Improving NDN Resilience: A Novel Mitigation Mechanism Against Cache Pollution Attack
Abstract
Cache Pollution Attacks (CPA) are a growing concern in Named Data Networking (NDN) due to their potential to disrupt network services and compromise data integrity. While several defence mechanisms have been developed, they often struggle to keep up with the evolving nature of such attacks. This paper introduces a cutting-edge approach for detecting
and mitigating CPA in NDN, utilizing Deep Reinforcement Learning (DRL). By employing a DRL framework, we leverage the power of deep neural networks to learn complex patterns within network traffic. Our DRL algorithm is designed to analyze the intricate dynamics of NDN environments and make informed decisions about cache management to protect against CPA. The
agent’s learning process involves continuous interaction with the network, allowing it to adapt to CPA attack vectors and evolving NDN network conditions. The DRL-based mitigation mechanism is evaluated using the official NDNSim simulation environment. The results show that the DRL agent effectively identifies and mitigates CPA with high accuracy, thereby improving the Cache Hit Ratio, while incurring an acceptable increase in memory
usage.
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