A method for adapting auditory biofeedback cues to adjust a user's gait includes receiving a series of respective first signals from each sensor of an integrated sensor system and converting the series of respective first signals into a series of respective second signals. Each respective second signal within the series of respective second signals can be quantized as an audio biofeedback cue and modified so the timing of each respective second signal is aligned to a pre-selected temporal or musical grid. The user's gait is then analyzed as a function of the audio biofeedback cues and the pre-selected temporal or musical grid can be adapted to adjust entrainment of the user's gait.

A system for dynamic movement scoring comprising an article of footwear or apparel and a processor in networked wireless communication with the article of footwear or apparel. The article includes at least one accelerometer or inertial measurement unit operative to monitor spatial motion of at least a portion of the article of footwear or apparel, and to generate a data stream indicative of the monitored spatial motion. The processor is configured to receive the data stream from the article of footwear or apparel, identify at least one motion primitive from the received data stream; and determine an accuracy metric representing a correspondence between the monitored spatial motion of the article of footwear or apparel and the ordered number of motion primitives.

A system for motion-based media creation includes an article of footwear or apparel having at least one accelerometer or inertial measurement unit operative to monitor spatial motion of at least a portion of the article of footwear or apparel and generate a data stream indicative of the monitored spatial motion. The system further includes a processor in networked wireless communication with the article of footwear or apparel. The processor is configured to receive the data stream from the article of footwear or apparel; identify at least one motion primitive from the received data stream; and trigger the playback of an audio sample or a visual effect in response to the identified at least one motion primitive.

A method for adapting auditory biofeedback cues to adjust a user's gait includes receiving a series of respective first signals from each sensor of an integrated sensor system and converting the series of respective first signals into a series of respective second signals. Each respective second signal within the series of respective second signals can be quantized as an audio biofeedback cue and modified so the timing of each respective second signal is aligned to a pre-selected temporal or musical grid. The user's gait is then analyzed as a function of the audio biofeedback cues and the pre-selected temporal or musical grid can be adapted to adjust entrainment of the user's gait.

A method for adapting auditory biofeedback cues to adjust a user's gait includes receiving a series of respective first signals from each sensor of an integrated sensor system and converting the series of respective first signals into a series of respective second signals. Each respective second signal within the series of respective second signals can be quantized as an audio biofeedback cue and modified so the timing of each respective second signal is aligned to a pre-selected temporal or musical grid. The user's gait is then analyzed as a function of the audio biofeedback cues and the pre-selected temporal or musical grid can be adapted to adjust entrainment of the user's gait.

A system for dynamic movement scoring comprising an article of footwear or apparel and a processor in networked wireless communication with the article of footwear or apparel. The article includes at least one accelerometer or inertial measurement unit operative to monitor spatial motion of at least a portion of the article of footwear or apparel, and to generate a data stream indicative of the monitored spatial motion. The processor is configured to receive the data stream from the article of footwear or apparel, identify at least one motion primitive from the received data stream; and determine an accuracy metric representing a correspondence between the monitored spatial motion of the article of footwear or apparel and the ordered number of motion primitives.

A system for motion-based media creation includes an article of footwear or apparel having at least one accelerometer or inertial measurement unit operative to monitor spatial motion of at least a portion of the article of footwear or apparel and generate a data stream indicative of the monitored spatial motion. The system further includes a processor in networked wireless communication with the article of footwear or apparel. The processor is configured to receive the data stream from the article of footwear or apparel; identify at least one motion primitive from the received data stream; and trigger the playback of an audio sample or a visual effect in response to the identified at least one motion primitive.

A system and method for generating wireless signals from the physical movement of a person utilizing a movement detection mechanism attached to the person wherein the system allows a person to manipulate the generated wireless signals to selectively control digital responses which may be in the form of sensory-perceivable outputs such as sounds and/or visual effects, for example, through the person's physical movement. Movement sensors attached to the person (e.g., on one foot or both feet) communicate with other system components such as microprocessors, transmitters and/or tactile interface controls, for example, to wirelessly send signal pulses from a person to a computer or mobile device and allow the person wearing the sensors and/or another person to selectively control the dynamics of the digital responses so to create a unique sensory output.

A system and method for generating wireless signals from the physical movement of a person utilizing a movement detection mechanism attached to the person wherein the system allows a person to manipulate the generated wireless signals to selectively control digital responses which may be in the form of sensory-perceivable outputs such as sounds and/or visual effects, for example, through the person's physical movement. Movement sensors attached to the person (e.g., on one foot or both feet) communicate with other system components such as microprocessors, transmitters and/or tactile interface controls, for example, to wirelessly send signal pulses from a person to a computer or mobile device and allow the person wearing the sensors and/or another person to selectively control the dynamics of the digital responses so to create a unique sensory output.

A system and method for generating wireless signals from the physical movement of a person utilizing a movement detection mechanism attached to the person wherein the system allows a person to manipulate the generated wireless signals to selectively control digital responses which may be in the form of sensory-perceivable outputs such as sounds and/or visual effects, for example, through the person's physical movement. Movement sensors attached to the person (e.g., on one foot or both feet) communicate with other system components such as microprocessors, transmitters and/or tactile interface controls, for example, to wirelessly send signal pulses from a person to a computer or mobile device and allow the person wearing the sensors and/or another person to selectively control the dynamics of the digital responses so to create a unique sensory output.