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During the past decades we have been observing a
permanent increase in image data, leading to huge
repositories. Content-based image retrieval (CBIR) methods
have tried to improve the access to image data. To date,
numerous feature extraction methods have been proposed to
improve the quality of CBIR and image classification
systems.
In this paper, we are analyzing the technique of
relevance feedback for the purpose of image retrieval
system. The survey is used to study all the methods used for
image retrieval system. The structure-based features its task
as broad as texture image retrieval and/or classification. To
develop a structure based feature extraction, we have to
investigate CBIR and classification problems.
Digital image libraries are becoming more common
and widely used as visual information is produced at a
rapidly growing rate. Creating and storing digital images is
nowadays easy and getting more affordable. As a result, the
amount of data in visual form is increasing and there is a
strong need for effective ways to manage and process it. We
have studied support vector machines to learn the feature
space distribution of our structure-based features for several
images classes. .
CBIR contains three levels namely retrieval by
primitive features, retrieval by logical features and retrieval
by abstract attributes. It contains the problem of finding
images relevant to the users’ information needs from image
databases, based principally on low-level visual features for
which automatic extraction methods are available. Due to
the inherently weak connection between the high-level
semantic concepts and the low-level visual features the task
of developing this kind of systems is very challenging.
A popular method to improve image retrieval
performance is to shift from single-round queries to
navigational queries. This kind of operation is commonly
referred to as relevance feedback and can be considered as
supervised learning to adjust the subsequent retrieval
process by using information gathered from the user’s
feedback.
Here we also studied an image indexing method
based on a Self-Organizing Maps (SOM). The SOM was
interpreted as a combination of clustering and
dimensionality reduction. It has the advantage of providing
a natural ordering for the clusters due to the preserved
topology. This way, the relevance information obtained from
the user can be spread to neighboring image clusters. The
dimensionality reduction aspect of the algorithm alleviates
computational requirements of the algorithm.
It definitely contains the feature of novel relevance
feedback technique. The relevance feedback technique is
based on spreading the user responses to local self
organizing maps neighborhoods. With some experiments, it
will be confirmed that the efficiency of semantic image
retrieval can be substantially increased by using these
features in parallel with the standard low-level visual
features.
The measurements like precision and recall were
used to evaluate the performance. Precision-recall graph for
the 1.000 and 10,000 image data-set and robustness analysis
of the 1.000 image database for different brightness have
taken. |
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