基于arm9移动平台的Reed-Solomon解码执行时间建模

2008 Proceedings of 17th International Conference on Computer Communications and Networks Pub Date : 2008-11-17 DOI:10.1109/ICCCN.2008.ECP.148

Kyungtae Kang, Cheolgi Kim, D. Noh, Junhee Ryu

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引用次数: 3

摘要

BCMCS(广播和组播业务)极大地增加了CDMA2000移动网络的多媒体广播容量，但只需要对现有的无线电和核心网络协议进行微小的更改。为了在易出错的无线网络上提供高质量的多媒体服务，我们需要控制延迟，因为它是多媒体应用最重要的QoS参数之一。我们确定了在介质访问控制(MAC)层中使用里德-所罗门(RS)前向纠错(FEC)的错误控制是延迟变化的重要原因，并提出了一个新的分析模型，该模型可以预测移动设备在不同级别的块交错和不同条件下RS解码所需的时间。这个模型使我们能够估计确保无缝多媒体服务所需的缓冲区大小。

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Modeling the Execution Time of Reed-Solomon Decoding on an ARM9-Based Mobile Platform

BCMCS (broadcast and multicast services) greatly increase the capacity of CDMA2000 mobile networks for multimedia broadcasting, but only require minor changes to existing radio and core network protocols. To provide high-quality multimedia services over error-prone wireless networks, we need to control delay, because it is one of the most important QoS parameters for multimedia applications. We identified error control using Reed-Solomon (RS) forward error correction (FEC) in the medium access control (MAC) layer as a significant cause of delay variation, and have proposed a novel analytic model that can predict the time required for RS decoding at a mobile, under different levels of block interleaving and for varying conditions of the Rayleigh fading channel at that mobile. This model enables us to estimate the buffer size required to ensure seamless multimedia services.

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2008 Proceedings of 17th International Conference on Computer Communications and Networks

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