Add to ORKGA commercially available Fourier synthesizer is used to add together various harmonics of 440 Hz and to create a square wave and a triangular wave. The sound of the wave can be heard as the harmonics are added, and the difference between the square wave and the triangular wave is clearly audible. The synthesized square wave is illustrated in Figure 1
cote interne IRCAM: Rodet92bNational audienceThe idea of synthesizing sounds by summing sinusoidal o...
International audienceBeyond the scope of thermal conduction, Joseph Fourier's treatise on the Analy...
This paper discusses a generative compositional approach within a modular synthesiser system using s...
Combine up to nine harmonic frequencies to visualize the resulting waveform using Fourier synthesis....
A wave synthesizer has been constructed that converts a 60 cycle saw-tooth input into an output cons...
Electronic solid state circuitry controlled by an SDK-85 microcomputer forms the basis of a digitall...
Each musical instrument makes distinct sounds, caused by harmonics particular to that instrument. Ha...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Learn how to make waves of all different shapes by adding up sines or cosines. Make waves in space a...
In Fourier synthesis, natural musical sounds are produced by summing time-varying sinusoids. Sounds ...
The main purpose of the article is to set up and study triangular waveform using Op-amp 741. A squar...
Nowadays there is a wide variety of applications related to the world of music. It is a very wide sp...
Acustic conceptsMix up to six frequencies and change the duration of this synthetic sound. The phase...
ABSTRACT This paper reports a novel architecture for multi-channel sine and square wave synthesize...
A nonlinear sound synthesis technique that uses a sinusoidal input signal and a rational shaping fun...
cote interne IRCAM: Rodet92bNational audienceThe idea of synthesizing sounds by summing sinusoidal o...
International audienceBeyond the scope of thermal conduction, Joseph Fourier's treatise on the Analy...
This paper discusses a generative compositional approach within a modular synthesiser system using s...
Combine up to nine harmonic frequencies to visualize the resulting waveform using Fourier synthesis....
A wave synthesizer has been constructed that converts a 60 cycle saw-tooth input into an output cons...
Electronic solid state circuitry controlled by an SDK-85 microcomputer forms the basis of a digitall...
Each musical instrument makes distinct sounds, caused by harmonics particular to that instrument. Ha...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Learn how to make waves of all different shapes by adding up sines or cosines. Make waves in space a...
In Fourier synthesis, natural musical sounds are produced by summing time-varying sinusoids. Sounds ...
The main purpose of the article is to set up and study triangular waveform using Op-amp 741. A squar...
Nowadays there is a wide variety of applications related to the world of music. It is a very wide sp...
Acustic conceptsMix up to six frequencies and change the duration of this synthetic sound. The phase...
ABSTRACT This paper reports a novel architecture for multi-channel sine and square wave synthesize...
A nonlinear sound synthesis technique that uses a sinusoidal input signal and a rational shaping fun...
cote interne IRCAM: Rodet92bNational audienceThe idea of synthesizing sounds by summing sinusoidal o...
International audienceBeyond the scope of thermal conduction, Joseph Fourier's treatise on the Analy...
This paper discusses a generative compositional approach within a modular synthesiser system using s...