Method and system for aircraft taxi strike alerting

The invention claimed is: 1. A system for calculating location(s) and/or range(s) of object(s) in a scene external to an aircraft, the system comprising: a light projector configured to be mounted at a projector location on the aircraft and to project pulses of linearly-patterned light in a controllable direction onto the scene external to the aircraft; a camera having a two dimensional array of light-sensitive pixels arranged in rows and columns, the camera configured to be mounted at a camera location on the aircraft and aligned such that the projected pulses of linearly patterned light reflected by the scene external to the aircraft are imaged by a selected one of the rows or columns that is geometrically aligned to the projected pulse of linearly-patterned light; a controller configured to coordinate the light projector and the camera by synchronizing the controllable direction of the projected pulses of linearly-patterned light with the selected one of the rows or columns that images the projected pulses of linearly-patterned light reflected by the scene external to the aircraft; and an image processor configured to calculate, based on the projector location, the camera location, and the image captured by the selected one of the rows or columns, locations(s) and/or range(s) of object(s) in the scene from which the pulses of linearly-patterned light projected by the light projector are reflected. 2. The system of claim 1 , wherein the projector location is on a line along which one of the rows or columns of light-sensitive pixels is located. 3. The system of claim 2 , wherein the controllable direction is an angular direction, wherein the line along which one of the rows or columns of light-sensitive pixels is located defines an angular control axis about which the angular direction of project pulses of linearly-patterned light is controlled. 4. The system of claim 1 , wherein the camera is configured to form a first image while the light projector is projecting a pulse of linearly-patterned light onto the scene. 5. The system of claim 4 , wherein the camera is configured to form a second image while the light projector is not projecting a pulse of linearly-patterned light onto the scene. 6. The system of claim 5 , wherein the image processor is configured to generate a difference image based on a difference between the first and second images. 7. The system of claim 1 , wherein the linearly-patterned light comprises a solid-line pattern. 8. The system of claim 1 , wherein the linearly-patterned light comprises a dashed-line pattern having a binary-weighted spatial frequency. 9. The system of claim 1 , wherein the linearly-patterned light comprises a dashed-line pattern having a pseudo-randomly varying spatial frequency. 10. The system of claim 1 , wherein the linearly-patterned light projected by the light projector comprises infrared light and the camera is an infrared camera and each of the plurality of light-sensitive pixels is sensitive to infrared light. 11. The system of claim 10 , wherein the linearly-patterned light projected by the light projector comprises infrared light having a wavelength corresponding to a lower solar intensity portion or to an atmospheric absorption band. 12. The system of claim 1 , further comprising a cockpit notification system configured to generate an alert signal if the calculated location(s) and/or range(s) of object(s) indicate that the object(s) are within a collision zone or on a collision trajectory. 13. The system of claim 12 , wherein the cockpit notification system includes an audible alarm that is activated when the calculated location(s) and/or range(s) of the object(s) indicates one or more of the object(s) in the scene has a combination of location(s) and/or ranges(s) relative to the aircraft corresponding to a risk of collision. 14. The system of claim 12 , wherein the cockpit notification system includes a display device configured to display a two-dimensional image of the scene annotated with the calculated location(s) and/or range(s) of object(s). 15. A method for calculating location(s) and/or range(s) of object(s) in a scene external to an aircraft, the method comprising: projecting, from a light projector configured to be mounted at a projector location on the aircraft, pulses of linearly-patterned light in a controllable direction onto the scene external to the aircraft; imaging, by a selected one of rows or columns of light-sensitive pixels of a camera, the projected pulses of linearly patterned light reflected by the scene external to the aircraft, wherein the camera is configured to be mounted at a camera location on the aircraft and aligned with the light projector; synchronizing the controllable direction of the projected pulses of linearly-patterned light with the selected one of the rows or columns that images the projected pulses of linearly-patterned light reflected by the scene external to the aircraft; calculating, based on the projector location, the camera location, and the image captured by the selected one of the rows or columns, locations(s) and/or range(s) of object(s) in the scene from which the linearly-patterned light projected by the light projector is reflected; and outputting an alert signal if the calculated location(s) and/or range(s) of object(s) indicates one or more of the object(s) in the scene has a combination of a location(s) and/or range(s) relative to the aircraft corresponding to a risk of collision. 16. The method of claim 15 , wherein the projector location is on a line along which one of the rows or columns of light-sensitive pixels is located. 17. The method of claim 16 , wherein controlling the controllable direction comprises: angularly directing the projected pulse of linearly-patterned light about the line along which one of the rows or columns of light-sensitive pixels is located defines an angular control axis about which the angular direction of project pulses of linearly-patterned light is controlled. 18. The method of claim 15 , wherein projecting pulses of linearly-patterned light comprises: projecting pulses of light having a dashed-line pattern of a binary-weighted spatial frequency. 19. The method of claim 15 , wherein outputting an alert signal comprises: activating an audible alarm that when the calculated location(s) and/or range(s) of the object(s) indicates one or more of the object(s) in the scene has a combination of location(s) and/or ranges(s) relative to the aircraft corresponding to a risk of collision. 20. The method of claim 15 , further comprising: displaying a two-dimensional image of the scene annotated with the calculated location(s) and/or range(s) of object(s).