KR20090042496A

KR20090042496A - Museum operating system and the method thereof

Info

Publication number: KR20090042496A
Application number: KR1020070108280A
Authority: KR
Inventors: 김근수
Original assignee: (주) 살아있는미술관
Priority date: 2007-10-26
Filing date: 2007-10-26
Publication date: 2009-04-30
Also published as: WO2009054589A1

Abstract

The present invention relates to an art museum operation system, and more particularly, to provide an art gallery operation system capable of meeting dual needs of parents and children by controlling technologies such as holograms in a main server.

The museum operating system according to the present invention includes an input unit for receiving an input signal of a visitor, a database unit for storing predetermined image information, voice information, time information, and spatial information, and an image of the database unit when the input signal is transmitted. An image converter for converting information into a predetermined image, a voice converter for converting voice information of the database into a predetermined voice when the input signal is transmitted, and outputting information converted by the image converter and the voice converter. It is preferable to include an output unit, and a control unit for controlling to output a predetermined image and voice converted through the image conversion unit and the voice conversion unit according to the predetermined time and space information of the input signal or the database unit.

Description

Museum operating system and the method

The present invention relates to a museum operating system, and more particularly, to provide a museum operating system that can meet the dual needs of parents and children by controlling the production device using a technology such as hologram in the main server.

The museum collects cultural heritages such as paintings, sculptures and crafts and displays them for visitors' appreciation, enlightenment and research.

Such paintings, sculptures, and crafts are cultural heritages that represent human life, transformed from human life style and continuing continuity.

In addition, these works are a product of human's creative acts that are constantly changing according to the times, historical or social situations, and they also enrich human life.

Therefore, human beings have long since developed art museums around the collection and preservation of early collections, and now represent the most important cultural and artistic activities of human beings.

Meanwhile, today's advanced technologies, namely information and communication technologies, have led to the development of communication, which plays a central role in forming and expressing new cultures.

Furthermore, with these advanced technologies, art galleries also face the task of delivering the creativity and knowledge that are really needed for the future society by avoiding the simple memorization of past curators or a list of too difficult terms.

In this regard, Korean Patent Laid-Open Publication No. 2006-0094176 claims a method, a system, and a portable device for providing guide information and work information in real time.

According to an embodiment of the present disclosure, a method of providing guide information and work information in real time includes a first storage step of storing work information and guide information, transmitting the stored work information and guide information to a portable information provider. Sensing, by the portable information provider, identification information of the exhibition hall or identification information of the work, wherein the portable information provider guides the work information calculated by the identification information of the work and the identification information of the exhibition room or the identification information of the work. Outputting information, recording a history of a work or viewing time watched by the portable information provider, and a second storage step of analyzing and storing the recorded history.

Therefore, the present invention has a problem of simply delivering a description or information of a guide or curator to a portable device.

In other words, the exhibition behavior of the existing and uniform museums did not exactly satisfy the wishes of the current visitors, and a new museum operation system was needed.

In addition, according to the survey data of 'Korean cultural life indicators' of Korea Gallup, the children's age including elementary school students was the largest audience among the age distribution of art exhibition audiences, with 24.7% followed by 19.5% of parents.

Therefore, it is analyzed that the target audience of the theme exhibition has a plural market structure that includes parents who have children's decision-making rights.

In other words, as in the case of developed countries, the number of exhibitions is overtaking the number of performances in times of national income of over $ 20,000. In addition, the early education boom is expected to generate synergies, and the demands for the more mature exhibitions are expected to continue to increase.

In addition, it has to be structured to meet the dual needs of different user groups (children and parents) so that high-quality content that meets the needs of parents can be delivered to children. In other words, it is urgently needed to develop an item that satisfies the needs of the parent / child who is the main audience and the children / children.

In order to solve the above problems, an object of the museum operating system according to the present invention is to provide a museum operating system that informs visitors of the works in a three-dimensional manner through various directing methods without conveying the description and information of the guide or curator.

In order to solve the above problems, an object of the museum operating system according to the present invention is to provide a museum operating system for producing works that can simultaneously satisfy the needs of the parent / child floor of the main viewing floor and children.

In order to solve the above problems, an object of the museum operating system according to the present invention is to provide a museum operating system that can satisfy the intellectual curiosity of visitors through the image and detailed voice commentary such as hologram.

