LTE trials in the return channel over satellite

2012 6th Advanced Satellite Multimedia Systems Conference (ASMS) and 12th Signal Processing for Space Communications Workshop (SPSC) Pub Date : 2012-10-18 DOI:10.1109/ASMS-SPSC.2012.6333083

V. Jungnickel, H. Gäbler, U. Krueger, K. Manolakis, T. Haustein

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引用次数: 6

Abstract

Integrating terrestrial and satellite communications promises several advantages, whereas the most evident one is that modern satellite networks achieve global coverage using a multiple spot beam architecture. In order to increase the spectral efficiency, orthogonal waveforms like single-carrier frequency-division multiple access (SC-FDMA) are investigated recently. In this paper, we verify experimentally that SC-FDMA waveforms taken from the 3GPP Long Term Evolution (LTE) standard can be transmitted reliably in the return channel over satellite using low-cost equipment. Mainly, we introduce an additional timing advance offset depending on satellite elevation and geographical location. And we ensure that precise information about the frequency offset measured in the forward channel is reused for compensation in the return channel at each terminal. We demonstrate in real-time transmission experiments over a geostationary Ku-band satellite that all modulation formats defined for the up-link in the LTE Release 8 standard can be decoded error-free. Using 16-QAM, we have realized a spectral efficiency of 3.2 bits/s/Hz.

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在卫星返回信道上进行LTE试验

整合地面和卫星通信有几个优势，而最明显的一个是现代卫星网络使用多点波束架构实现全球覆盖。为了提高频谱效率，近年来人们对单载波频分多址(SC-FDMA)等正交波形进行了研究。在本文中，我们通过实验验证了采用3GPP长期演进(LTE)标准的SC-FDMA波形可以使用低成本设备在卫星返回信道中可靠地传输。主要是根据卫星高度和地理位置引入额外的授时提前偏移。并且我们确保在前向信道中测量的频率偏移的精确信息在每个终端的返回信道中用于补偿。我们在地球同步ku波段卫星上的实时传输实验中证明，LTE Release 8标准中为上行链路定义的所有调制格式都可以无差错解码。使用16-QAM，我们实现了3.2 bit /s/Hz的频谱效率。

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

2012 6th Advanced Satellite Multimedia Systems Conference (ASMS) and 12th Signal Processing for Space Communications Workshop (SPSC)

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