A class of rational systems for modelling 1/f power spectra [of biological signals]

1993 IEEE Annual Northeast Bioengineering Conference Pub Date : 1993-03-18 DOI:10.1109/NEBC.1993.404386

G. Maskarinec, B. Onaral

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Abstract

A class of rational systems for modelling the power spectra of 1/f signals are introduced. This class is characterized by the cascade of frequency scaled versions of an arbitrary prototype rational function which has the same number of zeros and poles. The novelty of the approach lies in the fact that the scale-invariant nature of the power-law response is intentionally imposed on the rational system via the frequency scaling operation, resulting in /spl gamma/-homogeneous rational functions. For finite bandwidth systems, as the number of elements in the cascade increases, the deviations from exact 1/f behavior decrease so that arbitrarily good approximations to an exact power-law behavior can be achieved. The rational models previously derived using other approaches can be shown to be special cases of the class of rational models introduced here. While these results have been presented in the context of the rational modelling of 1/f power spectra, the solution can be used to achieve a power-law magnitude response where the scaling exponent /spl lambda/ satisfies -/spl infin/ < /spl lambda/ < /spl infin/.<>

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一类模拟[生物信号]1/f功率谱的有理系统

介绍了一类用于1/f信号功率谱建模的有理系统。该类的特点是具有相同数量的零点和极点的任意原型有理函数的频率缩放版本级联。该方法的新颖之处在于幂律响应的尺度不变特性通过频率缩放操作被有意地施加到有理系统上，从而产生/spl γ /-齐次有理函数。对于有限带宽系统，随着级联中元素数量的增加，与精确1/f行为的偏差减少，因此可以实现对精确幂律行为的任意良好近似。以前使用其他方法推导的有理模型可以被证明是这里介绍的一类有理模型的特殊情况。虽然这些结果是在1/f功率谱的合理建模背景下提出的，但该解决方案可用于实现幂律幅度响应，其中缩放指数/spl lambda/满足-/spl infin/ < /spl lambda/ < /spl infin/ >。

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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1993 IEEE Annual Northeast Bioengineering Conference

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