4.7 Article

Federated Deep Reinforcement Learning for Recommendation-Enabled Edge Caching in Mobile Edge-Cloud Computing Networks

Journal

IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS
Volume 41, Issue 3, Pages 690-705

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSAC.2023.3235443

Keywords

Multi-tier computing; recommendation-enabled edge caching; soft hits; federated learning; discrete soft actor-critic

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To support the increasing services and applications, multi-tier computing architecture is used to distribute computing/caching/communication/networking capabilities between cloud servers and users. However, edge caching remains a serious issue due to heterogeneous content requests and high-cost direct hits. This paper proposes a recommendation-enabled edge caching framework that integrates recommender systems and edge caching to improve the resource utilization of edge servers. Simulation results show that the proposed framework outperforms existing algorithms in reducing average system cost.
To support rapidly increasing services and applications from users, multi-tier computing is emerged as a promising system-level computing architecture by distributing computing/caching/communication/networking capabilities between cloud servers to users, especially deploying edge servers at network edges (e.g., base stations). However, due to heterogeneous content requests of users and a high-cost hit manner with direct hits, edge caching is still a most serious issue to be addressed. In this paper, we investigate the issue of recommendation-enabled edge caching in mobile two-tier (edge-cloud) computing networks. Particularly, we integrate recommender systems and edge caching to support both direct hits and soft hits and thus improve the resource utilization of edge servers. We model the factors affecting the user quality of experience as a comprehensive system cost and further formulate the problem as a multi-agent Markov decision process with the goal of minimizing the long-term average system cost. To address the formulated problem, we propose a decentralized recommendation-enabled edge caching framework that leverages a discrete multi-agent variant of soft actor-critic and federated learning. The proposed framework enables each edge server to learn its best policy locally and generate judicious decisions independently. Finally, trace-driven simulation results demonstrate that the proposed framework converges to a better caching policy and outperforms several existing algorithms on average system cost reduction.

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