Sensor managed apparatus, method and computer program product

The invention claimed is: 1. An electronic device comprising: an interactive display having a sensor that detects a user interaction with a sub-portion of the interactive display; and a processing circuit configured to execute a state change of the interactive display from a low power state to an operational state in response to only one detected user interaction with the electronic device, said user interaction being one of a touch event, a proximity event and a gesture, wherein the processing circuit is configured to perform the state change after determining that a detected pattern, caused by an object used to generate the user interaction, matches a preregistered pattern within a predetermined amount, the one user interaction is a touch event that includes a movement of said object over said front lens while remaining in contact with said front lens the sub-portion includes a plurality of soft key regions that includes at least a first soft key and a second soft key, the touch event includes a movement across the soft key regions that include the first soft key region and the second soft key region, and the processing circuit is configured to determine that the first soft key region is included in the touch event before determining that the second soft key region is included in the touch event. 2. The electronic device of claim 1 , wherein the sub-portion is disposed at an end portion of the interactive display, and is visually separated from a main display portion of said interactive display by a material that optically covers at least a portion of said sub-portion but not said main display portion. 3. The electronic device of claim 1 , further comprising: a front lens having an external surface that separates the sensor from the object, wherein the interactive display being a touch panel, and the sensor being a capacitance sensor that is reactive to a touch of the object. 4. The electronic device of claim 1 , wherein the processing circuit is configured to determine the first soft key region is included in the touch event by receiving a signal from the sensor indicating that a change in detected capacitance amount exceeded a predetermined level for a portion of the sensor that corresponds with the first soft key region. 5. The electronic device of claim 3 , further comprising: a computer storage medium that has data stored therein describing the preregistered pattern, the preregistered pattern being a capacitance pattern, wherein the processing circuit is configured to perform the state change after determining that a detected capacitance pattern caused by the object matches the preregistered capacitance pattern within a predetermined amount. 6. The electronic device of claim 3 , wherein the one user interaction is a proximity detection that includes a movement of said object over said front lens without contacting said front lens. 7. The electronic device of claim 6 , further comprising: a computer storage medium that has data stored therein describing the preregistered pattern, the preregistered pattern being a proximity pattern, wherein the processing circuit performs the state change after determining that a detected proximity pattern caused by the object matches the preregistered proximity pattern within a predetermined amount. 8. The electronic device of claim 7 , wherein the processing circuit is configured to perform a cross-correlation operation to determine that the detected proximity pattern caused by the object matches the preregistered proximity pattern within a predetermined amount. 9. The electronic device of claim 3 , wherein the one user interaction is a multi-point gesture that includes a movement of said object over said front lens. 10. The electronic device of claim 1 , further comprising: a feedback mechanism that provides a haptic response when the only one detected user interaction is recognized by the processing circuit as being a user interaction that is associated with a wake up and an unlock instruction. 11. The electronic device of claim 10 , wherein said feedback mechanism includes at least one of an illumination device, and a tactile sensation device. 12. A method for managing operation of a user interface in an electronic device comprising: detecting with a sensor a user interaction with a sub-portion of an interactive display; and executing with a processing circuit a state change of the interactive display from a low power state to an operational state in response to only one detected user interaction with the electronic device, said user interaction being one of a touch event, a proximity event and a gesture, wherein said executing includes determining that a detected pattern, caused by an object used to generate the user interaction, matches a preregistered pattern within a predetermined amount, the one user interaction is a touch event that includes a movement of said object over a front lens but does not contact said front lens, said front lens separating said sensor from the object that generates the user interaction, and the preregistered pattern is a proximity pattern, and said executing includes determining that a detected proximity pattern caused by the object matches the preregistered proximity pattern within a predetermined amount. 13. The method of claim 12 , wherein the one user interaction is a touch event that includes a movement of said object over a front lens while remaining in contact with said front lens, said front lens separating said sensor from the object that generates the user interaction. 14. The method of claim 13 , wherein said executing includes determining that a change in detected capacitance exceeds a predetermined level for a portion of the sensor that corresponds with a first soft key region. 15. A non-transitory computer readable storage medium having computer readable instructions that when executed by a processing circuit implement a method of managing a user interface in an electronic device, said method comprising: detecting with a sensor a user interaction with a sub-portion of an interactive display; and executing with a processing circuit a state change of the interactive display from a low power state to an operational state in response to only one detected user interaction with the electronic device, said user interaction being one of a touch event, a proximity event and a gesture, wherein said executing includes determining that a detected pattern, caused by an object used to generate the user interaction, matches a preregistered pattern within a predetermined amount, the one user interaction is a touch event that includes a movement of said object over a front lens but does not contact said front lens, said front lens separating said sensor from the object that generates the user interaction, and the preregistered pattern is a proximity pattern, and said executing includes determining that a detected proximity pattern caused by the object matches the preregistered proximity pattern within a predetermined amount.