An electronic device, which is an electronic musical instrument as an electronic device, includes: a rotating shaft inclined with respect to a perpendicular line of a panel; and a rotary knob that is attached to the rotating shaft and has a fingering marker portion provided opposite to an inclination direction of the rotating shaft.

Systems and methods are directed to generating music. In one example, an electronic musical instrument includes a first handheld unit. The electronic musical instrument further includes a second handheld unit, the second handheld unit being communicatively coupled to the first handheld unit. The first handheld unit includes a plurality of input controls configured to indicate a selection of a note of a musical scale. The second handheld unit is configured to initiate output of the selected note.

The present invention relates to a music production system comprising one or more computer processor running music production software and an input device arranged to provide signal inputs to the music production software. The input device comprises a joystick, one or more sensor for monitoring the position and/or orientation of the joystick, and a controller. The sensor output is received by the controller and the controller generates a corresponding signal output to control one or more music production function of the software.

A touch sensitive audio-visual input/output device comprising an internal core comprising a controller, the controller associated with at least one processor and at least one memory store, at least one light emitter associated with the controller, at least one audio output component associated with the controller, at least one actuator provided relative to the housing and associated with the controller and configured to transmit touch inputs to the controller to control operation of the device, and a flexible, translucent outer casing for at least partially enclosing the internal core.

An input device for operating a musical instrument having musical behavior of string instruments, which comprises a key plate unit containing a set of input keys to be pressed by a player, in order to generate a first set of electric input signals, which emulate a combination of pressed keys of a musical instrument or a combination of pressed strings; a stick unit with variable tension of displacement including a stick to be moved by the player between predetermined discrete positions, which emulate a combination of strummed strings of a musical instrument.

An input device for operating a musical instrument having musical behavior of string instruments, which comprises a key plate unit containing a set of input keys to be pressed by a player, in order to generate a first set of electric input signals, which emulate a combination of pressed keys of a musical instrument or a combination of pressed strings; a stick unit with variable tension of displacement including a stick to be moved by the player between predetermined discrete positions, which emulate a combination of strummed strings of a musical instrument.

An keytar (1) includes a keyboard (2) on which a plurality of keys (2a) are arranged, a ribbon (5) in which a front surface panel (81) is arranged, and the degree of the same type of musical sound effect applied to each of tones (A-D) produced by the key (2a) is changed corresponding to detection positions in an X-direction in the front surface panel (81). Accordingly, because the degrees of the musical sound effects can be respectively changed for each of the tones (A-D) corresponding to the detection positions in the X-direction of the front surface panel (81), for the change of the same type of musical sound effect toward the tones (A-D), the monotony of this change can be suppressed and an expressive performance can be achieved.

A sound generating analog synthesizer comprising a controller electronically connected to rotate at least one knob, actuate at least one switch, and make at least one patch connection; said knob comprising a drive system, a shaft position sensor, and a potentiometer; wherein said controller rotates at least one knob by generating instructions to said drive system; said at least one switch comprising an electronic connection to said controller to turn on or off said switch upon receiving instructions from said controller; and at least one patch connection, comprising at least one patch switch, wherein said at least one patch switch controls connection between at least one input of said patch and at least one output of said patch; and a control system to interpolate the potentiometer, switch and patch connections between at least two predetermined settings.

Systems and methods are directed to generating music. In one example, an electronic musical instrument includes a first handheld unit. The electronic musical instrument further includes a second handheld unit, the second handheld unit being communicatively coupled to the first handheld unit. The first handheld unit includes a plurality of input controls configured to indicate a selection of a note of a musical scale. The second handheld unit is configured to initiate output of the selected note.

An keytar (1) includes a keyboard (2) on which a plurality of keys (2a) are arranged, a ribbon (5) in which a front surface panel (81) is arranged, and the degree of the same type of musical sound effect applied to each of tones (A-D) produced by the key (2a) is changed corresponding to detection positions in an X-direction in the front surface panel (81). Accordingly, because the degrees of the musical sound effects can be respectively changed for each of the tones (A-D) corresponding to the detection positions in the X-direction of the front surface panel (81), for the change of the same type of musical sound effect toward the tones (A-D), the monotony of this change can be suppressed and an expressive performance can be achieved.