无线通信的带宽高效调制

2003 IEEE Topical Conference on Wireless Communication Technology Pub Date : 2003-10-15 DOI:10.1109/WCT.2003.1321449

D. Wenzel, J. Poklemba

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引用次数: 3

摘要

随着无线技术的发展，可用的射频频谱已成为一种重要的商品。当前频谱的拥挤导致研究更有效地利用已分配的带宽。正交残余边带(QVSB)是一种带宽高效的调制方案，其数据容量是传统正交残余边带的两倍。通过叠加两个vsb调制的独立数据流，QVSB可以在使用一半带宽的情况下实现与传统奈奎斯特滤波的双边带(DSB)方案相当的数据速率。高效、高速率、涡轮产品编码(tpc)与QVSB调制结合使用，以实现功率和带宽效率高的系统。特别是，容量性能从香农边界约为4至5.5 dB，高达约5 bits/s/Hz，是迄今为止模拟的最高容量。

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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Bandwidth-efficient modulation for wireless communications

As wireless technologies have evolved, the available radiofrequency spectrum has become an important commodity. The current crowding of the spectrum leads to the investigation of more efficient uses of allocated bandwidth. Quadrature-vestigial-sideband (QVSB) is a bandwidth-efficient modulation scheme that doubles the data capacity of conventional VSB. By superimposing two VSB-modulated, independent data streams, QVSB can achieve data rates equivalent to conventional, Nyquist-filtered, double-sideband (DSB) schemes, using half the bandwidth. Efficient, high-rate, turbo-product-codes (TPCs) are used in conjunction with QVSB modulation, to achieve a system which is both power and bandwidth efficient. In particular, capacity performance is about 4 to 5.5 dB from the Shannon bound, up to approximately 5 bits/s/Hz, the highest capacity simulated thus far.

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2003 IEEE Topical Conference on Wireless Communication Technology

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