Method and apparatus for resolving touch screen ambiguities

We claim: 1. A method for reducing unintentional activation of a touch-sensitive display of a device, the method comprising: providing a first sensor for detecting a first event indicating an object touching or hovering over the touch-sensitive display, wherein the first sensor comprises a touch screen sensor based on a capacitive, optical, or electric field technology; providing a second sensor for detecting a second event indicating a vibro-acoustic event imparting vibrations into the device via the touch-sensitive display or via other device portions outside the touch-sensitive display, wherein the first event and the second event are distinctly different physical phenomena, wherein the second sensor comprises at least one of a condenser microphone or a microelectro-mechanical systems (MEMS) microphone; initiating a time window associated with a window timer in response to detecting at least the first event associated with the first sensor or the second event associated with the second sensor, wherein the time window comprises a period of time less than 500 milliseconds; based on both the first event and the second event being detected within the time window, determining that an object is touching the touch-sensitive display, an object is not hovering over the touch-sensitive display, and vibrations are imparted into the device via the touch-sensitive display; based on the second event but not the first event being detected within the time window, determining that vibrations are imparted into the device but not via the touch-sensitive display and that an object is not touching the touch-sensitive display; activating the touch-sensitive display from a low energy usage state in response to both the first event and the second event being detected within the time window and in response to determining that an object is touching the touch-sensitive display, an object is not hovering over the touch-sensitive display, and vibrations are imparted via the touch-sensitive display into the device; and maintaining the touch-sensitive display in the low energy usage state in response to the second event but not the first event being detected within the time window and in response to determining that vibrations are imparted into the device, but not via the touch-sensitive display, and that an object is not touching the touch-sensitive display. 2. The method recited in claim 1 , further comprising: in response to the first sensor detecting the first event and the second sensor not detecting the second event within the time window, determining that the first event indicates an object is not touching the touch-sensitive display. 3. The method recited in claim 1 , wherein the time window comprises a maximum period of 300 milliseconds. 4. An apparatus comprising: a touch-sensitive display; a first sensor for detecting a first event indicating an object touching or hovering over the touch-sensitive display, wherein the first sensor comprises a touch screen sensor based on a capacitive, optical, or electric field technology; a second sensor for detecting a second event indicating a vibro-acoustic event imparting vibrations into the apparatus via the touch-sensitive display or via other apparatus portions outside the touch-sensitive display, wherein the first event and the second event are distinctly different physical phenomena, wherein the second sensor comprises at least one of a condenser microphone or a microelectro-mechanical systems (MEMS) microphone; at least one logic device for: initiating a time window associated with a window timer in response to detecting at least the first event associated with the first sensor or the second event associated with the second sensor, wherein the time window comprises a period of time less than 500 milliseconds, based on both the first event and the second event being detected within the time window, determining that an object is touching the touch-sensitive display, an object is not hovering over the touch-sensitive display, and vibrations are imparted into the device via the touch-sensitive display; based on the second event but not the first event being detected within the time window, determining that vibrations are imparted into the device but not via the touch-sensitive display and that an object is not touching the touch-sensitive display; activating the touch-sensitive display from a low energy usage state in response to both the first event and the second event being detected within the time window and in response to determining that an object is touching the touch-sensitive display, an object is not hovering over the touch-sensitive display, and vibrations are imparted via the touch-sensitive display into the device; and maintaining the touch-sensitive display in the low energy usage state in response to the second event but not the first event being detected within the time window and in response to determining that vibrations are imparted into the device, but not via the touch-sensitive display, and that an object is not touching the touch-sensitive display. 5. The apparatus recited in claim 4 , wherein the at least one logic is further configured for determining that the first event indicates an object is not touching the touch-sensitive display in response to the first sensor detecting the first event and the second sensor not detecting the second event within the time window. 6. The apparatus recited in claim 4 , wherein the time window comprises a maximum period of 300 milliseconds. 7. The apparatus recited in claim 4 wherein the at least one logic device comprises an OR gate connected to initiate a time window generator associated with the time window when either of the first sensor and the second sensor detects a respective first or second event, and an AND gate connected to activate the touch-sensitive display when both the first sensor and the second sensor detect respective first and second events during the time window. 8. A non-transitory computer readable medium containing instructions for reducing inadvertent activation of a touch-sensitive display of a device, wherein execution of the program instructions by a processor causes the processor to carry out the steps of: providing a first sensor for detecting a first event indicating an object touching or hovering over the touch-sensitive display, wherein the first sensor comprises a touch screen sensor based on a capacitive, optical, or electric field technology; providing a second sensor for detecting a second event indicating a vibro-acoustic event imparting vibrations into the device via the touch-sensitive display or via other device portions outside the touch-sensitive display, wherein the first event and the second event are distinctly different physical phenomena, wherein the second sensor comprises at least one of a condenser microphone or a microelectro-mechanical systems (MEMS) microphone; initiating a time window associated with a window timer in response to detecting at least the first event associated with the first sensor or the second event associated with the second sensor, wherein the time window comprises a period of time less than 500 milliseconds; based on both the first event and the second event being detected within the time window, determining that an object is touching the touch-sensitive display, an object is not hovering over the touch-sensitive display, and vibrations are imparted into the device via the touch-sensitive display; based on the second event but not the first event being detected within the time window, determining that vibrations are imparted into the device but not via the touch-sensitive display and that an object is not touching the touch-sensitive display; activating the touch-sensitive display from a lo