System and method for calibrating a laser scanning system

What is claimed is: 1. An additive manufacturing apparatus arranged for calibrating a laser scanner, the additive manufacturing apparatus comprising a building area where a 3D object is built, the additive manufacturing apparatus comprising: a calibration plate in the additive manufacturing apparatus comprising reference markings, the calibration plate being positioned in the building area or the calibration plate being positioned between the building area and the laser scanner, the laser scanner, the laser scanner being configured to send a laser beam to a predefined location on the calibration plate which forms a laser marking on the calibration plate, wherein the predefined location is selected from any point on the calibration plate; an image acquisition assembly comprising an image acquisition device, the image acquisition device configured to photograph at least a portion of the calibration plate associated with the predefined location on the calibration plate; and a computer control system comprising one or more computers having a memory and a processor, the computer control system configured to: cause the laser scanner to direct the laser beam to a plurality of predefined locations on the calibration plate thereby creating one or more laser markings at any point on the calibration plate, wherein at least one of the one or more laser markings is located in a different position than the reference markings; receive an image of at least a portion of the calibration plate including at least the at least one of the one or more laser markings; determine laser marking coordinates for each predefined location based on the position of the formed laser marking relative to the reference markings on the calibration plate; and determine scanner corrections based on the determined laser marking coordinates. 2. The additive manufacturing apparatus of claim 1 , wherein the reference markings comprise a plurality of gridlines visible on the calibration plate. 3. The additive manufacturing apparatus of claim 2 , wherein the reference markings further include location identification markers indicative of a coordinate position associated with specific locations on the gridlines. 4. The additive manufacturing apparatus of claim 3 , wherein the location identification markers are barcode information. 5. The additive manufacturing apparatus of claim 1 , wherein the image acquisition assembly further comprises a movable mount, and wherein the computer control system is further configured to position the image acquisition assembly, using the movable mount, in a location proximate to the plurality of predefined locations on the calibration plate and acquire an image of each of the plurality of predefined locations. 6. The additive manufacturing apparatus of claim 5 , wherein the image acquisition assembly includes a digital camera, and wherein the movable mount comprises a motorized tilt-pan rig. 7. The additive manufacturing apparatus of claim 1 , wherein the laser marking comprises at least one of a laser spot, crossing lines, and a laser line. 8. The additive manufacturing apparatus of claim 1 , wherein the additive manufacturing apparatus comprises at least one of a selective laser sintering apparatus and a stereolithography device. 9. The additive manufacturing apparatus of claim 1 , wherein at least one of powder resin and liquid resin remains in the building area after the calibration plate is positioned in the device and also during calibration of the device. 10. The additive manufacturing apparatus of claim 1 , wherein the calibration plate is positioned in the building area at a same location as a powder surface or liquid resin. 11. The additive manufacturing apparatus of claim 1 , wherein the laser scanner comprises a laser source. 12. A method of calibrating a laser scanner in an additive manufacturing apparatus, the additive manufacturing apparatus comprising a building area where a 3D object is built, the method comprising: inserting a calibration plate into the additive manufacturing apparatus comprising at least one reference marking, wherein: the calibration plate being positioned in the building area, or the calibration plate being positioned between the building area and the laser scanner; forming one or more laser markings at any location on the calibration plate by directing a laser beam from the laser scanner at a plurality of predefined locations, wherein at least one of the one or more laser markings is located in a different position from the at least one reference marking; acquiring, using an image acquisition assembly, an image of the formed one or more laser markings; determining laser marking coordinates for each predefined location based on the position of the formed one or more laser markings relative to at least one of the at least one reference marking on the calibration plate; determining scanner corrections based on the determined laser marking coordinates; and sending the scanner corrections to at least one computer to direct calibration of the laser scanner. 13. The method of claim 12 , wherein the at least one reference marking comprises a plurality of gridlines visible on the calibration plate. 14. The method of claim 13 , wherein the plurality of gridlines are printed on the calibration plate. 15. The method of claim 13 , wherein coordinates indicative of the specific locations of the plurality of gridlines are stored in a computer memory. 16. The method of claim 13 , wherein the at least one reference markings further includes location information markers indicative of a coordinate position associated with specific locations on the gridlines. 17. The method of claim 12 , wherein each of the one or more laser marking comprises at least one of a laser spot, crossing lines, and a laser line. 18. The method of claim 12 , further comprising positioning the image acquisition assembly in a location proximate to the plurality of predefined locations on the calibration plate, wherein the image acquisition assembly comprises a digital camera and a moveable mount having a motorized tilt-pan rig. 19. The method of claim 12 , wherein the additive manufacturing environment comprises at least one of a selective laser sintering apparatus and a stereolithography device. 20. The method of claim 12 , wherein at least one of powder resin and liquid resin remains in the building area after the calibration plate is positioned in the device and also during calibration of the device. 21. A method of calibrating a laser scanner in an additive manufacturing environment, the additive manufacturing apparatus comprising a building area where a 3D object is built, the method comprising: receiving an image taken by an image acquisition assembly, the image comprising one or more laser markings formed by directing a laser beam from the laser scanner at a plurality of predefined locations on a calibration plate inserted into the additive manufacturing apparatus comprising at least one reference marking, wherein at least one of the one or more laser markings is located in a different position than the at least one reference marking on the calibration plate, the calibration plate being positioned in the building area, or the calibration plate being positioned between the building area and the laser scanner, determining laser marking coordinates for each predefined location based on the position of the formed one or more laser markings relative to the at least one reference marking on the calibratio