Learning the Change for Automatic Image Cropping
- J. Yan ,
- X. Tang ,
- Stephen Lin ,
- Sing Bing Kang
IEEE Conference on Computer Vision and Pattern Recognition |
Published by IEEE | Organized by IEEE
Image cropping is a common operation used to improve the visual quality of photographs. In this paper, we present an automatic cropping technique that accounts for the two primary considerations of people when they crop: removal of distracting content, and enhancement of overall composition. Our approach utilizes a large training set consisting of photos before and after cropping by expert photographers to learn how to evaluate these two factors in a crop. In contrast to the many methods that exist for general assessment of image quality, ours specifically examines differences between the original and cropped photo in solving for the crop parameters. To this end, several novel image features are proposed to model the changes in image content and composition when a crop is applied. Our experiments demonstrate improvements of our method over recent cropping algorithms on a broad range of images.
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Image Cropping Dataset
October 24, 2013
The Image Cropping Dataset contains the cropping parameters for 1000 images that were manually cropped by an experienced photographer. The cropping parameters indicate the coordinates of the upper-left and bottom-right corners of the crop box. The original images can be found at the Image Cropping Dataset website at the Chinese University of Hong Kong. The dataset was compiled for the following publication: “Learning the Change for Automatic Image Cropping” by Jianzhou Yan, Stephen Lin, Sing Bing Kang, and Xiaoou Tang in the IEEE Conference on Computer Vision and Pattern Recognition (CVPR) 2013.