Abstract:
A system is described to facilitate breathing management. The system includes a plurality of wearable sensors, and one or more processors to access a breathing pattern of a wearer of the plurality of wearable sensors based on at least a portion of data from one or more of the plurality of sensors, determine a body movement of the wearer based on at least a portion of the data from one or more of the plurality of sensors, access a heart rate of the wearer based on at least a portion of the data from one or more of the plurality of sensors, and identify a recovery time for the wearer based on the breathing pattern, the body movement, and the heart rate.
Abstract:
A method is described to facilitate breathing management. The method includes receiving sensory data from one or more wearable devices, recording a breathing pattern of a wearer of the one or more wearable devices based on data received from the sensor array, calculating a body movement of the wearer based on the data received from the sensor array and correlating a wearer breathing pattern with the wearer body movement and heart rate.
Abstract:
Methods, apparatus, and system to identify a memory contention with respect to a process, re-write the process to form a transactional process, and execute the transactional process in a speculative execution.
Abstract:
Methods, apparatus, and system to identify a memory contention with respect to a process, re-write the process to form a transactional process, and execute the transactional process in a speculative execution.
Abstract:
Embodiments for providing brain computer interface (BCI) system based on gathered temporal and spatial patterns of biophysical signals are generally described herein. In some embodiments, stimuli are provided to a user. Temporal and spatial patterns of biophysical signals associated with brain activity of a user are gathered in response to providing the stimuli to the user. The gathered temporal and spatial patterns of biophysical signals associated with brain activity of the user are correlated to identify user brain signatures. A processor controlled function based on the user brain signatures identified through correlating of the gathered temporal and spatial patterns of biophysical signals associated with brain activity is performed.