In order to solve the above problems, the museum operating system includes an input unit for receiving an input signal of a visitor, a database unit for storing predetermined image information, voice information, time information, and spatial information, and the input signal when the input signal is transmitted. An image converter converting the image information of the database into a predetermined image, a voice converter converting the voice information of the database into a predetermined voice when the input signal is transmitted, and converted from the image converter and the voice converter. It is preferable to include an output unit for outputting information, and a control unit for controlling to output a predetermined image and voice converted through the image conversion unit and the voice conversion unit according to the predetermined time and space information of the input signal or the database unit.

In order to solve the above problems, it is preferable that the exhibition format of the museum operating system is composed of one or more chapters representing the ancient, medieval and renaissance, the late renaissance and the sixteenth century, the seventeenth century, impressionism or new impressionism and modern times.

In order to solve the above problems, the image conversion unit of the museum operating system receives the image information of the database unit without the input signal and converts the image into a constant image, and the voice conversion unit receives the voice information of the database unit without the input signal and schedules the image. It is desirable to convert the voice.

In order to solve the above problems, it is preferable that the input unit of the museum operating system is connected to a sensor unit capable of detecting the approach of the visitor to detect the visitor.

In order to solve the above problems, the input unit of the museum operating system is preferably a touch screen.

In order to solve the above problems, it is preferable that the output of the museum operating system is connected to a monitor or a projector.

In order to solve the above problems, the image conversion unit of the museum operating system, a hologram unit for forming a hologram using the image information stored in the database, and a 3D animation unit for forming a 3D animation using the image information stored in the database And a 2D image converting unit converting the 2D image to the 2D image using the image information stored in the database, and a diorama unit forming a diorama image using the image information stored in the database.

In order to solve the above problems, the museum operating system includes a first projector that emits light to receive an image of a predetermined visitor, a digital camcorder that receives an image of the viewer represented by the first projector, and a digital camcorder. An image conversion unit for receiving and analyzing the image and converting it into an image projected only in a predetermined space, and a second projector for illuminating the converted image is preferably configured.

In order to solve the above problems, the museum operating system includes a monitor that can be seen by the driver and a microphone that delivers the driver's voice, and receives the viewer's voice and the image from the input unit to project the image onto the monitor. The driver may receive the voice and the image of the monitor and transmit a predetermined voice and the predetermined image to the viewer through the microphone through the microphone.

In order to solve the above problems, a method of operating an art gallery using an art gallery operating system includes a step of a control unit receiving an input signal of a visitor through an input unit, and the control unit receiving the input signal and receiving a predetermined image through an image conversion unit. Converting the data into a predetermined image by receiving the information of the database unit and converting the predetermined voice into the predetermined image by the control unit receiving the input signal, or converting the predetermined voice by receiving the information of the database unit; And outputting the information converted by the image converter and the voice converter by the controller.

In order to solve the above problems, the method of operating the museum using the art museum operation system is composed of one or more chapters representing the ancient, medieval and renaissance, the late renaissance and the 16th century, the 17th century, impressionism or new impressionism and modern times. It is preferably a step.

In order to solve the above problems, a method of operating an art gallery using an art gallery operating system includes converting the image conversion unit into a predetermined image by receiving image information of the database unit without the input signal, and converting the voice conversion unit without the input signal. Preferably, the method further includes converting a predetermined voice by receiving the voice information of the database unit.

In order to solve the above problems, the method of operating the museum using the museum operating system, the input unit preferably further comprises the step of detecting the visitor's access.

In order to solve the above problems, a method of operating a museum using a museum operating system may further include the step of receiving a predetermined signal through the input unit through a touch screen.

In order to solve the above problems, the method of operating a museum using a museum operating system may further include outputting the output unit to a monitor or a projector.

In order to solve the above problems, a method of operating a museum using a museum operating system may include converting the image into a predetermined image, wherein the image converting unit forms a hologram using image information stored in the database, and the database. Forming a 3D animation using the image information stored in the database, converting the image into a 2D image using the image information stored in the database, and forming a diorama image using the image information stored in the database. It is preferred to be configured.

In order to solve the above problems, the step of converting the image into a predetermined image of the method of operating the art gallery using the art gallery operating system includes: illuminating a light to receive an image of a predetermined visitor; Preferably, the method includes receiving an image of a viewer, receiving an image of the digital camcorder, analyzing the image, converting the image into a projected image in a predetermined space, and illuminating the converted image to the viewer.

