Irene Yu‐Hua Gu scite author profile

This paper addresses the problem of background modeling for foreground object detection in complex environments. A Bayesian framework that incorporates spectral, spatial, and temporal features to characterize the background appearance is proposed. Under this framework, the background is represented by the most significant and frequent features, i.e., the principal features, at each pixel. A Bayes decision rule is derived for background and foreground classification based on the statistics of principal features. Principal feature representation for both the static and dynamic background pixels is investigated. A novel learning method is proposed to adapt to both gradual and sudden "once-off" background changes. The convergence of the learning process is analyzed and a formula to select a proper learning rate is derived. Under the proposed framework, a novel algorithm for detecting foreground objects from complex environments is then established. It consists of change detection, change classification, foreground segmentation, and background maintenance. Experiments were conducted on image sequences containing targets of interest in a variety of environments, e.g., offices, public buildings, subway stations, campuses, parking lots, airports, and sidewalks. Good results of foreground detection were obtained. Quantitative evaluation and comparison with the existing method show that the proposed method provides much improved results.

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Time-frequency and time-scale domain analysis of voltage disturbances

Bollen

2000

IEEE Trans. Power Delivery

355

140

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Foreground object detection from videos containing complex background

Li¹,

Huang²,

Gu³

et al. 2003

147

131

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Foreground object detection from videos containing complex background

Huang

et al. 2003

271

125

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Irene Yu‐Hua Gu

Signal Processing of Power Quality Disturbances

Statistical Modeling of Complex Backgrounds for Foreground Object Detection

Time-frequency and time-scale domain analysis of voltage disturbances

Foreground object detection from videos containing complex background

Foreground object detection from videos containing complex background

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