Image processing method and image system for transportation
First Claim
1. An image processing method for transportation adapted to process images captured by at least two cameras disposed on one vehicle in an image system, comprising:
- matching two corresponding feature points for two images, respectively, to become a feature point set;
selecting at least five most suitable feature point sets, by using an iterative algorithm;
calculating a most suitable radial distortion homography between the two images, according to the at least five most suitable feature point sets; and
fusing the images captured by the at least two cameras at each of timing sequences, by using the most suitable radial distortion homography;
wherein before selecting the at least five most suitable feature point sets, randomly selecting at least five feature point sets;
iteratively calculating a plurality of radial distortion homographies before calculating the most suitable radial distortion homography between the two images; and
quantitatively assessing the plurality of radial distortion homographies;
wherein after iteratively calculating each of the plurality of radial distortion homographies for every iteration, the image processing method further comprises;
marking a ground truth point set between the two images;
transforming the ground truth point set into a transfer point set, respectively, according to each of the plurality of radial distortion homographies; and
calculating a distance difference value between the transfer point set and the ground truth point set.
2 Assignments
0 Petitions
Accused Products
Abstract
An image processing method is adapted to process images captured by at least two cameras in an image system. In an embodiment, the image processing method comprises: matching two corresponding feature points for two images, respectively, to become a feature point set; selecting at least five most suitable feature point sets, by using an iterative algorithm; calculating a most suitable radial distortion homography between the two images, according to the at least five most suitable feature point sets; and fusing the images captured by the at least two cameras at each of timing sequences, by using the most suitable radial distortion homography.
-
Citations
7 Claims
-
1. An image processing method for transportation adapted to process images captured by at least two cameras disposed on one vehicle in an image system, comprising:
-
matching two corresponding feature points for two images, respectively, to become a feature point set; selecting at least five most suitable feature point sets, by using an iterative algorithm; calculating a most suitable radial distortion homography between the two images, according to the at least five most suitable feature point sets; and fusing the images captured by the at least two cameras at each of timing sequences, by using the most suitable radial distortion homography; wherein before selecting the at least five most suitable feature point sets, randomly selecting at least five feature point sets; iteratively calculating a plurality of radial distortion homographies before calculating the most suitable radial distortion homography between the two images; and quantitatively assessing the plurality of radial distortion homographies; wherein after iteratively calculating each of the plurality of radial distortion homographies for every iteration, the image processing method further comprises; marking a ground truth point set between the two images; transforming the ground truth point set into a transfer point set, respectively, according to each of the plurality of radial distortion homographies; and calculating a distance difference value between the transfer point set and the ground truth point set. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. An image system for transportation, the image system comprising:
-
at least two cameras disposed on one vehicle and configured to capture images; a processor coupled to the at least two cameras, wherein the processor is configured to eliminate distortions of the at least two cameras so as to obtain fused images without distortions; and a monitor coupled to the processor, wherein the monitor is configured to display the fused images without distortions; wherein the processor is further configured to calculate a most suitable radial distortion homography, by using an iterative algorithm; wherein the processor is further configured to iteratively calculate a plurality of radial distortion homographies before calculating the most suitable radial distortion homography between the two images and to quantitatively assess the plurality of radial distortion homographies; wherein after iteratively calculating each of the plurality of radial distortion homographies for every iteration, the processor is further configured to; mark a ground truth point set between the two images; transform the ground truth point set into a transfer point set, respectively, according to each of the plurality of radial distortion homographies; and calculate a distance difference value between the transfer point set and the ground truth point set.
-
Specification