4,259 research outputs found
Implicitly Constrained Semi-Supervised Linear Discriminant Analysis
Semi-supervised learning is an important and active topic of research in
pattern recognition. For classification using linear discriminant analysis
specifically, several semi-supervised variants have been proposed. Using any
one of these methods is not guaranteed to outperform the supervised classifier
which does not take the additional unlabeled data into account. In this work we
compare traditional Expectation Maximization type approaches for
semi-supervised linear discriminant analysis with approaches based on intrinsic
constraints and propose a new principled approach for semi-supervised linear
discriminant analysis, using so-called implicit constraints. We explore the
relationships between these methods and consider the question if and in what
sense we can expect improvement in performance over the supervised procedure.
The constraint based approaches are more robust to misspecification of the
model, and may outperform alternatives that make more assumptions on the data,
in terms of the log-likelihood of unseen objects.Comment: 6 pages, 3 figures and 3 tables. International Conference on Pattern
Recognition (ICPR) 2014, Stockholm, Swede
A comparative study on face recognition techniques and neural network
In modern times, face recognition has become one of the key aspects of
computer vision. There are at least two reasons for this trend; the first is
the commercial and law enforcement applications, and the second is the
availability of feasible technologies after years of research. Due to the very
nature of the problem, computer scientists, neuro-scientists and psychologists
all share a keen interest in this field. In plain words, it is a computer
application for automatically identifying a person from a still image or video
frame. One of the ways to accomplish this is by comparing selected features
from the image and a facial database. There are hundreds if not thousand
factors associated with this. In this paper some of the most common techniques
available including applications of neural network in facial recognition are
studied and compared with respect to their performance.Comment: 8 page
Unsupervised spectral sub-feature learning for hyperspectral image classification
Spectral pixel classification is one of the principal techniques used in hyperspectral image (HSI) analysis. In this article, we propose an unsupervised feature learning method for classification of hyperspectral images. The proposed method learns a dictionary of sub-feature basis representations from the spectral domain, which allows effective use of the correlated spectral data. The learned dictionary is then used in encoding convolutional samples from the hyperspectral input pixels to an expanded but sparse feature space. Expanded hyperspectral feature representations enable linear separation between object classes present in an image. To evaluate the proposed method, we performed experiments on several commonly used HSI data sets acquired at different locations and by different sensors. Our experimental results show that the proposed method outperforms other pixel-wise classification methods that make use of unsupervised feature extraction approaches. Additionally, even though our approach does not use any prior knowledge, or labelled training data to learn features, it yields either advantageous, or comparable, results in terms of classification accuracy with respect to recent semi-supervised methods
Webly Supervised Learning of Convolutional Networks
We present an approach to utilize large amounts of web data for learning
CNNs. Specifically inspired by curriculum learning, we present a two-step
approach for CNN training. First, we use easy images to train an initial visual
representation. We then use this initial CNN and adapt it to harder, more
realistic images by leveraging the structure of data and categories. We
demonstrate that our two-stage CNN outperforms a fine-tuned CNN trained on
ImageNet on Pascal VOC 2012. We also demonstrate the strength of webly
supervised learning by localizing objects in web images and training a R-CNN
style detector. It achieves the best performance on VOC 2007 where no VOC
training data is used. Finally, we show our approach is quite robust to noise
and performs comparably even when we use image search results from March 2013
(pre-CNN image search era)
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