An electronic percussion instrument comprising a pair of drum assemblies of each of different tone. Each drum assembly is mounted on a housing and comprises a drum head having a sensor responsive to touch and/or pressure and an analog-to-digital converter to generate an electronic signal indicative of said touch and/or pressure. The electronic signal is transmitted to a processing unit which analyses it and generates an output signal. The output signal is transmitted to a sound card which reproduces a sound representative of a drumbeat based on the output signal.

Described are apparatus for generating and/or processing audio signals. One apparatus includes: a first stage for obtaining an audio signal; a second stage for modifying the audio signal based on one or more control signals for shaping sound represented by the audio signal; a third stage for generating spatial metadata related to the modified audio signal, based at least in part on the one or more control signals; and an output stage for outputting the modified audio signal together with the generated spatial metadata. Also described are corresponding methods, as well as corresponding programs and computer-readable storage media.

A device, method, and medium for integrating monaural and binaural beats into music are provided. The music is analyzed to determine key, root tone, and spectral range. It is then remixed with monaural beats and/or binaural beats at frequencies based on a desired entrainment frequency and the root tone and lowest dominant frequency range of the music. Additional harmonics of the beats in higher octaves may be integrated into the music as well using mixing and/or equalization.

Methods and digital circuits providing frequency correction to frequency synthesizers are disclosed. An FLL digital circuit is provided that is configured to handle a reference frequency that is dynamic and ranges over a multi-decade range of frequencies. The FLL circuit includes a digital frequency iteration engine that allows for detection of disappearance of a reference frequency. When the digital frequency iteration engine detects that the reference frequency signal is not available, the oscillator generated frequency is not corrected, and the last value of the oscillator generated frequency is held until the reference frequency signal becomes available again. This FLL circuit is also preceded by a low-pass filter which is dynamically tuned to the frequency to which the FLL locks, eliminating harmonic components in the original signal which might otherwise cause errors in frequency estimation.

Techniques and systems for facilitating the calibration of oscillation frequencies for an analog audio synthesizer are disclosed. Included are embodiments for performing the initial calibration of an audio synthesizer and for continuously compensating for the frequency irregularities which originate from insufficient calibration and/or frequency drift of the oscillator circuits. Embodiments can utilize the microcontroller already present in most synthesizers and require no further hardware.

Techniques and systems for facilitating the calibration of oscillation frequencies for an analog audio synthesizer are disclosed. Included are embodiments for performing the initial calibration of an audio synthesizer and for continuously compensating for the frequency irregularities which originate from insufficient calibration and/or frequency drift of the oscillator circuits. Embodiments can utilize the microcontroller already present in most synthesizers and require no further hardware.

A method of modeling a characteristic of a non-linear system, comprises feeding testing input signals into the non-linear system to obtain testing output signals corresponding to the testing input signals, wherein the testing input signals include a first testing input signal and the testing output signals include a first testing output signal, identifying occurrences when an output level state in at least one specific frequency band of the first testing output signal significantly changes under the first testing input signal so as to obtain a first profile, and modeling the characteristic based on the first profile.

A music synthesizer is provided. The synthesizer divides an input sound into a plurality of musical bands, and, for each divided band, generates a waveform having a predetermined shape with a period corresponding to a detected pitch and with a level corresponding to a detected level. The synthesizer then adds up the waveforms generated for each band and outputs a result thereof.

The invention relates to systems and processes for producing a synthesized sound with based on vibration-driven analog signals. In one aspect, a synthesized sound is produced with a musical instrument by generating a volume envelope with a voltage generator, generating a wave shape with a pitch modifier, merging the volume envelope from the voltage generator and the wave shape from the pitch modifier to create a synthesized signal, and modifying the synthesized signal using a synthesizer interface. The voltage generator includes an electronic pickup and a magnetic resonance actuator that is positioned above and oriented parallel to the electronic pickup.