Systems, methods and apparatus for cellular compositions/generating music in real-time using cells are provided. The cellular compositions may be dependent on user data.

Systems, devices, apparatuses, components, methods, and techniques for repetitive-motion activity enhancement based upon media content selection are provided. An example media-playback device for enhancement of a repetitive-motion activity includes a media-output device that plays media content items, a plurality of media content selection engines, and a repetitive-activity enhancement mode selection engine. The plurality of media content selection engines includes a cadence-based media content selection engine and an enhancement program engine. The cadence-based media content selection engine is configured to select media content items based on a cadence associated with the repetitive-motion activity. The enhancement program engine is configured to select a media content items according to an enhancement program for the repetitive-motion activity. The repetitive-activity enhancement mode selection engine is configured to select a media content selection engine from the plurality of engines and to cause the media-output device to playback media content items selected by the selected engine.

One or more accelerometers embedded with an earbud and/or a set of earphones are able to sense a moving pace of a user. Based on a moving pace of the user, a signal is sent to a remotely connected electronic device. The electronic device is able to separately increase and decrease a beat or rhythm of the audio from the electronic device based on a pace of the user. In some embodiments, an audio alert is sent to the user to inform the user of pace and whether the user has increased or decreased their pace. Additionally, in some embodiments, a program stored on the electronic device is used to compare the user's current progress and/or speed based on past runs and workouts.

Techniques for providing acoustic feedback are disclosed. Several audio clips (21-23) have a synchronized beat. A sensor signal (16) received from a sensor has a sensor signal range divided by first and second thresholds (11, 12) into at least three sensor signal sub-ranges (13-15). An audio signal is output in response to the received sensor signal (16), the output audio signal comprising one or more of the audio clips. If the received sensor signal (16) exceeds the first threshold (11), at least one (21) of the one or more audio clips is discontinued and/or at least one additional audio clip (22) of the audio clips is initiated in synchronization with the one or more audio clips (21). If the received sensor signal (16) falls below the second threshold (12), at least one (21) of the one or more audio clips is discontinued and/or at least one additional audio clip (23) of the audio clips is initiated in synchronization with the one or more audio clips (21).

The present disclosure relates to an information processing apparatus that can provide an information processing apparatus capable of accurately synchronizing and handling sensing data in a mixture of forms and available for assisting in learning of a performance.

The present disclosure provides the information processing apparatus including a conversion section that converts a plurality of pieces of sensing data in different forms obtained from a plurality of sensors each sensing a state related to a performance by a motion of a user, an information processing section that processes the sensing data converted by the conversion section, and an information output section that outputs feedback information to the user on the basis of a processing result of the information processing section. The conversion section includes an analog-digital signal conversion section that converts the sensing data in an analog form from the sensors into sensing data in a digital form and outputs the sensing data in the digital form to the information processing section, and a digital-analog signal conversion section that converts the sensing data in the digital form from the sensors into sensing data in the analog form and outputs the sensing data in the analog form to the analog-digital signal conversion section.

Techniques for providing acoustic feedback are disclosed. Several audio clips have a synchronized beat. A sensor signal received from a sensor has a sensor signal range divided by first and second thresholds into at least three sensor signal sub-ranges. An audio signal is output in response to the received sensor signal, the output audio signal comprising one or more of the audio clips. If the received sensor signal exceeds the first threshold, at least one of the one or more audio clips is discontinued and/or at least one additional audio clip of the audio clips is initiated in synchronization with the one or more audio clips. If the received sensor signal falls below the second threshold, at least one of the one or more audio clips is discontinued and/or at least one additional audio clip of the audio clips is initiated in synchronization with the one or more audio clips.

The present invention relates to a method and system for analysing audio (eg. music) tracks. A predictive model of the neuro-physiological functioning and response to sounds by one or more of the human lower cortical, limbic and subcortical regions in the brain is described. Sounds are analysed so that appropriate sounds can be selected and played to a listener in order to stimulate and/or manipulate neuro-physiological arousal in that listener. The method and system are particularly applicable to applications harnessing a biofeedback resource.

A system and method of creating a personalized sounds and visuals environment to address a person's individual environment and state by receiving output from a plurality of sensors, the sensors detecting the activity of the user and the environment in which the user is active. Sounds and/or visuals to be transmitted to the user for listening and watching on the user's device are determined based on one or more of the sensor outputs, a user profile, a user mode, a user state, and a user context. The determined sounds and/or visuals are transmitted and presented to the user, and the determined sounds and/or visuals are automatically and dynamically modified in real time based on changes in the output from one or more of the plurality of sensors and/or changes in the user's profile.

Various implementations disclosed herein include devices, systems, and methods that determine that a user is interested in audio content by determining that a movement (e.g., a user's head bob) has a time-based relationship with detected audio content (e.g., the beat of music playing in the background). Some implementations involve obtaining first sensor data and second sensor data corresponding to a physical environment, the first sensor data corresponding to audio in the physical environment and the second sensor data corresponding to a body movement in the physical environment. A time-based relationship between one or more elements of the audio and one or more aspects of the body movement is identified based on the first sensor data and the second sensor data. An interest in content of the audio is identified based on identifying the time-based relationship. Various actions may be performed proactively based on identifying the interest in the content.

A method for controlling a playback tempo of an audio track to be presented at an audio output, the audio track comprising a plurality of audio components, a first audio component of the plurality of audio components being associated with a plurality of sets of audio data, wherein each set of audio data in the plurality of sets of audio data is associated with a respective playback tempo range, the method comprising receiving a playback tempo for presenting the audio track at the audio output, selecting, from the plurality of sets of audio data, a set of audio data that has an associated playback tempo range comprising the received playback tempo, and allocating the selected set of audio data to the first audio component for presenting the audio track at the audio output.