On the use of DVB-H for Satellite Multimedia Networks

2006 IEEE 17th International Symposium on Personal, Indoor and Mobile Radio Communications Pub Date : 2006-12-11 DOI:10.1109/PIMRC.2006.254085

S. Cioni, G. Corazza, M. Neri, A. Vanelli-Coralli

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引用次数: 1

Abstract

In all short-medium term business/market forecasts, the efficient provision of digital multimedia broadcasting (DMB) services in mobile systems appears to be of key importance for mobile operators and broadcasters. Several DMB systems are being developed around the world, with several proposed competing standards. In this framework, the DVB (digital video broadcasting) forum is working to define a new air interface, identified as DVB-SSP, to deliver satellite services to portable devices, and several possibilities are being considered as viable options, including the use of DVB-H (handheld). A critical factor to be considered is the resilience to non linear distortion effects. In fact, DVB-H signals are obtained through an OFDM modulation, which traditionally was considered unfit for satellite communications. Recently (S. Cioni et al., 2005), it has been proved that the adoption of strong channel coding techniques in conjunction with the use of non-linear distortion compensation techniques can lead to good OFDM performance even when operating close to amplifier saturation. Following this avenue, this paper investigates the adaptation of the DVB-H physical layer to the satellite environment, and validates the improved robustness of the proposed scheme to non linear distortion

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浅谈DVB-H在卫星多媒体网络中的应用

在所有中短期业务/市场预测中，在流动系统中有效提供数字多媒体广播(DMB)服务似乎对流动营办商和广播公司至关重要。世界各地正在开发几种DMB系统，并提出了几种相互竞争的标准。在这个框架中，DVB(数字视频广播)论坛正在努力定义一种新的空中接口，被确定为DVB- ssp，以向便携式设备提供卫星服务，并且正在考虑几种可行的选择，包括使用DVB- h(手持)。要考虑的一个关键因素是对非线性失真效应的弹性。事实上，DVB-H信号是通过OFDM调制获得的，这种调制传统上被认为不适合卫星通信。最近(S. Cioni et al.， 2005)已经证明，即使在接近放大器饱和的情况下，采用强信道编码技术并结合使用非线性失真补偿技术也可以获得良好的OFDM性能。在此基础上，研究了DVB-H物理层对卫星环境的适应性，并验证了该方案对非线性失真的鲁棒性

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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2006 IEEE 17th International Symposium on Personal, Indoor and Mobile Radio Communications

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