Pressure-sensitive touch screen display and method

The invention claimed is: 1. An electronic device comprising: at least one processor; a memory coupled to the at least one processor; a touch screen display coupled to the at least one processor, the touch screen display comprising a pressure-sensitive interface that is capable of detecting a plurality of pressures when a user touches a displayed item on the touch screen display; and a pressure-sensitive interface mechanism residing in the memory and executed by the at least one processor, the pressure-sensitive interface mechanism dynamically monitoring a user's interaction with the touch screen display, detecting when pressure detection was incorrect by detecting when the user selects a pressure-sensitive item a first time then selects the pressure-sensitive item a second time with a different pressure, and adjusting pressure thresholds of a plurality of areas of the touch screen display based on the user's monitored interactions. 2. The device of claim 1 further comprising: an orientation mechanism that determines physical orientation of the device; and at least one pressure map of the touch screen display that includes a plurality of pressure thresholds for a plurality of sections of the touch screen display in a selected orientation defined by the orientation mechanism. 3. The device of claim 2 further comprising: a first pressure map for a first orientation of the electronic device; and a second pressure map for a second orientation of the electronic device. 4. The device of claim 1 further comprising a calibration mechanism that prompts the user to touch a plurality of regions on the touch screen display using a plurality of pressures with the device in a plurality of orientations, logs the plurality of pressures, and generates a plurality of pressure maps of the touch screen display that each includes: a selected orientation; a plurality of sections of the touch screen display; and for each one of the plurality of sections of the touch screen display, a plurality of pressure thresholds customized to the user based on the plurality of pressures the user used to touch the one section of the touch screen display. 5. The device of claim 4 wherein the plurality of regions on the touch screen display each comprises at least one of the plurality of sections of the touch screen display. 6. The device of claim 1 wherein the pressure-sensitive interface mechanism detects pressure on the displayed item in a selected region of the touch screen display, determines from an orientation of the device and a pressure map corresponding to the orientation a plurality of pressure detection thresholds for the selected region of the touch screen display, and takes action based on the detected pressure on the displayed item and the plurality of pressure detections thresholds for the selected region of the touch screen display. 7. A method for a user to interact with an electronic device comprising: providing a touch screen display on the device that comprises a pressure-sensitive interface that is capable of detecting a plurality of pressures when a user selects a displayed item on the touch screen display; and dynamically monitoring a user's interaction with the touch screen display, detecting when pressure detection was incorrect by detecting when the user selects a pressure-sensitive item a first time then selects the pressure-sensitive item a second time with a different pressure, and adjusting pressure thresholds of a plurality of areas of the touch screen display based on the user's monitored interactions. 8. The method of claim 7 further comprising: determining a physical orientation of the device; and generating at least one pressure map of the touch screen display that includes a plurality of pressure thresholds for a plurality of sections of the touch screen display in a selected orientation defined by the orientation mechanism. 9. The method of claim 8 further comprising: generating a first pressure map for a first orientation of the electronic device; and generating a second pressure map for a second orientation of the electronic device. 10. The method of claim 7 further comprising: prompting the user to touch a plurality of regions on the touch screen display using a plurality of pressures with the device in a plurality of orientations; logging the plurality of pressures; and generating a plurality of pressure maps of the touch screen display that each includes: a selected orientation; a plurality of sections of the touch screen display; and for each one of the plurality of sections of the touch screen display, a plurality of pressure thresholds customized to the user based on the plurality of pressures the user uses to touch the one section of the touch screen display. 11. The method of claim 10 wherein the plurality of regions on the touch screen display each comprises at least one of the plurality of sections of the touch screen display. 12. The method of claim 7 further comprising: detecting pressure on a displayed item in a selected region of the touch screen display; determining from an orientation of the device and a pressure map corresponding to the orientation a plurality of pressure detection thresholds for the selected region of the touch screen display; and taking action based on the detected pressure on the item and the plurality of pressure detections thresholds for the selected region of the touch screen display. 13. An article of manufacture comprising software stored on a computer readable storage medium, the software comprising: a pressure-sensitive interface mechanism that dynamically monitors a user's interaction with a touch screen display comprising a pressure-sensitive interface that is capable of detecting a plurality of pressures when a user selects an item on the touch screen display, and that detects when pressure detection was incorrect by detecting when the user selects a pressure-sensitive item a first time then selects the pressure-sensitive item a second time with a different pressure, and dynamically adjusts pressure thresholds of a plurality of areas of the touch screen display based on the user's monitored interactions. 14. The article of manufacture of claim 13 further comprising: an orientation mechanism that determines physical orientation of the device; and at least one pressure map of the touch screen display that includes a plurality of pressure thresholds for a plurality of sections of the touch screen display in a selected orientation defined by the orientation mechanism. 15. The article of manufacture of claim 14 further comprising: a first pressure map for a first orientation of the electronic device; and a second pressure map for a second orientation of the electronic device. 16. The article of manufacture of claim 13 further comprising a calibration mechanism that prompts the user to tough a plurality of regions on the touch screen display using a plurality of pressures with the device in a plurality of orientations, logs the plurality of pressures, and generates a plurality of pressure maps of the touch screen display that each includes: a selected orientation; a plurality of sections of the touch screen display; and for each one of the plurality of sections of the touch screen display, a plurality of pressure thresholds customized to the user based on the plurality of pressures the user uses to touch the one section of the touch screen display. 17. The article of manufacture of claim 16 wherein the plurality of regions on the touch screen display each comprises at lea