Rotation cancellation for moving obstacle detection

摘要

A moving image capture device captures a first image at a first location along a motion path and captures a second image at a second location along the motion path. The optic center of the first image and the optic center of the second image are determined and a line intersecting the optic centers of the first image and the second image is determined. An imaging plane perpendicular to the line intersecting the optic centers of the first image and the second image is then determined and used to generate a first rotation-cancelled image and a second rotation-cancelled image. The first image is warped onto the generated imaging plane to create the first rotation-cancelled image and the second image is warped onto the generated imaging plane to generate the second rotation-cancelled image. Translational motion is preserved by the first rotation-cancelled image and the second rotation-cancelled image.

主权项

1. A system for removing rotational motion from captured images comprising:
a moving image capture device travelling along a motion path and capturing a first image from a first location along the motion path and capturing a second image from a second location along the motion path; a processor coupled to the moving image capture device; a memory storing computer program code configured to be executed by the processor, the computer program code including instructions for:
determining an optic center of the first image based on rotational motion and translational motion of the moving image capture device when capturing the first image, the optic center of the first image being the origin of a coordinate system associated with the first image;identifying focus expansion of the first image based on a majority of motion trajectories of the first image originated from the focus expansion;determining an optic center of the second image based on rotational motion and translational motion of the moving image capture device when capturing the second image, the optic center of the second image being relative to the optic center of the first image;identifying focus expansion of the second image based on a majority of motion trajectories of the second image originated from the focus expansion;determining an imaging plane perpendicular to a line intersecting the optic center of the first image and the optic center of the second image, the determined image plane being different from an imaging plane associated with the moving image capture device;generating a first rotation-cancelled image by projecting the first image to the determined image plane to remove rotational motion from the first image, the first rotation-cancelled image having a corresponding focus of expansion;generating a second rotation-cancelled image by projecting the second image to the determined image plane to remove rotational motion from the second image, the second rotation-cancelled image having a corresponding focus of expansion, wherein the line intersecting the optic center of the first image and the optic center of the second image intersects the corresponding focus of expansion of the first rotation-cancelled image and the corresponding focus of expansion of the second rotation-cancelled image;calculating a horizontal distance map from the first rotation-cancelled image and the second rotation-cancelled image, the horizontal distance map representing a horizontal component of an optical flow of the moving image capture device;calculating a vertical distance map from the first rotation-cancelled image and the second rotation-cancelled image, the vertical distance map representing a vertical component of the optical flow of the moving image capture device;generating a motion distance map incorporating the horizontal distance map and the vertical distance map; and storing the first rotation-cancelled image and the second rotation-cancelled image in the memory.