Imaging module with aligned imaging systems

The invention claimed is: 1. An imaging module including a plurality of imaging systems for capturing images of a receiver medium, comprising: an illumination system for illuminating the receiver medium with light providing an illumination pattern; a first imaging system positioned to capture an image of at least a portion of the receiver medium, the first imaging system having a field-of-view that includes at least a portion of the illumination pattern; a second imaging system positioned to capture an image of at least a portion of the receiver medium, the second imaging system having a field-of-view that includes at least a portion of the illumination pattern; a data processing system; and a program memory communicatively connected to the data processing system and storing instructions configured to cause the data processing system to implement a method for aligning the first and second imaging systems, wherein the method includes: using the first imaging system to capture a first image of the receiver medium, the first image including at least a portion of the illumination pattern; using the second imaging system to capture a second image of the receiver medium, the second image including at least a portion of the illumination pattern; analyzing the captured first and second images to determine a relative position of the illumination pattern in the first and second images; determining one or more imaging system alignment parameters responsive to the determined relative position; and storing the determined imaging system alignment parameters in a processor-accessible memory for subsequent use in aligning images captured with the first imaging system with images captured with the second imaging system. 2. The imaging module of claim 1 wherein the receiver medium has a first side and an opposing second side, and wherein first and second imaging systems are positioned to capture images of the same side of the receiver medium. 3. The imaging module of claim 1 wherein the receiver medium has a first side and an opposing second side, the illumination system being positioned to illuminate the first side of the receiver medium such that a portion of the light in the illumination pattern is reflected from the first side of the receiver medium thereby providing a reflected illumination pattern and a portion of the light in the illumination pattern is transmitted through the receiver medium to the second side of the receiver medium thereby providing a transmitted illumination pattern, and wherein the first imaging system is positioned to capture an image of the first side of the receiver medium that includes at least some of the reflected illumination pattern and the second imaging system is positioned to capture an image of the second side of the receiver medium that includes at least some of the transmitted illumination pattern. 4. The imaging module of claim 1 wherein the imaging system alignment parameters include an in-track offset parameter, a cross-track offset parameter, a skew angle offset parameter, or a magnification adjustment parameter. 5. The imaging module of claim 1 wherein the imaging system alignment parameters include parameters for a coordinate transformation that transforms the coordinates of images captured with the first imaging system or the second imaging system to a reference coordinate system. 6. The imaging module of claim 5 wherein the reference coordinate system is a coordinate system associated with the first imaging system or the second imaging system. 7. The imaging module of claim 1 wherein the second image is captured at substantially the same time as the first image. 8. The imaging module of claim 1 wherein the second image is captured at a different time than the first image. 9. The imaging module of claim 8 wherein an amount of light provided by the illumination system is adjusted between the time that the first image is captured and the time that the second image is captured. 10. The imaging module of claim 1 wherein the illumination system is a removable module that can be installed in the imaging module while it performs the method of aligning the first and second imaging systems and can be removed from the imaging module at other times. 11. The imaging module of claim 1 wherein the illumination system includes a laser light source. 12. The imaging module of claim 1 wherein the illumination system includes a projection lens that projects the illumination pattern onto the receiver medium. 13. The imaging module of claim 1 wherein the illumination pattern includes a plurality of illumination features located at different positions across a width of the receiver medium. 14. The imaging module of claim 1 wherein at least one of the imaging systems includes a two-dimensional sensor array that captures an image of a two-dimensional region on the receiver medium. 15. The imaging module of claim 14 wherein the illumination pattern includes one or more fiducials. 16. The imaging module of claim 1 wherein at least one of the imaging systems includes a one-dimensional sensor array that captures an image of a linear image region on the receiver medium. 17. The imaging module of claim 16 wherein the illumination pattern includes a plurality of linear features that intersect the linear image region, at least some of the linear features having different slant angles. 18. The imaging module of claim 17 wherein the position of the illumination pattern in one of the captured images is determined by: analyzing the capture image to determine the intersection points where the linear features intersect the linear image region; and determining the position of the illumination pattern responsive to distances between the determined intersection points. 19. The imaging module of claim 1 wherein the imaging module is a component of a printing system that includes one or more printing modules for forming a printed image on the receiver medium, and wherein the imaging module is used to capture images of the receiver medium as it moves along a transport path in the printing system. 20. The imaging module of claim 19 wherein the program memory further stores instructions configured to cause the data processing system to implement a method for aligning printed images on the first and second sides of the receiver medium, wherein the method includes: using the one or more printing modules to print a first-side printed image on the first side of the receiver medium and to print a second-side printed image on the second side of the receiver medium; using the first imaging system to capture a first-side captured image of the first side of the receiver medium, the first-side captured image including at least a portion of the first-side printed image; using the second imaging system to capture a second-side captured image of the second side of the receiver medium, the second-side captured image including at least a portion of the second-side printed image; using the stored imaging system alignment parameters to align the first-side captured image with the second-side captured image, analyzing the aligned first-side captured image and the aligned second-side captured image to determine a relative printed image position of the first-side printed image and the second-side printed image; determining one or more printing system alignment parameters responsive to the determined relative printed image position; and adjusting the position of subsequent images printed using the one or more printing m