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Data-driven background representation method to video surveillance

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Abstract

Background subtraction is the fundamental step of moving object detection. As current methods use specific data-based or data learning methods to represent background, this will induce the problem of model distortion while the scenarios cannot meet their assumptions or model conditions. A novel data-driven framework is proposed to represent the background using the intrinsic characteristics of the background. In the framework, the model-free adaptive control method is used as an instance to analyze the background by its status of the nearest time instants, and linearize them dynamically from a pure data perspective. To overcome the occlusion of foreground objects, the selective update method is employed to satisfy the background update. Experiments are carried out under different video conditions to compare algorithm performance with state-of-the-art background models. The results show that the proposed method has reached over 95% in F-measure and percentage of correct classification in most cases, which is better than other state-of-the-art methods. Furthermore, the proposed method shows better robustness in severe video conditions, including bad weather and night cases, and its simplified data-driven control laws make it suitable for outdoor video surveillance.

© 2017 Optical Society of America

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Supplementary Material (4)

NameDescription
Visualization 1: AVI (13714 KB)      Video used for qualitative comparisons of the proposed approach and both classical and state-of-the-art methods; see Fig. 6.
Visualization 2: AVI (40140 KB)      Video used for qualitative comparisons of the proposed approach and both classical and state-of-the-art methods; see Fig. 7, row 3.
Visualization 3: AVI (27390 KB)      Video used for qualitative comparisons of the proposed approach and both classical and state-of-the-art methods; see Fig. 7, row 4.
Visualization 4: AVI (11802 KB)      Video used for qualitative comparisons of the proposed approach and both classical and state-of-the-art methods; see Fig. 7, row 5.

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