Abstract: Examples described herein provide a method that includes receiving, from a camera, a first image captured at a first location of an environment. The method further includes receiving, by a three-dimensional (3D) coordinate measurement device, first 3D coordinate data captured at the first location of the environment. The method further includes receiving, from the camera, a second image captured at a second location of the environment. The method further includes detecting, by a processing system, first features of the first image and second features of the second image. The method further includes determining, by the processing system, whether a correspondence exists between the first image and the second image. The method further includes, responsive to determining that the correspondence exists between the first image and the second image, causing the 3D coordinate measurement device to capture, at the second location, second 3D coordinate data.

Abstract: Examples described herein provide a method that includes receiving a model corresponding to an assembly. The method further includes defining an object of interest in the model. The method further includes receiving a point cloud generated based on data obtained by scanning the assembly using a laser scanner. The method further includes aligning the point cloud to the model. The method further includes determining whether a component corresponding to the object of interest is located correctly relative to the assembly based at least in part on the point cloud aligned to the model. The method further includes, responsive to determining that the component is not located correctly, taking a corrective action.

Abstract: An example method includes generating a graphical representation of a point cloud of an environment overlaid on a video stream of the environment. The method further includes receiving a first selection of a first point pair, the first point pair including a first virtual point of the point cloud and a first real point of the environment, the first real point corresponding to the first virtual point. The method further includes receiving a second selection of a second point pair, the second point pair including a second virtual point of the point cloud and a second real point of the environment, the second real point corresponding to the second virtual point. The method further includes aligning the point cloud to the environment based at least in part on the first point pair and the second point pair and updating the graphical representation based at least in part on the aligning.

Abstract: Examples described herein provide a method that includes receiving point cloud data from a three-dimensional (3D) coordinate measurement device, the point cloud data corresponding at least in part to the object. The method further includes analyzing, by a processing system, the point cloud data by comparing a point of the point cloud data to a corresponding reference point from reference data to determine a distance between the point and the corresponding reference point, wherein the point and the corresponding reference point are associated with the object. The method further includes determining, by the processing system, whether a change to a location of the object occurred by comparing the distance to a distance threshold. The method further includes, responsive to determining that the change to the location of the object occurred, displaying a change indicium on a display of the processing system.