This paper presents efficient methods to estimate the spectral content of (noisy) periodic waveforms that are common in industrial processes. The techniques presented, which are based on the recursive discrete Fourier transform, are especially useful in computing high-order derivatives of such waveforms. Unlike conventional differentiating techniques, the methods presented differentiate in the frequency domain and thus are quite immune to uncorrelated measurement noise. This paper also shows the theoretical relationship between the proposed methods and those of well-known resonant filters
A technique for separating harmonic sound sources using FIR comb filters is presented. First, a pre-...
A new frequency domain algorithm for multi-component harmonic retrieval has been developed recently....
Any periodical signal can be decomposed in Fourier series. When the number of harmonics is limited a...
AbstractA simple algorithms is presented for calculating the Fourier coefficients of discontinuous a...
This paper describes a new approach for the analysis of signals containing fluctuating harmonics. It...
International audienceIn this paper, the problem of separating the harmonic and aperiodic (noise) co...
The aim of this research is to develop an accurate method for the analysis of signals composed of fl...
In this paper, the problem of separating the harmonic and aperiodic (noise) components of speech sig...
The spectrum-estimation methods based on the Fourier transform suffer from the major problem of reso...
Compose arbitrary periodic signals from a series of sine and cosine waves. Confirm the Fourier Serie...
The discrete Fourier transform (DFT) has become a main method of the harmonic analysis because it ca...
The increasing use of power electronics in power systems causes a high injection of harmonic compone...
Ramanujan filter banks (RFB) have in the past been used to identify periodicities in data. These are...
A resonant filter approach is proposed for direct identification of continuous-time transfer functio...
A novel approach to the spectral analysis of periodic digital filters is proposed based on a symmetr...
A technique for separating harmonic sound sources using FIR comb filters is presented. First, a pre-...
A new frequency domain algorithm for multi-component harmonic retrieval has been developed recently....
Any periodical signal can be decomposed in Fourier series. When the number of harmonics is limited a...
AbstractA simple algorithms is presented for calculating the Fourier coefficients of discontinuous a...
This paper describes a new approach for the analysis of signals containing fluctuating harmonics. It...
International audienceIn this paper, the problem of separating the harmonic and aperiodic (noise) co...
The aim of this research is to develop an accurate method for the analysis of signals composed of fl...
In this paper, the problem of separating the harmonic and aperiodic (noise) components of speech sig...
The spectrum-estimation methods based on the Fourier transform suffer from the major problem of reso...
Compose arbitrary periodic signals from a series of sine and cosine waves. Confirm the Fourier Serie...
The discrete Fourier transform (DFT) has become a main method of the harmonic analysis because it ca...
The increasing use of power electronics in power systems causes a high injection of harmonic compone...
Ramanujan filter banks (RFB) have in the past been used to identify periodicities in data. These are...
A resonant filter approach is proposed for direct identification of continuous-time transfer functio...
A novel approach to the spectral analysis of periodic digital filters is proposed based on a symmetr...
A technique for separating harmonic sound sources using FIR comb filters is presented. First, a pre-...
A new frequency domain algorithm for multi-component harmonic retrieval has been developed recently....
Any periodical signal can be decomposed in Fourier series. When the number of harmonics is limited a...