In this letter, we propose a novel all-pass (AP) fractional delay filter whose denominator polynomial is obtained by truncating the power series of a certain function. This function is derived from the frequency response of the denominator whose magnitude response is related to the desired phase response through the Hilbert transform since the denominator of a stable AP filter is of minimum phase. The target function and corresponding power series are calculated analytically and expressed in closed form. The closed-form expressions facilitate the analysis of stability. According to the properties for the coefficients of the denominator polynomial, we show that the proposed AP filter is stable for positive delay. Numerical examples indicate ...
cote interne IRCAM: Tassart96a/National audienceMany studies have been undertaken on the modeling of...
Abstract—This paper presents a noniterative weighted-least-squares (WLS) method for designing allpas...
In this paper, we generalize the well-known variable fractional delay filter structure of Farrow to ...
In this letter, we develop an algorithm for the design of allpass variable fractional delay filter w...
Fractional delay (FD) filters are an important class of digital filters, and are useful in various s...
Fractional-delay filter is the general name given to filters modelling non-integer delays. Such filt...
cote interne IRCAM: Tassart97b/National audienceWe propose in this paper a new point of view which u...
This paper presents a computational method for the optimal design of all-pass variable fractional-de...
This correspondence investigates the least squares and minimax design problems for allpass variable ...
This paper investigates the optimal design of allpass variable fractional delay (VFD) filters with c...
In most approximation techniques for implementing a vari-able fractional delay, like Lagrange interp...
International audienceThis letter presents a rigorous demonstration of the convergence of the Newton...
[[abstract]]In this brief, the designs of fixed-fractional-delay FIR filters using fractional-deriva...
Abstract—In this letter, the Taylor series expansion is used to transform the design problem of a fr...
cote interne IRCAM: Depalle96a/National audienceMany studies have been undertaken on the modeling of...
cote interne IRCAM: Tassart96a/National audienceMany studies have been undertaken on the modeling of...
Abstract—This paper presents a noniterative weighted-least-squares (WLS) method for designing allpas...
In this paper, we generalize the well-known variable fractional delay filter structure of Farrow to ...
In this letter, we develop an algorithm for the design of allpass variable fractional delay filter w...
Fractional delay (FD) filters are an important class of digital filters, and are useful in various s...
Fractional-delay filter is the general name given to filters modelling non-integer delays. Such filt...
cote interne IRCAM: Tassart97b/National audienceWe propose in this paper a new point of view which u...
This paper presents a computational method for the optimal design of all-pass variable fractional-de...
This correspondence investigates the least squares and minimax design problems for allpass variable ...
This paper investigates the optimal design of allpass variable fractional delay (VFD) filters with c...
In most approximation techniques for implementing a vari-able fractional delay, like Lagrange interp...
International audienceThis letter presents a rigorous demonstration of the convergence of the Newton...
[[abstract]]In this brief, the designs of fixed-fractional-delay FIR filters using fractional-deriva...
Abstract—In this letter, the Taylor series expansion is used to transform the design problem of a fr...
cote interne IRCAM: Depalle96a/National audienceMany studies have been undertaken on the modeling of...
cote interne IRCAM: Tassart96a/National audienceMany studies have been undertaken on the modeling of...
Abstract—This paper presents a noniterative weighted-least-squares (WLS) method for designing allpas...
In this paper, we generalize the well-known variable fractional delay filter structure of Farrow to ...