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Dictionary Learning and Sparse Representation for Image Analysis With Application to Segmentation, Classification and Event Detection

Sarkar, Rituparna
Format
Thesis/Dissertation; Online
Author
Sarkar, Rituparna
Advisor
Acton, Scott
Abstract
Sparse representation based dictionary learning has been exploited in solving various image analysis problems - image classification, tracking, quality assessment, de-noising, image reconstruction. The objective of dictionary learning is to obtain an adaptive basis function from the data and simultaneously provide a compact representation. In this work we employ sparse representation based dictionary learning techniques for segmentation, image classification and video analysis problems. In image and video processing applications, one of the major challenges is the choice of appropriate features for image representation. Various techniques exist that employ different analytical methods to extract color, texture and frequency information from images. However, these methods do not identify which of this information are more relevant for a particular image. Neither do these methods have any discrimination power to recognize more informative local image regions. In this work, we first tackle the problem of query specific image feature descriptor selection. Depending on the image content, different features e.g., color texture, structure can prove to be more relevant in representing and discriminating an image. We use a discriminative dictionary learning method in designing a classifier and an information theoretic measure to select the most appropriate feature for an image. This method attempt to identify the feature descriptors that provide more information about an image conditioned on the available images in a class. In image classification, while identifying the relevant feature type is important, it is also crucial to identify the essential contents of an image which discriminate it from the others. While the above mentioned solution is appropriate for determining image specific feature type, it does not incorporate any local image analysis to identify image regions associated with an object. To address this problem, we develop a method that leverages salient object detection framework to learn the dictionary and sparse codes from an image. The method simultaneously detects relevant image regions and computes a compact image representation. We also devise similarity measures exploiting the sparse representations for comparing image pairs. This similarity measure is used in image classification particularly for scenarios where training data is limited. Our method outperformed the state of the art methods by an average of 12% in overall accuracy for histo-pathological tissue image classification Although the above mentioned saliency guided dictionary learning method is applied to image classification, the application is not limited to just object recognition. The method is hence exploited for event detection from video. The saliency based dictionary learning and the similarity measure is used first for a frame by frame analysis to identify the temporal occurrence of an event. To make the system more robust to occlusion, dynamic background, we further employ a spatio-temporal saliency driven low rank and sparse representation scheme. The technique reconstructs the salient regions as foreground and low saliency regions as background. The methods were validated for applications of unusual and hazardous event detection from videos and achieved significant improvement over state of the art background subtraction methods for anomaly detection.
Language
English
Published
University of Virginia, Department of Electrical Engineering, PHD (Doctor of Philosophy), 2017
Published Date
2017-04-22
Degree
PHD (Doctor of Philosophy)
Sponsoring Agency
In part by DARPA
In part by ARO
Collection
Libra ETD Repository
Creative Commons Attribution LicenseCreative Commons Attribution License
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