A genetic algorithm is used to estimate the parameters of periodic signals in multiharmonic waveform fitting. This algorithm is used to find the fundamentalfrequency which can then be used in a multiple linear least-squares (LS) waveform fitting algorithm. This procedure is applied to different multiharmonic signals with very good results. The main advantage of genetic algorithms when compared with traditional LS minimization methods is that genetic algorithms can recover whenever the operation point in the iteration falls on a local maximum or minimum. This method is applied to experimentally acquired signals usedfor impedance measurements
A new procedure to estimate the value of the individual components of a two-terminal impedance netwo...
Wavetable matching is the process of finding the parameters needed to resynthesize a musical instrum...
In this paper a novel method based on evolutionary algorithms is presented to estimate the harmonic ...
A genetic algorithm is used to estimate the parameters of sine and multiharmonic acquired waveforms....
In this paper, a procedure to measure impedances using data-acquisition boards and genetic algorithm...
In this paper, two genetic algorithm variants are applied to sine fitting of acquired waveforms, to ...
Voltage and current waveforms of a distribution or transmission power system are not pure sinusoids....
Spectrum matching of musical instrument tones is a fundamental problem in computer music. Two method...
Estimating the fundamental frequency and harmonic parameters is basic for signal modelling in a powe...
Multiharmonic least-squares fitting algorithms have been applied in many fields of instrumentation a...
Multi-harmonic signals are useful in many applications to estimate the frequency response of a devic...
This paper presents results of evolutionary minimisation of peak-to-peak value of a?multi-tone signa...
Proposed method combines numerical differentiation and genetic algorithm. Fast computation of accura...
Current and voltage waveforms of a distribution or a transmission system are not pure sinusoids. The...
This paper compares the performance of the complex nonlinear least squares algorithm implemented in ...
A new procedure to estimate the value of the individual components of a two-terminal impedance netwo...
Wavetable matching is the process of finding the parameters needed to resynthesize a musical instrum...
In this paper a novel method based on evolutionary algorithms is presented to estimate the harmonic ...
A genetic algorithm is used to estimate the parameters of sine and multiharmonic acquired waveforms....
In this paper, a procedure to measure impedances using data-acquisition boards and genetic algorithm...
In this paper, two genetic algorithm variants are applied to sine fitting of acquired waveforms, to ...
Voltage and current waveforms of a distribution or transmission power system are not pure sinusoids....
Spectrum matching of musical instrument tones is a fundamental problem in computer music. Two method...
Estimating the fundamental frequency and harmonic parameters is basic for signal modelling in a powe...
Multiharmonic least-squares fitting algorithms have been applied in many fields of instrumentation a...
Multi-harmonic signals are useful in many applications to estimate the frequency response of a devic...
This paper presents results of evolutionary minimisation of peak-to-peak value of a?multi-tone signa...
Proposed method combines numerical differentiation and genetic algorithm. Fast computation of accura...
Current and voltage waveforms of a distribution or a transmission system are not pure sinusoids. The...
This paper compares the performance of the complex nonlinear least squares algorithm implemented in ...
A new procedure to estimate the value of the individual components of a two-terminal impedance netwo...
Wavetable matching is the process of finding the parameters needed to resynthesize a musical instrum...
In this paper a novel method based on evolutionary algorithms is presented to estimate the harmonic ...