Filter Bank Design for DFT Based Transmultiplexers

2005 Asia-Pacific Conference on Communications Pub Date : 2005-12-12 DOI:10.1109/APCC.2005.1554206

A. Lim, H. H. Dam, S. Nordholm

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引用次数: 5

Abstract

This paper investigates the application of filter bank design techniques on the DFT based transmultiplexers to ameliorate the effects of in-band aliasing and consequently improve the performance of the system. With this approach, one is allowed flexibility in the design of the synthesis and analysis filters. Hence, a suitable prototype filter can be selected and specific values assigned to its parameters, namely the cut-off frequency, main lobe width and side lobe amplitudes so as to construct an ideal filter for optimal recovery. Investigation results depict that increasing the cut-off frequency of the prototype filter by a small increment delta, enhances system performance through the widening of the stopband tolerance region which reduces the effect of aliasing. Simulations also show that using a Kaiser prototype filter with a wide main lobe and low side lobe amplitudes generates the most favorable results. Moreover, it was observed that the performance of the transmultiplexer can be improved by increasing the number of sub-carriers and oversampling factor. The evaluation of the transmultiplexer structure for this paper was assessed in terms of its bit error rate (BER) performance

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基于DFT的复用器滤波器组设计

本文研究了滤波器组设计技术在基于DFT的复用器上的应用，以改善带内混叠的影响，从而提高系统的性能。使用这种方法，可以灵活地设计合成和分析滤波器。因此，可以选择合适的原型滤波器，并对其参数即截止频率、主瓣宽度和旁瓣幅值赋予特定值，从而构造出恢复最佳的理想滤波器。研究结果表明，将原型滤波器的截止频率增加一个小增量增量，可以通过扩大阻带容限区域来减小混叠影响，从而提高系统性能。仿真结果还表明，采用主瓣宽、副瓣幅值低的Kaiser原型滤波器可获得较好的滤波效果。此外，还观察到通过增加子载波数和过采样因子可以改善多路复用器的性能。本文从误码率(BER)性能方面对多路复用器结构进行了评价

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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2005 Asia-Pacific Conference on Communications

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