The authors present an efficient FIR (finite impulse response) filter design algorithm that generalizes existing cascaded FIR prefilter-equalizer methods. They propose using cyclotomic polynomial building blocks to form a multiplierless prefilter with impressive stopband performance, and they provide a straightforward strategy for choosing the polynomials to match filter specification. Two options for design of the equalizer are provided. A uniformly spaced equalizer can be optimally (L/sub infinity /) designed via a modified Parks-McClellan algorithm. A new algorithm, based on complex basis function subset selection methods, is also proposed for optimal design of a more efficient, nonuniformly spaced equalizer. The techniques, which can be applied to a broad class of filter design problems, typically provide a 35%-85% reduction in the number of additions and multiplications required, with a cost of 10%-45% additional delays. The methods also provide reduced coefficient quantization sensitivity and reduced roundoff noise.
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机译:作者提出了一种有效的FIR(有限冲激响应)滤波器设计算法,该算法可概括现有的级联FIR预滤波器均衡器方法。他们提出使用循环多项式构造块来形成具有令人印象深刻的阻带性能的无乘法器预滤波器,并且他们提供了一种选择多项式以匹配滤波器规格的简单策略。提供了两种均衡器设计选项。均匀的均衡器可以通过改进的Parks-McClellan算法进行最佳设计(L / sub infinity /)。还提出了一种基于复杂基函数子集选择方法的新算法,用于更高效,非均匀间隔的均衡器的优化设计。该技术可应用于各种滤波器设计问题,通常可将所需的加法和乘法次数减少35%-85%,而额外延迟的成本为10%-45%。该方法还提供降低的系数量化灵敏度和降低的舍入噪声。
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