System for detecting global patient movement during imaging procedures

The invention claimed is: 1. A system for detecting a patient's global movement during imaging procedures, the system comprising: at least one camera configured to provide a stream of images of a part of a patient's exterior and body contour; a fiducial element having a metal layer with a thickness small enough to be conformable to said part of the patient's exterior and an adhesive layer configured to be attached to the part of a patient's exterior, the fiducial element including the metal layer being configured to conform to said part of the patient's exterior when attached by the adhesive to said part of the patient's exterior to follow a part contour of said part of the patient's exterior, wherein the fiducial element is detectable in the stream of images, wherein the fiducial element has an in-plane stiffness larger than an in-plane stiffness of said part of the patient's exterior, and wherein the fiducial element and said part of the patient's exterior are provided with equal outer in-plane dimensions; an image processor configured to detect a displacement of the fiducial element based on consecutive images comprised in the stream of images, and configured to generate an output signal indicative of said displacement; and a device configured to generate and render an X ray image of said part of a patient's interior, wherein the in-plane stiffness and the outer in-plane dimensions of the fiducial element are such that local movements of said part of the patient's exterior relative to a skeleton of the patient along a direction parallel to a plane of the fiducial element are reduced, and wherein a ratio of the in-plane stiffness of the fiducial element to the in-plane stiffness of said part of the patient's exterior is large enough to reduce the local movements while allowing the fiducial element to conform to said part of the patient's exterior when attached by the adhesive. 2. The system according to claim 1 , wherein the fiducial element has a buckling stiffness which is larger than a buckling stiffness of said part of the patient's exterior. 3. The system according to claim 1 , further comprising a further fiducial element, wherein the fiducial element and the further fiducial element are installed in mutually non-parallel planes. 4. The system according to claim 1 , wherein the at least one camera comprises a first camera and a second camera, and wherein the first camera and the second camera are mutually rigidly supported for establishing a mutually predetermined spatial relationship, and the system further comprising a data processor configured to render the stream of images into a stream of composite images based on a spatial correlation between the stream of images provided by the first camera and the second camera, and wherein the spatial correlation is established by the fiducial element. 5. The system according to claim 1 , further comprising a data processor, wherein the at least one camera is supported by the device for establishing a predetermined spatial relationship between the stream of images and the X ray image, and wherein the fiducial element is detectable in the X ray image, and wherein the data processor is configured to update the X ray image based on the output signal generated by the image processor, and based on a spatial correlation between the stream of images and the X ray image, wherein the spatial correlation is established by the fiducial element, wherein the device includes an X ray source configured to provide an amount of X ray radiation that enables detectability of soft tissue including the body contour in the X ray image. 6. The system according to claim 5 , wherein the data processor is further configured to render the X ray image and the stream of images into a stream of composite images based on said spatial correlation between the stream of images and the X ray image. 7. The system according to claim 5 , wherein the device comprises a movable geometry, and wherein the at least one camera is supported by said movable geometry. 8. The system according to claim 5 , further comprising an instrument configured to perform a medical intervention, wherein the instrument is detectable in the stream of images and in the X ray image, and wherein the data processor is further configured to determine a location and orientation of the instrument in the patient's interior based on the spatial correlation between the stream of images and the X ray image. 9. The system of claim 8 , wherein the instrument comprises pulsed light emitting diodes for enhancing detectability of the instrument in the stream of images provide by the at least one camera. 10. The system according to claim 5 , further comprising an illumination device configured to project information comprised in the X ray image onto said part of the patient's exterior based on the spatial correlation between the stream of images and the X ray image, wherein the data processor is further configured to compensate the projection of the information comprised in the X ray for curvature of the patient's exterior based on the stream of camera images. 11. The system according to claim 10 , wherein the illumination device is supported by the device for establishing a further predetermined spatial relationship between the illumination device and the device. 12. The system according to claim 10 , wherein the illumination device is configured to provide radiation sterilization. 13. The system according to claim 1 , wherein the at least one camera is configured to provide a beam of electromagnetic radiation for excitation of a contrast agent supplied to the patient. 14. The system of claim 1 , wherein the outer in-plane dimension of the fiducial element exceeds 10 cm by 10 cm to reduce movement of the patient's exterior along the direction parallel to the plane of the fiducial element. 15. The system of claim 1 , wherein the in-plane stiffness of the fiducial element is stiffness along the direction parallel to the plane of the fiducial element and is different from a stiffness of the fiducial element along a direction perpendicular to the plane of the fiducial element. 16. A system for detecting a patient's global movement during imaging procedures, the system comprising: at least one camera configured to provide a stream of images of a part of a patient's exterior and body contour; a fiducial element having an adhesive layer configured to be attached to the part of a patient's exterior, the fiducial element being configured to conform to said part of the patient's exterior when attached by the adhesive to said part of the patient's exterior to follow a part contour of said part of the patient's exterior, wherein the fiducial element is detectable in the stream of images, wherein the fiducial element has an in-plane stiffness larger than an in-plane stiffness of said part of the patient's exterior, and wherein the fiducial element and said part of the patient's exterior are provided with equal outer in-plane dimensions; an image processor configured to detect a displacement of the fiducial element based on consecutive images comprised in the stream of images, and configured to generate an output signal indicative of said displacement; and a device configured to generate and render an X ray image of said part of a patient's interior, wherein the in-plane stiffness and the outer in-plane dimensions of the fiducial element are such that local movements of said part of the patient's exterior relative to a skeleton of the patient along a direction parallel to a plane of the fiducial element are prevented, wherein the outer in