Ski power measurement system

What is claimed is: 1. A system to calculate power generated by a skier, comprising: a first sensor unit configured to generate force data indicative of a force exerted by a skier on a ski pole; a second sensor unit configured to generate movement data indicative of movement of the skier in a direction of travel; a portable computing device in communication with the first sensor unit and the second sensor unit, the portable computing device configured to: receive the force data and the movement data, determine a speed based on the movement of the skier in the direction of travel, track the movement of the ski pole during a complete revolution of ski pole movement, and calculate the power generated by the skier based upon the force data measured over the complete revolution of ski pole movement and the determined speed of the skier in the direction of travel during the complete revolution of ski pole movement. 2. The system of claim 1 , further comprising a display, wherein the portable computing device is further configured to display the calculated power generated by the skier during the complete revolution of ski pole movement on the display. 3. The system of claim 2 , wherein portable computing device is further configured to: track the force data and the movement data for a plurality of complete revolutions of ski pole movement, calculate an average power generated by the skier based upon the force data measured over the plurality of complete revolutions of ski pole movement and the determined speed of the skier in the direction of travel over the plurality of complete revolutions of ski pole movement, and display the average power generated by the skier. 4. The system of claim 1 , wherein the first sensor unit includes a strain gauge configured to generate force data indicative of a force exerted by the skier in an axial direction with respect to the ski pole. 5. The system of claim 1 , further comprising a third sensor unit configured to generate ski pole angle data indicative of movement of the ski pole during the complete revolution of ski pole movement. 6. The system of claim 5 , wherein the portable computing device is further configured to calculate a vector component of force exerted by the skier in the direction of travel during the complete revolution of ski pole movement by correlating the force exerted by the skier at each of a plurality of instances of time during the complete revolution of ski pole movement to the angle of the ski pole at each of the plurality of instances in time. 7. The system of claim 1 , wherein the second sensor unit includes a global navigation satellite system (GNSS) receiver configured to generate the movement data indicative of changes in the skier's geographic position in the direction of travel. 8. A system to calculate power generated by a skier during a skiing session, comprising: a display; a sensor module mountable to a ski pole, the sensor module including: a first sensor unit configured to generate force data indicative of a force exerted by a skier, and a second sensor unit configured to generate ski pole angle data indicative of movement of the ski pole; a third sensor unit configured to generate movement data indicative of the movement of the skier in a direction of travel; and a portable computing device in communication with the display, the sensor module, and the third sensor unit the portable computing device configured to: receive the force data, the ski pole angle data, and the movement data, identify time periods associated with a complete revolution of ski pole movement based on the force data or the ski pole angle data, determine a speed based on the movement of the skier in the direction of travel, calculate power generated by the skier during each identified time period based upon the force data and the movement data corresponding to the identified time periods; and display calculated power generated by the skier on the display. 9. The system of claim 8 , wherein the portable computing device identifies a complete revolution of ski pole movement when the force data or the ski pole angle data indicate return of the ski pole to a previous position. 10. The system of claim 8 , wherein the wherein the third sensor unit includes a global navigation satellite system (GNSS) receiver configured to generate the movement data indicative of changes in the skier's geographic position in the direction of travel. 11. The system of claim 8 , wherein the third sensor unit includes an accelerometer configured to generate the movement data indicative of changes in the skier's geographic position in the direction of travel. 12. The system of claim 8 , wherein the ski pole angle data represents an angular velocity or acceleration of the ski pole. 13. The system of claim 12 , wherein the portable computing device is further configured to calculate a vector component of force exerted by the skier in the direction of travel during a complete revolution of ski pole movement by correlating a timing of the force data to a timing of the ski pole angle data. 14. The system of claim 8 , further comprising an interlocking element mounts the sensor module to the ski pole, wherein the first sensor unit includes a load sensor substrate and a load measurement device, the load measurement device configured to generate force data indicative of a force exerted by the skier on the ski pole. 15. A system to calculate power generated by a skier through a ski pole during a skiing session, comprising: a first sensor unit configured to generate force data indicative of a force exerted by the skier on the ski pole; a second sensor unit configured to generate ski pole angle data indicative of movement of the ski pole; a third sensor unit configured to generate movement data indicative of the movement of the skier in a direction of travel; and a portable computing device in communication with the first sensor unit, the second sensor unit, and the third sensor unit, the portable computing device configured to: receive the force data, the ski pole angle data, and the movement data, track force exerted by the skier and movement of the ski pole over a complete revolution of ski pole movement; determine a speed based on the movement of the skier in the direction of travel, identify, for each of a plurality of time instants throughout the complete revolution of ski pole movement, a vector component of force exerted by the skier in the direction of travel by correlating the force exerted by the skier to the angle of the ski pole at each time instant; and calculate power generated by the skier based on the vector component of force exerted by the skier and the speed of the skier movement in the direction of travel for each of the plurality of time instants. 16. The system of claim 15 , further comprising a display, wherein the portable computing device is further configured to display the calculated power on the display. 17. The system of claim 16 , wherein the portable computing device is further configured to: track force exerted by the skier and the movement of the ski pole over a plurality of complete revolutions of ski pole movement, calculate an average power generated by the skier based upon the force data measured over the plurality of complete revolutions of ski pole movement and the distance the skier moved in the direction of travel over the plurality of complete revolutions of ski pole movement, and display the average power generated by the skier. 18. The system of claim 15 , wherein the f