Infrared laser automatic bore-sighting

What is claimed is: 1. A method of automatically bore-sighting an optical device with another apparatus, the method comprising: generating a laser beam with a laser of the optical device; performing a first scan of a field of view of a camera of the optical device by steering the laser beam across at least a first portion of the field of view of the camera; detecting an intensity of reflected laser light above a first threshold; in response to detecting the intensity of the reflected laser light above the first threshold: determining a location, within the field of view of the camera, of the reflected laser light by performing a second scan of the field of view of the camera by steering the laser beam across at least a second portion of the field of view of the camera, the second portion of the field of view being a subset of the first portion of the field of view; and determining an orientation of the laser beam at which the intensity of the reflected laser light reaches a second threshold; and determining either or both of the location of the reflected laser light or the orientation of the laser beam at which the intensity of the reflected laser light reaches the second threshold by reducing a power of the laser. 2. The method of automatically bore-sighting an optical device with another apparatus of claim 1 , further comprising detecting the intensity of reflected laser light above the first threshold using a photodetector. 3. The method of automatically bore-sighting an optical device with another apparatus of claim 1 , further comprising determining a maximum intensity of the reflected laser light as the second threshold. 4. The method of automatically bore-sighting an optical device with another apparatus of claim 1 , further comprising steering the laser beam at a slower rate while performing the second scan than while performing the first scan. 5. The method of automatically bore-sighting an optical device with another apparatus of claim 1 , further comprising, subsequent to performing the second scan of the field of view of the camera, performing a third scan of the field of view of the camera by steering the laser beam across at least a third portion of the field of view of the camera, the third portion of the field of view being a subset of the second portion of the field of view. 6. The method of automatically bore-sighting an optical device with another apparatus of claim 1 , further comprising operating the camera at a higher frame rate during the second scan of the field of view of the camera than during the first scan of the field of view of the camera. 7. A method of automatically bore-sighting an optical device with another apparatus, the method comprising: generating a laser beam with a laser of the optical device; performing a first scan of a field of view of a camera of the optical device by steering the laser beam across at least a first portion of the field of view of the camera; detecting an intensity of reflected laser light above a first threshold; in response to detecting the intensity of the reflected laser light above the first threshold: determining a location, within the field of view of the camera, of the reflected laser light by performing a second scan of the field of view of the camera by steering the laser beam across at least a second portion of the field of view of the camera, the second portion of the field of view being a subset of the first portion of the field of view; and determining an orientation of the laser beam at which the intensity of the reflected laser light reaches a second threshold; and determining either or both of the location of the reflected laser light or the orientation of the laser beam at which the intensity of the reflected laser light reaches the second threshold by calculating an intensity value for each of one or more pixels over a plurality of frames captured by the camera. 8. The method of automatically bore-sighting an optical device with another apparatus of claim 7 , further comprising steering the laser beam at a slower rate while performing the second scan than while performing the first scan. 9. The method of automatically bore-sighting an optical device with another apparatus of claim 7 , further comprising, subsequent to performing the second scan of the field of view of the camera, performing a third scan of the field of view of the camera by steering the laser beam across at least a third portion of the field of view of the camera, the third portion of the field of view being a subset of the second portion of the field of view. 10. The method of automatically bore-sighting an optical device with another apparatus of claim 7 , further comprising operating the camera at a higher frame rate during the second scan of the field of view of the camera than during the first scan of the field of view of the camera. 11. A method of automatically bore-sighting an optical device with another apparatus, the method comprising: generating a laser beam with a laser of the optical device; performing a first scan of a field of view of a camera of the optical device by steering the laser beam across at least a first portion of the field of view of the camera; detecting an intensity of reflected laser light above a first threshold; in response to detecting the intensity of the reflected laser light above the first threshold: determining a location, within the field of view of the camera, of the reflected laser light by performing a second scan of the field of view of the camera by steering the laser beam across at least a second portion of the field of view of the camera, the second portion of the field of view being a subset of the first portion of the field of view; and determining an orientation of the laser beam at which the intensity of the reflected laser light reaches a second threshold; and determining either or both of the location of the reflected laser light or the orientation of the laser beam at which the intensity of the reflected laser light reaches the second threshold by calculating a geometric mean of intensity values. 12. The method of automatically bore-sighting an optical device with another apparatus of claim 11 , further comprising steering the laser beam at a slower rate while performing the second scan than while performing the first scan. 13. The method of automatically bore-sighting an optical device with another apparatus of claim 11 , further comprising, subsequent to performing the second scan of the field of view of the camera, performing a third scan of the field of view of the camera by steering the laser beam across at least a third portion of the field of view of the camera, the third portion of the field of view being a subset of the second portion of the field of view. 14. The method of automatically bore-sighting an optical device with another apparatus of claim 11 , further comprising operating the camera at a higher frame rate during the second scan of the field of view of the camera than during the first scan of the field of view of the camera.