The museum operating system according to the present invention has the effect of informing the viewers of the artwork in three dimensions through various directing methods without conveying the commentary and information of the guide or curator.

According to the museum operating system according to the present invention, there is an effect that can produce works that can satisfy the needs of the parent / child of the main viewing floor / infant floor.

The museum operating system according to the present invention has the effect of satisfying the intellectual curiosity of the viewers through holographic image and detailed voice commentary.

Hereinafter, the configuration of the museum operating system according to the present invention will be described in detail with reference to FIGS. 1A and 2B.

Figure 1a is a view showing the overall configuration of the museum operating system according to the present invention.

1B is a view showing an image conversion unit of the museum operating system according to the present invention.

2 is a diagram illustrating a relationship between a main server, a sub server, and respective projectors of the museum operating system according to the present invention.

The present invention largely includes an input unit 12, a database unit 16, an image converter 13, a voice converter 14, an output unit 15 and a control unit 11. These devices are electrically connected to the reconstructed and reproduced works of the art gallery 20 according to the present invention.

The input unit 12 is an apparatus for receiving an input signal from a visitor.

The database unit 16 is a device for storing predetermined image information, voice information, time information, and spatial information.

The image information is information stored in the form of information having a predetermined format by secondarily processing a work exhibited in each chapter of the museum operating system according to the present invention, that is, by performing holograms or 2D imaging of famous paintings. Here, the hologram method may also use the prior art Korean Patent Publication No. 2007-0091537 "Hologram Recording Device" and Korean Publication No. 2007-0046826 "Hologram Screen Technology".

The voice information is voice information based on the image information, and is mainly information in which commentary about a painting is stored.

The time information is information that stores the time at which the image information and the voice information are produced, and under the control of the main server 10, the image information and the voice information are produced at a specific time or a continuous time according to the time information.

The space information is information storing a place or a location where the image information and the voice information are produced, and under the control of the main server 10, the image information and the voice information are produced at a specific place or location according to the space information.

The image converter 13 is a device that converts the image information of the database unit 16 into a predetermined image when the input signal is transmitted.

In addition, the image converter 13 receives the image information of the database unit 16 without the input signal and converts it into a predetermined image, and the voice converter 14 is the database unit 16 without the input signal. It is a device that can convert a certain voice by receiving the voice information of.

As shown in FIG. 1B, the image converter 13 includes a hologram unit 13-1, a 3D animation unit 13-2, a 2D image converter unit 13-3, and a diorama unit 13-4. do.

The hologram 13-1 is a device for forming a hologram using image information stored in the database unit 16.

The 3D animation unit 13-2 is a device for forming a 3D animation using image information stored in the database unit 16.

The 2D image converter 13-3 is a device for converting 2D images using image information stored in the database unit 16.

The diorama unit 13-4 is a device for forming a diorama image using image information stored in the database unit 16. The diorama includes a number of associated scenes using 2D or 3D over a constant background. That is, the diorama unit 13-4 may produce the diorama with the story under the control of the controller 11 and the 3D animation unit 13-2 and the 2D image converter 13-3. will be.

The voice converter 14 is a device for converting voice information of the database unit 16 into a predetermined voice when the input signal is transmitted.

The output unit 15 is an apparatus for outputting the information converted by the image converter 13 and the voice converter 14.

The controller 11 controls to output the predetermined image and the voice converted through the image converter 13 and the voice converter 14 according to the input signal or the predetermined time and space information of the database unit 16. Device.

As shown in FIG. 2, the present invention preferably connects each subserver 21, 22, 23, 24, 25 to the main server 10 in parallel. Accordingly, the subservers 21, 22, 23, 24, and 25 generate a predetermined image and the like under the control of the main server 10 and transmit the predetermined image to each projector to generate a constant image and sound.

In addition, the museum exhibition system according to the present invention is divided into five chapters, and each subserver 21, 22, 23, 24, and 25 has a configuration in which it is controlled. Therefore, according to various exhibition methods, the present invention can be composed of a plurality of sub-servers. That is, each subserver 21, 22, 23, 24, and 25 may independently control each chapter or a specific work without the control of the main server 10. This may be applied to the case of FIGS. 15, 16, 26, and the like described below.

In the present invention, as described above, in order to complete a museum exhibition system of a certain type, the configuration of the main server 10 and the five sub-servers 21, 22, 23, 24, and 25 is described as an embodiment. The feature of the present invention is not limited to the number of such servers.

