KR102252947B1 - Image to Hologram Conversion Method and System using a Quantized Depth-Map - Google Patents

Abstract

An image-hologram conversion method and system using a quantized depth-map are provided. In the hologram conversion method according to an embodiment of the present invention, the depth-map is quantized to reduce the depth level of the depth-map for an image, and a digital holographic fringe pattern is generated using the image and the quantized depth-map. Accordingly, it is possible to convert a 2D image into a digital hologram at high speed using the quantized depth-map.

Description

Image to Hologram Conversion Method and System using a Quantized Depth-Map}

The present invention relates to graphics and 3D stereoscopic technology, and more particularly, to a digital hologram generation method and system.

Since digital holography can provide 3D information having a very high sense of realism on an actual 3D-object, interest in it is increasing rapidly.

In a digital hologram, 3D information of an object is recorded in a holographic fringe pattern. Holographic fringe patterns are typically created from 3D data.

It is also possible to create holograms from 2D images. Since a hologram is 3D information, it is possible to create a hologram only if there is a depth-map in addition to a 2D image, but there is a problem that it requires a lot of computation.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a method and system for converting a 2D image into a digital hologram at high speed.

According to an embodiment of the present invention for achieving the above object, a hologram conversion method includes: obtaining an image; Obtaining a depth-map for the image; Quantizing the depth-map to reduce the depth level of the depth-map; And generating a digital holographic fringe pattern by using the image and the quantized depth-map.

The generating step may include generating digital holographic fringe patterns for each quantized depth region by using the image and the quantized depth-map; And synthesizing the generated digital holographic fringe patterns.

In addition, the generation of the holographic fringe pattern for each quantized depth region may be performed simultaneously in parallel.

In addition, the depth level may be set by a user.

In addition, the depth level may be automatically determined based on the complexity of the image.

In addition, the depth-map may be a depth-map generated through a depth camera or stereo matching.

In addition, the hologram conversion method according to an embodiment of the present invention may further include restoring a digital hologram using the digital holographic fringe pattern.

Meanwhile, according to another embodiment of the present invention, a hologram conversion system includes: a quantization unit for quantizing the depth-map in order to reduce a depth level of a depth-map for an image; And a conversion unit for generating a digital holographic fringe pattern by using the image and the depth-map quantized by the quantization unit.

As described above, according to embodiments of the present invention, it is possible to convert a 2D image into a digital hologram at high speed using a quantized depth-map. In addition, according to embodiments of the present invention, since parallel processing for each depth region is possible at the same time, hologram generation can be performed more quickly.

1 is a diagram provided to explain an image-hologram conversion system according to an embodiment of the present invention;
2 is a diagram illustrating depth-map quantization;
3 is a diagram schematically showing the concept of digital holographic fringe pattern generation using a 2D image and a quantized depth-map, and,
4 is a flowchart provided to explain an image-hologram conversion method according to another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a diagram provided to explain an image-hologram conversion system according to an embodiment of the present invention. An image-hologram conversion system according to an embodiment of the present invention is a system for restoring a 2D image into a digital hologram.

To this end, a 2D image must be converted into a digital holographic fringe pattern, which requires a depth-map for the 2D image.

In order to generate a digital holographic fringe pattern at high speed, the image-hologram conversion system according to an embodiment of the present invention quantizes the depth-map to reduce the amount of computation and enable parallel processing.

An image-hologram conversion system performing such a function includes a depth-map quantization unit 110, an image-hologram conversion unit 120, and a hologram restoration unit 130, as shown in FIG. 1.

The depth-map quantization unit 110 quantizes the depth-map to reduce the resolution of the depth-map. For example, by quantizing/clustering a depth-map with a depth level of "100", the depth level is reduced to "20".

FIG. 2 illustrates that the depth-map is quantized to reduce the resolution. In FIG. 2, the depth-map has a depth level of "7" by quantization.

A target resolution to be converted by the depth-map quantization unit 110, that is, a target depth level may be determined by a user's input.

