KR101455662B1 - System and method of image correction for multi-projection - Google Patents

Abstract

The present invention relates to an image correction system, and more particularly, to an image correction system that includes a plurality of projection surfaces provided in a single screening tube, two or more projection devices for projecting images on the plurality of projection surfaces, and a video management device for correcting images projected by the two or more projection devices Wherein the images to be corrected by the image management apparatus include one reference projection plane image among the images projected onto the plurality of projection planes, The brightness difference or the image quality difference, and corrects the images in a direction that cancels the analyzed chromaticity difference, brightness difference, or image quality difference.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image correction method and a multi-

The present invention relates to an image correction system and method for multi-screen display, and more particularly, to a multi-screen image correction system and method for multi- And an image correction system and method capable of correcting an image projected on each projection surface.

Conventionally, a two-dimensional image is projected on a single screen disposed in front of an auditorium to reproduce images such as movies and advertisements in a theater. However, under such a system, the audience was forced to view only 2D (2D) images.

In recent years, 3D image technology has been developed that can provide stereoscopic images to the audience. 3D image technology is a technology that allows a user to feel stereoscopic effects in a plane image when different images are entered into the left eye and right eye of a person, The principle is to use two cameras equipped with different polarizing filters at the time of image capturing and to use glasses equipped with a polarizing filter at the time of viewing the images so that different images can be entered into the left eye and the right eye.

However, such a 3D technology can provide a stereoscopic image to a user, but still has a limitation in that the image itself is less immersive because it is merely viewing an image reproduced on a single screen. Also, there was a limitation that the direction of stereoscopic feeling that the audience perceives is limited to the direction in which a single screen exists.

In addition, the conventional 3D technology is inconvenient to viewers because it is necessary to wear glasses or the like equipped with a polarizing filter at the time of watching the video, Sensitive audiences could feel dizziness or loudness.

Accordingly, a so-called 'multiple screening system' has been proposed which can solve the problems of the conventional screening system based on a single screen. The 'multi-screening system' is a system in which a plurality of projection surfaces are arranged around a viewer's seat, Means a technique capable of synchronizing on a plane and reproducing an image with a unified sense as a whole to provide stereoscopic effect and immersion feeling to the audience.

In order to realize such a multi-screen display system, it is necessary to realize an image having a sense of unity in all of the plurality of projection surfaces. However, in the prior art in which only a single projection surface is planned, there is a correction technique for realizing such a unified image Did not do it.

Therefore, there is a demand for a new correction technique for reproducing an image having a sense of unity across the plurality of projection surfaces. In particular, a correction technique capable of realizing a coherent image even when a plurality of projection surfaces have different characteristics is required.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the problem of image heterogeneity that can be caused by a difference in the relative characteristics of a plurality of projection surfaces through a new correction technique. That is, the present invention proposes a technique of correcting an image for reproducing an image having a sense of unity in all of a plurality of projection surfaces.

According to an aspect of the present invention, there is provided an image correction system, comprising: a plurality of projection surfaces provided in a single screening tube; Wherein the image management apparatus corrects images projected by the at least two projection apparatuses and the at least two projection apparatuses, wherein the images corrected by the image management apparatus include at least one of a plurality of images projected on the plurality of projection planes, A brightness difference or an image quality difference between the set reference projection surface image and the remaining projection surface images to analyze the chromaticity difference, the brightness difference, or the image quality difference, And the correction is performed.

delete

delete

delete

The image correction system may further include an image management device for delivering the corrected image to each projection device.

delete

The image correction system may further include a photographing device for photographing an image projected on the plurality of projection surfaces, and the image management device may analyze the chromaticity difference, the brightness difference, or the image quality difference using the photographing device .

delete

delete

delete

The image management apparatus may further include a projection surface information management unit that manages information on a difference in the relative characteristics of the projection surfaces; And an image correcting unit for correcting an image projected by each projection apparatus on the basis of information managed by the projection surface information managing unit.

In addition, the plurality of projection surfaces may be disposed so as not to be parallel to each other, and may be disposed in the form of surrounding the audience in the screening tube.

According to another aspect of the present invention, there is provided a method of correcting an image, the method comprising the steps of: (a) setting a reference projection plane image of an image projected on a plurality of projection planes, ) Analyzing the chromaticity difference, the brightness difference, or the image quality difference between the set reference projection plane image and the remaining projection plane images; and (c) And correcting the images to be projected on each projection surface in a direction that cancels the brightness difference or the image quality difference.

delete

delete

According to the present invention, even when there is a characteristic difference between a plurality of projection surfaces, it is possible to reproduce an image with a unified sense over the plurality of projection surfaces. Specifically, the difference in the characteristics between the projection surfaces can be canceled by image correction, and thereby, an image having a sense of unity can be reproduced on all of the plurality of projection surfaces.

