SERA: A hybrid scheduling framework for M2M transmission in cellular networks

2015 7th International Conference on Communication Systems and Networks (COMSNETS) Pub Date : 1900-01-01 DOI:10.1109/COMSNETS.2015.7098696

Umamaheswari Devi, M. Goyal, M. Madhavan, Ravi Kokku, D. Krishnaswamy

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引用次数: 2

Abstract

Trends show that machine-to-machine (M2M) devices are going to grow by orders of magnitude, far surpassing the number of mobile devices. This unprecedented scale and the fact that M2M traffic typically consists of many small-sized transmissions make the data and signaling overhead of introducing M2M traffic into cellular networks a big concern. Fortunately, it is possible to exploit certain unique characteristics of M2M traffic, like periodicity and delay tolerance in its scheduling, to alleviate these concerns. In this paper, we propose SERA - a two-level Scheduled Randomization framework, which does precisely this, and efficiently integrates M2M traffic into cellular networks. Broadly, SERA consists of (i) a central controller that defines certain coarse-level transmission parameters to govern M2M traffic in the next scheduling period and (ii) a simple distributed randomized algorithm at each M2M device that governs fine-grained transmission decisions within the period. Using experiments and analyses, we show that compared to existing techniques for M2M traffic management, SERA can lower peak traffic load by 30-40%, bring down the total time spent under congestion by 30-40%, and that these gains are robust to errors in traffic prediction.

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蜂窝网络中M2M传输的混合调度框架

趋势显示，机器对机器(M2M)设备将以数量级增长，远远超过移动设备的数量。这种前所未有的规模以及M2M流量通常由许多小型传输组成的事实，使得将M2M流量引入蜂窝网络的数据和信令开销成为一个大问题。幸运的是，可以利用M2M流量的某些独特特征(如调度中的周期性和延迟容忍)来减轻这些担忧。在本文中，我们提出了SERA -一个两级计划随机化框架，它正是这样做的，并有效地将M2M流量集成到蜂窝网络中。从广义上讲，SERA包括(i)一个中央控制器，它定义某些粗级传输参数来管理下一个调度周期的M2M流量;(ii)一个简单的分布式随机算法，在每个M2M设备上管理周期内的细粒度传输决策。通过实验和分析，我们表明，与现有的M2M流量管理技术相比，SERA可以将峰值流量负载降低30-40%，将拥堵下花费的总时间降低30-40%，并且这些增益对流量预测中的错误具有鲁棒性。

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

2015 7th International Conference on Communication Systems and Networks (COMSNETS)

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