An SMDP approach to optimal PHY configuration in wireless networks

2017 13th Annual Conference on Wireless On-demand Network Systems and Services (WONS) Pub Date : 2016-10-18 DOI:10.1109/WONS.2017.7888760

M. Shifrin, D. Menasché, A. Cohen, Omer Gurewitz, D. Goeckel

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Abstract

In this work, we study the optimal configuration of the physical layer in wireless networks by means of Semi-Markov Decision Process (SMDP) modeling. In particular, assume the physical layer is characterized by a set of potential operating points, with each point corresponding to a rate and reliability pair; for example, these pairs might be obtained through a now-standard diversity-vs-multiplexing tradeoff characterization. Given the current network state (e.g., buffer occupancies), a Decision Maker (DM) needs to dynamically decide which operating point to use. The SMDP problem formulation allows us to choose from these pairs an optimal selection, which is expressed by a decision rule as a function of the number of awaiting packets in the source's finite queue, channel state, size of the packet to be transmitted. We derive a general solution which covers various model configurations, including packet size distributions and varying channels. For the specific case of exponential transmission time, we analytically prove the optimal policy has a threshold structure. Numerical results validate this finding, as well as depict muti-threshold policies for time varying channels such as the Gilber-Elliot channel.

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无线网络中最优PHY配置的SMDP方法

本文利用半马尔可夫决策过程(SMDP)模型研究了无线网络中物理层的最优配置。特别地，假设物理层的特征是一组潜在的工作点，每个工作点对应一个速率和可靠性对;例如，这些对可以通过现在标准的分集与多路复用权衡特性来获得。给定当前网络状态(例如，缓冲区占用)，决策者(DM)需要动态地决定使用哪个操作点。SMDP问题公式允许我们从这些对中选择一个最优选择，该选择由决策规则表示为源有限队列中等待数据包数量、通道状态、要传输的数据包大小的函数。我们推导了一个通用的解决方案，它涵盖了各种模型配置，包括包大小分布和不同的通道。对于传输时间呈指数的特殊情况，我们分析证明了最优策略具有阈值结构。数值结果验证了这一发现，并描述了时变信道(如Gilber-Elliot信道)的多阈值策略。

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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2017 13th Annual Conference on Wireless On-demand Network Systems and Services (WONS)

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