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Target tracking method based on manifold discriminant non-negative matrix factorization

A technology of non-negative matrix decomposition and target tracking, which is applied in the field of pattern recognition, video surveillance, and computer vision. It can solve the problems of tracking failure, easy loss of targets, and inability to effectively deal with complex scenes, so as to eliminate occlusion and interference from similar backgrounds, Response to lighting changes and target deformation effects

Inactive Publication Date: 2016-11-09
BEIJING INSTITUTE OF TECHNOLOGYGY
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Problems solved by technology

[0008] The purpose of the present invention is to solve the lack of discriminative ability of the appearance model or the trained classifier used in the existing target tracking method, which cannot effectively deal with the problems of occlusion, target deformation and displacement, and illumination changes in complex scenes, which leads to the easy loss of targets and tracking failures, a target tracking method based on manifold discriminant non-negative matrix factorization is proposed

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Embodiment 1

[0036] The target tracking method during the specific implementation of the present invention comprises the following steps:

[0037] Step 1 Obtain positive samples and negative samples;

[0038] Among them, both positive samples and positive samples are obtained near the target position in the previous frame; in this example, 5 positive samples and 200 negative samples are selected;

[0039]At the same time, according to the particle filter framework, each particle is composed of 6 affine parameters, which respectively represent the displacement of the target in the direction x of the vertical axis, the displacement of the horizontal axis y, the rotation angle, the scale change ratio, the aspect ratio and the inclination , through the random change of these six affine parameters, the position parameters of other image regions close to the target position can be obtained; for the above radiation parameters, the displacement in the x direction and the displacement in the y dire...

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Abstract

The invention discloses a target tracking method based on manifold discriminant non-negative matrix factorization. The target tracking method comprises the following steps: S1: obtaining a positive sample and a negative sample of a current frame; S2: obtaining the characteristics of the positive sample and the negative sample and a sample matrix X1; S3: reading a next frame, and obtaining a candidate sample matrix Xu; S4: combining X1 with Xu as a data matrix X, decomposing X into a non-negative matrix product, and learning to obtain a classifier; S5: through the classifier, calculating the response value of each candidate sample, and selecting a maximum response as a tracking target; and S6: judging whether the current frame is a last frame or not, entering S7 if the current frame is the last frame to output the state of each frame of target, and otherwise, jumping to S1. By use of the target tracking method, through the non-negative matrix factorization, higher-level image features are obtained, local characteristics can be better described, and shielding and background interference can be eliminated. A semi-supervised manifold regularization method is used and is combined with marked and unmarked samples to train the classer which contains spatial structure information, more discriminant information can be retained, and illumination and target deformation can be effectively coped with. A feature extraction model is trained and updated on line to quickly position an appointed target in a video.

Description

technical field [0001] The invention relates to a target tracking method based on manifold discrimination non-negative matrix decomposition, and belongs to the technical fields of computer vision, pattern recognition and video monitoring. Background technique [0002] Object tracking aims at locating, identifying a specified object in a scene from a video, and estimating its trajectory. Many high-level tasks in computer vision, such as scene understanding, event detection, action recognition, etc., rely heavily on the results of object tracking. In the top international academic journals and conferences in the field of computer vision and pattern recognition, object tracking occupies a considerable amount of space and proportion. As a cutting-edge research direction that integrates computer vision, image processing, pattern recognition, machine learning, statistical analysis and stochastic processes, target tracking is widely used in video surveillance, human-computer inter...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T7/20
CPCG06T2207/10016G06T2207/20081
Inventor 马波贺辉
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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