An information processing device includes: an input interface; and at least one processor, configured to perform the following: selecting an instrument, a musical tone of which is to be digitally synthesized based on corresponding musical tone data, via the input interface; acquiring a parameter value that has been set for the selected instrument; generating a random number based on a random function; and changing a pitch of the musical tone of the selected instrument based on the generated random number and the acquired parameter values.

An ergonomic, portable, electronic, string-like instrument that utilizes a string-like interface. The string-like interface is tactile for sightless playability and capable of advanced input such as force and pressure sensitivity. The string-like interface functions to select a note, trigger a selected note, select and play a note on the instrument or an external peripheral. The instrument is played using the techniques of multiple stringed instruments and the ergonomics allow the user to hold and handle the device consistent with playing techniques familiar to musicians of multiple instruments. It is internally or externally powered and connects directly to industry-standard musical hardware such as MIDI devices, amplifiers and multi-track recorders.

A virtual instrument can manage separate static and dynamic samples for various notes that can be played by the virtual instrument. In some cases, the static samples correspond to resonance sounds recorded for an instrument and are the same for every note. However, the dynamic samples may correspond to isolated sounds that are recorded for each variation of a note that can be played. In response to a user's selection of a note on a user interface of the virtual instrument, the virtual instrument may determine a rule for layering the various static and dynamic samples for playback.

Embodiments are directed to a musical instrument having buttons, where the buttons determine the magnitude of the interval by which the melody will jump from the last note played. With a small number of interval buttons and an up/down strum bar, embodiments can play almost any melody and more notes than a piano. One embodiment is directed to an interval-based guitar including fret buttons whose input signals are used to calculate the interval by which to change the pitch of the prior note. Providing input via a strum bar or a sensor, a new note is generated by adding or subtracting the interval to/from the prior note to generate a new note.

Bowing platforms are disclosed for use in playing a bowed musical instrument without reliance on strings. A bowing platform includes a support and a track that replace the strings, bridge, and tailpiece on a conventional bowed instrument, to provide an alternative vibrational bowing surface. The bowing platform can be attached to a conventional fingerboard or to the body of the instrument. In one aspect, the bowing platform is useful as a bow guide to improve bow technique by restricting the player's bow angle to be within a desirable range, while still allowing for natural arm movement. The bowing platform can be further equipped with piezoelectric sensors to sense bowing motion and to create sound electronically in response to the sensed motion. A stringless bowed instrument includes a bowing platform, bowing sensors, and pitch sensors that sense finger placement along the fingerboard.

An accessory for modifying sound output of a musical instrument. The body of the instrument has a soundboard. The accessory includes a sound sensor, an actuator, a fastener, and a controller. The sound sensor engages the body and senses vibration of the body representing the sound output of the musical instrument. The actuator engages the soundboard and deforms the soundboard of the musical instrument so as to modify the sound output of the musical instrument. The sound sensor is preferably arranged distally to the actuator. The fastener engages the accessory to the musical instrument, to locate the actuator against the soundboard of the musical instrument. The controller is connected to the actuator and the sound sensor for receiving and analysing the sound output sensed by the sound sensor, and controlling the actuator in dependence on the sound output sensed by the sound sensor.

An electric bowed string instrument structure comprises a longitudinally elongated frame (2) having a central recess (8) provided with a bottom (9), a fingerboard (5) anchored to the neck (4), a tailpiece (7) anchored to the rear end portion (6) of the frame (2), a plurality of strings (13) extending between the fingerboard (5) and the tailpiece (7), a bridge (12) adapted to support the strings (13), a pick-up (14) adapted to intercept the vibrations produced by the strings (13) and to be connected to sound amplifying means, a soundboard (11) interlocked in the recess (8) in a transversely offset position with respect to the bottom (9), the soundboard (11) being convex with a convexity facing towards the strings (11), the pick-up (14) being arranged below the soundboard (11).

An electric bowed string instrument structure comprises a longitudinally elongated frame (2) having a central recess (8) provided with a bottom (9), a fingerboard (5) anchored to the neck (4), a tailpiece (7) anchored to the rear end portion (6) of the frame (2), a plurality of strings (13) extending between the fingerboard (5) and the tailpiece (7), a bridge (12) adapted to support the strings (13), a pick-up (14) adapted to intercept the vibrations produced by the strings (13) and to be connected to sound amplifying means, a soundboard (11) interlocked in the recess (8) in a transversely offset position with respect to the bottom (9), the soundboard (11) being convex with a convexity facing towards the strings (11), the pick-up (14) being arranged below the soundboard (11).

A sound post assembly for a musical instrument, comprising two or more mechanically movable parts that allow for a length adjustment of the sound post assembly and one or more electrical components. In an example embodiment, the electrical components are configured to electrically measure the force exerted by the sound post on the upper and lower walls of the instrument's sound box. In some embodiments, the electrical components may operate to mechanically change the length of the sound post assembly through an electrical actuator, such as a piezo-electric actuator or an electro-magnetic motor. Also disclosed are example safety mechanisms and methods of wiring and interfacing said sound post assembly with a control unit.

A set of new accessories for the violin family instrument, switch fingerboards, which includes an assembly of switches, suitable for violin learners. Switches are laid out regularly on the spots corresponding to the notes which are written on the fingerboards. Once a switch is turned on (pressed by a finger), a CPU will be triggered, and then output of the signal of a desired pitch will immediately cause the speaker to produce a sound of that pitch. Such a switch fingerboard will surely assist beginners to practice how to stop strings and to shift positions to get pitches more precisely and efficiently. Additionally, an n-like, switch assembly fingerboard is described, where all the switches are embedded into a rectangular plate in equal intervals. With the same CPU, ROM, amplifier and speaker system, any sound recorded from a performance in the violin family, corresponding to each note, can be replayed on command.