Abstract | ||
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This paper introduces a captcha based on upright orientation of line drawings rendered from 3D models. The models are selected from a large database, and images are rendered from random viewpoints, affording many different drawings from a single 3D model. The captcha presents the user with a set of images, and the user must choose an upright orientation for each image. This task generally requires understanding of the semantic content of the image, which is believed to be difficult for automatic algorithms. We describe a process called covert filtering whereby the image database can be continually refreshed with drawings that are known to have a high success rate for humans, by inserting randomly into the captcha new images to be evaluated. Our analysis shows that covert filtering can ensure that captchas are likely to be solvable by humans while deterring attackers who wish to learn a portion of the database. We performed several user studies that evaluate how effectively people can solve the captcha. Comparing these results to an attack based on machine learning, we find that humans possess a substantial performance advantage over computers. |
Year | DOI | Venue |
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2010 | 10.1145/1772690.1772774 | WWW |
Keywords | Field | DocType |
large database,image database,machine learning,user study,upright orientation,line drawing,high success rate,automatic algorithm,captcha new image,different drawing,security,captcha,drawings | World Wide Web,Computer science,Viewpoints,Covert,Filter (signal processing),Artificial intelligence,CAPTCHA,Image database,User studies,Line drawings,Machine learning | Conference |
Citations | PageRank | References |
21 | 0.81 | 16 |
Authors | ||
3 |
Name | Order | Citations | PageRank |
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Steven A. Ross | 1 | 21 | 0.81 |
J. Alex Halderman | 2 | 2301 | 149.67 |
Adam Finkelstein | 3 | 4041 | 299.42 |