Imaging apparatus for imaging an object

The invention claimed is: 1. An imaging apparatus for imaging an object, the imaging apparatus ( 1 ) comprising: a model providing unit ( 4 ) for providing a kinematics model ( 12 ) of a robot representing the object ( 3 ), wherein the kinematics model ( 12 ) is defined by kinematics parameters, a projection data providing unit ( 2 ) for providing projection data of the object ( 3 ), which correspond to different projection directions, a model modification unit ( 13 ) for modifying the kinematics model ( 12 ) by modifying the kinematics parameters such that a difference between simulated projection data, which are determined by simulating a forward projection of the kinematics model, and the provided projection data is minimized. 2. The imaging apparatus as defined in claim 1 , wherein the projection data providing unit ( 2 ) is adapted to provide projection data which correspond to a wiggling of the projection direction. 3. The imaging apparatus as defined in claim 1 , wherein the projection data represent projections generated by using a projection acquisition unit ( 2 ), wherein a calibration of the projection acquisition unit ( 2 ) is defined by calibration parameters, and wherein the model modification unit ( 13 ) is adapted to modify the calibration parameters and the kinematics parameters such that a difference between simulated projection data, which are determined by simulating a forward projection of the model, and the provided projection data is minimized. 4. The imaging apparatus as defined in claim 1 , wherein the kinematics model ( 12 ) comprises a series of rigid links connected by joints ( 14 . . . 20 ), wherein each joint describes either a three-dimensional rotation around an axis or a translation along the axis. 5. The imaging apparatus as defined in claim 4 , wherein the object ( 3 ) is a catheter and the kinematics model ( 12 ) comprises seven joints which are controlled by three kinematics parameters (d 1 , θ 2 , θ 3 ), wherein the model modification unit ( 13 ) is adapted to modify the model ( 12 ) by modifying the three kinematics parameters (d 1 , θ 2 , θ 3 ). 6. The imaging apparatus as defined in claim 1 , wherein the model modification unit ( 13 ) is adapted to determine a two-dimensional track of projections of the object ( 3 ) in the provided projection data, determine the simulated projection data such that the simulated projection data define a simulated two-dimensional track, modify the model such that a difference between the determined two-dimensional track and the simulated two-dimensional track is minimized. 7. The imaging apparatus as defined in claim 6 , wherein the model modification unit ( 13 ) is adapted to reconstruct an image of the object ( 3 ) from the determined two-dimensional tracks in the provided projection data, arrange the kinematics model such that at least a part of the kinematics model is aligned with a corresponding part of the object ( 3 ) shown in the image, determine initial kinematics parameters such that a difference between the object ( 3 ) shown in the image and the model ( 12 ) is minimized, modify the model ( 12 ) by modifying the initial kinematics parameters such that a difference between the determined two-dimensional track and the simulated two-dimensional track is minimized. 8. The imaging apparatus as defined in claim 1 , wherein the object is a first object ( 3 ) inserted into a second object ( 5 ), wherein the imaging apparatus ( 1 ) comprises an image providing unit for providing an image of the second object ( 5 ) and a display ( 31 ) for showing the modified model overlaid with the image of the second object ( 5 ). 9. The imaging apparatus as defined in claim 8 , wherein the display ( 31 ) is adapted to indicate a three-dimensional location of the first object ( 3 ) depending on the modified model ( 12 ). 10. The imaging apparatus as defined in claim 1 , wherein the model providing unit ( 4 ) is adapted to store several models corresponding to several objects and to provide a model ( 12 ) of the several models, which corresponds to the object ( 3 ) to be imaged. 11. An imaging method for imaging an object, the imaging method comprising: providing a kinematics model ( 12 ) of a robot representing the object ( 3 ), wherein the kinematics model ( 12 ) is defined by kinematics parameters, providing projection data of the object ( 3 ), which correspond to different projection directions, modifying the model ( 12 ) by modifying the kinematics parameters such that a difference between simulated projection data, which are determined by simulating a forward projection of the model, and the provided projection data is minimized. 12. An imaging computer program for imaging an object, the imaging computer program comprising program code means for causing an imaging apparatus as defined in claim 1 .