System for inspecting objects using augmented reality

1 . A method of comparing measured three-dimensional (3D) measurement data to an object comprising: providing a 3D measurement device configured to measure 3D coordinates of points on the object; providing a computing device having an integrated camera and an integrated display; providing an AR-marker reader operably coupled to the computing device; providing a computer network operably coupled to the 3D measurement device, the AR-marker reader and the computing device; providing a dimensional representation of the object and storing the dimensional representation of the object on the computer network; during an inspection process, performing steps of: measuring the object with the 3D measurement device, the 3D measurement device providing a first collection of 3D coordinates; storing the first collection of 3D coordinates on the computer network; associating an AR marker with the object; during an observation process occurring at a time later than the inspection process, performing steps of: reading the AR marker with the AR-marker reader and, in response, selecting from the computer network the first collection of 3D coordinates and the dimensional representation of the object; transmitting from the computer network the first collection of 3D coordinates and the dimensional representation of the object; positioning the integrated camera to view the object and to generate a camera image of the object; displaying the camera image on the integrated display; registering a portion of the first collection of 3D coordinates to the camera image to obtain a registered collection of 3D coordinates, the registration based at least in part on comparison of the camera image and one of the first collection of 3D coordinates and the dimensional representation of the object on the computer network; and showing on the integrated display the registered collection of 3D coordinates and the camera image. 2 . The method of claim 1 further comprising: during the inspection process, determining deviations of the first collection of 3D coordinates relative to the dimensional representation of the object; and during the observation process, showing on the integrated display the deviations of the first collection of 3D coordinates. 3 . The method of claim 1 wherein the registering the portion of the first collection of 3D coordinates to the camera image further comprises comparing natural features of the object recognized on the camera image to the dimensional representation of the object. 4 . The method of claim 1 wherein the registering the portion of the first collection of 3D coordinates to the camera image further comprises comparing a plurality of registration markers on the object as seen in the camera image to a plurality of registration markers as observed in the first collection of 3D coordinates. 5 . The method of claim 1 further comprising steps of: providing the computing device with a projector; and during the observation process, projecting with the projector a first pattern of light. 6 . The method of claim 5 wherein, in the projecting with the projector the first pattern of light, the first pattern of light includes a symbol that indicates a machining or assembly operation to be performed by an operator. 7 . The method of claim 6 wherein, in the symbol indicates the machining or assembly operation selected from the group consisting of drilling, milling, turning, filing, deburring, welding, soldering, gluing, riveting, screwing, nailing, painting, cutting, and affixing labels. 8 . The method of claim 5 wherein, in projecting with the projector the first pattern of light, the first pattern of light is projected onto a predetermined location on the object. 9 . The method of claim 8 wherein, in the projecting with the projector a first pattern of light, the first pattern of light is projected sequentially to a plurality of predetermined locations on the object. 10 . The method of claim 1 further comprising showing on the integrated display a production metric associated with the object, the production metric selected from a group consisting of quantity of goods produced, record of maintenance performed, and record of next calibration due date. 11 . The method of claim 1 , wherein the 3D measurement device is selected from the group consisting of a triangulation scanner, a time-of-flight scanner, a laser tracker, an articulated arm coordinate measuring machine (CMM), and a Cartesian CMM. 12 . The method of claim 1 , wherein the AR marker is selected from the group consisting of a barcode marker, a QR-code marker, a radio-frequency-identification (RFID) tag, and a near-field communication (NFC) tag. 13 . A system comprising: a 3D measurement device configured to measure 3D coordinates of points on an object; an AR-marker reader operably coupled to the 3D measurement device; a computer network; having a dimensional representation of the object and a first collection of 3D coordinates stored thereon, the first collection of coordinated acquired by the 3D measurement device, the computer network being operably coupled to the 3D measurement device and the AR-marker reader; a computing device having an integrated camera and an integrated display, the computing device being operably coupled to the AR-marker reader and the computer network, the computing device further having a memory having computer readable instructions and one or more processors for executing the computer readable instructions, the computer readable instructions comprising: reading an AR marker with the AR-marker reader and, in response, selecting from the computer network the first collection of 3D coordinates and the dimensional representation of the object; transmitting from the computer network the first collection of 3D coordinates and the dimensional representation of the object; generating a camera image of the object; displaying the camera image on the integrated display; registering a portion of the first collection of 3D coordinates to the camera image to obtain a registered collection of 3D coordinates, the registration based at least in part on comparison of the camera image and one of the first collection of 3D coordinates and the dimensional representation of the object; and showing on the integrated display the registered collection of 3D. 14 . The system of claim 13 , wherein the computer readable instructions further comprise: determining deviations of the first collection of 3D coordinates relative to the dimensional representation of the object; and showing on the integrated display deviations of the first collection of 3D coordinates. 15 . The system of claim 13 , wherein the registering the portion of the first collection of 3D coordinates to the camera image further comprises comparing natural features of the object recognized on the camera image to the dimensional representation of the object. 16 . The system of claim 13 , wherein the step of registering the portion of the first collection of 3D coordinates to the camera image further comprises comparing a plurality of registration markers on the object as seen in the camera image to a plurality of registration markers as observed in the first collection of 3D coordinates. 17 . The system of claim 13 , wherein the computer readable instructions further comprise projecting with a projector a first pattern of light. 18 . The system of claim 17 wherein, in the projecting with the projector the first pattern of light, the first pattern of light includes a symbol to