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.

Trigger devices, systems, and methods for sensing a strike on a vibratory membrane. A trigger device includes an optical sensor positioned a distance from the vibratory membrane and a processing device. The optical sensor includes an emitter that emits modulated light towards the vibratory membrane and a receiver that receives the modulated light that has reflected off the vibratory membrane and generates an electrical signal corresponding to the received modulated light. The electrical signal includes a peak corresponding to a detected strike on the vibratory membrane. The processing device isolates the peak from the electrical signal and generates one or more of a signal and data corresponding to the electrical signal.

A low-cost and high-compatibility optical pickup including a light source, one set of optical sensors, and a controller. The light source illuminates a string assembled on an instrument. The set of optical sensors corresponding to the light source is provided to sense the shading of the string. The controller supplies the sensed data from the set of optical sensors to a system host for recognition of the melody played on the string. Considering the other strings assembled on the instrument, the optical pickup includes other sets of optical sensors to sense the shading of the other strings which are also illuminated by the light source. The controller also supplies the sensed data of the other sets of optical sensors to the system host for recognition of the melody played on the other strings.

Trigger devices, systems, and methods for sensing a strike on a vibratory membrane. A trigger device includes an optical sensor positioned a distance from the vibratory membrane and a processing device. The optical sensor includes an emitter that emits modulated light towards the vibratory membrane and a receiver that receives the modulated light that has reflected off the vibratory membrane and generates an electrical signal corresponding to the received modulated light. The electrical signal includes a peak corresponding to a detected strike on the vibratory membrane. The processing device isolates the peak from the electrical signal and generates one or more of a signal and data corresponding to the electrical signal.

The invention relates to the field of plucked string musical instruments, specifically to designs of electric musical instruments which transform mechanical vibration of strings into electrical signals, more particularly to compact electronic guitars, and can be used in portable electronic guitars. The application of the invention claimed allows to create a compact electronic guitar that can be quickly assembled/disassembled, while the string elasticity level remains the same in both disassembled and assembled states (making the guitar immediately available for use once the parts of the body have been connected) and to provide the possibility to obtain information about vibrations and excursions of the strings located on the neck occurring as a result of using various playing techniques requiring certain actions to be taken in relation to the strings located on the neck, such as hitting, displacing the pressed string sideward, sudden pressing down of the string and sudden releasing of the pressed string, moving the finger along the string, either pressed or not. This provides the possibility to use a larger number of events occurring with the string to generate acoustic oscillations.

The inventions relate to the field of electric musical instruments, more particularly, to an optical sensor for a stringed musical instrument with a digital interface and to a stringed musical instrument with a digital interface equipped with said sensor (MIDIMusical Instrument Digital Interface). Implementation of the disclosed inventions allows to obtain a signal corresponding to vibrations (deflections) of a string in two mutually perpendicular planes, with the influence of the device generating such signals on string vibration parameters being reduced, without signals generated by different strings being mixed and with dimensions of the optical sensor being reduced to allow for its compact placement on a stringed musical instrument.

A piano system with key assisted user input may include one or more execution devices, one or more sensors, at least one signal processing circuit, a processor and a display. The one or more sensors may be configured to detect a signal indicating a status change of at least one of the one or more execution devices. The at least one signal processing circuit may be configured to generate a control signal for controlling an input of a computer device in response to the signal detected by the one or more sensors. The processor may be configured to process the control signal to determine content to be displayed on a user interface. The display may be configured to display the determined content on the user interface.

A button is disclosed, which includes a button unit suspended movably vertically in Z-direction in a fixed frame and having a button body with an upper actuating surface and at least one central shaft extending vertically downwardly from the button body and extending at an upper end below the button body horizontally into an extension. The shaft and the extension having a translucent material such that they commonly form a light guide which is fixedly connected to the button body. The button additionally includes a light source vertically below the shaft. Light from the light source leaves vertically upwardly and enters the shaft from below. The button further includes a first optical device arranged in the vertical upper area of the light guide above the shaft for deflecting light that has entered the shaft from the light source in a horizontal direction into a plane of the extension.

A button is disclosed, which includes a button unit suspended movably vertically in Z-direction in a fixed frame and having a button body with an upper actuating surface and at least one central shaft extending vertically downwardly from the button body and extending at an upper end below the button body horizontally into an extension. The shaft and the extension having a translucent material such that they commonly form a light guide which is fixedly connected to the button body. The button additionally includes a light source vertically below the shaft. Light from the light source leaves vertically upwardly and enters the shaft from below. The button further includes a first optical device arranged in the vertical upper area of the light guide above the shaft for deflecting light that has entered the shaft from the light source in a horizontal direction into a plane of the extension.

An immersive device may include a floor reflective mirrored surface, a first wall reflective mirrored surface, a second wall reflective mirrored surface, a third wall reflective mirrored surface, a fourth wall reflective mirrored surface, and a ceiling reflective mirrored surface. The reflective mirrored surfaces may form a perimeter of and bound the reflective chamber. One or more light emitting elements may be configured to emit light into the reflective chamber. A processing unit may be in electrical communication with the light emitting elements. A sound device may be in communication with the processing unit, and the sound device may be configured to output sound to a user within the reflective chamber. An array of sensors, such as: digital camera, microphone, and electrophysiological monitoring devices that may be in communication with the processing unit, and are configured to change the experience of the user within the chamber depending upon the signals from the sensors on the user.