Resource Allocation Method for OFDM System to Transmit SVC over Frequency Selective Channel

2010 Sixth Advanced International Conference on Telecommunications Pub Date : 2010-05-09 DOI:10.1109/AICT.2010.35

Daeyeon Kim, T. Fujii, Kye-san Lee

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引用次数: 2

Abstract

Orthogonal frequency division multiplexing provides frequency diversity gain when assuming frequency selective channel which happens in most cases of wireless mobile communications. The frequency diversity can be utilized by considering data which requires unequal protection. Video data coded by scalable video coding method is an example. The video coding method encodes a certain picture period termed as group of pictures into a bit stream which can be divided into one or more decodable units. The unit is called as video layer. However the decodability of each video layer is dependent on existence of other video layers in the same bit stream. The dependency causes priority of the layer. This paper proposes a method to improve video transmission performance by adaptively providing radio resources according to the priority of the layers and also by controlling the number of the layers according to channel condition. The proposed method actives only useful subchannels and adaptively applies modulation level to the active subchannels. In the simulation, the proposed system showed 4 to 5 dB improvement in terms of channel quality, compared to a single carrier system.

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OFDM系统在选频信道上传输SVC的资源分配方法

正交频分复用在假定频率选择信道时提供频率分集增益，这在大多数情况下发生在无线移动通信中。频率分集可以通过考虑需要不均等保护的数据来利用。采用可伸缩视频编码方法对视频数据进行编码就是一个例子。视频编码方法将称为一组图像的特定图像周期编码为可分为一个或多个可解码单元的比特流。该单元称为视频层。然而，每个视频层的可解码性依赖于同一比特流中其他视频层的存在。依赖关系导致层的优先级。本文提出了一种根据层的优先级自适应提供无线电资源，并根据信道条件控制层数的方法来提高视频传输性能。该方法只激活有用的子信道，并自适应地对活动子信道施加调制电平。在仿真中，与单载波系统相比，该系统的信道质量提高了4 ~ 5db。

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

2010 Sixth Advanced International Conference on Telecommunications

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