Imaging device and method for automatic focus in an imaging device as well as a corresponding computer program

What is claimed is: 1. An imaging device, comprising: a first imaging system comprising a first lens system; a second imaging system comprising a second lens system; a third imaging system comprising a third lens system; and an autofocus controller adapted to: perform a step by step autofocus search using the first lens system, the second lens system, and the third lens system on the basis of a search parameter; obtain a result of an objective function for each of the first lens system, the second lens system, and the third lens system after each autofocus search step, the result of the objective function corresponding to a contrast of an image at the respective autofocus search step; and update the search parameter depending on the obtained results of the objective function for each of the first lens system, the second lens system, and the third lens system. 2. The imaging device according to claim 1 , wherein the autofocus controller is further adapted to: initially obtain a result of an objective function for each of the first lens system and the second lens system in a predetermined position in a common initial search range; and store, separately for each of the first lens system and second lens system, the respective obtained result of the objective function as a stored best result. 3. The imaging device according to claim 2 , wherein the autofocus controller is further adapted to: store, separately for each of the first lens system, the second lens system, and the third lens system, the respective best result of the obtained objective function; compare, after each autofocus search step, the respective obtained result of the objective function with the stored best result for each of the first lens system, the second lens system, and the third lens system; and update the search parameter depending on the result of the comparison. 4. The imaging device according to claim 3 , wherein the autofocus controller is further adapted to update the search parameter if the result of the comparison yields that for one of the first lens system, the second lens system, and the third lens system the obtained result of the objective function is deteriorating in comparison with the stored best result for this lens system. 5. The imaging device according to claim 4 , wherein the search parameter is a common search range of the autofocus search, and wherein the autofocus controller is further adapted to, in response to updating the search parameter, set a new search range, which is smaller than a respective previous search range, in response to the comparison yielding for one of the first lens system, the second lens system, and the third lens system that the obtained result of the objective function is deteriorating. 6. The imaging device according to claim 5 , wherein the autofocus controller is further adapted to determine a position of the first lens system, the second lens system, or the third lens system, at which the obtained result of the objective function for this lens system is deteriorating, as a new boundary of the new search range. 7. The imaging device according to claim 6 , wherein the autofocus controller is further adapted to inverse a moving direction during the step by step autofocus search of the lens system at which the obtained result of the objective function is deteriorating. 8. The imaging device according to claim 5 , wherein the autofocus controller is further adapted to determine a step width of the autofocus search of each of the first lens system and second lens system on the basis of the new search range. 9. The imaging device according to claim 8 , wherein the autofocus controller is further adapted to determine the step width using a constant which is valid for the autofocus search based on a division of a length value of the new search range by the constant. 10. The imaging device according to claim 4 , wherein the autofocus controller is further adapted to stop the autofocus search of the first lens system, the second lens system, or the third lens system, in response to, after setting a new search range, the respective lens system being positioned outside the new search range. 11. The imaging device according to claim 4 , wherein the autofocus controller is further adapted to move the first lens system, the second lens system, or the third lens system into a new search range, in response to, after setting the new search range, the respective lens system being positioned outside the new search range. 12. The imaging device according to claim 2 , wherein the autofocus controller is further adapted to terminate the autofocus search if a predetermined criteria is met. 13. A method in an imaging device, the imaging device comprising a first imaging system with a first lens system, a second imaging system with a second lens system, and a third imaging system with a third lens system, the method comprising: performing a step by step autofocus search with the first lens system, the second lens system, and the third lens system on the basis of a search parameter, wherein performing the step by step autofocus search comprises obtaining a result of an objective function for each of the first lens system, the second lens system, and the third lens system after each autofocus search step, the result of the objective function corresponding to a contrast of an image at the respective autofocus search step; and updating the search parameter depending on the obtained results of the objective function for each of the first lens system, the second lens system, and the third lens system. 14. The method according to claim 13 , further comprising: initially obtaining a result of an objective function for each of the first lens system and the second lens system in a predetermined position in a common initial search range; and storing, separately for each of the first lens system and second lens system, the respective obtained result of the objective function as a stored best result. 15. The method according to claim 14 , further comprising: storing, separately for each of the first lens system, the second lens system, and the third lens system, the respective best result of the obtained objective function; comparing, after each autofocus search step, the respective obtained result of the objective function with the stored best result for each of the first lens system, the second lens system, and the third lens system; and updating the search parameter depending on the result of the comparison. 16. A device, comprising: a processor; and a computer-readable storage medium storing a program to be executed by the processor, the program including instructions for: performing a step by step autofocus search with [a first lens system, a second lens system, and a third lens system on the basis of a search parameter, wherein performing the step by step autofocus search comprises obtaining a result of an objective function for each of the first lens system, the second lens system, and the third lens system after each autofocus search step, the result of the objective function corresponding to a contrast of an image at the respective autofocus search step; and updating the search parameter depending on the obtained results of the objective function for each of the first lens system, the second lens system, and the third lens system. 17. The device according to claim 16 , wherein the program further includes instructions for: initially obtaining a result of an objective function for each of the first lens system and the second lens system in a predetermined positio