KR101384205B1 - method for simulating virtual space - Google Patents

Abstract

The present invention relates to a virtual space simulation method, and in particular, even in the web and mobile environment can look around the virtual space as a whole, by replacing and placing various 3D objects with respect to the changes in the virtual space, the entire virtual space and specific parts The present invention relates to a virtual space simulation method for enabling a batch simulation for a.
The constituent means of the virtual space simulation method according to the present invention include the steps of: modeling a cube in which a perspective-scale image is partially mapped to a cube; Modeling the changed parts of the virtual space as a 3D object and arranging the cube cube around the cube; And simulating to look around the virtual space as a whole through a camera disposed inside the cube cube.

Description

Method for simulating virtual space

The present invention relates to a virtual space simulation method, and in particular, even in the web and mobile environment can look around the virtual space as a whole, by replacing and placing various 3D objects with respect to the changes in the virtual space, the entire virtual space and specific parts The present invention relates to a virtual space simulation method for enabling a batch simulation for a.

Construction finishing materials companies such as wallpaper makers, flooring makers and tile makers at home and abroad are operating self-coordination zones for product introduction on their homepages. After choosing a space such as a living room or kitchen, choosing wallpaper, flooring, and tile products helps consumers find the desired mood or feeling through the Internet before actual construction.

However, because the conventional method is implemented with a flash technology that cannot look around, the viewing angle is tight, the atmosphere of the entire space cannot be confirmed, and the enlargement and reduction are not supported, so detailed patterns or features of the entire space or a specific product are not supported. Can't look at it.

In addition, many companies in Korea are unable to provide mobile services because Flash technology cannot be used in mobile products.

Alternatively, the service used to promote its products on the homepages of building and exterior building companies is made with flash, which is composed of two images, one for shadow processing and one for finishing materials. It is possible to see the appearance after construction by replacing the finishing materials image while leaving the image as it is, but it is not possible to judge whether the replaced finishing materials match the surroundings because part of the interior space is replaced in the fixed screen. Not only can you zoom in and out, but Apple's mobile devices that don't support Flash technology can't take advantage of the service.

The present invention was devised to solve the above problems of the prior art, and can look around the virtual space as a whole in the web and mobile environment, and by replacing and placing various 3D objects with respect to the portion of the virtual space changes, It is an object of the present invention to provide a virtual space simulation method that enables a batch simulation of an entire virtual space and a specific part thereof.

The constituent means of the virtual space simulation method of the present invention proposed to solve the above problems comprises the steps of: modeling a cube in which a perspective-scale image is partially mapped to a perspective view; Modeling the changed parts of the virtual space as a 3D object and arranging the cube cube around the cube; And simulating to look around the virtual space as a whole through a camera disposed inside the cube cube.

Here, the perspective contract image is characterized in that the panoramic image corresponding to the portion of the virtual space does not change.

In addition, the part with the change modeled as the 3D object is characterized in that it is set around the cube cube according to a predetermined rule.

In addition, the plurality of 3D objects for the portion with the change is characterized in that each is modeled and stored in the library.

In addition, the virtual space may be displayed rotated 360 degrees at a specific point through the camera, and may be displayed enlarged and reduced.

Here, the virtual space corresponds to an indoor / outdoor space that can be produced in CG, and the changed part is managed by a library as a part formed of an object that can be produced in 3D and an image that can be expressed in 2D.

According to the virtual space simulation method of the present invention having the above-described problems and solutions, it is possible to look around the virtual space as a whole in the web and mobile environment, and by replacing and placing various 3D objects with respect to the changed part in the virtual space, This has the advantage of enabling placement simulation for the entire virtual space and for specific parts.

In addition, by using a 3D engine that supports mobile devices by placing cube cubes and 3D objects according to a predetermined rule, the problem of capacity and memory usage is solved, and there is an advantage that can be used in mobile devices as well as the Internet.

1 is a procedure for implementing a virtual space simulation method according to an embodiment of the present invention.
2 is a plan view of a configuration for implementing a virtual space simulation method according to an embodiment of the present invention.
3 is a perspective view of a cube cube for implementing a virtual space simulation method according to an embodiment of the present invention.
4 is a perspective view of a 3D object arranged around a cube cube for implementing a virtual space simulation method according to an exemplary embodiment of the present invention.
5 is a perspective view of a camera arranged inside a cube to implement a virtual space simulation method according to an embodiment of the present invention.
6 is an image of a 3D object viewed through a camera for implementing a virtual space simulation method according to an embodiment of the present invention.
7 is an image showing a simulation process for a 3D object for implementing a virtual space simulation method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a virtual space simulation method of the present invention having the above problems, solutions and effects.

