Title :
Learning Binary Codes for High-Dimensional Data Using Bilinear Projections
Author :
Yunchao Gong ; Kumar, Sudhakar ; Rowley, Henry A. ; Lazebnik, Svetlana
Abstract :
Recent advances in visual recognition indicate that to achieve good retrieval and classification accuracy on large-scale datasets like Image Net, extremely high-dimensional visual descriptors, e.g., Fisher Vectors, are needed. We present a novel method for converting such descriptors to compact similarity-preserving binary codes that exploits their natural matrix structure to reduce their dimensionality using compact bilinear projections instead of a single large projection matrix. This method achieves comparable retrieval and classification accuracy to the original descriptors and to the state-of-the-art Product Quantization approach while having orders of magnitude faster code generation time and smaller memory footprint.
Keywords :
image coding; matrix algebra; Fisher vector; Image Net; bilinear projection; code generation time; high-dimensional visual descriptor; memory footprint; natural matrix structure; similarity-preserving binary code; visual recognition; Accuracy; Binary codes; Bismuth; Databases; Variable speed drives; Vectors; Visualization; binary codes; hashing; image feature; recognition;
Conference_Titel :
Computer Vision and Pattern Recognition (CVPR), 2013 IEEE Conference on
Conference_Location :
Portland, OR
DOI :
10.1109/CVPR.2013.69