In addition, the present invention is characterized in that a plurality of projection surfaces have their own characteristic differences (color difference, brightness difference, distance difference, etc.) and characteristic differences (chromaticity difference, brightness difference, image quality difference, etc.) It can be analyzed through direct shooting, and image correction can be performed based on the directly analyzed information. Therefore, the accuracy of the image correction can be further improved as compared with the case where the image correction is performed using the information input from the user or information previously stored in the DB (Data Base).

Also, in the present invention, images to be projected on a plurality of projection surfaces can be integrally managed through a video management apparatus. Therefore, in the image correction process of a specific projection apparatus, the information of the specific projection apparatus itself and the relative information of the projection apparatuses can be considered together.

FIG. 1 is a configuration diagram illustrating a configuration of an image correction system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of an image correction system according to another embodiment of the present invention.
3 is a configuration diagram illustrating a configuration of a video management apparatus that can be included in an image correction system according to an embodiment of the present invention.
Figs. 4 to 6 are illustrations showing examples of a plurality of projection surfaces. Fig.
7 is a flowchart illustrating an image correction method according to an embodiment of the present invention.

Hereinafter, an image correction system and method according to the present invention will be described in detail with reference to the accompanying drawings. The embodiments are provided so that those skilled in the art can easily understand the technical spirit of the present invention, and thus the present invention is not limited thereto. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

On the other hand, the expression " comprising " is intended to merely denote that such elements are present as an 'open expression', and should not be construed as excluding any additional elements.

Hereinafter, an image correction system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5. FIG.

1 and 2, an image correction system according to an exemplary embodiment of the present invention includes a plurality of projection surfaces 300 installed in a single screen, a plurality of projection devices 300 projecting images on the plurality of projection surfaces, 200), a video management apparatus (100) for correcting images projected by the two or more projection apparatuses and delivering the corrected images to respective projection apparatuses, And may include two or more photographing apparatuses 400 for photographing.

In addition, the image correction system according to an embodiment of the present invention may further include two or more distance measuring devices for measuring the distance between each projection surface and each projection device 200.

The plurality of projection planes 300 are a plurality of projection planes installed in a single screening pipe for realizing a multi-screening system. The plurality of images projected by the two or more projection apparatuses 200 are reproduced on the plurality of projection planes 300. The images reproduced on the plurality of projection planes 300 are preferably synchronized with each other. In addition, it is preferable that images reproduced on the plurality of projection planes 300 form an image having a unified sense as a whole. More specifically, although different images are reproduced on each projection plane 300, When viewed as a whole, it is preferable that different images of the respective projection planes 300 are linked to form a unified image. On the other hand, in some embodiments, separate images independent of each other may be reproduced on the plurality of projection surfaces 300.

In addition, the plurality of projection planes 300 may have various characteristics related to the image correction, specifically, they may exhibit characteristics from two viewpoints.

First, it is a characteristic of the plurality of projection planes 300 themselves. The term "self-characteristics" as used herein means a characteristic of analyzing the surface of the projection surface 300 in a state where no image is projected on the projection surface 300. These characteristics include the surface color of the projection surface 300, the surface brightness of the projection surface 300, the distance between the surface of the projection surface 300 and the projection device 200, the surface reflectance of the projection surface 300, May be included.

The second is a characteristic of the images projected on the plurality of projection surfaces 300. The characteristics of these images mean the characteristics of images that are actually being reproduced on the projection surface 300, not the characteristics of the projection surface 300 itself. The characteristics of these images may include chromaticity, brightness, image quality, etc. of the image projected on each projection plane 300.

The plurality of projection planes 300 may include various types of projection planes 300 such as a screen and a wall surface. The plurality of projection planes 300 may be formed of different types of projection planes 300 Lt; / RTI > For example, the plurality of projection surfaces 300 may be formed of a screen and a wall, or may be a combination of different screens, or a combination of different wall surfaces. In addition, although the plurality of projection planes 300 are composed of the same type of projection plane 300, the characteristics of the projection planes 300 described above may differ from each other due to the individual environmental differences of the projection planes 300. In the case where the plurality of projection planes 300 are composed of different kinds or have the same kind of characteristics, there is a difference in characteristics between the projection planes 300. In such a case, images with a sense of heterogeneity may be reproduced on the plurality of projection planes 300. However, The reproduction of the heterogeneous image can hinder the immersion and stereoscopic effect of the audience, which may hinder the implementation of the multi-screen screening system. Therefore, it is necessary to cancel the relative sense of heterogeneity that may be caused by the difference in characteristics of the respective projection planes 300. As will be described in detail later, the cancellation of the sense of heterogeneity is performed by analyzing and correcting information of the image management apparatus 100 ≪ / RTI >

