Accession Number : ADA571015


Title :   Large Scale Visual Recognition


Descriptive Note : Doctoral thesis


Corporate Author : PRINCETON UNIV NJ DEPT OF COMPUTER SCIENCE


Personal Author(s) : Deng, Jia


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a571015.pdf


Report Date : Jun 2012


Pagination or Media Count : 162


Abstract : Visual recognition remains one of the grand goals of artificial intelligence research. One major challenge is endowing machines with human ability to recognize tens of thousands of categories. Moving beyond previous work that is mostly focused on hundreds of categories we make progress toward human scale visual recognition. Specifically, our contributions are as follows First, we have constructed ImageNet, a large scale image ontology. The Fall 2011 version consists of 22 thousand categories and 14 million images; it depicts each category by an average of 650 images collected from the Internet and verified by multiple humans. To the best of our knowledge this is currently the largest human-verified dataset in terms of both the number of categories and the number of images. Given the large amount of human effort required, the traditional approach to dataset collection, involving in-house annotation by a small number of human subjects, becomes infeasible. In this dissertation we describe how ImageNet has been built through quality controlled, cost effective, large scale online crowdsourcing. Next, we use ImageNet to conduct the first benchmarking study of state of the art recognition algorithms at the human scale. By experimenting on 10 thousand categories, we discover that the previous state of the art performance is still low (6.4%). We further observe that the confusion among categories is hierarchically structured at large scale, a key insight that leads to our subsequent contributions. Third, we study how to efficiently classify tens of thousands of categories by exploiting the structure of visual confusion among categories. We propose a novel learning technique that scales logarithmically with the number of classes in both training and testing, improving both accuracy and efficiency of the previous state of the art while reducing training time by 31 fold on 10 thousand classes.


Descriptors :   *ARTIFICIAL INTELLIGENCE , *VISUAL PERCEPTION , ACCURACY , COLLECTION , COST EFFECTIVENESS , EFFICIENCY , HUMANS , IMAGES , LEARNING , MACHINES , MOTION , ONLINE SYSTEMS , THESES , TRAINING


Subject Categories : Cybernetics


Distribution Statement : APPROVED FOR PUBLIC RELEASE