Automatic field calibration of force input sensors

What is claimed is: 1. An input sensor for an electronic device, the input sensor comprising: a force-sensitive structure coupled to a substrate and comprising a plurality of force sensors, each force sensor coupled to a separate area of the substrate; and an input resolver in communication with the force-sensitive structure and configured to: measure an output by each force sensor when a compressive force is applied to an input location of the substrate; modify the measurement of each force sensor based on an output of a mechanical model of the force-sensitive structure upon determining that a sum magnitude of force applied to the substrate does not exceed a selected threshold; and update the mechanical model of the force-sensitive structure upon determining that the sum magnitude of force applied to the substrate exceeds the selected threshold, and output the measurements of each force sensor as a force input to the electronic device. 2. The input sensor of claim 1 , wherein the mechanical model is configured to independently adjust the output of each force sensor based in part on a location of each respective force sensor within the force-sensitive structure. 3. The input sensor of claim 1 , wherein the mechanical model is configured to independently adjust the output of each force sensor based in part on a material property of the substrate. 4. The input sensor of claim 1 , wherein the mechanical model is configured to independently adjust the output of each force sensor based in part on a material property of a frame to which the substrate is coupled. 5. The input sensor of claim 1 , wherein the substrate is formed from glass or sapphire. 6. An input sensor comprising: a force-sensitive structure coupled to a substrate and having an electrical property that changes as a function of a magnitude of force to the substrate; and an input resolver in communication with the force-sensitive structure and configured to update a mechanical model of the force-sensitive structure upon determining that the force-sensitive structure has received a sum magnitude of force input that exceeds a selected threshold. 7. The input sensor of claim 6 , wherein the force-sensitive structure comprises an arrangement of independent force sensors each having an electrical property that changes as a function of a magnitude of force applied to the independent force sensor. 8. The input sensor of claim 7 , wherein the arrangement of independent force sensors are organized as a two-dimensional grid. 9. The input sensor of claim 7 , wherein the mechanical model is used by the input resolver to adjust an output of each independent force sensor of the arrangement of independent force sensors in response to an application of a selected unit of force. 10. The input sensor of claim 7 , wherein the mechanical model is used by the input resolver to adjust an output of each independent force sensor of the arrangement of independent force sensors based in part on a position of the independent force sensor within the force-sensitive structure. 11. The input sensor of claim 7 , wherein the mechanical model is used by the input resolver to adjust an output of each independent force sensor of the arrangement of independent force sensors based in part on a material property of a material forming at least a portion of each independent force sensor. 12. The input sensor of claim 7 , wherein the mechanical model is used by the input resolver to adjust an output of each independent force sensor of the arrangement of independent force sensors based in part on a material property of the substrate. 13. The input sensor of claim 7 , wherein the mechanical model is used by the input resolver to adjust an output of each independent force sensor of the arrangement of independent force sensors based in part on a material property of a frame to which the substrate is coupled. 14. The input sensor of claim 6 , wherein an output of the input resolver based on the mechanical model depends, at least in part, on a location of the force applied.