Provided is a musical instrument controller capable of accurately controlling a musical sound parameter. This musical instrument controller includes: a reception means for receiving, from a musical performance device, a sound emission start signal transmitted on the basis of a musical performance operation; a sensor for detecting an amount of displacement from a reference position; and a control means for generating a control signal on the basis of the amount of displacement from the reference position and transmitting the control signal to a sound generation device. The control means sets the reference position on the basis of the sound emission start signal received from the musical performance device.

An audio hub is disclosed including a plurality of daughterboards and a mainboard communicatively coupled to each of the plurality of daughterboards. Each of the plurality of daughterboards is associated with an audio channel and each audio channel is independent from the other of the audio channels associated with the other ones of the plurality of daughter boards. Further, each daughterboard includes at least one wireless transceiver operably configured to wirelessly transmit an audio signal associated with the corresponding audio channel from a musical instrument over a network to the audio playback device. The mainboard is configured so that, for each of the plurality of daughterboards, the mainboard is operable to independently modify at least one characteristic of the audio signal from the musical instrument before the audio signal is transmitted to the audio playback device.

In this application, by using a method for collaborative recording by using a mobile terminal and the true wireless stereo earbud, recording with more complete data amount can be collected, and cooperative noise reduction is performed on a recording signal collected by the mobile terminal and a recording signal collected by the true wireless stereo earbud, so that accuracy and integrity of a human voice signal obtained through separation are higher. Further, in this application, when the true wireless stereo earbud performs recoding in a mode of single-earbud recording, a data amount of the true wireless stereo earbud is relatively small. Therefore, when the mobile terminal receives, through Bluetooth, data sent by the true wireless stereo earbud, excessive occupation of Bluetooth bandwidth of the mobile terminal is avoided, and power consumption of a mobile phone is reduced.

An arrangement for the conversion of at least one detected force from the movement of a sensing unit into an auditory signal. The arrangement includes at least one sensor for generating a force signal from the at least one detected force. A processing unit is configured for converting the force signal into a digital auditory signal. An output unit for converting the digital auditory signal into an auditory signal is further included wherein the digital auditory signal includes in formation of acceleration, strength and duration of a single detected force. The present method is used for converting at least one detected force affecting an object into auditory signal, as well as the use of an arrangement according to the present invention for various entertainment and/or therapeutic purposes.

The present invention discloses an integrated karaoke device, including a microphone and a sound box. The sound box includes a sound chamber (400) containing a loudspeaker (500). The integrated karaoke device further includes a connecting part (100) made of flexible material that is fixedly connected between a bottom of the microphone and a top of the sound chamber (400). The use of a flexible material connecting part (100) rather than a solid structural part reduces the transmission to the microphone of sound vibration generated by the sound box. The beneficial effect of implementing the present invention is that a flexible material connecting part is fixedly connected between the bottom of the microphone and the top of the sound chamber, and meanwhile, a gap is kept between the bottom of a printed circuit board (PCB) and the top of the sound chamber; and because the flexible material connecting part can effectively reduce sound vibration, the transmission of vibration to the microphone from the sound box can be effectively eliminated, thereby preventing squealing, and enabling integration of the microphone and the sound box for use in karaoke.

A musical instrument activity monitoring system having a tracking and monitoring assembly including a microcontroller with non-volatile memory, an accelerometer, at least one sensor, and an antenna each in communication with the microcontroller, a power source, and a coupler. In-use parameters of musical instrument activity is tracked and monitored by the tracking and monitoring assembly. The microcontroller with non-volatile memory stores data. The data relates to values and timestamps retrieved from use of the at least one musical instrument and environmental conditions at least one musical instrument is in to analyze performance of the at least one musical instrument.

Systems and methods for a digital instrument are described, for example to simulate or be used in conjunction with a stringed instrument. A sensor system detects the deflection of one or more strings of the digital instrument, produces a measurement of the detected deflection, correlates the measurement to a musical note, and produces at least a portion of digital output based upon the musical note.

A musical instrument digital interface (MIDI) controller is provided. It has a housing having a hollow interior portion, a first audio jack and a second audio jack positioned on the housing, wherein the first audio jack is configured to accept a first audio signal from an electronic music instrument, and wherein the second audio jack is configured to accept a second audio signal from a microphone, a conversion module configured to receive the first signal from the first audio jack and the second signal from the second audio jack, wherein the conversion module is configured to transform the first signal into an outgoing digital signal and retain the second signal in a database and an output module configured to utilize the outgoing digital signal and the retained second signal from the database, and output both signals as a dual signal of audio and digital outputs during a user performance.

A stringed musical instrument is disclosed herein. The stringed instrument comprises a body, a head, a neck, and one or more strings. The neck has a back plate and a cover integrated with the back plate. The back plate comprises a first array of openings and the cover comprises a second array of openings. The first array and second array of openings align to form an array of light housings. Each light housing is configured to house a light (e.g., LEDs). Also disclosed herein is an interactive stringed musical instrument teaching system comprising a stringed instrument and a mobile terminal (e.g., computer). Both the smart stringed instrument and the mobile terminal are in communication via one or more communication modules. The mobile terminal comprises a microphone, a tuning module, a database, a teaching module and a game module. The stringed instrument comprises a main control module, a sound wake-up module, an LED driver module and an LED matrix module.

A video game includes an audio-video stream combined with game graphics and game sounds. The game graphics are overlaid on the video stream and updated in synchronization with the stream. Update of the game graphics and sounds depends on inputs received from a game player. The game player may provide input using a game controller coupled to the video game by an adapter. The video game may play on a Blu-ray player.