Authors - Pratham Vasa, Amishi Desai, Chahel Gupta, Avani Bhuva, Mohini Reddy Abstract - Content Delivery Networks (CDNs) play an essential role in enhancing the content delivery speed by caching frequently requested data in edge servers distributed across geographical regions. Traditional CDNs utilize rule-based pol icy and machine learning approaches for optimizing the cache. Machine learning is performed centrally, and the cache optimization is performed using the traffic logs collected by the central server. Although the use of central learning ap proaches is beneficial, it poses certain limitations, including data privacy and high communication cost. The central learning approach aggregates raw data, which poses data privacy issues. This paper proposes an architecture for secure federated learning, which is utilized for cache hit prediction in CDNs. The proposed archi tecture is evaluated using a synthetic dataset containing 1,30,548 records, and the features include temporal and network features. The proposed architecture is com pared with the traditional central learning approach, and the results reveal that the secure federated learning model achieves an accuracy of 70.15%, which is com parable to the central learning approach. The proposed architecture is found to reduce data privacy exposure by 30%.
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