Error Bounded Foreground and Background Modeling for Moving Object Detection in Satellite Videos

Zhang, Junpeng; Jia, Xiuping; Hu, Jiankun

doi:10.1109/tgrs.2019.2953181

Cited by 38 publications

(36 citation statements)

References 39 publications

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“…To verify the effectiveness of S-LSD, we compare the detection performance against three state-of-the-art approaches, which are RPCA (Candès et al, 2011), LSD (Liu et al, 2015) and E-LSD (Zhang et al, 2019a). RPCA is a low-rank matrix decomposition method without spatial constraints on the foreground,and is solved by Principal Component Pursuit.…”

Section: Comparison With Other Methodsmentioning

confidence: 99%

“…Another set of spatial prior on the foreground is defined on the sparsity over groups of spatial neighboring pixels other than independent pixels. The structured sparsity-inducing norm (Jenatton et al, 2011) is then introduced to regularize the foreground (Liu et al, 2015;Xu et al, 2013;Zhang et al, 2019a). In satellite videos, an Extended Low-rank and Structured Sparse Matrix Decomposition (E-LSD) model is proposed for boosting the MOD performance by imposing structured sparse regularization on the foreground (Zhang et al, 2019a,b).…”

Section: Introductionmentioning

confidence: 99%

“…In this paper, we adopt the ADMM approach for solving this augmented problem in Equation. ( 6), since the sufficient guarantee on the convergence has been provided for the set of optimization problems that minimizes the sum of three functions with uncoupled variables under a three-block linear constraint (Cai et al, 2017;Zhang et al, 2019a).…”

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confidence: 99%

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Low-Rank Matrix Decomposition With Superpixel-Based Structured Sparse Regularization for Moving Object Detection in Satellite Videos

Zhang

Jia

2020

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. With new accessibility to satellite videos, retrieving the dynamic information of moving objects over a vast territory becomes possible with the development of advanced video processing and machine learning techniques. Detecting moving objects can be based on the structures of both background and foreground of a satellite video, and the background is assumed to lay in a low dimensional subspace. As the moving objects in satellite videos are groups of neighbouring pixels other than isolated pixels, Low-rank and Structured Sparse Decomposition (LSD) with structured sparsity regularization on the foreground can suppress the false alarms caused by isolated outliers. However, in LSD, the groups of neighbouring pixels are extracted by a fixed sliding window over each video frame, which ignores the coherence on the appearance of a moving object. For example, a moving object can be in an irregular shape and arbitrary orientation. In this paper, we argue that the spatial groups on the foreground can be defined using the concept of superpixels, where each superpixel is formed by a group of spatially connected similar pixels obtained from over-segmentation. We conduct low-rank matrix decomposition at superpixel level, which is named as Superpixel-based LSD (S-LSD). To handle the variation in moving objects, we combine the superpixels at a range of scales in the superpixel-based spatial regularization on the foreground. With the reduction in the number of spatial groups, S-LSD presents reduced computation complexity. The results on two satellite videos show a satisfactory performance with a significant saving in processing time when the proposed S-LSD approach is applied.

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Section: Comparison With Other Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Low-Rank Matrix Decomposition With Superpixel-Based Structured Sparse Regularization for Moving Object Detection in Satellite Videos

Zhang

Jia

2020

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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“…Traffic surveillance includes highways and roads environments, the foreground detection can be employed to count stopped vehicles [14] Traffic surveillance is affected by different factors, for example the camera location factor where most of the time it is a stationary camera. Sometimes traffic senses are aerial videos taken by a drone [149][150] or even high-resolution videos taken by a satellite [151][152] [153]. Also, the quality of the camera is highly considered in terms of the video characteristics in traffic scenes.…”

Section: Transportation Scenesmentioning

confidence: 99%

Review on Real Time Background Extraction: Models, Applications, Environments, Challenges and Evaluation Approaches

Yasir

Ali

2021

Int. J. Onl. Eng.

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In the computer vision, background extraction is a promising technique. It is characterized by being applied in many different real time applications in diverse environments and with variety of challenges. Background extraction is the most popular technique employed in the domain of detecting moving foreground objects taken by stationary surveillance cameras. Achieving high performance is required with many perspectives and demands. Choosing the suitable background extraction model plays the major role in affecting the performance matrices of time, memory, and accuracy.In this article we present an extensive review on background extraction in which we attempt to cover all the related topics. We list the four process stages of background extraction and we consider several well-known models starting with the conventional models and ending up with the state-of-the art models. This review also focuses on the model environments whether it is human activities, Nature or sport environments and illuminates on some of the real time applications where background extraction method is adopted. Many challenges are addressed in respect to environment, camera, foreground objects, background, and computation time. In addition, this article provides handy tables containing different common datasets and libraries used in the field of background extraction experiments. Eventually, we illustrate the performance evaluation with a table of the set performance metrics to measure the robustness of the background extraction model against other models in terms of time, accurate performance and required memory.

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“…e tracking algorithms based on deep learning are mainly divided into two categories [15,16]: one is to design tracking algorithms based on deep features and related filtering; the other is to track targets' end-to-end based on deep networks. e existing satellite video target detection and tracking algorithms basically follow the related results in traditional video processing, as shown in [17][18][19][20][21][22][23][24][25][26][27]. Aiming at the needs of satellite video moving target detection and tracking, this paper proposes a background subtraction method based on a hybrid Gaussian background model combined with a road mask.…”

Section: Introductionmentioning

confidence: 99%

Multitarget Detection and Tracking Method in Remote Sensing Satellite Video

Lei

Guo

2021

Computational Intelligence and Neuroscience

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A remote sensing video satellite multiple object detection and tracking method based on road masking, Gaussian mixture model (GMM), and data association is proposed. This method first extracts the road network from the remote sensing video based on deep learning. In the detection stage, the background subtraction algorithm is used based on the GMM to obtain the detection results of the moving targets on the road. In the tracking stage, the data association of the same target detection result in adjacent frames is realized based on the neighborhood search algorithm, so as to obtain the continuous tracking trajectory of each target. The experiments about multiobject detection and tracking are conducted on data measure by real remote sensing satellites, and the results verified the feasibility of the proposed method.

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Error Bounded Foreground and Background Modeling for Moving Object Detection in Satellite Videos

Cited by 38 publications

References 39 publications

Low-Rank Matrix Decomposition With Superpixel-Based Structured Sparse Regularization for Moving Object Detection in Satellite Videos

Low-Rank Matrix Decomposition With Superpixel-Based Structured Sparse Regularization for Moving Object Detection in Satellite Videos

Review on Real Time Background Extraction: Models, Applications, Environments, Challenges and Evaluation Approaches

Multitarget Detection and Tracking Method in Remote Sensing Satellite Video

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