Title :
Fine-Grained Visual Comparisons with Local Learning
Author :
Yu, Anbo ; Grauman, Kristen
Author_Institution :
Univ. of Texas at Austin, Austin, TX, USA
Abstract :
Given two images, we want to predict which exhibits a particular visual attribute more than the other-even when the two images are quite similar. Existing relative attribute methods rely on global ranking functions; yet rarely will the visual cues relevant to a comparison be constant for all data, nor will humans´ perception of the attribute necessarily permit a global ordering. To address these issues, we propose a local learning approach for fine-grained visual comparisons. Given a novel pair of images, we learn a local ranking model on the fly, using only analogous training comparisons. We show how to identify these analogous pairs using learned metrics. With results on three challenging datasets-including a large newly curated dataset for fine-grained comparisons-our method outperforms stateof-the-art methods for relative attribute prediction.
Keywords :
computer vision; learning (artificial intelligence); analogous training comparisons; computer vision system; curated dataset; fine-grained visual comparisons; global ranking functions; local learning; local ranking model; relative attribute methods; relative attribute prediction; visual attribute; visual cues; Euclidean distance; Footwear; Learning systems; Training; Training data; Visualization; fine-grained; learning-to-rank; local learning; relative attributes;
Conference_Titel :
Computer Vision and Pattern Recognition (CVPR), 2014 IEEE Conference on
Conference_Location :
Columbus, OH
DOI :
10.1109/CVPR.2014.32
