System, method and computer-readable medium for measuring athletic performance

What is claimed is: 1. A non-transitory computer-readable storage medium storing computer-readable instructions which, when executed by a processor of a computing device, cause the computing device to carry out a method that comprises: obtaining sensor data indicative of a parameter sensed by a sensor associated with a hockey skate; obtaining position data indicative of a spatial position of the sensor or of the hockey skate; obtaining interaction data indicative of interactions between a wearer of the hockey skate and other players and/or a hockey puck; jointly processing the sensor data, the position data and the interaction data to derive a hybrid metric indicative of an aspect of performance involving the hockey skate; creating a digital message containing the hybrid metric; and sending the digital message over a data network to an address associated with a player. 2. The computer-readable storage medium defined in claim 1 , further comprising determining an identity of the player by consulting a database based on sensor identification information carried in the sensor data. 3. The computer-readable storage medium defined in claim 1 , wherein the hybrid metric comprises skating efficiency, wherein the hybrid metric is indicative of the wearer belonging to one of a plurality of efficiency categories. 4. The computer-readable storage medium defined in claim 3 , wherein the plurality of efficiency categories includes a high efficiency skater and a low efficiency skater. 5. The computer-readable storage medium defined in claim 1 , wherein the method further comprises time-aligning the sensor data and the position data to a common time reference, wherein the jointly processing is carried out on the time-aligned sensor data and position data. 6. The computer-readable storage medium defined in claim 5 , wherein the jointly processing comprises determining a first contribution of the sensor data, determining a second contribution of the position data and weighting a combination of the first and second contributions by the interaction data to obtain the hybrid metric. 7. The computer-readable storage medium defined in claim 1 , wherein the method further comprises determining an action from the sensor data and/or the position data, wherein the jointly processing is carried out as a function of the determined action. 8. The computer-readable storage medium defined in claim 7 , wherein determining the action comprises detecting in the position data a movement pattern from a plurality of predetermined movement patterns. 9. The computer-readable storage medium defined in claim 1 , wherein obtaining the position data comprises receiving images from a camera system and processing the images to track the position of the hockey skate in the images. 10. The computer-readable storage medium defined in claim 1 , wherein obtaining the position data comprises receiving the position data from a fixed indoor localization system. 11. The computer-readable storage medium defined in claim 1 , wherein obtaining the position data comprises: obtaining identification information together with the sensor data for a particular sensor, the identification information identifying the particular sensor; and deriving the position data based on correlating receipt of the identification information identifying the particular sensor at a plurality of receivers. 12. The computer-readable storage medium defined in claim 1 , wherein the method further comprises: consulting a database based on an identity of the sensor to obtain an identity of the player; and storing the hybrid metric in memory in association with the player. 13. The computer-readable storage medium defined in claim 12 , wherein the sensor data comprises data indicative of a heart rate of the player, and wherein the jointly processing comprises determining a displacement based on the position data and combining the displacement with the data indicative of the heart rate of the player. 14. The computer-readable storage medium defined in claim 13 , wherein the method further comprises obtaining biometric information associated with the player, and normalizing the hybrid metric by the biometric information. 15. The computer-readable storage medium defined in claim 1 , further comprising obtaining force or pressure applied to a first part of the hockey skate from the sensor data, obtaining changes in a position of a second part of the hockey skate from the position data, and wherein the hybrid metric is derived from at least the force or pressure applied to the first part of the hockey skate and the changes in the position of the second part of the hockey skate. 16. The computer-readable storage medium defined in claim 1 , wherein the sensor data and the position data are collected over a time period, and wherein the interaction data is indicative of a number of interactions between the wearer of the hockey skate and the other players and/or the puck over the time period. 17. The computer-readable storage medium defined in claim 16 , wherein the hybrid metric comprises skating efficiency, wherein the method further comprises determining the skating efficiency for a left skate and for a right skate worn simultaneously and computing an average skating efficiency therefrom. 18. The computer-readable storage medium defined in claim 17 , wherein the hybrid metric comprises skating efficiency, wherein the skating efficiency of the player over the time period is computed based on a total impulse determined from the sensor data and divided by distance traveled during the time period. 19. The computer-readable storage medium defined in claim 18 , wherein the method further comprises determining the total impulse by integration of net force from sensed data received from a pressure sensor or strain gage. 20. The computer-readable storage medium defined in claim 18 , wherein the method further comprises normalizing the total impulse by a weight of the wearer. 21. The computer-readable storage medium defined in claim 17 , wherein the skating efficiency is proportional to a duration of a glide phase in the time period. 22. The computer-readable storage medium defined in claim 1 , wherein the jointly processing comprises determining an input energy be put into a shot, an output energy released by the shot and a shot efficiency based on the input energy and output energy. 23. The computer-readable storage medium defined in claim 22 , wherein determining the shot efficiency includes computing a ratio of the output energy to the input energy. 24. The computer-readable storage medium defined in claim 1 , wherein the sensor data is obtained from at least one of an accelerometer, a gyroscope, a magnetometer, an inertial measurement unit, a pressure sensor, a strain gauge, a body motion sensor, a heart rate monitor and a thermometer. 25. The computer-readable storage medium defined in claim 1 , wherein the method further comprises: storing the hybrid metric in a computer-readable memory as a hybrid metric for the hockey skate; obtaining a plurality of hybrid metrics for a plurality of reference hockey skates; comparing the hybrid metric for the hockey skate with each of the plurality of obtained hybrid metrics for the plurality of reference hockey skates; selecting one of the plurality of reference hockey skates based on the comparing; and outputting a message conveying the selected reference hockey skate.