Hereinafter, the method of using the system of the present invention shown in Figs. 1A, 2B and 2 will be described in detail.

3 to 41a, b show an embodiment using the system of the present invention, in which the first chapter is shown in FIGS. 5 to 9, the second chapter is shown in FIGS. 10 to 19, and the third chapter. 20 to 28, the fourth chapter is shown in Figs. 29 to 38, and the fifth chapter is shown in Figs. 39 to 41a, b.

3 and 4, the overall concept used in the system of the present invention will be described centering on the above chapters.

3 is a view showing that the museum operating system according to the present invention is divided into five chapters.

4 is a view showing that the museum operating system according to the present invention is divided into five chapters and spatially separated and displayed.

As shown in Fig. 3 and Fig. 4, the museum operating system according to the present invention includes five chapters, each chapter being organically connected to each other, and the chapters following one chapter mean a progression in time. do.

Here, the chapters are composed of the ancient, medieval + Renaissance, the late Renaissance + 16th century, the 17th century + impressionism, and the new impressionism + contemporary, but can be modified according to each concept of art exhibition.

In the open academy of FIG. 4, it is preferable to introduce Feldman's four-step analysis appreciation method among art appreciation methods.

Feldman's four-stage analysis appreciation is a way to convey the difficulty of viewing pictures to parents and children with ease and fun.

Feldman's four-stage appreciation of art is, firstly, the author's work in the 'description' stage, the materials and techniques used, and the things that are immediately visible rather than emotion, and second, the 'analysis' stage. Is to think about the overall texture and composition of the screen, the form, size, and texture of the work, and to think about the visual elements (color, texture, form, etc.) that appear in the work. , The intention of the artist, the background of production, etc. to interpret the meaning of the work and the background of the work to interpret the contents of the work. It is an appreciation method for judging the significance of private and the merits and lighting.

Feldman's four-step art appreciation method described above may be produced in an image or voice described below in a predetermined format under the control of the control unit 11 of the present invention.

Hereinafter, each chapter of the museum operating system according to the present invention will be described in detail with reference to FIGS. 5 to 41a and b.

5 to 9 correspond to the first chapter of the museum operating system according to the present invention, and show artworks for interpreting the ancient times as a concept of "why did you see this?"

5 is a view showing the restoration and reproduction works shown in the first chapter of the museum operating system according to the present invention.

As shown in Fig. 5, the restored work (a) is Gudea / Gudea, (b) the work name is Venendorf's Venus, (C) the artist's name is unknown, the work name is Hammurabi Code, (d) The author's name is Myron, the title is the discus thrower, (e) the title is the pond in the garden, (f) the papyrus is not the title, and (g) the name is the Altamira Cave Mural ( Cave painting of Altamira, the reproduction (h) is the name of Tutankhamen's hunting, and (i) is the lion attacking the cow.

The point of appreciation of these works is to understand the beginning of art history through the magical meaning contained in the painting and the planar expression method similar to the painting of a child.

Hereinafter, the works will be described to satisfy the dual needs of children and parents by the museum operating system according to the present invention.

6 is a view showing a tree in the picture grows in the first chapter of the museum operating system according to the present invention.

That is, FIG. 6 is directed to climb up the wall of the exhibition hall by transforming the shapes of the trees inside the table into a hologram in order to create the mysterious atmosphere of the exhibition hall in chapter 1 (100) of the museum operating system according to the present invention. To this end, Figure 7 shows the equipment for producing the tree-shaped hologram.

First, the assistant or curator guides the viewer toward the papyrus painting shown in FIG. 5 (f) to explain the meaning of the work. At a certain moment, the exhibition lights are turned off and the papyrus paintings glow. That is, when the input signal of the helper is received by the input unit 12 according to the present invention, the database unit 16 receives spatial information and the like so that the control unit 11 turns off the lighting of the exhibition hall and restores or reproduces the 2D image. Papyrus is to shine pictures or images.