Furthermore, a target depth level may be determined based on the complexity of the 2D image to be converted into a hologram. For example, the higher the complexity of the 2D image is, the larger the target depth level is, and the lower the complexity of the 2D image is, the lower the target depth level is.

The depth-map may be generated through a depth camera, or may be a depth-map generated by stereo matching of a left-eye-image and a right-eye-image photographed through a stereo camera.

The image-hologram conversion unit 120 generates a digital holographic fringe pattern by using a 2D image and a quantized depth-map with a lower resolution generated by the depth-map quantization unit 110.

3 schematically shows a concept in which a digital holographic fringe pattern is generated and output from a 2D image and a quantized depth-map by the image-hologram conversion unit 120.

The upper left image is a 2D image, the lower left image is a depth-map quantized to three levels of depth, and the image on the right is a simplified digital holographic fringe pattern.

To this end, the image-hologram converter 120 generates digital holographic fringe patterns for each quantized depth region by using a 2D image and a quantized depth-map. Accordingly, digital holographic fringe patterns corresponding to the quantized depth level are generated.

For high-speed generation, the image-hologram conversion unit 120 may generate digital holographic fringe patterns for each depth region in parallel.

Next, the image-hologram conversion unit 120 synthesizes the generated digital holographic fringe patterns to complete a digital holographic fringe pattern for a 2D image.

The hologram restoration unit 130 restores the digital holographic fringe pattern generated by the image-hologram conversion unit 120 to generate a hologram.

4 is a flowchart provided to explain an image-hologram conversion method according to another embodiment of the present invention.

As shown in FIG. 4, first, the image-hologram conversion system acquires a 2D image to be converted into a hologram (S210), and acquires a depth-map for the 2D image (S220).

Then, the depth-map quantization unit 110 quantizes the depth-map obtained in step S220, thereby reducing the resolution of the depth-map (S230).

Next, the image-hologram converter 120 generates digital holographic fringe patterns for each quantized depth region by using the 2D image obtained in step S210 and the depth-map quantized in step S230 (S240).

For high-speed generation, generation of the digital holographic fringe pattern in step S240 may be performed simultaneously in parallel for each depth region.

Then, the image-hologram conversion unit 120 synthesizes the digital holographic fringe patterns generated in step S240 to complete a digital holographic fringe pattern for the 2D image (S250).

Thereafter, the hologram restoration unit 130 restores the digital holographic fringe pattern generated in step S250 to generate a hologram (S260).

In addition, although preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims In addition, various modifications are possible by those of ordinary skill in the art, and these modifications should not be understood individually from the technical spirit or prospect of the present invention.

110: depth-map quantization unit
120: image-hologram conversion unit
130: hologram restoration unit

Claims (8)

Obtaining an image;
Obtaining a depth-map for the image;
Quantizing the depth-map to reduce the depth level of the depth-map; And
Using the image and the quantized depth-map, generating a digital holographic fringe pattern; Including,
The generating step,
Generating digital holographic fringe patterns for each quantized depth area using the image and the quantized depth-map; And
Comprising the step of synthesizing the generated digital holographic fringe patterns; hologram conversion method comprising a.
delete The method according to claim 1,
Holographic fringe pattern generation for each quantized depth area,
Hologram conversion method, characterized in that performed at the same time in parallel.
The method according to claim 1,
The depth level is,
Hologram conversion method, characterized in that set by the user.
The method according to claim 1,
The depth level is,
Hologram conversion method, characterized in that automatically determined based on the complexity of the image.
The method according to claim 1,
The depth-map,
A hologram conversion method, characterized in that it is a depth-map generated through a depth camera or stereo matching.
The method according to claim 1,
And restoring a digital hologram using the digital holographic fringe pattern.
A quantization unit for quantizing the depth-map in order to reduce the depth level of the depth-map for the image; And
Including; a conversion unit for generating a digital holographic fringe pattern using the image and the depth-map quantized by the quantization unit
The conversion unit,
Generating digital holographic fringe patterns for each quantized depth area using the image and the quantized depth-map; And
Comprising the generated digital holographic fringe patterns; holographic conversion system comprising a.

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