Method and apparatus for determining whether a cyclist is sitting or standing

What is claimed is: 1. An electronic device configured to determine a bicyclist's bodily position while the bicyclist is riding a bicycle, wherein the bicycle includes a seat, a handlebar, left and right pedals, and one or more force sensors configured to measure a force applied by the bicyclist to the left and right pedals, the electronic device comprising: a communication element configured to receive data from the one or more force sensors including a measured force applied by the bicyclist to the left and right pedals, the data including a radial force and a tangential force; a memory element configured to store the received data and an actual weight of the bicyclist; and a processing element coupled with the communication element and the memory element, the processing element configured to: determine a total vertical force applied by the bicyclist to the left and right pedals, determine the bicyclist's bodily position as being one of the bicyclist sitting on the seat or the bicyclist standing on the left and right pedals based on the radial force and the tangential force at a lower portion of a pedal rotation cycle, and determine an amount of force applied by the bicyclist to the handlebar based on the total vertical force and the stored weight of the bicyclist. 2. The electronic device as set forth in claim 1 , wherein the processing element is further configured to determine the bicyclist is standing on the pedals when the radial force is higher than the tangential force at a lower portion of the pedal rotation cycle. 3. The electronic device as set forth in claim 1 , wherein the processing element is further configured to determine the bicyclist is sitting on the seat when the radial force is lower than the tangential force at a lower portion of the pedal rotation cycle. 4. The electronic device as set forth in claim 1 , wherein the one or more force sensors are configured to measure a total vertical force applied by the bicyclist to the left and right pedals, and wherein the processing element is further configured to determine that the bicyclist changed from a seated to a standing bodily position when the total vertical force on the left and right pedals increases from a lower level of total vertical force to a higher level of total vertical force. 5. The electronic device as set forth in claim 1 , wherein the memory element is further configured to record the determined bodily position and a series of changes in the bicyclist's bodily position while the bicyclist is riding the bicycle. 6. The electronic device as set forth in claim 5 , wherein the processing element is further configured to: determine when the bicyclist is standing upright on the left and right pedals, and determine the actual weight of the bicyclist based on the data received from the force sensors associated with the force applied by the bicyclist to the left and right pedals when standing upright. 7. The electronic device as set forth in claim 1 , further comprising— a display; and a location-determining element configured to determine a geographic location of the electronic device; and wherein the memory element is further configured to store the determined bicyclist bodily position geographic location; and wherein the processing element is further configured to: determine a series of changes in the bicyclist's bodily position, correlate the series of changes in the bicyclist's bodily position with the series of changes in the geographic location; and control the display to graphically communicate the correlated series of changes in the bicyclist's bodily position and the series of changes in the geographic location. 8. The electronic device as set forth in claim 1 , further comprising— a display; wherein the bicycle further includes one or more performance metric sensors configured to measure the one or more performance metrics of the bicyclist or the bicycle while the bicyclist is riding the bicycle; wherein the memory element is further configured to record a series of changes in the one or more performance metrics; and wherein the processing element is further configured to: determine a series of changes in the bicyclist's bodily position, correlate the series of changes in the bicyclist's bodily position with the series of changes in the one or more performance metrics, and control the display to graphically communicate the correlated series of changes in the bicyclist's bodily position and the series of changes in the one or more performance metrics. 9. The electronic device as set forth in claim 1 , wherein the processing element is further configured to determine the bicyclist's grip on the handlebar based on the data received from the one or more force sensors. 10. The electronic device as set forth in claim 1 , further comprising a display, wherein the processing element is further configured to control the display to graphically communicate the determined bodily position. 11. An electronic device configured to determine a bicyclist's bodily position while the bicyclist is riding a bicycle, wherein the bicycle includes a seat, a handlebar, left and right pedals, one or more force sensors configured to measure a radial force and a tangential force applied by the bicyclist to the left and right pedals, and one or more performance metric sensors configured to measure one or more performance metrics of the bicyclist or the bicycle while the bicyclist is riding the bicycle, the electronic device comprising— a display; a location-determining element configured to determine a geographic location of the electronic device; a communication element configured to receive the one or more performance metrics from the one or more performance metric sensors and data from the one or more force sensors relating to the radial and tangential forces applied by the bicyclist to the left and right pedals; a memory element configured to store the received data and an actual weight of the bicyclist; and a processing element coupled with the location-determining element the communication element, and the memory element, the processing element configured to: determine a total vertical force applied by the bicyclist to the left and right pedals, determine a standing bodily position when the radial force is higher than the tangential force at a lower portion of a pedal rotation cycle, determine a sitting bodily position when the radial force is lower than the tangential force at a lower portion of the pedal rotation cycle, determine a series of changes in the bicyclist's bodily position, the geographic location and the one or more performance metrics, determine an amount of force applied by the bicyclist to the handlebar based on the total vertical force and the stored weight of the bicyclist, and control the display to graphically communicate a correlated series of changes in the bicyclist's bodily position, the series of changes in the geographic location, and the series of changes in the one or more performance metrics. 12. A method of determining a bicyclist's bodily position while the bicyclist is riding a bicycle, wherein the bicycle includes a seat, a handlebar, left and right pedals, and one or more force sensors configured to measure a force applied by the bicyclist to the left and right pedals, the method comprising the steps of: storing, using a memory element, an actual weight of the bicyclist; receiving, via a communication element, data from the one or more force sensors relating to the force applied by the bicyclist to the left and right pedals, the data including a radial force and a tangential force; analyzing, using a processing element, the received