Systems and methods for performing simultaneous localization and mapping using machine vision systems

What is claimed is: 1. A mobile robot, comprising: a body; a drive supporting the body; a controller circuit in communication with the drive and configured to direct the drive to navigate the mobile robot through an operating environment; and a camera configured to capture images of the operating environment of the mobile robot, the camera aimed in a forward drive direction of the mobile robot, the camera comprising optics defining a camera field of view spanning in vertical and horizontal directions. 2. The mobile robot of claim 1 , wherein the optics further define a camera optical axis that defines an acute angle above the forward drive direction. 3. The mobile robot of claim 2 , wherein the camera field of view is oriented to detect features in the operating environment at a height in a range of 3 feet to 14 feet. 4. The mobile robot of claim 3 , wherein the camera includes a narrow field of view lens configured to provide the camera field of view that spans 45-65 degrees in the vertical direction, and spans 65-75 degrees in the horizontal direction. 5. The mobile robot of claim 4 , wherein the controller circuit is configured to direct a processor to build a map of the operating environment and direct the drive to navigate the mobile robot through the operating environment using visual simultaneous localization and mapping (VSLAM) based on the images of the operating environment captured by the camera. 6. The mobile robot of claim 2 , wherein the body comprises a lens cover on the camera, wherein the lens cover is oriented at an acute angle relative to the camera optical axis. 7. The mobile robot of claim 6 , wherein the acute angle of the lens cover relative to the camera optical axis is greater than the non-zero angle of the camera optical axis relative to the forward drive direction of the mobile robot. 8. A mobile cleaning robot, comprising: a body defining a tombstone shape; a drive supporting the body; a cleaning head assembly; a controller circuit in communication with the drive and configured to direct the drive to navigate the mobile robot through an operating environment; and a camera aimed in a forward drive direction of the mobile robot, the camera configured to capture images of the operating environment, the camera comprising optics defining a camera field of view spanning in vertical and horizontal directions, the camera. 9. The mobile cleaning robot of claim 8 , wherein the optics further define a camera optical axis tilted at an acute angle above the forward drive direction of the mobile robot. 10. The mobile cleaning robot of claim 8 , wherein the camera is tilted to orient the camera field of view to detect features in the operating environment at a height in a range of 3 feet to 14 feet. 11. The mobile cleaning robot of claim 9 , wherein the body comprises a lens cover on the camera, wherein the lens cover is oriented at an acute angle relative to the camera optical axis. 12. The mobile cleaning robot of claim 8 , wherein the cleaning head assembly is cantilevered. 13. The mobile cleaning robot of claim 8 , wherein the mobile cleaning robot comprises a robotic vacuum cleaner, the robotic vacuum cleaner further comprisimg a brush adjacent the periphery of the body. 14. The mobile robot of claim 1 , wherein the optics further defines a camera optical axis aligned parallel with the forward drive direction. 15. The mobile robot of claim 1 , wherein: the body comprises a recess, the body having a front portion and a rear portion with respect to the forward drive direction; and the camera is configured to be mounted in the recess. 16. The mobile robot of claim 15 , wherein the recess is located at the front portion of the body. 17. The mobile robot of claim 8 , wherein the optics further defines a camera optical axis aligned parallel with the forward drive direction. 18. The mobile robot of claim 1 , wherein the camera is configured to be tilted to orient the camera field of view to detect features below a horizontal plane containing a top surface of the body. 19. The mobile robot of claim 1 , wherein the camera is configured to be tilted to orient the camera field of view unoccluded by the body. 20. The mobile robot of claim 1 , wherein the camera is configured to be tilted to orient the camera field of view to detect one or more features at a wall-ceiling intersection or at a portion of a ceiling surrounding a ceiling area directly above the mobile robot.