). To bridge this gap, our research introduces a novel, environmentally conscious, deep learning-based IDS designed for APT detection. The system encompasses various stages from objective definition, data collection and preprocessing, to model development, integration, validation, and deployment. The system, utilizing deep learning algorithms, scrutinizes network traffic to detect patterns characteristic of APTs. This approach improves IDS accuracy and allows real-time threat detection, enabling prompt response to potential threats. Importantly, our system contributes to environmental protection by minimizing power consumption and electronic waste associated with cyberattacks, promoting sustainable cybersecurity practices. Our research outcomes are expected to enhance APT detection, providing robust defense against sophisticated cyber threats. Our environmentally-conscious perspective adds a unique dimension to the cybersecurity domain, underlining its role in sustainable practices