An electronic percussion instrument includes a base and a drumhead mounted resiliently on the base so as to be movable relative to the base. A plurality of sensors to detect movement of the drumhead relative to the base are spaced about the drumhead at selected positions to measure displacement of the drumhead relative to the base at said selected positions. At least some of said sensors are adjacent the rim of the drumhead and are responsive to movement of the rim of the drumhead towards and away from the base. The individual sensors respond to the movement at their location and the individual responses of the plurality of sensors are simultaneously measured and compared to determine the location of a hit on the drumhead, the force of the hit, and/or the duration of the hit.

A stick device that includes a base and a tip end, and a tip secured to the tip end of the stick, the stick tip including a sensor. The stick including the base thereof, and includes at least one control button, a communication element, and a processor in communication with the at least one control button, the stick tip and the communication element. The processor is configured to receive a signal from the stick tip and to generate output to the communication element. The output so generated includes a signal that specifies a sound file selected by operation of the at least one control button.

A percussion device includes a drumstick assembly. The drumstick assembly includes a drumstick having a base and a tip end, and a drumstick tip secured to the tip end of the drumstick, the drumstick tip including a sensor. The drumstick including the base thereof, and includes at least one control button, a communication element, and a processor in communication with the at least one control button, the drumstick tip and the communication element. The processor is configured to receive a signal from the drumstick tip and to generate output to the communication element. The output so generated includes a signal that specifies a sound file selected by operation of the at least one control button.

Percussive interactive device characterized in that it is composed of an external polyhedric case of deformable material and of an internal case housing an electronic device, whose purpose is to detect external forces applied on said device and to transmit the data collected, once converted into electronic data for audio applications, to an external device used to process and emit sound.

Percussive interactive device characterized in that it is composed of an external polyhedric case of deformable material and of an internal case housing an electronic device, whose purpose is to detect external forces applied on said device and to transmit the data collected, once converted into electronic data for audio applications, to an external device used to process and emit sound.

An electronic musical instrument that is easy to use is provided. The electronic musical instrument includes a packing box (2) formed into a box shape capable of accommodating a converter (4) and an output device (5). The packing box (2) has an opening portion (21a) formed in a side surface, and thus it is possible to use the packing box (2) as a percussion instrument simulating a Cajon taking the opening portion (21) a as a sound hole. That is, an electronic musical instrument (1) is used employing the packing box (2) that simulates a Cajon, and thus labor for preparing a musical instrument is saved. Thus, the electronic musical instrument (1) is easy to use.

A device is provided as part of a system, the device being for capturing vibrations produced by an object such as a musical instrument. Via a fixation element, the device is fixed to a drum. The device has a sensor spaced apart from a surface of the drum, located relative to the drum, and a magnet adjacent the sensor. The fixation element transmits vibrations from its fixation point on the drum to the magnet. Vibrations from the surface of the drum and from the magnet are transmitted to the sensor. A method may further be provided for interpreting an audio input, such as the output of the sensors within the system, the method comprising identifying an audio event or grouping of audio events within audio data, generating a model of the audio event that includes a representation of a timbre characteristic, and comparing that representation to expected representations.

An electronic musical instrument comprising a lower frame member having a first end and a second end, and above the handle portion of the first end are a plurality of apertures extending through the lower frame member towards the second end, pins mounted within the plurality of apertures in predetermined locations, jingles loosely mounted to the pins, so that when the instrument is shaken a tambourine sound is emitted, an upper frame member having a first end and a second end wherein the first end of the upper frame member is attached distal to the first end of the lower frame member, at least one strip attached to the lower frame member, and an activation switch attached to the upper frame member, so that when the second end of the upper frame member and the second end of the lower frame member come in contact the strip is activated.

A device is provided as part of a system, the device being for capturing vibrations produced by an object such as a musical instrument. Via a fixation element, the device is fixed to a drum. The device has a sensor spaced apart from a surface of the drum, located relative to the drum, and a magnet adjacent the sensor. The fixation element transmits vibrations from its fixation point on the drum to the magnet. Vibrations from the surface of the drum and from the magnet are transmitted to the sensor. A method may further be provided for interpreting an audio input, such as the output of the sensors within the system, the method comprising identifying an audio event or grouping of audio events within audio data, generating a model of the audio event that includes a representation of a timbre characteristic, and comparing that representation to expected representations.

A percussion device includes a drumstick assembly. The drumstick assembly includes a drumstick having a base and a tip end, and a drumstick tip secured to the tip end of the drumstick, the drumstick tip including a sensor. The drumstick including the base thereof, and includes at least one control button, a communication element, and a processor in communication with the at least one control button, the drumstick tip and the communication element. The processor is configured to receive a signal from the drumstick tip and to generate output to the communication element. The output so generated includes a signal that specifies a sound file selected by operation of the at least one control button.