The two or more projection devices 200 refer to devices that project images onto the plurality of projection surfaces 300. The projection apparatuses 200 may have a heating unit such as an optical system, enlarge and project images on the screen, and may be implemented in various ways. For example, the projection apparatuses can be classified into a method using a CRT, a method using a liquid crystal display (LCD), a digital light processing (DLP) method using a DMD (Digital Micromirror Device) A liquid crystal on silicon (Liquid Crystal on Silicon) method, and the like.

In addition, the two or more projection apparatuses 200 project different images onto the plurality of projection surfaces 300, and project images in synchronization with the synchronized signals. It is preferable that the images projected by the two or more projection devices 200 are synchronized with each other, and it is preferable to form a single image when viewed from the whole of the plurality of projection surfaces 300. Accordingly, through the images projected by the two or more projection apparatuses 200, the audience can recognize an image having a sense of unity in various viewpoint directions in which the projection planes 300 are arranged, and the three- The immersion feeling can be improved. On the other hand, depending on the situation, a separate image may be projected on the plurality of projection planes 300, rather than a single image.

The images projected by the two or more projection devices 200 may be images corrected according to the relative difference in the characteristics of the projection surfaces 300. Here, the relative difference in the characteristics of the projection surfaces 300 can be analyzed by two methods. Specifically, 1) the relative difference in the characteristics of the projection surfaces 300 itself is analyzed, or 2) The relative characteristics of the projected images can be analyzed. Accordingly, the correction of the image taking into account the relative difference in the characteristics of the projection surfaces 300 can be performed by 1) the relative difference in the characteristics of the projection surfaces 300 (the relative color difference, the brightness difference, Or 2) the relative characteristics of the images projected on the projection planes 300 (the relative chromaticity difference, the brightness difference, and the image quality difference of the projected images on the projection surfaces) .

The two or more projection devices 200 may be electrically connected to the video management device 100 and may be integrally controlled by the video management device 100. In addition, the two or more projection devices 200 may be connected in parallel with the image management device 100 so that both the integrated control and the individual control are both possible. In addition, the two or more projection apparatuses 200 may receive the image to be projected from the image management apparatus 100. Here, it is preferable that the image received by each projection apparatus 200 is a corrected image according to the difference in the relative characteristics of the projection surfaces 300, as described above.

Meanwhile, it is preferable that the projection device is installed in two or more numbers as described above, but according to an embodiment, only one projection device may be installed in the movie theater. In this case, the one projection apparatus may include a plurality of projection units, and the images are projected on all of the projection surfaces through the plurality of projection units.

The two or more photographing apparatuses 400 are configured to photograph the plurality of projection planes 300 (a surface in a state in which no image is projected) or an image projected on the plurality of projection planes 300. It is preferable that the at least two photographing apparatuses 400 are installed opposite to the plurality of projection surfaces 300, and that the number of the projection planes 300 disposed in the projection tubes is set so as to be able to photograph them. On the other hand, it is preferable that the photographing apparatus is installed in two or more numbers, but according to an embodiment, only one photographing apparatus 400 may be installed in the movie theater. In this case, one photographing apparatus 400 can photograph all the projection surfaces while adjusting the photographing angle.

The two or more photographing apparatuses 400 may include various imaging elements for photographing a surface or an image of the projection surface 300. For example, a CCD (Charge Coupled Device), a CMOS (Complementary Metal-Oxide Semiconductor), and the like.

In addition, the at least two photographing apparatuses 400 may be electrically connected to the image managing apparatus 100 and may be integrally controlled by the image managing apparatus 100. In addition, the two or more projection devices 200 may be connected in parallel with the video management device 100 so that both of the integrated control and the individual control can be performed. In the control of the video management device 100, And transmits the images photographed to the image management apparatus 100.

In addition, the at least two photographing apparatuses 400 may be configured as independent apparatuses from the two or more projection apparatuses 200, or may be composed of a single apparatus. 1 and FIG. 2, the two or more photographing apparatuses 400 may be configured as an integral unit with the two or more projection apparatuses 200 as shown in FIG. 2 .

