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    • University of Missouri-Columbia
    • Graduate Studies - Theses and Dissertations (MU)
    • Theses and Dissertations (MU)
    • Theses (MU)
    • 2013 Theses (MU)
    • 2013 MU theses - Freely available online
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    Vehicle license plate detection and recognition

    Ning, Guanghan
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    [PDF] Full thesis (2.279Mb)
    [PDF] Alternate abstract (6.476Kb)
    [PDF] Abstract (8.296Kb)
    Date
    2013
    Format
    Thesis
    Metadata
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    Abstract
    In this work, we develop a license plate detection method using a SVM (Support Vector Machine) classifier with HOG (Histogram of Oriented Gradients) features. The system performs window searching at different scales and analyzes the HOG feature using a SVM and locates their bounding boxes using a Mean Shift method. Edge information is used to accelerate the time consuming scanning process. Our license plate detection results show that this method is relatively insensitive to variations in illumination, license plate patterns, camera perspective and background variations. We tested our method on 200 real life images, captured on Chinese highways under different weather conditions and lighting conditions. And we achieved a detection rate of 100%. After detecting license plates, alignment is then performed on the plate candidates. Conceptually, this alignment method searches neighbors of the bounding box detected, and finds the optimum edge position where the outside regions are very different from the inside regions of the license plate, from color's perspective in RGB space. This method accurately aligns the bounding box to the edges of the plate so that the subsequent license plate segmentation and recognition can be performed accurately and reliably. The system performs license plate segmentation using global alignment on the binary license plate. A global model depending on the layout of license plates is proposed to segment the plates. This model searches for the optimum position where the characters are all segmented but not chopped into pieces. At last, the characters are recognized by another SVM classifier, with a feature size of 576, including raw features, vertical and horizontal scanning features. Our character recognition results show that 99% of the digits are successfully recognized, while the letters achieve an recognition rate of 95%. The license plate recognition system was then incorporated into an embedded system for parallel computing. Several TS7250 and an auxiliary board are used to simul
    URI
    http://hdl.handle.net/10355/43016
    Degree
    M.S.
    Thesis Department
    Electrical engineering (MU)
    Part of
    2013 Freely available theses (MU)
    Collections
    • 2013 MU theses - Freely available online
    • Electrical Engineering and Computer Science electronic theses and dissertations (MU)

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