After that, a person inside the papyrus moves and descends into the temple to recite the spell. That is, the controller 11 receives the image information and the voice information from the database unit 16 and outputs the person image and the order in the papyrus converted through the image converter 13 and the voice converter 14. Output through

Then, when the order is memorized, the mysterious music sounds through the voice conversion unit 14 in the pond in the garden in the exhibition hall, and the fish in the pond begins to live and move. After that, under the control of the control unit 11, the trees A1 in the picture move outward and cover the statues displayed everywhere. In addition, the surrounding statues reproduced as 3D images start to live through the image converting unit 13 under the control of the control unit 11, and when the original music and various animal sounds are heard, the wall on which the papyrus painting is hanged is divided. . Then, the virtual animals in the Altamira cave paintings run on the wall through the image conversion unit 13 under the control of the control unit 11. Therefore, the viewers leave the cave, feeling all the live animals and life at that time.

Figures 7a, b, c are views showing the exhibition equipment used in the first chapter of the museum operating system according to the present invention.

As shown in Figure 7a, b, c, the apparatus for creating a virtual pond of the museum operating system according to the present invention is largely composed of a virtual pond, a projector and a frame supporting it. When the viewer is located in the virtual pond 116 having a predetermined shape, a constant image is produced by the projector 115 attached to the predetermined frame 115f under the control of the main server 10. That is, the control unit 11 receives the signal of the viewer 111 through the input unit 12 and the hologram of the image conversion unit based on the predetermined image information, voice information, time information, and spatial information from the database unit 16. The virtual pond, which is the image information converted by the unit 13-1 and the voice conversion unit 14, is illuminated through the projector 115 as an output unit.

8 is a view showing another exhibition equipment used in the first chapter of the museum operating system according to the present invention.

As shown in Figure 8, the papyrus direction of the museum operating system according to the present invention is composed of a wall surface 126 and the projector 125 of the ceiling (125f) that can largely produce the papyrus. When the visitor 121 approaches a certain position, the papyrus image having a predetermined shape is produced by the projector 125 under the control of the main server 10. That is, the control unit 11 receives the access signal of the visitor 121 through the input unit 12, and converts an image based on predetermined image information, voice information, time information, and spatial information from the database unit 16. The papyrus, which is image information converted through the negative hologram 13-1 and the voice converter 14, is illuminated through the projector 125, which is the output unit 15.

9 is a view showing another exhibition equipment used in the first chapter of the museum operating system according to the present invention.

As shown in FIG. 9, the apparatus for producing Altamira cave murals of the museum operating system according to the present invention is composed of a cave-shaped direction wall surface and a projector 135 surrounded by a special ERP screen 132. When the visitor 131 'approaches the cave, the Altamira cave mural image of a predetermined shape is produced by the projector 135 under the control of the main server 10. That is, the control unit 11 receives the signal of the viewer 131 'through the input unit 12 and the image conversion unit based on the predetermined image information, voice information, time information, and spatial information from the database unit 16. The projector 13, which is an output unit, illuminates the cave shape, which is the image information converted by the hologram unit 13-1, the 3D animation unit 13-2, and the voice conversion unit 14 of (13).

10 to 19 show an art object corresponding to the second chapter of the museum operating system according to the present invention to interpret the medieval and Renaissance era as the concept of "the world of gods."

10 is a view showing the restoration and reproduction works shown in the second chapter of the museum operating system according to the present invention.

Restoration works include (a) Apollo Belvedere of Belvedere, (b) Nikkei of Samotraque, (c) Venus deMilo, and (d) Hermes.

In addition, (e) is the rosette of Chartres Cathedral, (f) is the artist's name Michelangelo Buonarroti, his work is the creation of the world, and (g) is the miracle of bread and fish.

(H) is the artist's name Michelan Jello, the work is the final judge, (i) the artist's name is Giotto, and the work is The Lamentation.

FIG. 11 is a view showing a 3D hologram animation of a certain work among the restorations shown in the second chapter of the museum operating system according to the present invention.

12 is a view showing the exhibition equipment used in the second chapter of the museum operating system according to the present invention.

As shown in Fig. 12, the apparatus for producing the real 3D hologram animation of Figs. 10 (a), (b), (c), and (d) of the museum operating system according to the present invention has a largely actual shape. The wall surface 218, the pillar 212, the hologram film 216, and the projector 215. When the visitor 211 approaches a certain position, under the control of the main server 10, the same image as that of the gods of a predetermined shape is produced in the projector 215. That is, referring to FIG. 12, the controller 11 receives a signal of the viewer 211 through the input unit 12, and the database unit 16 based on predetermined image information, voice information, time information, and spatial information. The projector 215, which is an output unit 15, outputs an image of a 3D-shaped scene, which is image information converted through the hologram unit 13-1, the 3D animation unit 13-2, and the voice converter unit 14, of the image converting unit. Through).

