KR20080085112A - Movable immersive virtual environment system - Google Patents

Abstract

A movable immersive virtual environment system is provided to enable construction technicians to examine information at a construction site by efficiently displaying various and a huge amount of information generated from the construction site, and easily applying to an environment, such as the construction site, having unstable and various harmful factors. A reception unit(100) is moved by a vehicle and has a predetermined inner space having a box shape, and a display unit(200) is installed to the reception unit and visualizes an immersive virtual environment. An image generator(300) is installed to the reception unit and generates various kinds of 2D(Dimensional)/3D images provided to a display unit. An air-conditioning unit(400) is installed to the reception unit, controls internal temperature/humidity of the reception unit, and purifies air of the reception unit. The display unit is installed to a plurality of inner walls of the reception unit. More than three reception units are combined to form one inner space.

Description

Movable Immersive Virtual Environment System

1 is a perspective view showing the appearance of a mobile immersive virtual environment providing system according to an embodiment of the present invention,

2 is a plan view showing the inside of the mobile immersive virtual environment providing system shown in FIG.

3 and 4 are perspective views illustrating a state in which one outer wall and a ceiling of the container are removed to explain an internal configuration of the mobile immersive virtual environment providing system shown in FIG. 1;

5 to 8 are perspective views illustrating a state in which two outer walls and a ceiling of a container are removed to explain variations of an internal configuration of the mobile immersive virtual environment providing system shown in FIG. 3;

9 is a perspective view showing the mobile immersive virtual environment providing system shown in FIG. 8 from another angle,

10 is a perspective view showing the appearance of a mobile immersive virtual environment providing system according to another embodiment of the present invention,

FIG. 11 is a plan view illustrating the inside of the mobile immersive virtual environment providing system shown in FIG. 10;

FIG. 12 is a perspective view illustrating a state in which one outer wall and a ceiling of a container are removed to explain an internal configuration of the mobile immersive virtual environment providing system shown in FIG. 10.

  ♠ Explanation of symbols on the main parts of the drawing ♠

100: container (accommodating means) 200: display means

300: image generating means 400: air conditioning means

The present invention relates to an immersive virtual environment providing system, and more particularly, to efficiently display various and vast information generated at the construction site, and a large number of construction engineers who participate in the construction project effectively review the information in construction. It helps to identify and improve the problems that may occur in advance, but can be easily applied to the environment of construction sites with various harmful factors, and it is easy to move and reinstall by changing the installation place as needed. Type virtual environment providing system.

Effective pre-construction review meetings are needed to reduce defects and rework due to design changes that are difficult to predict at the construction site. If visualization and pre-construction process simulation using virtual reality technology with realism can be performed in the field, efficient review and multilateral collaboration can be performed from the pre-construction stage to the actual completion stage.

However, the immersive virtual environment providing system to date has been developed based on a stable environment such as a laboratory, so it is difficult to apply in a harsh and changeable environment such as a construction site, and a large scale virtual reality system must be constructed for practical application. There is this.

Therefore, in order to improve the productivity of construction through efficient decision making, it is necessary to develop a multi-purpose virtual environment providing system applicable to the construction site. In other words, through the development of a virtual environment providing system that can be applied to the field office, virtualization for comprehensive expression and decision support of various data such as process simulation, resource management, technology policy and evaluation, collaboration between the field and the head office, and video conferencing Research on the construction conference system is needed.

Similar related arts have been developed by domestic and overseas research institutes for the development of high-resolution flat screens, but there are no examples of application to construction sites or technologies considering mobile systems.

Conventionally, in order to build a high-resolution immersive virtual environment providing system, a beam projection of a front projection or a rear projection method is generally used, and a method of increasing resolution by arranging visualization equipment of various channels in a grid form is used. Such a multi-channel visualization technique uses a multi-projection system, an edge blending technique, and the like. However, such systems have great limitations in their use in mobile systems due to the optical characteristics of the beam projection. In addition, multi-projection systems using multiple beam projectors must frequently correct the projection state of each projector according to the fixing method of the individual beam projectors. Since the star setting changes, it is difficult to use in a mobile system. In addition, when using a general beam projection system, a large space is required due to the projection distance according to the projection. It is therefore impossible to apply such conventional techniques to mobile systems.

The present invention overcomes the disadvantages of the prior art and can be easily applied in an environment that is unstable and has various harmful factors such as changes in temperature and humidity, vibration, inflow of dust, etc. The purpose is to provide a mobile immersive virtual environment providing system that can be changed and moved and reinstalled easily.

The mobile immersive virtual environment providing system according to the present invention should be able to provide an immersive virtual environment by combining a multi-channel high resolution immersive display system and an air conditioning system in a movable space, and requires a separate construction at the installation site. It should be easy to use simply by carrying and installing. In addition, the mobile immersive virtual environment should be able to be expanded as needed so that it can be quickly and variously applied to a variable environment or a frequently changing environment such as a construction site, and furthermore, the number of internal high resolution immersive display channels and configuration change This should be easy and the free configuration of the space should be possible.

