2,796 research outputs found
Mining Discriminative Triplets of Patches for Fine-Grained Classification
Fine-grained classification involves distinguishing between similar
sub-categories based on subtle differences in highly localized regions;
therefore, accurate localization of discriminative regions remains a major
challenge. We describe a patch-based framework to address this problem. We
introduce triplets of patches with geometric constraints to improve the
accuracy of patch localization, and automatically mine discriminative
geometrically-constrained triplets for classification. The resulting approach
only requires object bounding boxes. Its effectiveness is demonstrated using
four publicly available fine-grained datasets, on which it outperforms or
achieves comparable performance to the state-of-the-art in classification
Crowdsourcing in Computer Vision
Computer vision systems require large amounts of manually annotated data to
properly learn challenging visual concepts. Crowdsourcing platforms offer an
inexpensive method to capture human knowledge and understanding, for a vast
number of visual perception tasks. In this survey, we describe the types of
annotations computer vision researchers have collected using crowdsourcing, and
how they have ensured that this data is of high quality while annotation effort
is minimized. We begin by discussing data collection on both classic (e.g.,
object recognition) and recent (e.g., visual story-telling) vision tasks. We
then summarize key design decisions for creating effective data collection
interfaces and workflows, and present strategies for intelligently selecting
the most important data instances to annotate. Finally, we conclude with some
thoughts on the future of crowdsourcing in computer vision.Comment: A 69-page meta review of the field, Foundations and Trends in
Computer Graphics and Vision, 201
CNN Features off-the-shelf: an Astounding Baseline for Recognition
Recent results indicate that the generic descriptors extracted from the
convolutional neural networks are very powerful. This paper adds to the
mounting evidence that this is indeed the case. We report on a series of
experiments conducted for different recognition tasks using the publicly
available code and model of the \overfeat network which was trained to perform
object classification on ILSVRC13. We use features extracted from the \overfeat
network as a generic image representation to tackle the diverse range of
recognition tasks of object image classification, scene recognition, fine
grained recognition, attribute detection and image retrieval applied to a
diverse set of datasets. We selected these tasks and datasets as they gradually
move further away from the original task and data the \overfeat network was
trained to solve. Astonishingly, we report consistent superior results compared
to the highly tuned state-of-the-art systems in all the visual classification
tasks on various datasets. For instance retrieval it consistently outperforms
low memory footprint methods except for sculptures dataset. The results are
achieved using a linear SVM classifier (or distance in case of retrieval)
applied to a feature representation of size 4096 extracted from a layer in the
net. The representations are further modified using simple augmentation
techniques e.g. jittering. The results strongly suggest that features obtained
from deep learning with convolutional nets should be the primary candidate in
most visual recognition tasks.Comment: version 3 revisions: 1)Added results using feature processing and
data augmentation 2)Referring to most recent efforts of using CNN for
different visual recognition tasks 3) updated text/captio
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