Meanwhile, the images photographed by the two or more photographing apparatuses 400 are integrated in the image management apparatus 100, and a relative difference in the characteristics of the projection planes 300 is obtained through the analysis process .

The two or more distance measuring apparatuses are configured to specify the distance between each projection plane 300 and each projection apparatus 200. It is preferable that the at least two distance measuring apparatuses are installed in a number that can measure the distance between all the projection surfaces 300 disposed in the screening tube and all the projection apparatuses 200 and may be installed at various positions. Further, it is preferable that each distance measuring apparatus is formed integrally with each projection apparatus 200 to be measured.

In addition, the two or more distance measuring devices can measure the distance in various ways. For example, the two or more distance measuring devices can measure the distance between the projection plane 300 and the projection device 200 by analyzing the time until the ultrasonic waves are emitted and returned, or the change in the period or amplitude of the ultrasonic waves. have. Further, the two or more distance measuring devices may measure the distance by irradiating infrared light onto the projection surface 300, detecting the light receiving sensitivity of the reflected light, or measuring the distance using a laser, GPS, or the like. Meanwhile, the two or more distance measuring apparatuses may measure distances by simultaneously applying two or more of the ultrasonic method, infrared method, laser method, and GPS method. In this case, an average of the calculated values is calculated, Value.

The distance information measured by the two or more distance measuring devices may be used to analyze the image quality of an image projected on each projection surface 300. For example, if the distance between the projection surface A and the projection device a is longer than the distance between the projection surface B and the projection device b, the image quality of the image reproduced on the projection surface A may be worse even if an image of the same resolution is projected (The unit pixel of the image reproduced on the projection plane A may be larger than the unit pixel of the image reproduced on the projection B). Accordingly, the image correction that increases the resolution of the image projected by the projection apparatus a is performed, and the sense of heterogeneity between the projection plane A image and the B image can be reduced.

It is preferable that the distance measuring apparatus is installed in two or more numbers as described above. However, according to an embodiment, it is also possible that one apparatus measures all distances (distance between all projection apparatuses and projection surfaces) .

The image management apparatus 100 corrects images projected by the two or more projection apparatuses 200 and transmits the corrected images to the projection apparatuses 200. [

The image management apparatus 100 may be electrically connected to the at least two projection apparatuses 200, the at least two photographing apparatuses 400, the at least two distance measuring apparatuses, And can analyze it integrally. In addition, the analyzed information can be utilized in the image correction process. Preferably, the connection between the video management apparatus 100 and each of the devices is connected in parallel. Through the connection, the video management apparatus 100 controls the respective devices integrally or individually . In addition, the connection between the video management apparatus 100 and each of the devices may be configured by a variety of methods such as wire or the like, and information collected from the devices through the connection may be transmitted to the video management apparatus 100 Or the images that have been corrected by the image management apparatus 100 may be individually transmitted to the respective projection apparatuses 200.

The image management apparatus 100 performs image correction in consideration of a relative difference in characteristics of the plurality of projection planes 300. The image management apparatus 100 performs image correction do. Here, there are two ways in which the image management apparatus 100 considers the relative difference in the characteristics of the plurality of projection planes 300. Specifically, there are two ways of considering the difference in the characteristics of the plurality of projection planes 300 themselves And 2) a method of considering the relative difference in characteristics of the images projected on the plurality of projection planes 300 may be considered.

Hereinafter, the image correction of these two methods will be described in detail.

First, the image management apparatus 100 determines whether or not the difference between the characteristics of the projection planes 300 themselves, that is, the relative color difference, the brightness difference, the distance difference, or the reflectance difference of the projection planes 300 itself, The image projected by the two or more projection apparatuses 200 can be corrected. In this case, the image management apparatus 100 receives the information acquired by the at least two photographing apparatuses 400 and the at least two distance measuring apparatuses, and analyzes the received information and uses the information for image correction.

First, the image management apparatus 100 acquires an image of each projection surface (a surface in a state in which no image is reproduced) from the two or more imaging apparatuses And analyzes the received and received images to acquire chromaticity information (information in which color and saturation are combined) of each projection surface. When the chromaticity information of each projection surface is obtained, the image management apparatus 100 calculates chromaticity difference information between the projection surfaces. Specifically, after setting one reference projection surface, the relative chromaticity difference information of each projection surface is obtained . For example, the "A projection surface has a chromaticity level of R (red) of 50 levels higher than that of the reference projection surface, a chromaticity level of G (green) of 40 levels higher, and a chromaticity level of B And calculates relative chromaticity difference information in the same manner. For example, when the chromaticity of the image projected on the A projection surface is lowered by 50 levels, and G is 40, the chromaticity of the image projected on the A projection surface is lowered by 50. Thus, Level is lowered, and the level of B is maintained ". Therefore, since the color difference of the projection planes themselves is canceled by the image correction, the sense of heterogeneity that may occur between the images of the projection planes can be eliminated.

