Integrated touch and force detection

What is claimed is: 1 . A touch sensor system comprising: a touchscreen including a plurality of electrodes; a sense circuit operable to sense electrical signals from the plurality of electrodes; an image processing module operable to generate an image frame based on the electrical signals sensed by the sense circuit; a feature extraction module operable to analyze the image frame and to identify touch event candidates based on the analysis; a touch event detection module operable to determine, for each identified touch event candidate, whether the touch event candidate is associated with a touch event; and a force detection module operable to: determine, for each touch event candidate associated with a touch event, a first component of the image frame associated with an object effect, determine, for each touch event candidate associated with a touch event, a second component of the image frame associated with a force effect, and determine a force index value associated with the force effect. 2 . The touch sensor system of claim 1 , the touch event detection module being operable to, for each identified touch event candidate, identify an object type associated with the touch event candidate and to determine whether the touch event candidate is associated with a touch event based on the object type. 3 . The touch sensor system of claim 2 , the touch event detection module being operable to identify the object type based on one or both of: a number of nodes contributing to the touch event candidate and a spatial distribution of the nodes contributing to the touch event candidate. 4 . The touch sensor system of claim 2 , the touch event detection module being operable to identify the object type based on a curve-fitting algorithm. 5 . The touch sensor system of claim 1 , the force detection module being operable to determine the first component of the image frame associated with the object effect based on one or more curve-fitting algorithms. 6 . The touch sensor system of claim 1 , the force detection module being operable to determine the second component of the image frame associated with the force effect by subtracting from the image frame the first component of the image frame associated with the object effect. 7 . The touch sensor system of claim 1 , the force detection module being operable to determine the force index value associated with the force effect based on one or both of an amplitude and a size associated with the force effect. 8 . The touch sensor system of claim 1 , further including an event handling module operable to generate a data structure including an identification of a location of the touch event and the force index value. 9 . The touch sensor system of claim 8 , the event handling module further operable to communicate the data structure to an application, the location of the touch event being a first input to the application, the force index value being a second input to the application. 10 . The touch sensor system of claim 1 , the touchscreen being configured as a capacitance-based touchscreen, the plurality of electrodes including a plurality of drive electrodes and a plurality of sense electrodes, the touch sensor system further including a drive circuit operable to generate and apply drive signals to the plurality of drive electrodes, the electrical signals sensed by the sense circuit being sensed from the plurality of sense electrodes. 11 . The touch sensor system of claim 10 , the touchscreen being configured as a mutual-capacitance-based touchscreen, the electrical signals sensed by the sense circuit being capacitively-coupled onto the plurality of sense electrodes from the plurality of drive electrodes. 12 . A display device comprising: the touch sensor system of claim 1 ; and a display. 13 . A system capable of determining a force index value associated with a touch event comprising: touch-sensitive means; means for sensing electrical signals from the touch-sensitive means; means for generating an image frame based on the electrical signals sensed by the means for sensing; means for analyzing the image frame and identifying touch event candidates based on the analysis; means for determining, for each identified touch event candidate, whether the touch event candidate is associated with a touch event; and force detection means for: determining, for each touch event candidate associated with a touch event, a first component of the image frame associated with an object effect, determining, for each touch event candidate associated with a touch event, a second component of the image frame associated with a force effect, and determining a force index value associated with the force effect. 14 . The system of claim 13 , the means for determining, for each identified touch event candidate, whether the touch event candidate is associated with a touch event including means for identifying an object type associated with the touch event candidate, the determining of whether the touch event candidate is associated with a touch event being based on the object type. 15 . The system of claim 14 , the means for determining which of the touch event candidates are associated with touch events including means for identifying the object type based on one or both of: a number of nodes contributing to the touch event candidate and a spatial distribution of the nodes contributing to the touch event candidate. 16 . The system of claim 14 , the means for determining which of the touch event candidates are associated with touch events including means for identifying the object type based on a curve-fitting algorithm. 17 . The system of claim 13 , the force detection means including means for determining the first component of the image frame associated with the object effect based on one or more curve-fitting algorithms. 18 . The system of claim 13 , the force detection means including means for subtracting from the image frame the first component of the image frame associated with the object effect to determine the second component of the image frame associated with the force effect. 19 . The system of claim 13 , the force detection means including means for determining the force index value based on one or both of an amplitude and a size associated with the force effect. 20 . The system of claim 13 , further including: means for generating a data structure including an identification of a location of the touch event and the force index value, and means for communicating the data structure to an application, the location of the touch event being a first input to the application, the force index value being a second input to the application. 21 . The system of claim 13 , the touch-sensitive means including a plurality of drive electrodes and a plurality of sense electrodes, the system further including means for generating drive signals and means for applying the drive signals to the plurality of drive electrodes, the means for sensing electrical signals including means for sensing the electrical signals from the plurality of sense electrodes. 22 . A method for determining a force index associated with a touch event comprising: sensing electrical signals from a touchscreen; generating an image frame based on the sensed electrical signals; analyzing the image frame and identifying touch event candidates based on the analysis; determining, for each identified touch event candidate, whether the to