Multi-touch display screen with localized tactile feedback

What is claimed is: 1. A method for enabling non-visual use of an electronic device comprising: detecting a touch event on a touch-sensitive display at a location; determining whether the touch event is a first type of touch event or a second type of touch event, the first type of touch event and the second type of touch event each comprising at least one gesture; and if touch event is the first type of touch event, selectively activating a first subset of a plurality of piezoelectric actuators; and if the touch event is the second type of touch event, selectively activating a second subset of the plurality of piezoelectric actuators; wherein each of the plurality of piezoelectric actuators share a common electrode. 2. The method of claim 1 , further comprising applying a first control signal to the first subset of the plurality of piezoelectric actuators and applying a second control signal to a second subset of the plurality of piezoelectric actuators. 3. A user input component for an electronic device comprising: a touch-sensitive surface that detects a touch event at a location; a grid of piezoelectric actuators overlaying the touch-sensitive surface, each of the grid of piezoelectric actuators sharing a common electrode; circuitry to determine whether the touch event is a first type of touch event or a second type of touch event; circuitry to selectively activate a first subset of the piezoelectric actuators included in the grid of piezoelectric actuators at the location of the touch event on the touch-sensitive surface if the touch event is a first type; and circuitry to selectively activate a second subset of the piezoelectric actuators included in the grid of piezoelectric actuators at the location of the touch event on the touch-sensitive surface if the touch event is a second type wherein: the first type of touch event and the second type of touch event each comprises at least one gesture. 4. The user input component of claim 3 , further comprising circuitry to selectively activate the first subset of the piezoelectric actuators based upon the location of the touch event on the touch-sensitive surface and a localized haptic feedback response associated with the location. 5. The user input component of claim 3 , wherein the grid of piezoelectric actuators comprises: a plurality of transparent electrodes; and transparent piezoelectric material arranged as a plurality of nodes disposed between the plurality of electrodes and the common electrode. 6. The user input component of claim 3 , wherein the grid of piezoelectric actuators comprises: a plurality of electrodes; and opaque piezoelectric material arranged as a plurality of nodes disposed between the plurality of electrodes and the common electrode. 7. The user input component of claim 3 , further comprising circuitry to selectively activate a first piezoelectric actuator of the first subset of piezoelectric actuators by applying a first control signal to one electrode and applying a second control signal to another electrode. 8. The user input component of claim 3 further comprising an integrated display screen. 9. The user input component of claim 8 , wherein the integrated display screen is disposed on top of the grid of piezoelectric actuators. 10. The user input component of claim 8 , wherein the integrated display screen is disposed below the grid of piezoelectric actuators. 11. The user input component of claim 3 , further comprising circuitry to selectively activate a second subset of the piezoelectric actuators included in the grid of piezoelectric actuators, wherein the first subset of the piezoelectric actuators and the second subset of the piezoelectric actuators each vibrate at a unique frequency.