First, the two or more photographing apparatuses 400 measure the brightness of a plurality of projection surfaces, which are the subject, and transmit the measured information to the image management apparatus 100. [ Lt; / RTI > When the brightness information of each projection plane is received, the image management apparatus 100 calculates brightness difference information between the projection planes. Specifically, after setting one reference projection plane, the relative brightness difference information of each projection plane is obtained . For example, relative brightness difference information is calculated in the same manner as "A projection surface is 50nit brighter than reference projection surface and B projection surface is 20nit darker than reference projection surface ". After the brightness difference information of each projection plane itself is calculated, the image is corrected using the calculated information. For example, the image projected on the A projection plane is corrected to have brightness of about 50 nit And the image projected on the B projection surface is increased in such a manner as to increase the brightness so as to cancel the brightness difference of 20 nit. Therefore, since the brightness difference of the projection surfaces themselves is canceled by the image correction, the sense of heterogeneity that may occur between the images of the projection surfaces can be eliminated.

The distance measuring apparatus measures the distance between each projection plane 300 and each projection apparatus 200 and outputs the measured information to the image management unit 300. [ To the device (100). When the distance information of each projection plane is received, the image management apparatus 100 calculates distance difference information between the projection planes. Specifically, after setting one reference projection plane, relative distance difference information of each projection plane is obtained . For example, the relative distance difference information is calculated in the same manner as "A projection surface is 2 m longer in distance to the projection device than the reference projection surface, and B projection surface is 1 m shorter in distance to the projection device than the reference projection surface & . After the distance difference information of each projection plane is calculated, the image is corrected using the calculated information. For example, the image projected on the A projection plane is increased in resolution so as to offset a distance difference of 2 m , And the image projected on the B projection surface is reduced in such a way as to reduce the resolution so as to offset the distance difference of 1 m ". Accordingly, the images reproduced on all the projection surfaces can be formed with the same pixel size, so that an image having a uniform image quality can be realized.

First, the two or more photographing apparatuses 400 measure the reflectance of a plurality of projection surfaces and transmit the measured information to the image management apparatus 100 do. When the reflectance information of each projection plane is received, the image management apparatus 100 calculates reflectance difference information between the projection planes. Specifically, after setting one reference projection plane, the relative reflectance difference information of each projection plane is obtained . For example, relative reflectance difference information is calculated in the same manner as "the A projection surface has a reflectance higher by 20% than the reference projection surface, and the B projection surface has a reflectance lower by 10% than the reference projection surface ". After the reflectance difference information of each projection plane itself is calculated, the image is corrected using the calculated information. For example, the image projected on the A projection plane is corrected to a brightness of about 20% , And the image projected on the B projection surface is reduced to such a degree that it can cancel out the reflectance difference of 10% ". Therefore, since the reflectance difference of the projection surfaces themselves is canceled by the image correction, heterogeneity that may occur between the images of the projection surfaces can be eliminated.

Meanwhile, in the above-described embodiments, when analyzing the relative difference in characteristics (color difference, brightness difference, distance difference, reflectance difference, etc.) of the plurality of projection surfaces themselves, , And the images were corrected by taking these relative difference values into consideration. However, the analysis method that can be performed by the present invention is not limited to the analysis method using the reference projection surface, and can be performed in various ways. For example, in the present invention, representative values (average value, median value, mode value, and the like) are calculated for the characteristic values (color, brightness, distance, reflectance, etc.) of the plurality of projection surfaces themselves, , And it is also possible to correct the images using the characteristic difference information thus analyzed.

For example, the image management apparatus 100 acquires chromaticity information of each projection surface, and calculates an average value of the chromaticity information. For example, if the chromaticity level of R (red) of the reference projection surface is 30, the chromaticity level of R (red) of the A projection surface is 24, and the chromaticity level of R (red) of the B projection surface is 28, The image management apparatus 100 calculates an average value (27.3) of chromaticity levels of R (red) of all projection surfaces. Then, the image management apparatus 100 corrects the chromaticity level value of R of all projection planes based on the calculated average value (27.3). Further, the chromaticity level of G (green) and the chromaticity level of B (blue) are also corrected in the same manner. Therefore, since the color difference of the projection surfaces themselves is canceled by the image correction as described above, the sense of heterogeneity that may occur between the images of the projection surfaces can be eliminated.

