Spatial multi-LRU Caching for Wireless Networks with Coverage Overlaps
Abstract
This article introduces a novel family of decentralised caching policies, applicable to wireless networks with finite storage at the edge-nodes (stations). These policies are based on the Least-Recently-Used replacement principle, and are, here, referred to as spatial multi-LRU. Based on these, cache inventories are updated in a way that provides content diversity to users who are covered by, and thus have access to, more than one station. Two variations are proposed, namely the multi-LRU-One and -All, which differ in the number of replicas inserted in the involved caches. By introducing spatial approximations, we propose a Che-like method to predict the hit probability, which gives very accurate results under the Independent Reference Model (IRM). It is shown that the performance of multi-LRU increases the more the multi-coverage areas increase, and it approaches the performance of other proposed centralised policies, when multi-coverage is sufficient. For IRM traffic multi-LRU-One outperforms multi-LRU-All, whereas when the traffic exhibits temporal locality the -All variation can perform better.
Cite
@article{arxiv.1602.07623,
title = {Spatial multi-LRU Caching for Wireless Networks with Coverage Overlaps},
author = {Anastasios Giovanidis and Apostolos Avranas},
journal= {arXiv preprint arXiv:1602.07623},
year = {2016}
}
Comments
14 pages, 2-column, 10 Figures (13 sub-figures in all), part of the results in ACM SIGMETRICS/IFIP Performance 2016, Antibes, France