Implicit Coordination of Caches in Small Cell Networks Under Unknown Popularity Profiles

IF 13.8 1区 计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Emilio Leonardi, G. Neglia
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引用次数: 32

Abstract

We focus on a dense cellular network, in which a limited-size cache is available at every base station (BS). In order to optimize the overall performance of the system in such scenario, where a significant fraction of the users is covered by several BSs, a tight coordination among nearby caches is needed. To this end, this paper introduces a class of simple and fully distributed caching policies, which require neither direct communication among BSs nor a priori knowledge of content popularity. Furthermore, we propose a novel approximate analytical methodology to assess the performance of interacting caches under such policies. Our approach builds upon the well-known characteristic time approximation [1] and provides predictions that are surprisingly accurate (hardly distinguishable from the simulations) in most of the scenarios. Both synthetic and trace-driven results show that our caching policies achieve an excellent performance (in some cases provably optimal). They outperform state-of-the-art dynamic policies for interacting caches, and, in some cases, also the greedy content placement, which is known to be the best performing polynomial algorithm under static and perfectly known content popularity profiles.
未知流行概况下小蜂窝网络中缓存的隐式协调
我们关注的是密集蜂窝网络,其中每个基站(BS)都有有限大小的缓存。在这种情况下,为了优化系统的整体性能,需要在附近的缓存之间进行紧密的协调,其中相当一部分用户被几个BS覆盖。为此,本文介绍了一类简单且完全分布式的缓存策略,该策略既不需要BS之间的直接通信,也不需要内容流行度的先验知识。此外,我们提出了一种新的近似分析方法来评估在这种策略下交互缓存的性能。我们的方法建立在众所周知的特征时间近似[1]的基础上,并在大多数情况下提供了令人惊讶的准确预测(几乎无法与模拟区分)。综合和跟踪驱动的结果都表明,我们的缓存策略实现了出色的性能(在某些情况下可以证明是最优的)。它们在交互缓存方面优于最先进的动态策略,在某些情况下,还优于贪婪内容放置,贪婪内容放置是已知的在静态和完全已知的内容流行情况下性能最好的多项式算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
30.00
自引率
4.30%
发文量
234
审稿时长
6 months
期刊介绍: The IEEE Journal on Selected Areas in Communications (JSAC) is a prestigious journal that covers various topics related to Computer Networks and Communications (Q1) as well as Electrical and Electronic Engineering (Q1). Each issue of JSAC is dedicated to a specific technical topic, providing readers with an up-to-date collection of papers in that area. The journal is highly regarded within the research community and serves as a valuable reference. The topics covered by JSAC issues span the entire field of communications and networking, with recent issue themes including Network Coding for Wireless Communication Networks, Wireless and Pervasive Communications for Healthcare, Network Infrastructure Configuration, Broadband Access Networks: Architectures and Protocols, Body Area Networking: Technology and Applications, Underwater Wireless Communication Networks, Game Theory in Communication Systems, and Exploiting Limited Feedback in Tomorrow’s Communication Networks.
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