In the embodiment described above, the image management apparatus 100 receives the image of each projection surface from the image capturing apparatus 400, analyzes the captured image, and determines the state of each projection surface (color, brightness, ), And determines the relative characteristics of the plurality of projection surfaces based on the determination result. However, the method of determining the relative characteristics of the plurality of projection surfaces is not limited to the method of determining using the information provided from the photographing apparatus 400, and may be performed through various methods. For example, the detailed information of all the screening tubes (e.g., the number of projection surfaces provided in each screen, the color, brightness, reflectivity information of each projection surface, distance information between each projection surface and the projection device projecting the image on the projection surface) Etc.) in a separate DB (Data Base), and the relative characteristics of the plurality of projection surfaces can be determined using information stored in the DB, and the image correction can be performed through the same.

Next, the image management apparatus 100 determines a difference in characteristics of the images projected on the projection planes 300, specifically, a relative chromaticity difference, a brightness difference, or an image quality difference of the images reproduced on the projection planes 300 The image projected by the two or more projection apparatuses 200 can be corrected. That is, the image management apparatus 100 may analyze how the images projected on the plurality of projection planes 300 are relatively distorted, and correct the image in a direction that cancels the analyzed distortion difference.

The two or more projection apparatuses 200 project a test image for characterization onto the plurality of projection planes 300 considering the relative chromaticity difference of the images projected on the projection planes 300. Here, it is preferable that all the test images projected by each projection apparatus 200 are the same image, and it is preferable that the projection of the test images be performed before the view of the audience. Next, the image management apparatus 100 receives the images of the images of the respective projection planes from the two or more image capture apparatuses, analyzes the received images, and acquires chromaticity information of the respective projection plane images. When chromaticity information of each projection plane image is obtained, the image management apparatus 100 calculates chrominance difference information between projection plane images. Specifically, after setting one reference projection plane image, Thereby calculating chromaticity difference information. For example, in the case of "A projection surface image, the chromaticity level of R (red) is higher by 10 levels, the chromaticity level of G (green) is higher by 20 levels, and the chromaticity level of B (blue) Quot; low ", the relative chromaticity difference information is calculated. After the chromaticity difference information of each projection surface image is calculated, the image management apparatus 100 corrects the image to be actually displayed (not the test image) by using the calculated information. For example, The chromaticity of the image projected on the slope is lowered by 10 levels, G is lowered by 20 levels, and B is raised by 30 levels. Therefore, since the difference in chromaticity distortion between the projection surface images is canceled by the image correction, the sense of heterogeneity generated between the projection surface images can be eliminated.

The two or more projection apparatuses 200 project a test image for characterization onto the plurality of projection surfaces 300 in consideration of the relative brightness difference of the images projected on the projection surfaces 300. Here, it is preferable that all of the test images projected by each projection apparatus 200 are the same image. It is preferable that the projection of the test images be performed prior to the screening of the audience. Next, the image management apparatus 100 receives the images of the images of the respective projection planes from the two or more image capture apparatuses, analyzes the received images, and obtains brightness information of the respective projection plane images. When the brightness information of each projection surface image is obtained, the image management apparatus 100 calculates brightness difference information between the projection surface images. Specifically, after setting one reference projection surface image, And calculates brightness difference information. For example, the relative brightness difference information is calculated in the same manner as "A projection plane image is 40nit brighter than reference projection plane image, and B projection plane image is 30nit darker than reference projection plane image ". After the brightness difference information of each projection plane image is calculated, the image management device 100 uses the calculated information to correct the image to be actually displayed (not the test image). For example, The image projected on the B projection surface reduces the brightness to such an extent that the brightness difference of 40 nit is canceled and the brightness of the image projected on the B projection surface increases the brightness so as to cancel the brightness difference of 30 nit. Therefore, since the brightness (distortion) difference between the projection surface images is canceled by the image correction, the sense of heterogeneity generated between the projection surface images can be eliminated.

