Relocation stereo image quality evaluation method based on structural features

A stereoscopic image and structural feature technology, applied in stereoscopic systems, image communications, televisions, etc., can solve the problems of many geometric distortion factors, increasing the complexity of stereoscopic image relocation technology, and binocular parallax affecting the viewing comfort of stereoscopic images. Achieve strong stability and improve the effect of correlation

Active Publication Date: 2021-05-07
NINGBO UNIV
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Problems solved by technology

However, the quality of stereoscopic images not only includes the image content itself, but also factors such as excessive binocular parallax, binocular asymmetry, and binocular accommodation and convergence conflicts will seriously affect the viewing comfort of stereoscopic images.
Therefore, compared with the planar relocation method, the stereo image relocation technology needs to consider more geometric distortion factors, which also greatly increases the complexity of the stereo image relocation technology.

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  • Relocation stereo image quality evaluation method based on structural features

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Embodiment Construction

[0047] The present invention will be further described in detail below with reference to the embodiments of the accompanying drawings.

[0048] A method for evaluating the quality of a repositioned stereoscopic image based on structural features proposed by the present invention, the overall implementation block diagram of which is as follows: figure 1 shown, it includes the following steps:

[0049] Step 1: Let S org represents the original stereo image, let S ret means S org Corresponding repositioned stereo image; the S org The left view image of is denoted as {L org (x,y)}, put S org The right view image of is denoted as {R org (x,y)}, put S ret The left view image of is denoted as {L ret (x',y)}, put S ret The right view image of is denoted as {R ret (x', y)}; where, 1≤x≤W, 1≤y≤H, 1≤x'≤W', W represents S org width, W' means S ret width, H means S org and S ret height, L org (x,y) means {L org (x,y)} The pixel value of the pixel whose coordinate position is...

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Abstract

The invention discloses a relocation three-dimensional image quality evaluation method based on structural features, which comprises the following steps of: calculating local information retention features of a relocation virtual viewpoint image, forward information loss of an original virtual viewpoint image and backward information loss of a virtual viewpoint image reconstructed from the original virtual viewpoint image; obtaining a spatial structure characteristic vector of the relocated virtual viewpoint image; calculating parallax amplitude characteristics of all pixel points belonging to a matching region, a visual comfort region and a cross parallax region and relative width characteristics of all pixel points belonging to a shielding region in a parallax image between a left viewpoint image and a right viewpoint image of the repositioned stereo image to obtain a depth structure characteristic vector; and finally obtaining a structural feature vector of the relocated stereo image; then training all the structural feature vectors by using support vector regression to obtain a support vector regression training model; the method has the advantage that the correlation between an objective evaluation result and human eye subjective perception is improved.

Description

technical field [0001] The invention relates to an image quality evaluation method, in particular to a structural feature-based repositioning stereoscopic image quality evaluation method. Background technique [0002] With the popularization of terminal display devices such as smartphones, tablet computers, and TVs with different resolutions and screen aspect ratios, when the resolution of the image or video to be displayed does not match the resolution of the screen, how can the Under the premise of not changing the user's viewing experience, changing the resolution of an image or video to adapt it to terminal display devices of different sizes is the problem of adaptive display. Current typical adaptive display methods include scaling, cropping, and warping. However, these adaptive display methods do not take full advantage of the size advantage of the terminal display device and reduce the user experience effect. Therefore, it is necessary to objectively evaluate the per...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04N17/00
CPCH04N17/00H04N2013/0074
Inventor 邵枫王雪津
Owner NINGBO UNIV
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