Resource Allocation and Scheduling in FDD Multihop Cellular Systems

2009 IEEE International Conference on Communications Workshops Pub Date : 2009-06-14 DOI:10.1109/ICCW.2009.5208108

R. Schoenen, A. Otyakmaz, Z. Xu

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引用次数: 15

Abstract

Cellular radio systems of the next generation aim to make the most out of the available radio resources in the dimensions bandwidth, time and space. The division of time into slots, frames and superframes is standard, both for TDD and FDD duplex modes. OFDMA allows the individual disposition of subchannels as a subdivision of the bandwidth but an aggregation of subcarriers. A basic resource unit is hence a brick in this two-dimensional grid. Space is important both as the location of the base station in whose surrounding the resources are used and in spatial diversity channels. These resources are the scarce good in future radio communications, because they are required proportionally to the traffic demand per area. Due to adaptive modulation and coding schemes and large ranges of possible SINR values, the required resources for a transmission may differ by a factor ten depending on the distances. In this paper we discuss the resource allocation and scheduling mission. We introduce a control system view on the topic, taking adaptive algorithms for modulation, power, subchannel usage and channel quality indication into account.

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FDD多跳蜂窝系统中的资源分配与调度

下一代蜂窝无线电系统的目标是在带宽、时间和空间维度上充分利用可用的无线电资源。对于TDD和FDD双工模式，将时间划分为插槽、帧和超帧是标准的。OFDMA允许子信道的单独配置作为带宽的细分，但作为子载波的聚合。因此，在这个二维网格中，基本资源单位是一块砖。空间对于基站的位置和空间分集信道都是很重要的，基站的资源是在其周围使用的。这些资源是未来无线电通信的稀缺资源，因为它们的需求与每个地区的通信需求成比例。由于自适应调制和编码方案以及可能的SINR值的大范围，根据距离的不同，传输所需的资源可能相差10倍。本文讨论了资源分配和调度任务。我们介绍了控制系统的观点，考虑了调制、功率、子信道使用和信道质量指示的自适应算法。

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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2009 IEEE International Conference on Communications Workshops

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