The mobile immersive virtual environment providing system according to the present invention includes a receiving means capable of being transported to a vehicle and having a predetermined internal space, display means installed on the receiving means to visualize the immersive virtual environment, and installed on the receiving means. Image generating means for generating a variety of two-dimensional and three-dimensional images for providing to the means, and is provided in the receiving means characterized in that it comprises air conditioning means for controlling the internal temperature and humidity of the receiving means and purifying the air.

The accommodating means may be constituted by one container in the form of a box, or may be configured by bonding two container in the form of a box to have one internal space. In addition, three or more box-shaped containers may be joined to each other to have one internal space.

The display means may be arranged in a plurality of surfaces inside the container. In addition, the display means forms a closed space by a plurality of surfaces, it can be configured so that one side can be opened and closed around the edge of the other side to allow the user to enter and exit. Furthermore, the display means may be configured by stacking a plurality of display modules in a lattice form.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of a mobile immersive virtual environment providing system according to the present invention will be described in detail.

1 is a perspective view showing the appearance of a mobile immersive virtual environment providing system according to an embodiment of the present invention, Figure 2 is a plan view showing the inside of the mobile immersive virtual environment providing system shown in FIG. 3 and 4 are perspective views illustrating a state in which one outer wall and a ceiling of the container are removed to explain the internal configuration of the mobile immersive virtual environment providing system shown in FIG. 1.

1 to 4, the mobile immersive virtual environment providing system according to the present embodiment visualizes the container 100 (accommodating means) and a immersive virtual environment which can be transported to a vehicle and have a predetermined internal space. Display means 200 for controlling, image generating means 300 for generating various 2D and 3D images for providing to the display means 200, and controlling the internal temperature and humidity of the container 100 and The air conditioning means 400 is purified.

The container 100 forms an exterior of the mobile immersive virtual environment providing system according to this embodiment as shown in FIG. 1, and has a box-shaped exterior that can be transferred to a vehicle. More specifically, it has a container-type house shape that is easy to manufacture, transport and install. Inside the container 100, a display means 200, an image generating means 300, and an air conditioning means 400 for providing an immersive virtual environment are installed. The container 100 includes a door for the user's access, which can be applied by applying the general technology used in the general container-type house production method.

The display means 200 has three surfaces as shown in FIGS. 2 to 4 to provide an immersive environment to the user. However, the display means 200 may be configured to have various shapes and the number of surfaces depending on the configuration of the system in addition to the three surfaces.

In addition, the display means 200 minimizes the effects of vibration during movement and installation of the virtual environment providing system, and modular grid display for space utilization of the narrow container 100 compared to the conventional virtual environment. It can be configured as.

5 to 8 are perspective views illustrating a state in which two outer walls and a ceiling of the container are removed to explain variations of the internal configuration of the mobile immersive virtual environment providing system shown in FIG. 3, and FIG. The perspective view of the mobile immersive virtual environment providing system shown from another angle.

In FIG. 5, the display means 200 is configured using two surfaces, that is, the front surface 210 and the left surface 220. In this case, the front surface 210 constitutes a display unit with a total of six display modules 211 to 216. Each of these display modules 211 to 216 displays one image channel. The left side 220 also constitutes a display unit with a total of six display modules 221 to 226. Each of these display modules 221 to 226 displays one image channel.

The display modules 211 to 226 are all configured with the same type of display device, and are configured to be stacked in a lattice form. Each of the display modules 211 to 226 is configured as a lattice display device having almost no frame on the display surface so as to minimize the distance between the modules. In addition, each display module 211 to 226 projects the DLP (Digital Light Processing) projection display module or LCD (Liquid Crystal Display) projection module onto one screen, and integrates the screen and the projection system to form a hexagonal shape. It is possible to use the one produced in the form of a module that can be fixed to the frame of lamination in lattice form.

In addition, each display module 211 to 226 may use an LCD panel type display. In this case, the gap between each module can be minimized by minimizing the thickness of the outer frame located at the edge of the LCD panel, and can be manufactured and used in the form of one module that can be stacked in a lattice form.

When using a projection module, each module is fixed to a rigid frame so that it can be assembled without being affected by vibration. In addition, the optical system of the projection module to minimize the thickness of the module to use a small thickness system occupied by each module. By using such a projection module, using an LCD panel type module, or the like, all of them can be freely stacked and expanded in a lattice form as shown in the front side 210 and the left side 220 of FIG. Frame-type modules can be used.

In FIG. 6, the display means composed of two surfaces as shown in FIG. 5 was extended to the right surface 230 to constitute a total of three surfaces. The right side 230 of FIG. 6 includes six display modules 231 to 236 identical to the front side 210 and the left side 220.