The two or more projection apparatuses 200 project a test image for characterization onto the plurality of projection surfaces 300 in consideration of the relative difference in image quality of the images projected on the projection surfaces 300. Here, it is preferable that all of the test images projected by each projection apparatus 200 are images having the same resolution. It is preferable that the projection of the test images be performed before the audience viewing of the screens. Next, the image management apparatus 100 receives the images of the images of the respective projection planes from the two or more image capture apparatuses and analyzes the received images to obtain image quality information of the respective projection plane images. Preferably, The size information of the unit pixel of the image projected on the projection surface is obtained. When image quality information of each projection plane image is obtained, the image management apparatus 100 calculates image quality difference information between projection plane images. Specifically, after setting one reference projection plane image, And calculates image quality difference information. For example, "the size of a unit pixel is twice as large as that of a reference projection plane image, and the size of a unit pixel is 1/3 times larger than that of a reference projection plane image in a B projection plane image" And calculates the difference information. After the image quality difference information of each projection surface image is calculated, the image management apparatus 100 corrects the image to be actually displayed (not the test image) by using the calculated information. For example, The resolution of the image to be projected on the B projection surface is reduced so that the size of the unit pixel is tripled and the resolution is decreased so that the size of the unit pixel is tripled. Therefore, since the difference in image quality (unit pixel size) between the projection surface images is canceled through image correction, the sense of heterogeneity generated between the projection surface images can be eliminated.

Meanwhile, in the above embodiments, when analyzing the characteristic difference (chromaticity difference, brightness difference, image quality difference, etc.) of the images projected on the plurality of projection surfaces, the relative difference value with respect to the characteristic of the reference projection surface And the images were compensated by considering these relative differences. However, the analysis method that can be performed by the present invention is not limited to the analysis method using the reference projection surface, and can be performed in various ways. For example, in the present invention, a representative value (average value, median value, mode value, etc.) is calculated for characteristic values (color, brightness, distance, etc.) of images projected on the plurality of projection surfaces, , And it is also possible to correct the images using the characteristic difference information thus analyzed.

Meanwhile, the image management apparatus 100 may simultaneously apply the image correction methods of the two schemes described above to correct the image. Specifically, a one-step correction may be performed in consideration of a difference in characteristics of the projection surfaces 300 themselves, and a two-step correction may be performed in consideration of a characteristic difference between images projected on the projection surfaces 300. However, In this case, a sense of unity between the images projected on the projection surfaces 300 can be further assured.

In addition, the image management apparatus 100 may correct an image in consideration of individual characteristic information of each projection surface 300. FIG. Specifically, the image management apparatus can correct an image in consideration of an individual structure, an area, a surface shape, and the like of each projection surface, and an image optimized for each projection surface can be generated through the image correction. For example, the image management apparatus may perform image warping correction or the like considering the individual structures of the projection surfaces, or may increase or decrease the resolution of the image in consideration of the individual areas of the projection surfaces have.

In addition, the image management apparatus 100 may be implemented by various electronic devices, and may be realized by one electronic device or various electronic devices may be interconnected. For example, the video management apparatus 100 may be implemented as a single server, or two or more servers may be interconnected. In addition, the video management apparatus 100 may be implemented in a form in which servers and other electronic devices are connected to each other, or may be realized through other computing devices than the server.

Referring to FIG. 3, the image management apparatus 100 includes a projection plane information management unit 110 for managing information on a difference in relative characteristics of projection planes, a projection plane information management unit 110 for projecting, on the basis of information managed by the projection plane information management unit, A storage unit 130 for storing information managed by the projection plane information management unit and images corrected by the image correction unit 130, a projection plane information management unit 130, And a control unit 140 for controlling the operation of the storage unit.

The projection plane information management unit 110 manages information on the relative difference in the characteristics of the projection planes 300. Specifically, the projection plane information management unit 110 receives information about the characteristics of each projection plane 300 from the two or more photographing apparatuses 400 or the two or more distance measuring apparatuses, analyzes the received information, And obtains and manages the relative difference information of the projection surfaces 300.

The image correcting unit 120 corrects images projected by each projection apparatus 200 using information managed by the projection surface information managing unit 110. [ Specifically, the image correction unit 120 receives information on the relative difference in the characteristics of the projection planes 300 from the projection plane information management unit 110, .

Since the projection plane information management unit 110 and the image correction unit 120 modularize the projection plane information management operation and the image correction operation of the image management apparatus 100 as described above, I briefly described it.

The storage unit 130 stores various information related to the operation of the image management apparatus 100 including information managed by the projection plane information management unit 110 and images corrected by the image correction unit 120 Is stored. The storage unit 130 may temporarily or permanently store such information, and may be implemented by various memory devices.

The control unit 140 controls various components of the image management apparatus 100 including the projection plane information management unit 110, the image correction unit 120 and the storage unit 130. The controller 140 may control various operations of the video management apparatus 100 and may be implemented by various computing devices.