FIG. 13 is a view showing a three-dimensional object representing the Bible story in the pop-up used in the second chapter of the museum operating system according to the present invention.

Therefore, the museum operating system according to the present invention is controlled so that when the visitor approaches a certain position, the artwork representing the Bible story flows to (a) to (c) and pops up under the control of the main server.

FIG. 14 is a diagram illustrating a hologram that reacts with a picture by using shadows of spectators used in the second chapter of the museum operating system according to the present invention.

15 is a view showing another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

16 is a view showing another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

As shown in Figures 14 to 16, the apparatus for producing an interactive reaction animation of the museum operating system according to the present invention is a light source 225-1 for emitting a basic image or light and the information of the shadow generated by the light source After the image data processing unit 235 of the main server 10 analyzes and converts the image into a predetermined shape through the input signal switching unit 233, the projector 225-2 is configured to re-project a constant image. Looking in detail with reference to Figure 16, when the visitor approaches a certain position, under a control of the main server 10, a light of a certain intensity is projected on the visitor by the light source or the LCD projector 231, the visitor by this light The shadow of is received by the digital camera or camcorder 232 that can receive the shape and analyze the shape to project the mysterious appearance of a certain shape back to the projector 236 to the part other than the shadow of the viewer. That is, an image of a predetermined visitor is received through the first projector 231 illuminating light, and an image of the digital camera or camcorder 232 receiving the image of the visitor displayed by the first projector 231 is received. The final image converted by the image converting units 233 and 235 for converting the image to be projected in the space excluding the image area of the visitor is reflected on the visitor through the second projector 236. The projectors 231 and 236 are preferably devices that illuminate a constant light or illuminate a 2D image.

FIG. 17 is a diagram illustrating a dialogue with Michelangelo used in the second chapter of the museum operating system according to the present invention using a large special hologram.

FIG. 18 shows an original A4-2 of the hologram used in FIG.

19 is a view showing another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

As shown in Figs. 17 and 18, the apparatus for producing an interactive hologram of the museum operating system according to the present invention includes a wall surface A4-1 including a ceiling, a hologram film, and a projector. That is, as shown in FIG. 19, when the visitor approaches a certain position, an image A4 identical to the appearance of a famous artist of a certain shape is produced on the predetermined podium 247 under the control of the main server. Based on the constant dialogue data and diorama data stored in the database unit 16, the main server 10 explains how the famous artist A4, which is shaped as a hologram, performs a certain action, draws a picture to the viewers, and describes the contents of the work and the work. It can be done. That is, as shown in FIG. 19, the control unit 11 receives a signal of the viewer 241 through the input unit 12, and the database unit 16 receives predetermined image information, voice information, time information, and spatial information. Based on the diorama part 13-4, the 3D animation part 13-2, and the voice conversion part 14 of the image converting part 13, the famous artist image A4 shaped as 3D, which is image information converted by the image converting part 13, is used. It is reflected on the hologram film 246 through the projector 245 which is the output unit 15.

20 to 28 correspond to the third chapter of the museum operating system according to the present invention, and show artworks for interpreting the late Renaissance and the sixteenth-century era as a "world as seen from science".

20 is a view showing the restoration work and reproduction work shown in the third chapter of the museum operating system according to the present invention.

(A) is the name of the artist, Rafael Sanchio, Athens is the school, and (b) the name is Leonardo da Vinci, the name is The Last supper, and (c) the name is Hans. Holbein, his name is ambassadors, (d) is Jan van Aek, his name is Arnoldini's marriage, (e) his name is Leonardo da Vinci, his name is Mona Lisa, (f The name of the artist is Hobema and the title is Trail of middlehouse.

(G) is the artist's name, Velasquez and Las Meninas.

FIG. 21 is a diagram illustrating a diorama of a description of the arrangement and background of the characters in the painting in the work of the last supper shown in the third chapter of the museum operating system according to the present invention.

22 is a view showing another exhibition equipment used in the second chapter of the museum operating system according to the present invention shown in the third chapter of the museum operating system according to the present invention.

As shown in Fig. 21, the apparatus for producing the perspective hologram of the museum operating system according to the present invention comprises a floor screen, a hologram film, and a projector.

