Optical route examination system and method

The invention claimed is: 1. A method comprising: obtaining one or more images of a segment of two rails of a track from a camera mounted to a rail vehicle while the rail vehicle is moving along the track, wherein the camera is disposed at a front end of the rail vehicle; comparing, with one or more computer processors, the one or more images of the segment of the two rails of the track with a benchmark visual profile comprising designated areas of the segment of the track, the benchmark visual profile representing a designated gauge of the track, wherein comparing the one or more images of the segment of the two rails of the track with the benchmark visual profile includes overlaying the one or more images onto the designated areas of the benchmark visual profile or overlaying the designated areas of the benchmark visual profile onto the one or more images; identifying, with the one or more computer processors, a misaligned segment of the track based on one or more differences between the one or more images and the designated areas of the benchmark visual profile; and implementing, with the one or more computer processors, a responsive action based on the misaligned segment of the track that is identified. 2. The method of claim 1 , further comprising identifying portions of the one or more images that represent the track by measuring intensities of pixels in the one or more images and distinguishing the portions of the one or more images that represent the track from other portions of the one or more images based on the intensities of the pixels. 3. The method of claim 1 , further comprising measuring a gauge between rails of the track by determining a number of pixels disposed between the two rails of the track in the one or more images. 4. The method of claim 3 , further comprising identifying a switch in the segment of the track by identifying a change in the number of pixels disposed between the two rails in the one or more images. 5. The method of claim 1 , further comprising creating the benchmark visual profile from at least one image of the one or more images that are compared to the benchmark visual profile to identify the one or more differences. 6. The method of claim 1 , further comprising comparing the one or more images of the segment of the track with one or more additional images of the segment of the track obtained by one or more other rail vehicles at one or more other times in order to identify degradation of the segment of the track. 7. The method of claim 1 , wherein the one or more images of the segment of the track are obtained while the rail vehicle is traveling at an upper speed limit of the segment of the track. 8. The method of claim 1 , wherein the one or more images are obtained from the camera having a field of view ahead of a direction of travel of the rail vehicle. 9. The system of claim 1 , wherein the camera is configured to capture the segment of the two rails of the track within a single image. 10. The system of claim 1 , wherein the system includes only a single camera. 11. A system comprising: a camera configured to be mounted to a rail vehicle and to obtain one or more images of a segment of two rails of a track while the rail vehicle is moving along the track, wherein the camera is disposed at a front end of the rail vehicle; and one or more computer processors configured to compare the one or more images of the segment of the two rails of the track with a benchmark visual profile comprising designated areas of the segment of the track, wherein comparing the one or more images of the segment of the two rails of the track with the benchmark visual profile includes overlaying the one or more images onto the designated areas of the benchmark visual profile or overlaying the designated areas of the benchmark visual profile onto the one or more images to identify a misaligned segment of the track based on one or more differences between the one or more images and the designated areas of the benchmark visual profile, the designated areas of the benchmark visual profile representing a designated gauge of the track, wherein the one or more computer processors are configured to implement a responsive action based on the misaligned segment of the track that is identified. 12. The system of claim 11 , wherein the one or more computer processors are configured to identify portions of the one or more images that represent the track by measuring intensities of pixels in the one or more images and to distinguish the portions of the one or more images that represent the track from other portions of the one or more images based on the intensities of the pixels. 13. The system of claim 11 , wherein the benchmark visual profile visually represents locations where the track is located prior to obtaining the one or more images. 14. The system of claim 11 , wherein the one or more computer processors also are configured to measure a gauge between the two rails of the track by determining a number of pixels disposed between the rails in the one or more images. 15. The system of claim 14 , wherein the one or more computer processors are configured to identify a switch in the segment of the track by identifying a change in the number of pixels disposed between the two rails in the one or more images. 16. The system of claim 11 , wherein the one or more computer processors are configured to create the benchmark visual profile from at least one image of the one or more images that are compared to the benchmark visual profile to identify the one or more differences. 17. The system of claim 11 , wherein the camera is configured to obtain the one or more images of the segment of the track and the one or more computer processors are configured to identify the misaligned segment of the track while the rail vehicle is traveling at an upper speed limit of the segment of the track. 18. The system of claim 11 , wherein the camera is mounted to the rail vehicle such that a field of view of the camera is ahead of a direction of travel of the rail vehicle. 19. A method comprising: obtaining plural first images of an upcoming segment of a route with one or more cameras on a vehicle that is moving along the route, wherein the one or more cameras are disposed at a front end of the vehicle; examining the first images with one or more computer processors to identify a foreign object on or near the upcoming segment of the route; identifying one or more differences between the first images with the one or more processors; determining whether the foreign object is a transitory object or a persistent object based on the one or more differences between the first images that are identified; selecting a mitigating action to implement responsive to determining whether the foreign object is the transitory object or the persistent object, the mitigating action selected from plural different mitigating actions based on a moving speed of the foreign object that is estimated from the one or more differences between the first images; and implementing the mitigating action that is selected from the plural different mitigating actions responsive to determining whether the foreign object is the transitory object or the persistent object. 20. The method of claim 19 , further comprising increasing a magnification level of the one or more cameras to zoom in on the foreign object and obtaining one or more second images of the foreign object, wherein the foreign object is determined to be the persistent object responsive to a comparison betwe