12,994 research outputs found
Image Labeling on a Network: Using Social-Network Metadata for Image Classification
Large-scale image retrieval benchmarks invariably consist of images from the
Web. Many of these benchmarks are derived from online photo sharing networks,
like Flickr, which in addition to hosting images also provide a highly
interactive social community. Such communities generate rich metadata that can
naturally be harnessed for image classification and retrieval. Here we study
four popular benchmark datasets, extending them with social-network metadata,
such as the groups to which each image belongs, the comment thread associated
with the image, who uploaded it, their location, and their network of friends.
Since these types of data are inherently relational, we propose a model that
explicitly accounts for the interdependencies between images sharing common
properties. We model the task as a binary labeling problem on a network, and
use structured learning techniques to learn model parameters. We find that
social-network metadata are useful in a variety of classification tasks, in
many cases outperforming methods based on image content.Comment: ECCV 2012; 14 pages, 4 figure
Multi-Atlas Segmentation using Partially Annotated Data: Methods and Annotation Strategies
Multi-atlas segmentation is a widely used tool in medical image analysis,
providing robust and accurate results by learning from annotated atlas
datasets. However, the availability of fully annotated atlas images for
training is limited due to the time required for the labelling task.
Segmentation methods requiring only a proportion of each atlas image to be
labelled could therefore reduce the workload on expert raters tasked with
annotating atlas images. To address this issue, we first re-examine the
labelling problem common in many existing approaches and formulate its solution
in terms of a Markov Random Field energy minimisation problem on a graph
connecting atlases and the target image. This provides a unifying framework for
multi-atlas segmentation. We then show how modifications in the graph
configuration of the proposed framework enable the use of partially annotated
atlas images and investigate different partial annotation strategies. The
proposed method was evaluated on two Magnetic Resonance Imaging (MRI) datasets
for hippocampal and cardiac segmentation. Experiments were performed aimed at
(1) recreating existing segmentation techniques with the proposed framework and
(2) demonstrating the potential of employing sparsely annotated atlas data for
multi-atlas segmentation
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