KR20150062420A - Display system for simulating inspection inside of real structure - Google Patents

Abstract

The present invention relates to a simulation image display system for inside structure to be explored in filed trip, the system capable of making people feel as if they visit in person and experience a real structure by simulating an internal viewing space of the real structure and, more specifically, to a simulation image display system which installs a screen in the shape of the inner wall and ceiling of the real structure to be watched and makes people enter the inner side of the screen as the real structure and simulates the internal viewing space of the real structure as an internal space by projecting an image which simulates the inner wall and ceiling of the structure onto the screen to watch. The simulation image display system for inside structure to be explored in field trip comprises a screen (10), a plurality of projectors (20), a switch (40), and a control device (30).

Description

TECHNICAL FIELD [0001] The present invention relates to a display system,

The present invention relates to an actual simulated image display system for displaying an actual inside structure of a real structure to be visited and experiencing the actual structure as if observing the actual structure by simulating the inside viewing space. More particularly, It is possible to view the inside wall of the structure and the ceiling by projecting the image on the screen so that the inside view space of the actual structure is simulated as the inside space of the screen. To a simulated image display system.

Structures that can be viewed by people, such as tombs, cave temple temples, general temples, palaces, etc., are limited to the entrance, so that only the public can see the inside of the entrance.

For example, Seokguram, which is a typical cave temple in Gyeongju, South Gyeongsang Province, is able to observe the inside through a window by blocking the entrance with a window to preserve the remains, so that only the front of the main fire can be seen from afar, Can not be seen at all, and the statues on the walls of all rooms close to the entrance can not be seen properly, and it is difficult to see the entire statue on the walls of the main room with the rain and the main beam leading to the all rooms. Moreover, the stone structure of Seokguram is also unique. Especially, the ceiling structure of the main room is also unique, so it is highly worthy to be seen.

Therefore, a separate auditorium or board is installed outside the restricted cultural property, and an internal image or an image is displayed together with explanatory data.

However, it is difficult to experience the cultural assets in an audiovisual room or exhibition room using an auditorium or a board, and there is a limitation that it is not possible to provide a variety of information due to a high facility cost.

On the other hand, a dome image hall is an auditorium that can display a panorama image of an image seen in an internal viewing space of an actual structure as exemplified in Japanese Patent Application Laid-Open No. 10-2007-0103347, have.

However, since the conventional dome image tube has a structure in which a screen is installed in the form of a dome, it differs from the structure of an actual structure, so that only the image that can be seen at any point inside the structure can be shown. That is, unless the inner wall surface of the actual structure is a circular curved surface, each surface can not be seen in detail. For example, Seokguram is composed of all rooms, a rainbow, and a main room. You can not show statues on each wall of Seokguam using a dome video hall.

KR 10-2007-0103347 A 2007.10.23.

Accordingly, an object of the present invention is to provide a simulation image display system inside a real observation structure simulating an inside view of an actual structure, showing an internal image of an actual structure, and simulating an actual structure.

In order to accomplish the above object, the present invention provides a simulation image display system in a real observation structure, comprising: a screen (10) formed into an inner wall surface and a ceiling shape of a structure that can actually be viewed and entered, The image of the inner surface of the actual structure corresponding to the assigned surface is projected on the surface allocated to the screen 10 on the outer side of the screen 10 to enter the screen 10, A plurality of projectors (20) for viewing by a spectator; A switch 40 provided for turning on / off the image projection operation; And a control device (30) for turning on / off the image projection operation of each projector (20) according to the operation of the switch (40).

The image projected onto the projector 20 includes a still image of an inner surface of an actual structure and a virtual structured moving image to form an inner surface of the actual structure. The switch 40 may include any one of a still image and a moving image And the control device (30) controls to project the image selected by the switch (40) to the projector (20).

The control unit 30 includes a selection switch 41 for selecting an angle, and the control unit 30 is connected to the selection switch 41 41) to the projector (20).

One of the selection switches 41 is provided for each of the projectors 20 on the inner side of the screen assigned to each projector 20 and the control device 30 is connected to the projector 20 corresponding to the selection switch 41, (20) so as to project a still image of a photographing angle selected by the camera (20).

The projector 20 is a stereoscopic image projector and the image projected to the projector 20 is a stereoscopic image.

In the present invention having the above-described structure, the screen 10 is installed in an inner wall surface and a ceiling shape of an actual structure, and an image corresponding to the inner surface of the actual structure is projected corresponding to each surface of the screen 10, You can experience it as you enter and see the actual structure.

