Apparatus for an electronic percussion system is provided, comprising: a plurality of sensors (12, 14, 16, 18); attaching means (10) for attaching the sensors to the hand and locating the sensors each at a respective predetermined location thereon, wherein each of the sensors is configured to send information for receipt by a determining means in response to impact of the sensor on a contact surface, wherein the attaching means and the sensors are together configured so that such information enables the determining means to distinguish each of the gestures from each other of the gestures. Each predetermined gesture is mapped to a respective sample, and performing of the gesture causes playing of the respective sample. The gestures may include a finger clicking action, a chest slap and a hand clap. There is also provided a related method of determining a percussion gesture.

A method for outputting a sound in an electronic device is provided. The method includes generating a loop module corresponding to a loop element; displaying the generated loop module; and outputting a sound included in the displayed loop module.

A method for outputting a sound in an electronic device is provided. The method includes generating a loop module corresponding to a loop element; displaying the generated loop module; and outputting a sound included in the displayed loop module.

The present disclosure relates to systems, methods, and devices for music simulation. The methods may include determining one or more simulation actions based on data associated with one or more simulation actions acquired by at least one sensor. The methods may further include determining, based on at least one of the one or more simulation actions and a mapping relationship between simulation actions and corresponding musical instruments, a simulation musical instrument that matches with the one or more simulation actions. The methods may further include determining, based on the one or more simulation actions, one or more first features associated with the simulation musical instrument. The methods may further include playing music based on the one or more first features.

An electronic device may comprise audio processing circuitry, pace tracking circuitry, and positioning circuitry. The pace tracking circuitry may be operable to selects songs to be processed for playback, and/or control time stretching applied to such songs, by the audio processing circuitry based on position data generated by the positioning circuitry, a desired tempo, and whether the songs are stored locally or network-accessible. The position data may indicate the pace of a runner during a preceding, determined time interval. The pace tracking circuitry may control the song selection and/or time stretching based on a runner profile data stored in memory of the music device. The profile data may include runner's distance-per-stride data. The electronic device may include sensors operable to function as a pedometer. The pace tracking circuitry may update the distance-per-stride data based on the position data and based on data output by the one or more sensors.

An electronic device may comprise audio processing circuitry, pace tracking circuitry, and positioning circuitry. The pace tracking circuitry may be operable to selects songs to be processed for playback, and/or control time stretching applied to such songs, by the audio processing circuitry based on position data generated by the positioning circuitry, a desired tempo, and whether the songs are stored locally or network-accessible. The position data may indicate the pace of a runner during a preceding, determined time interval. The pace tracking circuitry may control the song selection and/or time stretching based on a runner profile data stored in memory of the music device. The profile data may include runner's distance-per-stride data. The electronic device may include sensors operable to function as a pedometer. The pace tracking circuitry may update the distance-per-stride data based on the position data and based on data output by the one or more sensors.

A handheld musical instrument for playing a variety of audio program, the handheld musical instrument includes a main body portion with one or more sensors, a handle portion engaged with said main body portion, wherein said handle portion includes one or more control buttons to select a type of program to be played by said handheld musical instrument and a gesture detection module for detecting gestures associated with said handheld musical instrument and controlling a tempo associated with said program played by said handheld musical instrument based on said detected gestures.

A system of playing media content items determines transitions between pairs of media content items by determining desirable locations in which transitions across the pairs of media content items occur. The system uses a plurality of track features of media content items and determines such track features of each media content item associated with each of transition point candidates, such as beat positions, of that media content item. The system determines similarity in the plurality of track features between the transition point candidates of a first media content item and the transition point candidates for a second media content item being played subsequent to the first media content item. The transition points or portions of the first and second media content items are selected from the transition point candidates for the first and second media content items based on the similarity results.

An apparatus, method, and computer-readable storage medium that compensate for latency in a musical collaboration. The method includes, setting a tempo for a first client device to follow, receiving a musical piece from the first client device, transmitting the musical piece to a second client device, and instructing the second client device, via an instruction transmitted along with the musical piece, to delay playback of the musical piece a predetermined amount of time to compensate for latency in the musical collaboration, the predetermined amount of time being associated with a measure or a fraction of a measure.

An electronic apparatus includes a plurality of pads, each of the plurality of pads including a touch sensor and an acceleration sensor, a sound output interface configured to output sounds that are set to the respective pads, a display configured to display visual feedback, and a processor configured to, in response to the touch sensor in a pad among the plurality of pads detecting a touch of the pad, and the acceleration sensor in the pad detecting an intensity of the touch that is greater than or equal to a value, determine that a beat is performed on the pad, control the sound output interface to output a sound that is set to the pad on which the beat is determined to be performed, with a magnitude corresponding to an intensity of the beat, and control the display to display the visual feedback corresponding to the beat determined to be performed.