User interface and method for assisting a user when operating an operating unit

The invention claimed is: 1. A processor-based method of operating a touch-sensitive operator control unit configured to execute functions for a vehicle, comprising: displaying a graphical symbol on the operator control unit; detecting, via a sensor system, the presence of input means in a predefined first area in front of the operator control unit in an area of the displayed graphical symbol, wherein the predefined first area comprises an area parallel to a surface of the operator control unit; acknowledging, via a processing apparatus, the detected presence of the input means by generating a predefined first audio output; detecting, via the sensor system, a crossover of the input means from the first area to a predefined second area in front of the operator's control unit, the second area being associated with executing a function for the vehicle; acknowledging, via the processing apparatus, the detected crossover by a generating predefined second audio output; detecting, via the sensor system, a predefined pattern of movement of the input means in the predefined second area; acknowledging, via the processing apparatus, the predefined pattern of movement by a third audio output associated with the predefined pattern of movement; and executing the function for the vehicle based on the detected predefined pattern of movement. 2. The method of claim 1 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 0 mm. 3. The method of claim 1 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 1 mm. 4. The method of claim 1 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 2 mm. 5. The method of claim 1 , wherein generating a predefined first audio output comprises a signal that corresponds to the displayed graphical symbol on the operator's control unit. 6. The method of claim 1 , wherein the generated audio output comprises at least one of: a click sound at a first frequency, a click sound at a second frequency lower than the first frequency, a peep sound, the sound of thunder, the sound of rainfall, the sound of wind, a sequence of DTMF tones (touch tones), a dial tone, and speech outputs. 7. The method of claim 1 , wherein the acknowledging of the detected presence of the input means comprises displaying another graphical symbol on the operator control unit. 8. A Human Machine Interface installed in a motor vehicle, comprising: a touch-sensitive operator control unit configured to display a graphical symbol on the operator control unit; a detection device configured to detect the presence of input means; and a processing device, operatively coupled to the detection device and the operator control unit, wherein the processing device is configured to: detect the presence of the input means in a predefined first area in front of the operator control unit in an area of the displayed graphical symbol, wherein the predefined first area comprises an area parallel to a surface of the operator control unit; acknowledge the detected presence of the input means by generating a predefined first audio output; detect a crossover of the input means from the first area to a predefined second area in front of the operator's control unit, the second area being associated with executing a function for the vehicle; acknowledge the detected crossover by a generating predefined second audio output; detect a predefined pattern of movement of the input means in the predefined second area; acknowledge the predefined pattern of movement by a third audio output associated with the predefined pattern of movement; and execute function for the vehicle based on the detected predefined pattern of movement. 9. The Human Machine Interface of claim 8 , wherein the operator's control unit is located centrally in the dashboard of the motor vehicle. 10. The Human Machine Interface of claim 8 , wherein the detection device comprises a camera system and/or a capacitive sensor. 11. The Human Machine Interface of claim 8 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 0 mm. 12. The Human Machine Interface of claim 8 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 1 mm. 13. The Human Machine Interface of claim 8 , wherein the predefined first area comprises a distance from the operator control unit that is greater than 2 mm. 14. The Human Machine Interface of claim 8 , wherein the processing device is configured to generate a predefined first audio output by generating a signal that corresponds to the displayed graphical symbol on the operator's control unit. 15. The Human Machine Interface of claim 8 , wherein the generated audio output comprises at least one of: a click sound at a first frequency, a click sound at a second frequency lower than the first frequency, a peep sound, the sound of thunder, the sound of rainfall, the sound of wind, a sequence of DTMF tones (touch tones), a dial tone, and speech outputs. 16. The Human Machine Interface of claim 8 , wherein the processing device is configured to acknowledge the detected presence of the input means by generating and displaying another graphical symbol on the operator control unit.