Sparse Gaussian process regression method for visual mapping

A Gaussian process regression, vision technology, applied in the field of vision mapping, can solve the problem of no feature selection function, high-dimensional overfitting, etc.

Inactive Publication Date: 2017-05-10
UNIV OF ELECTRONIC SCI & TECH OF CHINA
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Problems solved by technology

However, the existing Gaussian process methods for solving visual mapping problems usually have no f

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  • Sparse Gaussian process regression method for visual mapping
  • Sparse Gaussian process regression method for visual mapping
  • Sparse Gaussian process regression method for visual mapping

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[0069] Implementation language: Matlab, C / C++

[0070] Hardware platform: Intel core2E7400+4G DDR RAM

[0071] Software platform: Matlab2012a, VisualStdio2010

[0072] According to the method of the present invention, first collect a certain number of images and record the corresponding target values ​​of these images, according to the patent of the present invention, utilize Matlab or C++ language to write the sparse Gaussian process regression model program, and train the corresponding model of the present invention on the collected data parameters; then install the camera in various application scenarios to collect the original image, and extract the gradient orientation histogram features; according to the previously trained parameters, the corresponding output target value of the image can be estimated. The method of the present invention can be used for visual mapping problems in various scenarios.

[0073] A sparse Gaussian process regression method for visual mapping...

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Abstract

The invention provides a Gaussian process regression method with feature selection performance, and solves the problems of excessively high feature input dimension and feature redundancy in a process of solving a visual mapping problem by utilizing Gaussian process regression. The method comprises the steps of firstly assuming that parameters related to feature weights in distribution parameters meet Laplace priori distribution; secondly estimating the parameters through a maximum posterior probability estimation method, so that feature-related weights have sparsity, namely, feature selection performance; and finally obtaining regression parameters by solving a sparse problem. When a new sample is subjected to visual estimation, sparse regression parameters are directly utilized for performing feature selection and an estimated target value is obtained. The method is simple and effective, and has good performance.

Description

technical field [0001] The invention belongs to the technical field of computer vision, relates to visual mapping technology, and is mainly used in visual estimation problems such as head posture estimation, line of sight tracking and age estimation. Background technique [0002] In computer vision, visual mapping refers to the process of learning a mapping function between input image features and output variables, so that when a new image is input, the target output value corresponding to the input image is estimated. Specifically, visual mapping includes: human body pose estimation, head pose estimation, line of sight estimation, and object tracking. See references for details: O.Williams, A.Blake, and R.Cipolla, Sparse and Semi-Supervised Visual Mapping with the S3GP, in IEEEConference Computer on Computer Vision and Pattern Recognition, pp.230-237, 2006. [0003] As an important branch of computer vision, visual mapping has changed the situation where humans estimate t...

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Application Information

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IPC IPC(8): G06K9/46
CPCG06V10/50
Inventor 潘力立
Owner UNIV OF ELECTRONIC SCI & TECH OF CHINA
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