An Efficient Traffic-aware Caching Mechanism For Information-centric Wireless Sensor Networks

Q2 Engineering
N. Dinh
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引用次数: 2

Abstract

This paper proposes a traffic-aware caching mechanism (TCM) for resource-constrained nodes in information-centric WSNs. TCM pushes up popular upstream content objects to be cached nearby the sink. Less popular content objects are cached farther from the sink compared to popular content objects. TCM also pushes down popular downstream content objects to be cached inside the network. The objective of TCM is to reduce the number of interest messages required forwarding in multiple hops inside WSNs to optimize stretch ratio, energy efficiency, and content retrieval latency. We implement TCM on the top of existing popularity-based caching schemes to improve their performance. Through analysis and experimental results, we show that TCM achieves a significant improvement in terms of energy efficiency, content retrieval latency, cache hit ratio, and stretch ratio compared to state-of-the-art popularity-based caching schemes.
面向信息中心无线传感器网络的高效流量感知缓存机制
针对以信息为中心的无线传感器网络中资源受限的节点,提出了一种流量感知缓存机制。TCM将流行的上游内容对象推送到接收器附近缓存。与流行的内容对象相比,不太流行的内容对象被缓存到离接收器更远的地方。TCM还将流行的下游内容对象推送到网络中缓存。TCM的目标是减少wsn内部需要多跳转发的感兴趣消息的数量,以优化拉伸比、能量效率和内容检索延迟。我们在现有基于流行度的缓存方案之上实现TCM以提高其性能。通过分析和实验结果,我们表明,与最先进的基于流行度的缓存方案相比,TCM在能量效率、内容检索延迟、缓存命中率和拉伸率方面取得了显着改善。
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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CiteScore
4.00
自引率
0.00%
发文量
15
审稿时长
10 weeks
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