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引用次数: 22
摘要
FLANN和利用三角函数的广义FLANN滤波器常用于有源噪声控制。然而,它们不能任意地逼近每一个因果的、时不变的、有限记忆的非线性系统,也就是说,它们不是像Volterra滤波器那样的普遍逼近器。在本文中,我们提出了一类新的FLANN滤波器,称为完全FLANN滤波器,它满足Stone-Weierstrass定理,因此可以很好地逼近任何非线性时不变有限记忆连续系统。CFLANN滤波器是一类非线性滤波器的成员,其特征是其输出与滤波器系数线性相关。因此,它们可以有效地以滤波器组的形式实现,并使用简单地从应用于线性滤波器的算法派生出来的算法进行调整。本文将一种非线性滤波- x NLMS算法应用于CFLANN滤波器,并描述了该算法在非线性主动噪声控制领域的一些有用应用。
A new class of FLANN filters with application to nonlinear active noise control
FLANN and generalized FLANN filters exploiting trigonometric functions are often used in active noise control. However, they cannot approximate arbitrarily well every causal, time-invariant, finite-memory, nonlinear system, i.e., they are not universal approximators as the Volterra filters. In this paper, we propose a novel class of FLANN filters, called Complete FLANN filters, which satisfy the Stone-Weierstrass theorem, and thus can arbitrarily well approximate any nonlinear, time-invariant, finite-memory, continuous system. CFLANN filters are members of the class of nonlinear filters characterized by the property that their output depends linearly on the filter coefficients. As a consequence, they can be efficiently implemented in the form of a filter bank and adapted using algorithms simply derived from those applied to linear filters. In the paper, we apply a nonlinearly Filtered-X NLMS algorithm for CFLANN filters and describe some useful applications in the area of nonlinear active noise control.
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