Meanwhile, the plurality of projection surfaces 300 may be arranged so as not to be parallel to each other. If the conventional technique is to project an image only on a screen disposed on the front of the auditorium and the viewer to view the image reproduced on the two-dimensional screen or if the 3D technique is applied to the image reproduced on the plane, According to the present invention, a plurality of projection planes 300 are arranged in a three-dimensional manner so as not to be parallel to each other, so that even if a 3D technique or the like is not applied to the image itself, a plurality of projection planes 300 arranged three- Can be provided.

In addition, the plurality of projection surfaces 300 are preferably disposed in a manner to surround the audience seats in the auditorium. Accordingly, the audience can be perceived to be surrounded by the space created by the image through the unified sense image realized through the plurality of projection surfaces 300, thereby maximizing the three-dimensional feeling, immersion feeling, and virtual reality feeling .

In addition, the angle formed by the plurality of projection surfaces 300 is not limited to a specific angle, and may be arranged at various angles as long as the viewer can feel a three-dimensional effect.

In addition, the plurality of projection surfaces 300 may be disposed adjacent to each other or may be spaced apart from each other. In this case, however, it is preferable that the projection surfaces 300 are disposed so as to surround the viewer's seat.

4 is an embodiment in which the plurality of projection surfaces are disposed on the front face, the left side, and the right side with respect to the viewer's seat, and the drawings attached to FIG. 5 are views in which the plurality of projection surfaces face the front face, The right side, and the upper side. 6 is an embodiment in which the plurality of projection surfaces are disposed on the front surface, the left surface, the right surface, the upper surface, and the lower surface with respect to the viewer's seat.

Hereinafter, with reference to FIG. 7, an image correction method for multi-screen display according to an embodiment of the present invention will be described.

Referring to FIG. 7, an image correction method for multi-screening according to an embodiment of the present invention may include a step S10 of collecting characteristic information of a plurality of projection surfaces provided in a single screen, have.

Here, the characteristic information may be color information, brightness information, or image quality information of images projected on the projection surfaces.

In addition, the characteristic information may be color information, brightness information, distance, or reflectance information of the projection surfaces themselves.

After the step S10, the image management apparatus analyzes the relative difference in characteristics of the plurality of projection surfaces (S11).

After step S11, the image management apparatus corrects the image to be projected on each projection plane based on the analyzed information (S12).

Meanwhile, the correction management method may be stored in a recording medium readable by an electronic device after being implemented in the form of a program, or may be transmitted and received through a communication network. It can also be implemented in the form of a program and then temporarily or permanently stored within various electronic devices.

In addition, the image correction method according to the present invention can include substantially the same features as the image correction system according to the present invention, although the categories are different. Therefore, the above-described features relating to the image correction system can be easily applied to the image correction method invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, , Changes and additions should be considered to fall within the scope of the claims of this patent.

100: video management apparatus 110: projection plane information management unit
120: Image correction unit 130:
140: Control unit 200: Projection device
300: projection surface 400: photographing apparatus

Claims (9)

A plurality of projection surfaces provided in a single screening tube;
At least two projection devices for projecting images onto the plurality of projection surfaces; And
A video management device for correcting images projected by the at least two projection devices;
, ≪ / RTI &
The images, which are corrected by the image management apparatus,
After setting one reference projection plane image among the images projected on the plurality of projection faces,
A difference in chromaticity, a difference in brightness, or a difference in image quality between the set reference projection surface image and the remaining projection surface images,
And corrects the images in a direction to cancel the analyzed chromaticity difference, brightness difference, or image quality difference.
delete The method according to claim 1,
The video management apparatus includes:
And transmits the corrected image to each projection device.
delete The method according to claim 1,
A photographing device for photographing an image projected on the plurality of projection surfaces;
Further comprising:
Wherein the image management apparatus analyzes chromaticity difference, brightness difference, or image quality difference using the photographing apparatus.
The method according to claim 1,
The video management apparatus includes:
A projection surface information management unit for managing information on a difference in the relative characteristics of the projection surfaces; And
An image correcting unit for correcting an image projected by each projection apparatus on the basis of information managed by the projection surface information managing unit;
Wherein the image correction system comprises:
The method according to claim 1,
Wherein the plurality of projection surfaces are disposed so as not to be parallel to each other, and are arranged in a manner to surround an audience in an inside of an auditorium.
(a) setting one reference projection plane image among images projected on a plurality of projection planes by the image management apparatus;
(b) analyzing chromaticity difference, brightness difference, or image quality difference between the set reference projection surface image and the remaining projection surface images; And
(c) correcting images to be projected on each projection surface in a direction of canceling chromaticity difference, brightness difference, or image quality difference based on the analyzed information of the image management apparatus;
The image correction method comprising the steps of:
delete

Images