Method for operating a touch sensitive user interface

The invention claimed is: 1. A method for operating a touch sensitive user interface, the touch sensitive user interface comprising a touch sensitive surface and at least two force sensitive sensors, wherein the touch sensitive surface is configured to provide a touch information indicating touch positions of at least two concurrent touches on the touch sensitive surface, wherein the at least two force sensitive sensors are mounted at the touch sensitive surface at different predetermined locations, wherein each of the at least two force sensitive sensors is configured to generate a corresponding force information depending on a force being exerted on the corresponding force sensitive sensor, the method comprising the steps of: determining the touch positions of the at least two concurrent touches on the touch sensitive surface based on the touch information; receiving the force information from the at least two force sensitive sensors; determining for each of the at least two concurrent touches a corresponding subset of the at least two force sensitive sensors, said determining including determining a distance between the touch positions of the at least two concurrent touches and each one of the at least two force sensitive sensors, and based on the determined distance between the touch positions of the at least two concurrent touches and each one of the at least two force sensitive sensors identifying at least one force sensitive sensor of the at least two force sensitive sensors that is arranged nearest to the corresponding touch position, and including in the subset the at least one force sensitive sensor arranged nearest to the corresponding touch; and determining for each of the at least two concurrent touches a corresponding touch force based on the at least two touch positions, the force information from the force sensitive sensors of the corresponding subset, and the predetermined locations of the at least two force sensitive sensors. 2. The method according to claim 1 , wherein the touch sensitive surface comprises at least one of a group comprising a capacitive touch sensitive surface, an optical touch sensitive surface, an infrared touch sensitive surface, and a resistive touch sensitive surface. 3. The method according to claim 1 , wherein the touch sensitive surface comprises a display for outputting visual information on the touch sensitive surface. 4. The method according to claim 1 , wherein the force sensitive sensors comprise compression force sensitive sensors arranged to detect a force substantially perpendicular to the touch sensitive surface. 5. The method according to claim 1 , wherein the touch sensitive sensors are arranged between the touch sensitive surface and a housing of a device comprising the touch sensitive user interface. 6. The method according to claim 1 , wherein the predetermined locations of the at least two force sensitive sensors comprise locations at a periphery of the touch sensitive surface. 7. The method according to claim 1 , wherein the touch sensitive surface is substantially rectangular with four circumferential sides, and wherein at least one force sensitive sensor is located at each of the four sides. 8. A touch sensitive user interface, comprising: a touch sensitive surface configured to provide a touch information indicating touch positions of at least two concurrent touches on the touch sensitive surface; at least two force sensitive sensors mounted at the touch sensitive surface at different predetermined locations, each of the at least two force sensitive sensors being configured to generate a corresponding force information depending on a force being exerted on the corresponding force sensitive sensor; and a processing unit coupled to the touch sensitive surface and the at least two force sensitive sensors and configured to determine the touch positions of the at least two concurrent touches on the touch sensitive surface based on the touch information from the touch sensitive surface, determine a distance between the touch positions of the at least two concurrent touches and each one of the at least two force sensitive sensors, determine for each of the at least two concurrent touches a corresponding subset of the at least two force sensitive sensors, wherein the processing unit identifies at least one force sensitive sensor of the at least two force sensitive sensors that is arranged nearest to the corresponding touch based on the determined distance between the touch positions of the at least two concurrent touches and each one of the at least two force sensitive sensors, and includes in the subset the at least one force sensitive sensor arranged nearest to the corresponding touch, and determine for each of the at least two concurrent touches a corresponding touch force based on the at least two touch positions, the force information only from the force sensitive sensors of the corresponding subset, and the predetermined locations of the at least two force sensitive sensors. 9. A device comprising a touch sensitive user interface according to claim 8 . 10. The device according to claim 9 , wherein the device comprises at least one device of a group consisting of a mobile phone, a personal digital assistant, a mobile music player, and a navigation system.