It is to be understood that the terminology or words used herein are not to be construed in an ordinary sense or a dictionary, and that the inventor can properly define the concept of a term to describe its invention in the best possible way And should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

1 is a process diagram for implementing a virtual space simulation method according to an embodiment of the present invention, Figure 2 is a plan view of a configuration for implementing a virtual space simulation method according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, in order to implement the virtual space simulation method, a cube cube is first modeled (S10). In addition, a perspective mapping image is partially mapped to the modeled cube (S20). In detail, first, a cube cube is modeled with a partially mapped perspective view.

The cube cube is adopted to effectively implement a part in the virtual space where there is no change, that is, a background that does not require simulation. Thus, after modeling the cube in 3D fabrication software, it forms a panoramic image only for the background without the change, and then partially maps the cube cube.

Specifically, as illustrated in FIG. 2, a cube cube having a camera installed therein is modeled, and the panoramic image is not mapped to all surfaces of the cube cube, but a background without change, that is, simulation is required. Only the missing part is mapped to the panorama image.

2, in the top view of a cube cube, a part of the surface of a cube cube is shown by the solid line, and the remainder is shown by the dotted line. Here, the portion indicated by the solid line corresponds to the panoramic image partially mapped to the cube cube. This panoramic image corresponds to the background of the virtual space which does not change. That is, the perspective subcontracting image is a panoramic image corresponding to a part of which there is no change in the virtual space, and corresponds to a panoramic image of a background that does not require simulation in the virtual space.

As will be described later, a portion (shown with a dotted line) having no panoramic image partially mapped to the cube cube allows the 3D object to be viewed through the camera. Specifically, the 3D object for the portion that needs to be simulated, that is, the portion of the virtual space where the change is made, may be viewed by a camera disposed inside the cube cube.

As described above, after the cube cube in which the perspective painting image is partially mapped is modeled, the changed parts of the virtual space are modeled as 3D objects (S30). Then, the modeled 3D objects are placed around the cube (S40).

Since the changed parts of the virtual space correspond to a background requiring simulation, the 3D object is separately modeled and set around the cube.

Here, the parts with the changed contents modeled as the 3D object are not arbitrarily disposed around the cube cube, but are set around the cube cube according to a predetermined rule.

Specifically, as shown in FIG. 2, the 3D object is set at a position that can be viewed through a camera disposed inside the cube cube. That is, the 3D object is disposed at a position that can be viewed by the camera through a portion where the panoramic image partially mapped to the cube is not mapped.

As a result, as shown in FIG. 2, the panoramic image is partially mapped to the cube cube, and the 3D object is placed around the cube cube so that the 3D object can be viewed through the camera through the portion where the panoramic image is not mapped. By doing so, the contents of the cube cube mapped to the panoramic image and the 3D object arranged around the cube cube are composed of one perfect virtual space, and the virtual space thus constructed can be viewed through the camera.

As described above, the virtual space may be perfectly viewed through the camera disposed inside the cube cube by arranging the 3D object at a predetermined position around the cube cube in which the panoramic image is partially mapped.

Thereafter, a simulation process may be performed to look around the virtual space as a whole through a camera disposed inside the cube (S50). Of course, the simulation process can be performed even for a specific background.

The parts with changes are each modeled as 3D objects, stored in a library, placed around the cube cube as needed, and can be changed. That is, a plurality of 3D objects for the part having the change corresponding to the part required for the simulation are modeled and stored in the library. Therefore, the 3D object stored in the library may be applied to a portion of the virtual space in which changes are made, and simulation may be performed with various backgrounds.

Through the camera disposed inside the cube cube, it is possible to look around the virtual space as a whole, and to perform the simulation with various backgrounds on the part having the changed contents. Therefore, the virtual space may be displayed rotated 360 degrees at a specific point through the camera. That is, by rotating the camera 360 degrees inside the cube cube, it is possible to look around the virtual space as a whole. In addition, the virtual space may be displayed enlarged and reduced according to the operation of the camera. Therefore, the specific part, the background, etc. of the virtual space may be viewed in detail, or the virtual space may be viewed as a whole.

The virtual space simulation method described above may be applied to various fields. For example, the virtual space may be an interior space in which the interior is decorated. In addition, a portion having the change, that is, a portion requiring simulation, may be a portion where the interior finish is disposed. Therefore, by simulating the process of changing the specific portion of the interior of the interior space to a variety of finishing materials, it is possible to promote the finishing material itself or interior products or interior space.

The process for implementing the virtual space simulation method described above will be described in more detail through an image as follows.

First, as shown in FIG. 3, a cube cube is modeled, and a panoramic image is mapped to a background that does not require simulation, that is, a part without content change.

Then, as shown in Figure 4, the part that needs to be simulated, that is, the background with the content change is modeled as a 3D object and placed around the cube cube. The 3D object is arranged around the cube, but is arranged according to a predetermined rule.