As shown in Fig. 22, when a visitor approaches a certain position, under the control of the main server, a predetermined shape (a, b, c) is projected onto the floor screen 317 by the projector 315, The main server 10 performs a certain action by the performer of the hologram-shaped work based on the constant dialogue data and diorama data stored in the database unit 16, that is, a new person appears in the A5 part and presents a picture to the viewer. It can be explained. That is, the control unit 11 receives the signal of the visitor 311 through the input unit 12, the database unit 16 based on the predetermined image information, voice information, time information, and spatial information based on the image conversion unit ( The projector 315, which is an output unit 15, outputs an image of a 3D-shaped work, which is image information converted by the diorama unit 13-4, the 3D animation unit 13-2, and the voice conversion unit 14 of FIG. Through).

FIG. 23 is a view showing the creation of a 2D image to show the truth in the picture in the third chapter of the museum operating system according to the present invention.

24 is a view showing the original work of FIG.

As shown in Figures 23 and 24, the apparatus for producing an image by changing the expression, the movement (A6), and the like of the characters in the masterpiece management system according to the present invention and the brightness and position of the light is different from the main server ( Under the control of 10), the light source device may be produced through a light source device (not shown) or a projector.

FIG. 25 is a view illustrating a visitor talking with a Mona Lisa of the 2D image to reveal the truth of the mysterious smile of the Mona Lisa shown in the third chapter of the museum operating system according to the present invention.

FIG. 26 is a view showing exhibition equipment used in the third chapter of the museum operating system according to the present invention. FIG.

As shown in FIGS. 25 and 26, when the visitor 311 approaches a certain position, the information is input through the input unit 315, and under the control of the main server, a work or character having a predetermined shape is displayed on the LCD screen. Projected, the constant data stored in the database of the main server or the PC 312 is output to the monitor, and the driver who recognizes it can talk to a certain audience (such as A7). That is, the controller 11 receives the viewer's voice through the input unit 12 and the 2D image converting unit 13-3 of the image converting unit 13 based on predetermined image information from the database unit 16. And the 2D-shaped image and voice converted by the voice conversion unit 14 through a monitor that can be seen by the driver and a microphone that delivers the driver's voice.

27 shows the illusion that the visitor 321 used in the third chapter of the museum operating system according to the present invention enters into a work using the perspective produced by the projector 325 under the control of the main server 10. Figure showing that.

28 is a view showing another exhibition equipment used in the third chapter of the museum operating system according to the present invention.

That is, as shown in Figures 27 and 28, under the control of the main server 10 of the museum operating system according to the present invention through the 3D animation unit 13-2, a constant image and voice to the 3D image through the projector Projected to allow the viewer to create an illusion of entering the waterways, grading (patterns) and trees (326, 328, 329-1, 329-2, 329-3) in the works using perspective.

29 to 38 correspond to the fourth chapter of the museum operating system according to the present invention, and show artworks for interpreting the 17th century and the era of impressionism with the concept of "picture is a record".

29 is a view showing the restoration work and reproduction work shown in the fourth chapter of the museum operating system according to the present invention.

(A) is the name of the artist Delacroix, the name is Liberty Leading the People, (b) the name is Goya, and the name is May 1808. 3 days, (c) the artist's name is Monet, the work name is the saint lazare station, (d) the artist's name is Renoir, and the name is the ball at Moulin de Gallette at the Moulin de la Galette, (e) is a work on the Dutch Proverbs, (f) is the entrance to the Venetian Grand Canal and the Cathedral of Salute, and the author is Michele Marieskie.

(G) is a girl wearing a pearl necklace.

30 is a diagram illustrating the creation of a breathtaking situation in a documentary form by reproducing a masterpiece as a short animation image in the fourth chapter of the museum operating system according to the present invention.

31 is a view showing the original work of FIG.

32 is a view showing exhibition equipment used in the fourth chapter of the museum operating system according to the present invention.

As shown in FIGS. 30 to 32, a constant image and a voice are transmitted through the projector 415 through the 2D animation unit 13-3 under the control of the main server 10 of the museum operating system according to the present invention. The projection screen 412 is projected to allow the visitor 411 to reproduce the famous painting as a short animation image so that the present situation can be seen in a documentary form.

33A and 33B are views showing 2D images reconstructed by a rendering technique mobilizing the five senses of visitors in order to show the world outside the frame in the fourth chapter of the museum operating system according to the present invention.

34 is a view showing another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention.

