Fundamental Limits of Caching
TLDR
This paper proposes a novel coded caching scheme that exploits both local and global caching gains, leading to a multiplicative improvement in the peak rate compared with previously known schemes, and argues that the performance of the proposed scheme is within a constant factor of the information-theoretic optimum for all values of the problem parameters.Abstract:
Caching is a technique to reduce peak traffic rates by prefetching popular content into memories at the end users. Conventionally, these memories are used to deliver requested content in part from a locally cached copy rather than through the network. The gain offered by this approach, which we term local caching gain, depends on the local cache size (i.e., the memory available at each individual user). In this paper, we introduce and exploit a second, global, caching gain not utilized by conventional caching schemes. This gain depends on the aggregate global cache size (i.e., the cumulative memory available at all users), even though there is no cooperation among the users. To evaluate and isolate these two gains, we introduce an information-theoretic formulation of the caching problem focusing on its basic structure. For this setting, we propose a novel coded caching scheme that exploits both local and global caching gains, leading to a multiplicative improvement in the peak rate compared with previously known schemes. In particular, the improvement can be on the order of the number of users in the network. In addition, we argue that the performance of the proposed scheme is within a constant factor of the information-theoretic optimum for all values of the problem parameters.read more
Citations
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Proceedings ArticleDOI
Improved policy representation and policy search for proactive content caching in wireless networks
TL;DR: A linear function approximation (LFA) is used to better approximate the considered family of caching policies, and the REINFORCE algorithm is applied to optimise its parameters to reduce the long-term average energy consumption in a wireless network.
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Decentralized Coded Caching Without File Splitting
TL;DR: In this article, the authors proposed a coded file caching scheme that uses a decentralized algorithm for content placement and either a greedy clique cover or an online matching algorithm for the delivery of missing data.
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Energy-efficient proactive edge caching with sleep scheduling for green networks
TL;DR: An energy-efficient proactive edge caching with sleep scheduling (E3CS) where the controller jointly adjusts the caching strategy and the sleep scheduling of SCs by considering the content popularity dynamics is proposed.
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Asynchronous Coded Caching With Uncoded Prefetching
TL;DR: In this article, the authors formulate and study the coded caching problem when the file requests from the users arrive at different times and assume that each user also has a prescribed deadline by which they want their request to be completed.
References
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