In addition, since the moving image of the actual structure is projected on a screen simulating an actual structure, the present invention can be viewed as if the actual structure is realized.

Further, the present invention allows the interior surface images of an actual structure to be individually projected onto the divided surfaces of the screen by a plurality of images photographed at different photographing angles, so that the wall surfaces can be perceived stereoscopically, An angle selection switch is provided at the front to allow the spectator to adjust the angle of the projected image on the front side of the stand, so that a plurality of viewers can enter and enjoy each stereoscopic image.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a simulation display system in a real viewing structure according to an embodiment of the present invention; FIG.
FIG. 2 is an internal perspective view of an actual simulation structure internal simulation image display system according to an embodiment of the present invention; FIG.
3 is a configuration diagram of a simulation image display system inside a real observation structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view of an actual simulation structure internal simulation image display system according to an embodiment of the present invention, and FIG. 2 is a perspective view of the inside of the screen 10.

FIG. 3 is a block diagram of an actual simulation image display system in accordance with an embodiment of the present invention. FIG. 3 shows a projector and a selection switch in which screens are shown in a plan view and are arranged in accordance with a flat cross-sectional shape of the screen.

1 through 3, the system for displaying a simulation image of an inside of an actual observation structure according to an embodiment of the present invention includes a control device 30, ) Or by controlling the plurality of projectors 20 according to the operation of the selection switch 41 so that the image projected on the screen 10 can be viewed.

The screen 10 is formed and installed in the form of an inner wall surface and a ceiling surface of a structure to be actually observed. Here, the structure actually exists as an example of a tomb, a cave temple, a cultural property, a museum, etc., and is a facility that can be visited by visitors. The screen 10 illustrated in FIGS. The inner surface was shaped. Accordingly, a person who is inside the screen 10 can see a wall surface that is the same or similar to the inner wall surface and the ceiling of the actual structure, that is, the wall formed by the screen.

The screen 10 is a transmissive screen capable of projecting an image to a projector 20 provided outside and allowing an inside person to view the image, and is divided into a plurality of planes. Here, the partition is not divided so that it can be visually divided. For example, it means that the partition is divided by a corner or a surface of a size that can be projected by one projector. Accordingly, So that the image is projected on the entire surface of the screen 10 without any missing surface.

Referring to the screen 10 shown in Figs. 1 and 2, a screen formed into a wall and a ceiling of a front chamber in accordance with the structure of a seokguam consisting of a front chamber, a non-front porch and a main chamber, The screen and the screen shaped like the wall and ceiling of the main room are sequentially connected. Here, the shaping is as if the screen is attached to the inner surface of the actual structure.

Since the screen 10 is an inner surface of an actual structure, a supporting frame 50 for fixing the screen 10 is required. However, since the projector 20 is provided outside the screen 10, it is preferable to provide the support frame 50 so as not to cover the image projected by the projector 20 as much as possible.

For example, in the case of FIGS. 1 and 2, in the actual structure, there is no sculpture on the corner portion, so that a corner is formed on the corner, and in the cross section, the wall having a circular arc wall and a ceiling close to the dome shape, The support frame is installed along the part which is considered to be low, and then the screen is fixed to the support frame. At this time, since the support frame is a portion where the image is not projected when viewed from the inside of the screen 10, the support frame is formed in a shape that is visible from inside of the actual rocket door so that the inner surface of the support frame is exposed to the inside of the screen .

A plurality of projectors 20 are provided on each of the partitioned surfaces of the screen 10 so as to be allocated to each of the partitioned surfaces of the screen 10 and installed outside the screen 10 so as to project an image on the assigned partition surface.

According to the embodiment of the present invention, the image projected onto the projector 20 is divided into a still image viewed from the front side of the inner surface of the actual structure corresponding to the allocated partition surface, an inner surface of the actual structure corresponding to the allocated partition surface A plurality of still images viewed at different angles, and a moving image of a building process for forming the inner surface of the actual structure.

The still image (including a plurality of still images viewed at different angles) may be an image of the inner surface of the actual structure. A plurality of still images viewed at different angles can be obtained by photographing the inside of the actual structure at different angles of photographing. However, a still image (including a plurality of still images viewed at different angles) may be an image simulating the photographed image.

A video may be a video that is edited and edited internally. However, since it is difficult to take a video to obtain such a video, it is recommended to use a virtual video created by computer graphics. In particular, if the present invention is applied to tombs (ancient tumuli), cogwald temples, cultural properties, and the like, since the building process has been performed in the past, a virtual movie is used. It is assumed that moving images to be projected on the respective planes assigned to the respective projectors 20 are viewed from the inside to the front when the walls or ceilings of the actual structures corresponding to the assigned planes are built, Use video.

