Method and apparatus for using gestures to control a laser tracker

What is claimed is: 1. A laser tracker comprising: a structure rotatable about a first axis and a second axis; a first light source is coupled to the structure, the first light source being configured to launch a first light beam from the structure; a distance meter is operably coupled to the first light source; a first angular encoder is operably coupled to the structure to measure a first angle of rotation about the first axis; a second angular encoder is operably coupled to the structure to measure a second angle of rotation about the second axis; a projector is operably coupled to the structure that projects a two-dimensional pattern of light, the projector being configured to project the two-dimensional pattern of light simultaneously with the first beam of light; a first camera operably coupled to the structure; a processor and computer readable media operably coupled to the structure, wherein the processor is responsive to executable computer instructions to determine three-dimensional coordinates of an object illuminated by the two-dimensional pattern of light and to determine a distance to a target based at least in part on a measurement by the distance meter. 2. The laser tracker of claim 1 wherein the target is a retroreflector target. 3. The laser tracker of claim 2 wherein the first camera and the projector are attached to the structure. 4. The laser tracker of claim 1 the projector and the first camera are attached to a portion of the laser tracker that rotates relative to the first axis and is fixed relative to the second axis. 5. laser tracker comprising: a structure rotatable about a first axis and a second axis; a first light source is coupled to the structure, the first light source being configured to launch a first light beam from the structure; a distance meter is operably coupled to the first light source; a first angular encoder is operably coupled to the structure to measure a first angle of rotation about the first axis; a second angular encoder is operably coupled to the structure to measure a second angle of rotation about the second axis; a projector is operably coupled to the structure that projects a two-dimensional pattern of light; a first camera operably coupled to the structure; a processor and computer readable media operably coupled to the structure, wherein the processor is responsive to executable computer instructions to determine three-dimensional coordinates of an object illuminated by the two-dimensional pattern of light and to determine a distance to a target based at least in part on a measurement by the distance meter; wherein the target is a retroreflector target and wherein the computer readable media includes a rule of correspondence between each of a plurality of commands and each of a plurality of gestures, each gesture from among the plurality of gestures including a spatial configuration of a first body part of the user relative to a second body part of the user, the rule of correspondence based at least in part on the spatial configuration. 6. A laser tracker comprising: a structure rotatable about a first axis and a second axis; a first light source is coupled to the structure, the first light source being configured to launch a first light beam from the structure; a distance meter is operably coupled to the first light source; a first angular encoder is operably coupled to the structure to measure a first angle of rotation about the first axis; a second angular encoder is operably coupled to the structure to measure a second angle of rotation about the second axis; a projector is operably coupled to the structure that projects a two-dimensional pattern of light; a first camera operably coupled to the structure; a processor and computer readable media operably coupled to the structure, wherein the processor is responsive to executable computer instructions to determine three-dimensional coordinates of an object illuminated by the two-dimensional pattern of light and to determine a distance to a retroreflector target based at least in part on a measurement by the distance meter; wherein the computer readable media includes a rule of correspondence between each of a plurality of commands and each of a plurality of gestures, each gesture from among the plurality of gestures including a spatial configuration of a first body part of the user relative to a second body part of the user, the rule of correspondence based at least in part on the spatial configuration; and wherein the processor is further responsive to determining a first command based at least in part on the three-dimensional coordinates of a first body part of a user and a second body part of the user, the three-dimensional coordinates of the first body part and the second body part being determined from the two-dimensional pattern of light. 7. The laser tracker of claim 6 wherein the processor is further responsive to executing the first command in response to determining the first command. 8. The laser tracker of claim 7 wherein the first command is selected from the group consisting of measuring a comp off point, measuring a comp axis point, measuring a plane, measuring a 2D line, measuring a circle, measuring a cylinder, measuring a sphere, changing an SMR, resetting an interferometer, setting a distance mode, searching for a target, toggling between single point mode and scan mode, collecting a reading, moving to a home position, removing a reading, autoadjusting an ADM using an SMR, autoadjusting an ADM using an internal retroreflector, initializing a command tablet, setting an SMR, and acquiring an SMR. 9. The laser tracker of claim 6 further comprising: a second camera operably coupled to the structure; and an auxiliary light source located proximate to the second camera. 10. The laser tracker of claim 9 wherein the processor is further responsive to executing the first command on the laser tracker, the first command includes illuminating the auxiliary light source to obtain a second light, reflecting the second light off a retroreflector, and capturing a portion of the second light with the second camera to obtain a digital representation of the portion of the second light.