2,935 research outputs found
Mass Displacement Networks
Despite the large improvements in performance attained by using deep learning
in computer vision, one can often further improve results with some additional
post-processing that exploits the geometric nature of the underlying task. This
commonly involves displacing the posterior distribution of a CNN in a way that
makes it more appropriate for the task at hand, e.g. better aligned with local
image features, or more compact. In this work we integrate this geometric
post-processing within a deep architecture, introducing a differentiable and
probabilistically sound counterpart to the common geometric voting technique
used for evidence accumulation in vision. We refer to the resulting neural
models as Mass Displacement Networks (MDNs), and apply them to human pose
estimation in two distinct setups: (a) landmark localization, where we collapse
a distribution to a point, allowing for precise localization of body keypoints
and (b) communication across body parts, where we transfer evidence from one
part to the other, allowing for a globally consistent pose estimate. We
evaluate on large-scale pose estimation benchmarks, such as MPII Human Pose and
COCO datasets, and report systematic improvements when compared to strong
baselines.Comment: 12 pages, 4 figure
A Survey on Metric Learning for Feature Vectors and Structured Data
The need for appropriate ways to measure the distance or similarity between
data is ubiquitous in machine learning, pattern recognition and data mining,
but handcrafting such good metrics for specific problems is generally
difficult. This has led to the emergence of metric learning, which aims at
automatically learning a metric from data and has attracted a lot of interest
in machine learning and related fields for the past ten years. This survey
paper proposes a systematic review of the metric learning literature,
highlighting the pros and cons of each approach. We pay particular attention to
Mahalanobis distance metric learning, a well-studied and successful framework,
but additionally present a wide range of methods that have recently emerged as
powerful alternatives, including nonlinear metric learning, similarity learning
and local metric learning. Recent trends and extensions, such as
semi-supervised metric learning, metric learning for histogram data and the
derivation of generalization guarantees, are also covered. Finally, this survey
addresses metric learning for structured data, in particular edit distance
learning, and attempts to give an overview of the remaining challenges in
metric learning for the years to come.Comment: Technical report, 59 pages. Changes in v2: fixed typos and improved
presentation. Changes in v3: fixed typos. Changes in v4: fixed typos and new
method
Nonlinear unmixing of hyperspectral images: Models and algorithms
When considering the problem of unmixing hyperspectral images, most of the literature in the geoscience and image processing areas relies on the widely used linear mixing model (LMM). However, the LMM may be not valid, and other nonlinear models need to be considered, for instance, when there are multiscattering effects or intimate interactions. Consequently, over the last few years, several significant contributions have been proposed to overcome the limitations inherent in the LMM. In this article, we present an overview of recent advances in nonlinear unmixing modeling
Hashing for Similarity Search: A Survey
Similarity search (nearest neighbor search) is a problem of pursuing the data
items whose distances to a query item are the smallest from a large database.
Various methods have been developed to address this problem, and recently a lot
of efforts have been devoted to approximate search. In this paper, we present a
survey on one of the main solutions, hashing, which has been widely studied
since the pioneering work locality sensitive hashing. We divide the hashing
algorithms two main categories: locality sensitive hashing, which designs hash
functions without exploring the data distribution and learning to hash, which
learns hash functions according the data distribution, and review them from
various aspects, including hash function design and distance measure and search
scheme in the hash coding space
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