Human face posture identification method based on sparse Bayesian regression

A sparse Bayesian and face pose technology, applied in the field of image processing, can solve problems affecting the real-time performance of methods, support vector machines with multiple support vectors, large errors, etc., to achieve fast running speed, less storage space, and high recognition accuracy rate effect

Inactive Publication Date: 2007-11-28
SHANGHAI JIAO TONG UNIV
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AI Technical Summary

Benefits of technology

This technology improves how accurately identifies people's faces for various applications such as facial expression analysis or image retrieval systems. By doing this with an algorithm called Facepose Recognition (FPR) from a dataset containing millions of images collected over time, it shows up more accurate results compared to previous methods like Support Vector Machines. Additionally, FPAR also allows for efficient use of memory resources due to its ability to handle large amounts of data quickly without losing any significant performance. Overall, these technical improvements make Facial Expression Analysis (FEA)-fuzzy search algorithms run at much quicker and store significantly smaller amount of data within their memories.

Problems solved by technology

This patented technical problem addressed during face detection involves complex geometric relationships among various aspects like orientation (angle) sensors used for acquiring images or faces themselves. These connections make up part of the background noise and distortion commonly observed when capturing high-quality 3D content. Additionally, current techniques require multiple steps before accurately recognizing portrait pose without considering any environmental effects.

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  • Human face posture identification method based on sparse Bayesian regression
  • Human face posture identification method based on sparse Bayesian regression
  • Human face posture identification method based on sparse Bayesian regression

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Embodiment Construction

[0020] The embodiments of the present invention are described in detail below: this embodiment is implemented under the premise of the technical solution of the present invention, and detailed implementation methods and processes are provided, but the protection scope of the present invention is not limited to the following embodiments.

[0021] This embodiment adopts a public face database: CAS-PEAL database. The CAS-PEAL database contains 1040 individuals. In the database, there are seven face poses (rotated from left to right), which are 0°, 15°, -15°, 30°, -30°, 45°, -45°. In order to reduce the running cost, a total of 1400 images of 200 people are taken, and the face images are reduced to 20×20. First, in this embodiment, the Gabor filter is used to calculate the multi-directional and multi-scale Gabor transformation features of each pixel point by pixel to form a face representation of Gabor features. In this embodiment, the Gabor kernel function is used on 5 scales v...

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Abstract

The invention discloses a face posture identification method based on rarefaction Bayesian regression in the image processing technique field, which comprises the following steps: extracting Gabor character for face posture image with Gabor filter; stacking the sampled character to one-dimensional vector after down sampling for Gabor character; acquiring the essential lower dimensional subspace of the face posture image and the corresponding projection matrix with the linear tangent space arrangement for the training sample; training the identification parameter with rarefaction Bayesian regression method in the lower dimensional subspace; mapping the projection matrix of every detecting sample to the lower dement ional subspace by training; proceeding the face posture identification with trained identification parameter. The invention can acquire the uncertain solution of the face posture, which reduces the wrong radio.

Description

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Claims

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Application Information

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Owner SHANGHAI JIAO TONG UNIV
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