Open AccessToward Robust Material Recognition for Everyday Objects
Author(s) -
Diane Hu,
Liefeng Bo,
Xiaofeng Ren
Publication year - 2011
Language(s) - English
Resource type - Conference proceedings
DOI - 10.5244/c.25.48
Subject(s) - computer science , margin (machine learning) , artificial intelligence , kernel (algebra) , pattern recognition (psychology) , cognitive neuroscience of visual object recognition , set (abstract data type) , dimension (graph theory) , dimensionality reduction , feature extraction , object (grammar) , visualization , support vector machine , k nearest neighbors algorithm , activity recognition , machine learning , mathematics , combinatorics , pure mathematics , programming language
Material recognition is a fundamental problem in perception that is receiving increasing attention. Following the recent work using Flickr [16, 23], we empirically study material recognition of real-world objects using a rich set of local features. We use the Kernel Descriptor framework [5] and extend the set of descriptors to include materialmotivated attributes using variances of gradient orientation and magnitude. Large-Margin Nearest Neighbor learning is used for a 30-fold dimension reduction. We improve the state-of-the-art accuracy on the Flickr dataset [16] from 45% to 54%. We also introduce two new datasets using ImageNet and macro photos, extensively evaluating our set of features and showing promising connections between material and object recognition.
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