Joint routing, scheduling and power allocation in OFDMA wireless ad hoc networks

2012 IEEE International Conference on Communications (ICC) Pub Date : 2012-06-10 DOI:10.1109/ICC.2012.6364468

R. Rashtchi, R. Gohary, H. Yanikomeroglu

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引用次数: 12

Abstract

In this paper an OFDMA-based wireless ad hoc network is considered. In addition to the potential of being a source and/or a destination, each node is assumed to be capable of decoding and forwarding its received packets to other nodes in the network. The goal is to determine the optimal data routes, subchannel schedules, and power allocations that maximize a weighted sum rate of the data communicated over the network. Two instances of this problem are considered. In the first instance, each subchannel is exclusively used on one of the links, whereas in the second instance subchannels are allowed to be time shared by multiple links. The first problem gives rise to an NP-hard mixed integer optimization problem that is difficult to solve. In contrast, using a change of variables, the second problem is cast in a convex form, which is amenable to highly efficient interior point solvers. Simulation results suggest that the gain in the weighted sum rate achieved by the relaxation in the second problem over that achieved by the original mixed integer problem is negligible for small networks, and increases with the size of the network.

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OFDMA无线自组网中的联合路由、调度和功率分配

本文研究了一种基于ofdma的无线自组织网络。除了可能成为源和/或目的地之外，每个节点都假定能够解码并将其接收到的数据包转发给网络中的其他节点。目标是确定最优的数据路由、子通道调度和功率分配，以最大化通过网络通信的数据的加权和速率。这里考虑了这个问题的两个实例。在第一个实例中，每个子通道只在其中一个链路上使用，而在第二个实例中，子通道允许由多个链路共享时间。第一个问题是一个难以求解的NP-hard混合整数优化问题。相反，使用变量变换，第二个问题被转换为凸形式，这适用于高效的内点求解器。仿真结果表明，对于小型网络，第二个问题的松弛所获得的加权和速率增益比原始混合整数问题所获得的增益可以忽略不计，并且随着网络的规模而增加。

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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2012 IEEE International Conference on Communications (ICC)

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