Articulated arm coordinate measuring machine having a color laser line probe

The invention claimed is: 1. A portable articulated arm coordinate measuring machine (AACMM) for measuring the coordinates of an object in space, comprising: a base; a manually positionable arm portion coupled to the base and having an end opposite the base; a measurement device coupled to the end; an electronic circuit that is operable to determine a position of the measurement device relative to a frame of reference; a laser line probe operably coupled to the end, the laser line probe having a projector and a camera, the projector being operable to project a line of light at one or more predetermined wavelengths, the camera having a lens assembly optically coupled to a sensor assembly, the sensor assembly having a photosensitive array and a filter disposed between the photosensitive array and the lens assembly, the filter having a plurality of red, green and blue pixels in a predetermined arrangement; and a controller operably coupled to the laser line probe, the controller being operable to cause the camera to acquire a metrology image and a color image, wherein the controller and the electronic circuit cooperate to determine the three-dimensional coordinates of points on a surface based at least in part on the metrology image and to assign a color to the points based at least in part on the color image; wherein the photosensitive array includes a plurality of photosensitive array pixels, each of the plurality of photosensitive array pixels being aligned with one of the filter elements; the controller is further operable to receive pixel values from a first portion of the plurality of photosensitive array pixels and interpolate pixel values to a second portion of the plurality of photosensitive array pixels; and the controller is further operable to determine center of gravity locations based at least in part on the pixel values of the first portion and the second portion of the plurality of photosensitive array pixels. 2. The AACMM of claim 1 , wherein the controller is operable to cause the metrology image to be acquired when the projector emits the line of light. 3. The AACMM of claim 1 , further comprising a light source operably coupled to the controller, wherein the controller is further operable to activate the light source when the color image is acquired. 4. The AACMM of claim 3 , wherein the light source is an RGB laser. 5. The AACMM of claim 1 , wherein the one or more predetermined wavelengths are between 450-495 nm. 6. The AACMM of claim 5 , wherein the one or more predetermined wavelengths is 450 nm. 7. The AACMM of claim 1 , wherein the one or more predetermined wavelengths is 532 nm. 8. The AACMM of claim 1 , wherein the one or more predetermined wavelengths is between 500-520 nm. 9. The AACMM of claim 1 , wherein the controller is further operable to determine colors of a predetermined number of pixels adjacent to each center of gravity location, and wherein the assignment of color is based at least in part on the determined colors. 10. The AACMM of claim 1 , wherein the filter is a Bayer filter. 11. The AACMM of claim 1 , wherein the laser line probe further comprises at least one light source that during operation selectively emit a white light onto the surface. 12. The AACMM of claim 1 , wherein the controller is operable to acquire the metrology image and the color image in an interleaved sequence. 13. The AACMM of claim 12 , wherein the interleaving ratio of metrology images to color images is greater than 1:1.