An electronic percussion device has a plurality of triggerable actuators, in the form of any of pads, external trigger inputs or foot switches, that may be organized into synchronized groups, and has an operational mode in which triggering of any actuator within the synchronized group initiates playback of audio events or execution of control functions associated with other of the actuators within the synchronized group in one of multiple different synchronization orders, e.g. one at a time, all simultaneously, random or in a predefined or user-defined consecutive order.

A compact drum kit is provided. The drum kit has a body having a hollow interior cavity and a sound hole for transmitting sound wave from the interior cavity to exterior of the body, the body has a striking head and an opposing resonant head. The drum kit has a top plate attaching to a top side of the body and a platform attaching to a bottom side of the body. The drum kit has a shaft mounting bracket attaching to the top plate and a pivot shaft mounting bracket attaching to the top plate. A plurality of upward extending component mounting shafts are supported by one of the shaft mounting bracket and the pivot shaft mounting bracket. One or more percussion modules that attach to one or more of the plurality of component mounting shafts, wherein each percussion module produces a sound in response to being struck or scraped. A drum kick assembly is positioned on the striking head side of the body and including a beater positioned to strike the striking head of the body to produce a sound. A hi-hat pedal assembly is positioned on the resonant head side of the body.

The present invention provides a sounding control system capable of performing high-accuracy crosstalk suppression while reducing the processing load on a sound source device. When a first pad (12) vibrates, the first pad (12) generates sound emission data (62a1) that is information instructing a sound source device (11) to produce a sound and crosstalk cancellation determination data (62a2) that is information used for canceling crosstalk, and sends the data to the sound source device (11). The sound source device (11) determines whether or not crosstalk has occurred and controls sound emission using the information.

A method, such as a computer implemented method, of data management, wherein content utilized by a first user can be identified and information about such content can be shared to at least one additional user such that the at least one additional user can pull the identified content from the content source.

Motion control data is received from one or more sensors. A first parameter value associated with a music composition is received from a digital audio workstation. A second parameter value associated with the music composition is received from the digital audio workstation. The motion control data is converted to one or more manipulations of one or more virtual objects. The one or more manipulations of the one or more virtual objects are mapped to at least a first command that adjusts the first parameter value and a second command that adjusts the second parameter value. The first command is sent to the digital audio workstation using a first audio input protocol recognized by the digital audio workstation. The second command is sent to the digital audio workstation using a second audio input protocol recognized by the digital audio workstation.

A compact drum kit is provided. The drum kit has a body having a hollow interior cavity and a sound hole for transmitting sound wave from the interior cavity to exterior of the body, the body has a striking head and an opposing resonant head. The drum kit has a top plat attaching to a top side of the body and a platform attaching to a bottom side of the body. The drum kit has a shaft mounting bracket attaching to the top plat and a pivot shaft mounting bracket attaching to the top plat. A plurality of upward extending component mounting shafts are supported by one of the shaft mounting bracket and the pivot shaft mounting bracket. One or more percussion modules that attach to one or more of the plurality of component mounting shafts, wherein each percussion module produces a sound in response to being struck or scraped. A drum kick assembly is positioned on the striking head side of the body and including a beater positioned to strike the striking head of the body to produce a sound. A hi-hat pedal assembly is positioned on the resonant head side of the body.

The present invention provides a sounding control system capable of performing high-accuracy crosstalk suppression while reducing the processing load on a sound source device. When a first pad (12) vibrates, the first pad (12) generates sound emission data (62a1) that is information instructing a sound source device (11) to produce a sound and crosstalk cancellation determination data (62a2) that is information used for canceling crosstalk, and sends the data to the sound source device (11). The sound source device (11) determines whether or not crosstalk has occurred and controls sound emission using the information.

Motion control data is received from one or more sensors. A first parameter value associated with a music composition is received from a digital audio workstation. A second parameter value associated with the music composition is received from the digital audio workstation. The motion control data is converted to one or more manipulations of one or more virtual objects. The one or more manipulations of the one or more virtual objects are mapped to at least a first command that adjusts the first parameter value and a second command that adjusts the second parameter value. The first command is sent to the digital audio workstation using a first audio input protocol recognized by the digital audio workstation. The second command is sent to the digital audio workstation using a second audio input protocol recognized by the digital audio workstation.

A device is provided for capturing vibrations produced by an object such as a musical instrument such as a cymbal of a drum kit. The device comprises a detectable element, such as a ferromagnetic element, such as a metal shim and a sensor spaced apart from and located relative to the musical instrument. The detectable element is located between the sensor and the musical instrument. When the musical instrument vibrates, the sensor remains stationary and the detectable element is vibrated relative to the sensor by the musical instrument.

A miniature interactive lighted electronic drum kit is provided. The kit includes a supporting base member, a drum set, and a cymbal set. The drum set cymbal set each includes at least one scaled miniature representation of a musical percussion instrument. The kit further includes one or more speakers, a plurality of light sources, which are mounted within or on the drum kit and base, and a microcontroller in operable communication with a power source, the one or more speakers, and/or a plurality of light sources. One or more switches is operably connected to the microcontroller, wherein actuation of the switches may cause them to initiate a sequence of electrical signals to activate the one or more figures and/or activate at least one of the plurality of lights. The one or more switches are attached to a miniature bass drum and cymbal stand pedals.