In FIG. 7 to FIG. 9, the display means composed of three surfaces as shown in FIG. 6 was extended to the rear surface 240 to constitute a total of four surfaces. In this case, the rear surface 240 includes six display modules 241 to 246 that are the same as the front surface 210, the left surface 220, and the right surface 230. In this case, the rear surface 240 is manufactured to open and close about one edge of the left surface 220 or the right surface 230 so that the user enters and exits the inside of the display means to form a closed space.

The image generating means 300 of this embodiment generates an image for visualizing for each channel in each of the display modules 211 to 246 of the display means 200. The image generating means 300 is a function of individually expressing the image of each module as an independent image, the function of interlocking the image of each module to express a single image as a whole, and only a few modules to express and the rest It has the function to express the images individually. In addition, the image generating means 300 is configured to expand the number of image channels that can be generated according to the number of display modules constituting the display means 200.

The air conditioning means 400 of this embodiment is a container 100 of the container 100 so that the display means 200 and the image generating means 300 constituting the mobile immersive virtual environment providing system is not affected by temperature, humidity and dust in the air. It controls the internal environment.

The mobile immersive virtual environment providing system according to this embodiment can extend and use the container according to the conditions of the installation environment and the user's requirements.

10 is a perspective view showing the appearance of a mobile immersive virtual environment providing system according to another embodiment of the present invention, Figure 11 is a plan view showing the inside of the mobile immersive virtual environment providing system shown in FIG. 12 is a perspective view illustrating a state in which one outer wall and a ceiling of the container are removed to explain the internal configuration of the mobile immersive virtual environment providing system shown in FIG. 10.

As shown in Figure 10 to 12, the mobile immersive virtual environment providing system according to this embodiment constitutes an immersive virtual environment of the expanded form by joining two containers to have one internal space.

The mobile immersive virtual environment providing system according to this embodiment is composed of the accommodating means, the display means 200, the image generating means (300a, 300b) and the air conditioning means 400 in the same manner as the above embodiment.

The receiving means of this embodiment is composed of two containers (100a, 100b), these containers (100a, 100b) can be fastened to have one internal space by applying the technology used for assembling a general container-type house as it is. . In this case, the display unit 200 may be configured to include six display modules including the left side 220 and the right side 230, and the front side 210 may include 18 display modules. And the image generating means is composed of two image generating means (300a, 300b).

These embodiments described with reference to FIGS. 1 to 12 are for explaining the configuration and operation of the present invention, and are not intended to limit the configuration of the mobile immersive virtual environment providing system proposed by the present invention. It is for explaining the operation of the component. For example, the display module constituting the display means is composed of a total of six modules of the front surface 210 in FIGS. 2 to 9, but this is merely an example, which is composed of four modules or nine modules depending on the size of the display module. Various application configurations are possible such as configuration. In addition, according to the size of the virtual space it is possible to configure a larger space by using one container, or by connecting two or three or more containers to have one internal space.

Unlike the existing immersive virtual environment, the present invention can be quickly configured, can be moved using a container transport van, and can provide a mobile immersive virtual environment that can be easily transported and installed in various environments.

In addition, the present invention can be expanded as needed to easily change the number of channels and configuration of the high-resolution immersive display therein, and to expand the size of the virtual environment by expanding the container according to the size of the space, various variables It is possible to apply and adapt to the site quickly according to the change of installation conditions in the space with a variety of configurations according to the characteristics of the site.

In addition, the present invention, unlike the conventional immersive virtual environment presenting device is configured to be installed in a fixed indoor space based on a stable environment, such as a laboratory, it can be easily moved and installed in a harsh and variable environment, such as construction sites By effectively displaying various and vast information generated in the field, many technicians participating in the project can effectively review the information to identify and improve problems that may occur in the course of project execution. It can be used as information navigation and display.

Claims (7)

Receiving means that can be transported to the vehicle and has a predetermined internal space, Display means installed in the accommodation means to visualize an immersive virtual environment; Image generation means installed in the receiving means for generating a variety of two-dimensional and three-dimensional image for providing to the display means, and And an air-conditioning means installed in the accommodating means to control the internal temperature and humidity of the accommodating means and purify the air. The method according to claim 1, The receiving means is a mobile immersive virtual environment providing system, characterized in that the container of the box form. The method according to claim 2, The accommodating means is a mobile immersive virtual environment providing system, characterized in that by combining two box-shaped container to have one internal space. The method according to claim 2, The accommodating means is a mobile immersive virtual environment providing system, characterized in that the three or more containers in the form of a box formed by joining to have one interior space. The method according to any one of claims 2 to 4, The display means is a mobile immersive virtual environment providing system, characterized in that arranged in a plurality of surfaces inside the container. The method according to claim 5, The display means forms a closed space by the plurality of surfaces, the mobile immersive virtual environment providing system, characterized in that one side is configured to open and close around the edge of the other side to allow the user to enter and exit. The method according to claim 5, The display means is a mobile immersive virtual environment providing system, characterized in that configured by stacking a plurality of display modules in a grid form.

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