A method, such as a computer implemented method, of data management, wherein content utilized by a first user can be identified and information about such content can be shared to at least one additional user such that the at least one additional user can pull the identified content from the content source.

The present invention relates to a method for measuring behavioral change in human consciousness that is based on 12 different personality consciousness codes, wherein each code enables to instantly change the state-of-mind of an individual person. The method comprises: a) storing reference voice characteristics of different persons that represent acoustic information as expressed by human voice in a form of a time to frequency component relation; b) classifying the acoustic information into 12 different personality consciousness codes by using support vector machine that analyzes said acoustic information; c) receiving data indicative of a sound energy generated by the voice of said individual; d) performing spectral analysis of said received sound energy in order to obtain voice characteristics from an electronic representation of said sound energy; and e) comparing said obtained voice characteristics with the reference voice characteristics and determining the personality consciousness code of said individual by using the support vector machines, and using the obtained voice characteristics to determine the level of consciousness.

A smart musical instrument system for replaying user performance with auto-play, electronic sound source or video, the system may include a musical instrument, a plurality of sensors, and a processing device. The plurality of sensors may be configured to obtain performance data of a user. The plurality of sensors may include a first sensor configured to obtain first performance data of the user. The performance data may include the first performance data indicating operations of a musical instrument. The processing device may be in communication with the plurality of sensors. The processing device may be configured to compare the performance data with reference music data to generate a comparison result and generate feedback based on the comparison result.

Exemplary embodiments relate to the application of media effects such as facial mask overlays, to visual data (such as a video or photo). Publicly-available images may be found and mapped to a mask. In the mapping process, a user may type in the name of a celebrity or public figure, and a system may perform a public image search. In some embodiments, candidate images may be filtered in order to remove images unsuitable for use in masks. Typically, only a single forward-facing image is required for mapping. However, multiple images may be used to provide different angles and allow the user to turn their head while the mask is applied. Mask generation may involve: extracting facial features from the image; mapping the facial features to the user's video; blending/recoloring of either or both of the image or the person's face; and applying the mask in real-time/on the fly.

Disclosed is a system and method that allows users to customize audible and visible signals, such as music or video, to maintain a pre-determined or specified pace or to achieve a new pace in repetitive motion activities such as, but not limited to, running, walking, swimming, cycling, aerobics, and the like. Other applications of the system and method include, but are not limited to, enhancing the results of medical rehabilitation programs, physical therapy, weight loss programs, disc jockey services, and industries or manufacturing settings where repetitive motion is common and where audible cues designed to help users maintain a consistent pace are useful.

A method for transferring data between a storage and playback device and a server containing at least one audio file having information for producing a tempo that is sensible to at least one user as the at least one user performs a repetitive motion activity, the storage and playback device being capable of storing and playing the information in the audio file, the method comprising, at the data storage and playback device, or at a combination of the server and the data storage and playback device: receiving a request to substantially match at least one audio file based on its beats per minute for outputting on the storage and payback device; identifying a metadata tempo tag for each designated audio file, each tempo tag indicating the tempo of the audio file; and causing to be delivered to, or providing to, the storage and playback device the audio file.

A smart musical instrument system may include a musical instrument, a first sensor, a second sensor, a processor device, and a reminder device. The first sensor may be configured to obtain first performance data reflecting operations of the musical instrument. The may be second sensor configured to receive second performance data associated with hand posture of a user of the smart instrument system. The processor device may be in communication with the first sensor and the second sensor, and may be configured to generate feedback based on at least one of the first performance data or the second performance data. The reminder device may be configured to deliver the feedback to the user.

Aspects of embodiments pertain to a method for determining an Input/Output (I/O) device configuration for a music teaching system. The method may comprise receiving a plurality of I/O device configurations of a music teaching system; receiving, for a given I/O device of the music teaching system, an initial I/O device configuration; and determining an updated I/O device configuration for the given I/O Device, based on the initial I/O device configuration of the given I/O Device and at least one of the plurality of received I/O device configurations. The determining is performed such that the updated I/O device configuration has improved device performance compared to the initial I/O device configuration.

Embodiments pertain to a method for use with a musical piece, or part thereof, comprising: presenting, by at least one client device to a plurality of users, a corresponding plurality of sequences of musical symbols to be cooperatively played by the plurality of users using a plurality of instruments; capturing instrument outputs produced by the plurality of instruments to generate audio data descriptive of the captured instrument outputs; analyzing the audio data for determining a level of correspondence between the captured instrument outputs and the plurality of musical symbols presented to the plurality of users; and presenting, based on the level of correspondence, an adapted or non-adapted sequence of music symbols to at least one of the plurality of players.

The present invention relates to a method for measuring behavioral change in human consciousness that is based on 12 different personality consciousness codes, wherein each code enables to instantly change the state-of-mind of an individual person. The method comprises: a) storing reference voice characteristics of different persons that represent acoustic information as expressed by human voice in a form of a time to frequency component relation; b) classifying the acoustic information into 12 different personality consciousness codes by using support vector machine that analyzes said acoustic information; c) receiving data indicative of a sound energy generated by the voice of said individual; d) performing spectral analysis of said received sound energy in order to obtain voice characteristics from an electronic representation of said sound energy; and e) comparing said obtained voice characteristics with the reference voice characteristics and determining the personality consciousness code of said individual by using the support vector machines, and using the obtained voice characteristics to determine the level of consciousness.