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http://hdl.handle.net/11375/18661
Title: | Automation of Closed-Form and Spectral Matting Methods for Intelligent Surveillance Applications |
Authors: | Alrabeiah, Muhammad |
Advisor: | Chen, Jun |
Department: | Electrical and Computer Engineering |
Keywords: | Video processing;Visual-content analysis;Image processing;Video matting;Object detection;image matting |
Abstract: | Machine-driven analysis of visual data is the hard core of intelligent surveillance systems. Its main goal is to recognize di erent objects in the video sequence and their behaviour. Such operation is very challenging due to the dynamic nature of the scene and the lack of semantic-comprehension for visual data in machines. The general ow of the recognition process starts with the object extraction task. For so long, this task has been performed using image segmentation. However, recent years have seen the emergence of another contender, image matting. As a well-known process, matting has a very rich literature, most of which is designated to interactive approaches for applications like movie editing. Thus, it was conventionally not considered for visual data analysis operations. Following the new shift toward matting as a means to object extraction, two methods have stood out for their foreground-extraction accuracy and, more importantly, their automation potential. These methods are Closed-Form Matting (CFM) and Spectral Matting (SM). They pose the matting process as either a constrained optimization problem or a segmentation-like component selection process. This di erence of formulation stems from an interesting di erence of perspective on the matting process, opening the door for more automation possibilities. Consequently, both of these methods have been the subject of some automation attempts that produced some intriguing results. For their importance and potential, this thesis will provide detailed discussion and analysis on two of the most successful techniques proposed to automate the CFM and SM methods. In the beginning, focus will be on introducing the theoretical grounds of both matting methods as well as the automatic techniques. Then, it will be shifted toward a full analysis and assessment of the performance and implementation of these automation attempts. To conclude the thesis, a brief discussion on possible improvements will be presented, within which a hybrid technique is proposed to combine the best features of the reviewed two techniques. |
URI: | http://hdl.handle.net/11375/18661 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Alrabeiah_Muhammad_MA_201512_MASc.pdf | Master's thesis | 5.08 MB | Adobe PDF | View/Open |
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