A stringed musical instrument saddle containing a plurality of electrically independent transducers and associated electrical conditioning components where each transducer is located within the saddle such that it is sensitive to the vibratory energy of a corresponding string or course and senses the vibratory energy in both vertical and horizontal modes. The saddle contains at least one multi-conductor connector which connects to a removable multi-conductor cable to convey the transducer signals out of the saddle to external receiving electronics. The saddle is constructed of workable materials such that its top and bottom can be fit to a particular instrument by a technician.

Provided are an electronic percussion instrument and a hit detection method. An overhang portion constituting the outer edge part of an edge frame is positioned further radially outward than the outer edge of a bow frame. Consequently, when the overhang portion is hit, the vibration resulting from the hit is detected by an edge sensor attached to the edge frame. In this way, it is possible to detect whether the overhang portion (the edge portion of an electronic cymbal has been hit by means of vibration detection by the edge sensor instead of by means of pressure detection by a sheet sensor.

An electronic percussion instrument capable of simulating a rendition of an acoustic percussion instrument is provided. The electronic percussion instrument includes a housing, a percussion surface attached to the housing, a pressure sensor disposed on a central section of the percussion surface on a side of the back surface and configured to detect pressing against the central section, a head vibration sensor disposed on a peripheral section of the percussion surface on the side of the back surface and configured to detect vibrations of the peripheral section, and a rim vibration sensor disposed at a position overlapping the head vibration sensor when seen in a plan view of the percussion surface and configured to detect vibrations of the housing.

Disclosed herein are various embodiments of haptic systems for digital musical instruments. In embodiments, the haptic systems comprise a shoulder rest that has been modified with haptic elements capable of generating a feedback signal to a user of a digital musical instrument.

An electronic percussion instrument capable of simulating a rendition of an acoustic percussion instrument is provided. The electronic percussion instrument includes a housing, a percussion surface attached to the housing, a pressure sensor disposed on a central section of the percussion surface on a side of the back surface and configured to detect pressing against the central section, a head vibration sensor disposed on a peripheral section of the percussion surface on the side of the back surface and configured to detect vibrations of the peripheral section, and a rim vibration sensor disposed at a position overlapping the head vibration sensor when seen in a plan view of the percussion surface and configured to detect vibrations of the housing.

This control device for an electronic percussion instrument inputs a musical sound signal corresponding to a hit on a struck surface to a first amplifier for amplifying a signal to be connected to a first speaker disposed on the back side of or around the struck surface, and inputs the musical sound signal to a second amplifier for amplifying a signal to be connected to a second speaker disposed on the back side of or around a first struck surface at a timing later than a timing at which the musical sound signal is inputted to the first amplifier.

An electronic percussion instrument and sound production control method thereof are provided. In an electronic cymbal, the output of a musical sound is controlled in accordance with the results of detection from a strike sensor when the strike sensor detects a strike on a striking surface. While the musical sound is output, if a user touches the striking surface, an electrostatic capacitance sensor outputs an output value in accordance with the contact condition so that the musical sound is attenuated in accordance with the output value while being output. Therefore, the user can attenuate the musical sound being output in accordance with the contact conditions on the striking surface, thereby silencing the musical sound by way of the action similar to that of the acoustic cymbal choke that is the action of touching the striking surface.

A percussion instrument, in particular electronic percussion instrument, includes at least one main attack element having at least one main attack surface and with a position detecting unit which is at least provided to detect an attack position of the main attack surface. The position detecting unit comprises at least two position detecting elements which are arranged decentrally with respect to the main attack surface, at least when the main attack surface is viewed perpendicularly.

An electronic stringed instrument includes: at least one linear string member to be plucked by a user; a plurality of string support members each supporting the string member at different positions in a longitudinal direction of the string member, each of the string support members being individually deformable in accordance with a plucking of the string member by the user; a plurality of sensors that output signals indicating respective deformation states of the plurality of string support members, wherein the respective deformation states of the plurality of string support members may be different from each other depending on a way the string member is plucked; and at last one processor configured to generate a musical tone control signal based on the signals output from the plurality of sensors.

A sound pickup device includes: a housing; a mount portion via which the housing on an object constituting a portion of a musical instrument; a sound pickup including a plurality of the microphones respectively oriented in different directions; a first output configured to output a sound signal indicating a sound input to the sound pickup; and an installer configured to install the sound pickup on the housing such that each of the plurality of microphones is oriented away from the object when the housing is mounted on the object via the mount portion.