Touch and hover sensor compensation

What is claimed is: 1. A method of compensating for sensors a sensing panel, the method comprising: measuring capacitance at the touch sensor panel in a self-capacitance mode, determining a location of an object based on the self-capacitance measurement in the self-capacitance mode; adjusting the self-capacitance measurement based on the determined object location so as to compensate for location-based sensitivity variation in the sensing panel in the self-capacitance mode; measuring capacitance at the touch sensor panel in a mutual capacitance mode; determining a location of the object based on the mutual capacitance measurement in the mutual capacitance mode; and adjusting the self-capacitance measurement based on the determined object location so as to compensate for location-based sensitivity variation in the sensing panel in the mutual capacitance mode, wherein adjusting the measurement comprises applying a first gain factor to the measurement in the self-capacitance mode, and applying a second gain factor to the measurement in the mutual capacitance mode, different from the first gain factor. 2. The method of claim 1 , wherein the gain factor is a function of a minimum capacitance determined at an edge sensor location and a maximum capacitance determined at a center sensor location. 3. The method of claim 2 , wherein the gain factor varies based on sensor location. 4. The method of claim 1 , wherein the sensing panel sensitivity is at a minimum at edge sensor locations, at a maximum at center sensor locations, and increases therebetween from the edge sensor locations to the center sensor locations. 5. The method of claim 1 , wherein adjusting the measurement comprises providing a substantially uniform sensitivity across the sensing panel. 6. The method of claim 1 , wherein the gain factor is a function of sensor location. 7. A touch and hover sensing device comprising: a sensing panel having multiple sensors at locations of the panel; and a touch and hover control system configured to compensate for a sensitivity variation of the touch and hover sensing device by: measuring a capacitance at the touch sensor panel in a self-capacitance mode, the capacitance being indicative of a proximate object, determining a location of the proximate object based on the measured self-capacitance at the sensors, adjusting the self capacitance measurements from the sensors according to a proximate object location in the self-capacitance mode; measuring capacitance at the touch sensor panel in a mutual capacitance mode; determining a location of the object based on the mutual capacitance measurement in the mutual capacitance mode; and adjusting the mutual capacitance measurement based on the determined object location so as to compensate for location-based sensitivity variation in the sensing panel in the mutual capacitance mode, wherein adjusting the measurements comprises applying a first gain factor to the measurements in the self-capacitance mode, and applying a second gain factor to the measurement in the mutual capacitance mode, different from the first gain factor. 8. The device of claim 7 , wherein the gain factor is a function of sensor location. 9. The device of claim 7 , wherein the control system adjusts the capacitance measurements according to the sensor locations relative to a center sensor location. 10. The device of claim 7 , wherein the proximate object is a hovering object. 11. The device of claim 7 , wherein the gain factor is a function of a minimum capacitance determined at an edge sensor location and a maximum capacitance determined at a center sensor location. 12. The device of claim 7 , wherein the touch and hover sensing device sensitivity is at a minimum at edge sensor locations, at a maximum at center sensor locations, and increases therebetween from the edge sensor locations to the center sensor locations. 13. The device of claim 7 , wherein adjusting the capacitance measurements comprises providing a substantially uniform sensitivity across the touch and hover sensing device. 14. A touch and hover sensing device comprising: a touch and hover sensing panel having multiple sensors configured to detect one or more objects proximate to the panel, wherein the objects touch the panel to cause a touch event, hover over the panel to cause a hover event, or touch and hover concurrently to cause touch and hover events; and a touch and hover control system configured to: measure capacitance associated with the proximate objects in a self-capacitance mode, determine a location of the one or more proximate objects to the panel based on the self capacitance measurement in the self-capacitance mode, adjust the self-capacitance measurement based on the location of the one or more proximate objects so as to compensate for sensitivity variation in the self-capacitance mode; measure capacitance associated with the proximate objects in a mutual capacitance mode; determine a location of the one or more proximate objects based on the mutual capacitance measurement in the mutual capacitance mode; and adjust the mutual capacitance measurement based on the determined object location so as to compensate for location-based sensitivity variation in the sensing panel in the mutual capacitance mode, wherein adjusting the capacitance measurement comprises applying a first gain factor to the measurement in the self-capacitance mode, and applying a second gain factor to the measurement in the mutual capacitance mode, different from the first gain factor. 15. The device of claim 14 , wherein the control system is configured to increase the capacitance measurement as a function of sensor location so as to compensate for the touch and hover sensing device sensitivity variation. 16. The device of claim 14 , wherein the gain factor is a function of a minimum capacitance determined at an edge sensor location and a maximum capacitance determined at a center sensor location. 17. The device of claim 14 , wherein the gain factor is a function of sensor location. 18. The device of claim 14 , wherein adjusting the measurement comprises providing a substantially uniform sensitivity across the touch and hover sensing device. 19. The device of claim 14 , wherein the touch and hover sensing device sensitivity is at a minimum at edge sensor locations, at a maximum at center sensor locations, and increases therebetween from the edge sensor locations to the center sensor locations. 20. The device of claim 14 , further comprising a display configured to display graphical information to select in response to the touch and hover events. 21. The device of claim 14 incorporated into at least one of a mobile phone, a digital media player, or a computer.