Monitor system for a harvester

The invention claimed is: 1. A harvester comprising: a frame, wherein the frame establishes a first, three-dimensional reference frame; a head unit coupled to the frame; an unloading assembly with a material output, wherein the material output is movable with respect to the frame; a mono-camera having a first field of view, where the mono-camera outputs a first image representative of the first field of view, and wherein the first image is a two-dimensional representation of the first field of view; and a controller in operable communication with the mono-camera, wherein the establishes a second two-dimensional reference frame fixed relative to the first field of view, wherein the controller identifies a reference point within the first image, wherein the controller locates the reference point within the second two-dimensional reference frame, and wherein the controller calculates a location of the reference point relative to the first, three-dimensional reference frame based on the position of the reference point within the second two-dimensional reference frame. 2. The harvester of claim 1 , wherein the reference point is fixed relative to the material output. 3. The harvester of claim 1 , wherein the unloading assembly includes a base fixedly coupled to the frame and a body movable with respect to the base about a first axis, and wherein the mono-camera is fixed relative to the base. 4. The harvester of claim 3 , wherein the reference point is fixed relative to the body. 5. The harvester of claim 1 , wherein the first field of view at least partially includes the material outlet therein. 6. A harvester comprising: a frame; a head unit coupled to the frame; an unloading assembly including: a base fixedly coupled to the frame, a body movable with respect to the base, and a material output formed by the body; and a mono-camera having a first field of view at last partially including the unloading assembly therein, where the mono-camera is configured to output a first image representative of the first field of view, and wherein the first image is a two-dimensional representation of the first field of view; and a controller in operable communication with the mono-camera, wherein the controller determines a position of the reference point relative to a two-dimensional reference frame overlaid onto the first image, and wherein the controller calculates the orientation of the body relative to the frame based at least in part on the location of the reference point within the two-dimensional reference frame and the known movement characteristics of the body relative to the frame. 7. The harvester of claim 6 , wherein the reference point includes a target fixedly coupled to the body of the unloading assembly. 8. The harvester of claim 6 , wherein the controller calculates the orientation of the body relative to the frame based at least in part on the known movement characteristics of the body relative to the frame. 9. A method of operating a harvester comprising: providing a harvester with a frame, a head unit coupled to the frame, and an unload assembly having a material output that is movable with respect to the frame; establishing a first reference frame fixed relative to the frame; mounting a mono-camera to the harvester having a first field of view, wherein the mono-camera is configured to output an image representative of the first field of view, and wherein the first image is a two-dimensional representation of the first field of view; establishing a second, two-dimensional reference frame fixed relative to the first field of view; identifying a reference point within the image; determining a location of the reference point relative to the second, two-dimensional reference frame; calculating a location of the reference point relative to the first frame of reference based on the location of the reference point relative to the second, two-dimensional reference frame. 10. The method of claim 9 , wherein the reference point is fixed relative to the material output. 11. The method of claim 9 , wherein the unload assembly includes a base fixedly coupled to the frame and a body movable with respect to the base about a first axis, and wherein the mono-camera is fixed relative to the base. 12. The method of claim 11 , wherein the reference point is fixed relative to the body. 13. The method of claim 9 , wherein the first field of view at least partially includes the material outlet therein.