Intelligent motion capture element

What is claimed is: 1. A motion capture element comprising: a memory; a sensor configured to capture one or more values associated with an orientation, position, velocity, acceleration, angular velocity, proximity, pressure or strain of said at least one motion capture element; a first communication interface; and, a microcontroller coupled with said memory, said sensor and said first communication interface wherein said microcontroller is configured to collect data that comprises sensor values from said sensor; store said data in said memory; transmit said data via said first communication interface; and, recalibrate said sensor through measurement of linear acceleration during a period of time when said sensor is motionless or when said sensor detects that motion is below a motion threshold value; computation of an average magnitude of the linear acceleration g m during said period of time; and, modification of a calibration matrix based on a difference between g and g m , wherein g is a gravitational acceleration. 2. The motion capture element of claim 1 wherein said microcontroller is further configured to estimate an initial orientation based on motion capture data from two points in time wherein said estimate comprises a calculation of an orientation transform matrix Q 0 of the sensor with respect to a world reference frame through integration of u(t)=∫ 0 t Ps B dt wherein Q 0 u(t)=−gt when said motion capture data at said two points in time comprises estimated velocities that are approximately zero. 3. The motion capture element of claim 1 wherein said microcontroller is further configured to alter a sampling rate of said sensor based on said sensor values obtained from said sensor to maintain accuracy of said sensor values. 4. The motion capture element of claim 1 wherein said microcontroller is further configured to detect a first value from said sensor values having a first threshold value and detect a second value from said sensor values having a second threshold value within a time window; signify a prospective event; compare said prospective event to a characteristic signal associated with a typical event and eliminate any false positive events; signify a valid event if said prospective event is not a false positive event; save said valid event in said memory comprising information within an event time window as said data. 5. The motion capture element of claim 4 wherein said microcontroller is further configured to transmit said valid event as said data after said valid event is detected, wherein said data is transmitted on an event-by-event basis or periodically or when requested by a computer. 6. The motion capture element of claim 1 wherein said microcontroller is further configured to store said data in memory at least until a communications link to a computer exists and said data has been transferred to said computer. 7. The motion capture element of claim 1 wherein said microcontroller is further configured to power off if no motion is detected for a predefined time or power on when motion is detected or both. 8. The motion capture element of claim 1 wherein said microcontroller is further configured to power on when motion is detected via said sensor or wherein said microcontroller is coupled with a passive motion detector that requires no power and wherein said microcontroller is further configured to power on when said passive motion detector that requires no power detects said motion. 9. The motion capture element of claim 1 wherein said microcontroller is further configured to download new firmware, check the new firmware and if the new firmware is valid, execute the new firmware and wherein said download is configured to utilize a universally unique identifier to pair said microcontroller to another computer. 10. The motion capture element of claim 1 further comprising a visual marker. 11. The motion capture element of claim 1 further comprising a battery and a mechanical charger, wherein said battery is coupled with said microcontroller and wherein said battery is further coupled with said mechanical charger. 12. The motion capture element of claim 1 wherein said transmit of said data is configured to transmit said data to an alarm to turn said alarm off. 13. The motion capture element of claim 1 wherein said motion capture element is configured to couple with a piece of sporting equipment having an integrated mount or wherein said motion capture element is configured to couple with a mount that is removable from said piece of sporting equipment. 14. The motion capture element of claim 1 wherein said motion capture element is configured to reside within a SIM card. 15. The motion capture element of claim 1 wherein said motion capture element is configured to transmit the data to a mobile device that comprises an application configured to blend at least two trajectories in said data to form a more accurate single trajectory. 16. The motion capture element of claim 1 wherein said motion capture element is configured to output a motion gesture or circle gesture or number of taps gesture to enable the motion capture element to signify that particular motion capture element that is to be communicated with instead of one or more other motion capture elements within the vicinity of the mobile device. 17. The motion capture element of claim 1 wherein said motion capture element further comprises an output display for local viewing of motion capture data. 18. The motion capture element of claim 1 wherein said modification of the calibration matrix comprises: calculation of a scaling factor s=g/g m ; and, multiplication of the calibration matrix by the scaling factor if the difference between g and g m exceeds a predefined threshold. 19. The motion capture element of claim 1 wherein said microcontroller is further configured to determine a type of equipment or clothing said sensor is coupled with, and based on said type of equipment or clothing, set a sensor personality to utilize dynamically, and based on said sensor personality selected from a plurality of sensor personalities, control sensor settings to collect the data in an optimal manner with respect to a specific type of movement associated with said type of equipment or clothing. 20. The motion capture element of claim 19 wherein said motion capture element is configured to decouple from a first mount on a first piece of equipment or clothing and couple with a second mount on a different type of second piece of equipment or clothing and automatically utilize a different sensor personality associated with said second piece of equipment or clothing. 21. The motion capture element of claim 1 wherein said microcontroller is further configured to determine a type of movement said sensor has sampled, and based on said type of movement, set a sensor personality to utilize dynamically, and based on said sensor personality selected from a plurality of sensor personalities, control sensor settings to collect the data in an optimal manner with respect to said type of movement. 22. The motion capture element of claim 1 wherein said microcontroller is further configured to recalibrate said sensor using calibration data from a below threshold sensor or transmission of an out of calibration alert.