电力线OFDM信道上的最小能量位分配

2013 10th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology Pub Date : 2013-05-15 DOI:10.1109/ECTICON.2013.6559604

Patcharapol Kas-udom, W. Santipach

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引用次数: 1

摘要

我们建议为电力线OFDM信道分配两个比特以最小化总传输能量。首先是为确定性信道模型导出的最优位分配。分配给每个子信道的最佳位数取决于信道增益、所需的数据速率和传输持续时间。对于第二种分配，在噪声功率与信道增益平方之间的比值小于某一阈值的子信道上传输相同数量的比特。本文还对随机信道模型进行了基于开关阈值的位分配分析，得到了大系统极限下总能耗的封闭表达式。数值算例表明，与均匀比特分配相比，最优比特分配可使传输能量减少83%，并且当传输时间较短时，开关分配的性能接近最优。

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Minimum-energy bit allocation over powerline OFDM channels

We propose two bit allocations for a powerline OFDM channel to minimize a total transmission energy. The first is the optimal bit allocation derived for a deterministic channel model. The optimal number of bits allotted for each subchannel depends on channel gains, required data rate and transmission duration. For the second allocation, an equal number of bits is transmitted on a subchannel whose ratio between a noise power and squared channel gain is less than certain threshold. This on-off threshold-based bit allocation is also analyzed for a random channel model for which the closed-form expression for the total energy consumption is obtained in a large system limit. Numerical examples show that the optimal bit allocation could results in 83% reduction in transmission energy, compared to a uniform bit allocation and that the on-off allocation performs close to the optimum when a transmission time is short.

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来源期刊

2013 10th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology

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