Then, as illustrated in FIG. 5, the 3D object disposed around the cube cube may be viewed as a whole through the camera disposed inside the cube cube. In fact, as shown in FIG. 6, the screen viewed through the camera generally shows a background with a content change modeled as the 3D object.

In this state, the background represented by the 3D object viewed through the camera can be simulated. That is, as illustrated in FIG. 7, a simulation process of changing the color of the bookshelf to another color among the backgrounds represented by the 3D object may be performed.

In other words, it is possible to check the overall atmosphere of the interior space by changing and replacing the interior design with various patterns, colors, materials, etc., which can promote the interior interior space, interior products, and finishing materials regardless of time and place. Make sure

Most construction finishing materials companies, such as domestic wallpaper companies, flooring companies, and tile companies, operate a self-coordination zone for product introduction on their homepage. After choosing a space such as living room and kitchen, choosing wallpaper, flooring, and tile products helps consumers find the desired mood or feeling through the Internet before actual construction.

However, because it is implemented with a flash technology that cannot look around, the viewing angle is tight, the atmosphere of the entire space cannot be divided, and the enlargement and reduction are not supported, so the detailed patterns or features of the product cannot be examined. In addition, many companies in Korea are unable to provide mobile services because Flash technology cannot be used in mobile products.

However, according to the present invention, the virtual construction of the product can be freely viewed on the Internet and mobile while maintaining high quality, and through the expansion and contraction to grasp the quality and characteristics of the product clearly to help in purchasing the product.

In the present invention, since various simulations required by the related art cannot be implemented by conventional panorama technology alone, after modeling a cube of cube in 3D production software, only a portion where there is no change is partially mapped to the cube cube as a panoramic image, The parts corresponding to the changes are modeled directly as 3D objects and set according to the rules around the cube cube.

After installing the camera inside the cube cube, if you look at the scene through the installed camera, you can see a perfect space.You can not only maintain the quality but also the capacity and speed by mapping the perspective image to the cube. In addition, the burden on the memory processing part has been remarkably improved. Through the prepared library, the parts that need to change various finishing materials can be simulated by 3D objects, and the detailed quality of the changed product can be confirmed by zooming in and out. To provide the functionality. In addition, since it does not use flash technology, it can be freely displayed on the Internet and mobile regardless of the manufacturer and the operating system.

The service used to promote the company's products on the homepage of building / exterior building companies is made with flash, which is composed of two images for processing shadows and two for processing finishing materials. It replaces the image of the finishing material so that you can see the appearance after the construction.However, since part of the interior space is replaced on a fixed screen, it is impossible to judge whether the finished material matches the surroundings. Not only could Apple do it, but Apple's mobile devices that don't support Flash technology couldn't take advantage of the service.

The present invention is a remarkable improvement of the limited expression and limitations of the conventional technology, so that the panorama of the existing service, which was a fixed screen, can be freely explored around 360 degrees through a camera installed inside a cube of a cube. By using the 3D engine that supports the mobile device, the cube and 3D objects of the cube are arranged according to the prescribed rules to solve the problem of capacity and memory usage.

First of all, it should be noted that the present invention implements high-definition content in a panoramic state so that it can be simulated on a mobile device. In the 21st century, a mobile device that is carried without having to find a desk or a PC room in order to use the Internet is no longer available. It is a reality that no one can deny that it is possible to provide information as well as to produce / manage information anytime and anywhere. The mobile device that anyone is carrying has the portability, speed, and convenience of information, so the present invention can select the wallpaper I want anytime, anywhere, the flooring material, and the contents through the mail or SNS. You can create a world that you can receive and share with others around you.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Is also within the scope of protection of the present invention.

Claims (6)

In the virtual space simulation method,
Modeling a cube cube in which a panorama image corresponding to a portion requiring no simulation is partially mapped to a virtual space;
Modeling portions of the virtual space that need to be simulated as 3D objects and placing them around the cube cube;
And simulating the virtual space as a whole through a camera disposed inside the cube cube.
delete The method according to claim 1,
And the parts requiring the simulation modeled as the 3D object are set around the cube cube according to a predetermined rule.
The method according to claim 1,
The virtual space simulation method, characterized in that a plurality of 3D objects for each of the parts that need to be simulated are modeled and stored in a library.
The method according to claim 1,
The virtual space can be displayed rotated 360 degrees at a specific point through the camera, the virtual space simulation method characterized in that the display can be enlarged and reduced.
The method according to any one of claims 1 and 3 to 5,
The virtual space corresponds to an indoor / outdoor space that can be produced in CG, and the portion that requires the simulation is a portion formed of an object that can be produced in 3D and an image that can be expressed in 2D, and managed by a library.

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