Meanwhile, the still image (including a plurality of still images viewed at different angles) and the moving image may be stereoscopic images. In other words, when the screen 10 is provided as the inner surface shape of the actual Seokgulam, which is illustrated in FIGS. 1 and 2, since the wall surface of the actual Seokgulam is sculpted three-dimensionally, . For this purpose, the projector 20 is configured as a stereoscopic image projector to project a stereoscopic image on the screen 10, and a spectator must wear stereoscopic glasses when entering the screen 10.

The still images and moving images are stored in the projector 20 divided and assigned to the divided allocation areas of the screen 10 and are projected under the control of the control device 30 or stored in the control device 30 From the control device 30 to the projector 20 so as to be projected.

The switch 40 is provided as a user operation means for turning on / off the image projection operation of the projectors 20 and selecting an image to be projected from each projector 20.

On / off is to turn all the projectors 20 on or off at the same time. The selection of the image is configured to select either the still image or the moving image.

According to the embodiment of the present invention, the plurality of still images viewed at different angles are provided with the selection switch 41 separately so that the angle can be selected. That is, the switch 40 is configured to select one of a still image and a moving image, and selects the angle with the selection switch 41 in a state where the still image is selected by the switch 40.

The selection switches 41 are provided on the inner side of the screen assigned to the projector 20 in a plurality of the number corresponding to the number of the projectors 20 one by one for each projector 20, So that the angle can be selected.

Accordingly, the administrator can project the image selected by the switch 40 on the still image and the moving image on the projector 20, and when the still image is selected, the still image viewed on the front is projected. At this time, ), The still image corresponding to the angle selected by the selection switch 41 is projected from the projector 20 corresponding to the selection switch 41 for which the angle selection operation has been performed, The image can be viewed differently.

The control device 30 turns on and off the image projection operation of each projector 20 in accordance with the operation of the switch 40 and controls the projector 20 to project the image selected by the switch 40 do.

The control device 30 controls the still image to be projected at a selected angle of the projector 20 corresponding to the selection switch 41 in which an angle selection operation has been performed among the plurality of selection switches 41, As shown in FIG.

The control device 30 synchronizes the moving picture projecting operation of the projector 20 when projecting and controlling the moving picture showing the building process in each of the projectors 20 so that the sequential building process of the actual structure is performed It creates a virtual situation inside the actual structure.

For example, when the screen 10 is formed on the inner wall surface and the ceiling shape of the Seokguram rock and the moving picture of the stone cauldron is projected, the wall of the tomb is stacked and the ceiling is laid on the wall. The wall-mounted image that is projected simultaneously is displayed prior to the ceiling-mounted image that is simultaneously projected to the projectors allocated with the partitioned ceiling.

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, . ≪ / RTI > Accordingly, such modifications are deemed to be within the scope of the present invention, and the scope of the present invention should be determined by the following claims.

10: Screen 20: Projector 30: Control device
40: switch 41: select switch

Claims (5)

A screen (10) formed in an inner wall surface and a ceiling shape of a structure that can actually be seen by the user, so that the spectator can enter;
The image of the inner surface of the actual structure corresponding to the assigned surface is projected on the surface allocated to the screen 10 on the outer side of the screen 10 to enter the screen 10, A plurality of projectors (20) for viewing by a spectator;
A switch 40 provided for turning on / off the image projection operation;
A control device (30) for turning on and off the image projection operation of each projector (20) according to the operation of the switch (40);
And displaying the image on the display unit. The method according to claim 1,
The image projected onto the projector 20 includes a still image of the inner surface of the actual structure and a virtual structured moving image to form the inner surface of the actual structure,
The switch 40 is configured to select either a still image or a moving image,
Wherein the controller (30) controls the switch (40) to project the selected image to the projector (20). 3. The method of claim 2,
Wherein the still image is composed of a plurality of still images having different angles of viewing the inner surface of the actual structure,
And a selection switch 41 for selecting an angle,
Wherein the control device (30) controls the projector (20) to project a still image having an angle selected by the selection switch (41) to the projector (20). The method of claim 3,
One of the selection switches 41 is provided for each projector 20 on the inner side of the screen assigned to each projector 20,
Characterized in that the control device (30) controls each projector (20) so as to project a still image of the selected photographing angle in the projector (20) corresponding to the selection switch (41) Internal simulated image display system. 5. The method of claim 4,
Wherein the projector (20) is a stereoscopic image projector and the image projected to the projector (20) is a stereoscopic image.

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