Graphical application system

What is claimed is: 1. A graphical application system configured to apply a desired pattern onto a large area arbitrarily shaped target surface, the system comprising: a graphical application device comprising: a base structure, at least one trackable optical feature at the base structure, at least one nozzle configured to expel paint onto the target surface, a driving unit configured to position the nozzle with respect to the base structure in at least two dimensions, and configured to adjust an expelling aim of the nozzle on the target surface, whereby an application range is defined as an area within which the nozzle is positionable by the driving unit, a local camera directed towards the target surface, and a controller configured to establish a local referencing of the nozzle with respect to a visual feature by imaging the target surface with the local camera, wherein the visual feature is a previously applied section of the desired pattern, and an external referencing device as a surveying instrument located remote from the graphical application device, configured to establish a global referencing of the base structure of the graphical application device with respect to the target surface according to the trackable optical feature of the base structure of the application device in at least three degrees of freedom, and configured to provide the global referencing to the controller, wherein the desired pattern is larger than the application range, and the controller is configured to split the desired pattern into multiple tiles, which tiles fit within the application range, and the controller is configured to subsequently applies those tiles with the controller configured to initiate a stepwise relocation of the graphical application device with respect to the target surface according to the global referencing, wherein the graphical application system comprises the controller configured to control the driving unit and the expelling of the nozzle according to an actual position of the nozzle and the desired pattern in such a way that an application of the desired pattern on the target surface is achieved, wherein the controller is configured to determine a primary alignment of the application range with respect to the target surface by the global referencing, wherein the controller is configured to determine with a further alignment of the actual tile to one or more previously applied tiles by the local referencing, and the controller configured to position the nozzle within the application range according to the local referencing. 2. The system according to claim 1 , wherein the external referencing device is a geodetic instrument measuring position and orientation of the application device in polar coordinates, and determining the global referencing with a global position and orientation of the application device relative to the target surface in six degrees of freedom according to an optical surveying of at least one reference mark as the at least one trackable optical feature at the base structure, and comprising an opto-electronic distance measurement of the at least one reference mark. 3. The system according to claim 2 , wherein the external referencing device is a laser tracker and the base structure of the application device comprises a retroreflector as the at least one trackable optical feature at the base structure. 4. The system according to claim 2 , wherein the external referencing device is a motorized tachymeter and the application device comprises an ATR-retro-reflector as trackable feature. 5. The system according to claim 1 , further comprising means for establishing a communication link between the application device and the external referencing device, in order to exchange spatial referencing information of the global and/or local referencing. 6. The system according to claim 1 , wherein the application range of the application device is smaller than the size of the target surface by at least ½ or less. 7. The system according to claim 1 , wherein the application device comprises a user-guidance unit configured to guide the relocation of the application device according to the global referencing with an optical user guidance by light indicators or a screen. 8. The system according to claim 1 , wherein the driving unit positions the nozzle with respect to the base structure in three dimensions. 9. The system according to claim 1 , wherein the local camera is configured to move with the nozzle. 10. The system according to claim 1 , wherein the external referencing device is configured to global reference the base structure of the graphical application device with respect to the target surface according to the trackable optical feature of the application device in at least five degrees of freedom. 11. The system according to claim 1 , wherein the controller is operably coupled with a non-transient machine readable medium having computer executable instructions for the controller to control the driving unit and expelling of the nozzle according to an actual position of the nozzle and the desired pattern in such a way that an application of the desired pattern on the target surface is achieved, with a primary alignment of the application range with respect to the target surface that is determined by the global referencing and with a further alignment of the actual tile to one or more previously applied tiles by the positioning of the nozzle within the application range that is determined by the local referencing, wherein: the desired pattern is larger than the application range, and the desired pattern is split into multiple tiles, which tiles are fitting within the application range and which tiles will be subsequently applied with a stepwise relocation of the graphical application device with respect to the target surface.