A novel filtering structure with linear complexity is proposed for Lagrange interpolation. The structure is similar to the Farrow structure in principle, but it is more efficient and has the additional feature of being order updatable on-the-fly. The main application for the proposed structure is the implementation of fractional delay filters to mitigate the symbol synchronization errors in digital communications. Some other applications are time-delay estimation, echo cancellation, acoustic modeling, and arbitrary sampling rate conversion
This paper describes improvements in a Farrow-structured variable fractional delay (FD) Lagrange fil...
Fractional delay filters (FDFs) play an important role in certain areas of digital signal processing...
This paper proposes a new method for designing the polynomial-interpolation-type noninteger-delay fi...
Abstract—A novel filtering structure with linear complexity is proposed for Lagrange interpolation. ...
Lagrange interpolation is widely used in signal processing applications such as variable fractional ...
cote interne IRCAM: Tassart96a/National audienceMany studies have been undertaken on the modeling of...
cote interne IRCAM: Depalle96a/National audienceMany studies have been undertaken on the modeling of...
An efficient implementation technique for the Lagrange interpolation is derived. This formulation ca...
International audienceThis letter presents a rigorous demonstration of the convergence of the Newton...
cote interne IRCAM: Tassart97b/National audienceWe propose in this paper a new point of view which u...
International audienceIn this paper, a novel method for designing reconfigurable Newton structure is...
Fractional-delay filter is the general name given to filters modelling non-integer delays. Such filt...
This paper proposes a conceptual modification of the interpolator used by the extended window design...
The Farrow structure can be used for efficient realization of adjustable fractional-delay FIR filter...
Reduction in hardware complexities is vital in communication. The major contribution to hardware com...
This paper describes improvements in a Farrow-structured variable fractional delay (FD) Lagrange fil...
Fractional delay filters (FDFs) play an important role in certain areas of digital signal processing...
This paper proposes a new method for designing the polynomial-interpolation-type noninteger-delay fi...
Abstract—A novel filtering structure with linear complexity is proposed for Lagrange interpolation. ...
Lagrange interpolation is widely used in signal processing applications such as variable fractional ...
cote interne IRCAM: Tassart96a/National audienceMany studies have been undertaken on the modeling of...
cote interne IRCAM: Depalle96a/National audienceMany studies have been undertaken on the modeling of...
An efficient implementation technique for the Lagrange interpolation is derived. This formulation ca...
International audienceThis letter presents a rigorous demonstration of the convergence of the Newton...
cote interne IRCAM: Tassart97b/National audienceWe propose in this paper a new point of view which u...
International audienceIn this paper, a novel method for designing reconfigurable Newton structure is...
Fractional-delay filter is the general name given to filters modelling non-integer delays. Such filt...
This paper proposes a conceptual modification of the interpolator used by the extended window design...
The Farrow structure can be used for efficient realization of adjustable fractional-delay FIR filter...
Reduction in hardware complexities is vital in communication. The major contribution to hardware com...
This paper describes improvements in a Farrow-structured variable fractional delay (FD) Lagrange fil...
Fractional delay filters (FDFs) play an important role in certain areas of digital signal processing...
This paper proposes a new method for designing the polynomial-interpolation-type noninteger-delay fi...