As shown in FIGS. 33A, 34B and 34, a certain image flows (a, b, c) through the 2D animation unit 13-3 under the control of the main server 10 of the museum operating system according to the present invention. And the voice is projected as a 2D image through the projector 425 to mobilize the five senses of the audience to enjoy the work. That is, the visitor 421 may feel that the 422 part of the picture 423, 423 'is extended to the 422', and the part which is not seen is visible through the five senses by using the voice or the image.

35 is a view showing that when a viewer touches a picture made of a Dutch proverb in the fourth chapter of the museum operating system according to the present invention, an image associated with each of them appears.

36 is a view showing another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention.

35 and 36, under the control of the main server 10 of the museum operating system according to the present invention, the constant image and the voice are supported by the constant frame 433 through the 2D animation unit 13-3. Projected as a 2D image through the monitors 432 and 439, the viewer 431 can touch any one of the a, b, c portion to see the image associated with each.

37A and 37B are views and originals for showing a camera obscura in the fourth chapter of the museum operating system according to the present invention.

38 is a view showing another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention.

As shown in FIGS. 37A, 38B and 38, under the control of the main server 10 of the museum operating system according to the present invention, the constant image B1, B2, etc. are projected through the 3D animation unit 13-2. 445 is projected onto the hologram screen 446 as an Obscura 3D image 449 to allow the viewer 441 to enter the Obscura cube 445f so that the helper can show the camera obscura technique on the canvas 447.

39 to 41a and b correspond to the fifth chapter of the museum operating system according to the present invention, and show an art work for interpreting the concept of "new art" and the modern age as "thinking art."

39 is a view showing the restoration shown in the fifth chapter of the museum operating system according to the present invention.

(A) is the Picasso, the Les Demoiselles d'Avignon, (b) is the Tree series, and (c) is the artist's name. Kandinsky, his name is Impressoin III-concert, (d) his name is Van Gogh, and his name is Cafe Terrace at Night.

40 is a view showing a work that changes the picture according to the wavelength of sound in the fifth chapter of the museum operating system according to the present invention.

As shown in Figure 40, under the control of the main server 10 of the museum operating system according to the present invention through a voice converter 14 and the video 2D video converter 13-3, a constant image, etc. Show viewers how they change accordingly.

41A and 41B are views showing a work in which the background and the props in the picture are reproduced as they are in the fifth chapter of the museum operating system according to the present invention.

As shown in FIGS. 41a and b, under the control of the main server 10 of the museum operating system according to the present invention, a constant light source or the like is illuminated through the output unit 15 in the light of the background and the prop B2 in the picture. To show).

In addition, in the present invention, the fifth chapter may be applied to the production of the fifth chapter by applying a technique such as holograms used in the first to fourth chapters.

Hereinafter, the art museum operation method according to the present invention with reference to the drawings in detail.

42 is a flowchart showing a method of operating a museum according to the present invention.

First, as shown in FIG. 42, the controller receives an input signal of a visitor through the input unit (S100).

The control unit receives the input signal and converts the input signal into a predetermined image through the image converting unit, or receives information from the database unit and converts the predetermined signal into the predetermined image (S110).

Subsequently, the control unit receives the input signal and converts the predetermined signal into a predetermined voice through the voice conversion unit, or receives the information of the database unit to convert the predetermined voice (S120).

The controller outputs the information converted by the image converter and voice converter (S130).

Here, it is preferable that the steps consist of one or more chapters of the chapters representing the ancient, medieval and renaissance, the late renaissance and the sixteenth, seventeenth, impressionism, or the new impressionism and the modern.

In addition, the method of operating a museum according to the present invention, the image conversion unit receives the image information of the database unit without the input signal and converts it into a constant image, and the voice conversion unit receives the voice information of the database unit without the input signal and receives a predetermined voice It may further comprise the step of converting.

In addition, the method of operating a museum according to the present invention may further include the step of the input unit to detect the approach of the viewer.

In addition, the method of operating a museum according to the present invention may further include the step of receiving a predetermined signal through the input unit via a touch screen.

In addition, the museum operation method according to the invention may further comprise the step of outputting the output unit to a monitor or a projector.

In addition, the step of converting to a predetermined image of the method of operating the museum according to the present invention, the image conversion unit to form a hologram using the image information stored in the database, and the 3D animation using the image information stored in the database And forming a 2D image using the image information stored in the database, and forming a diorama image using the image information stored in the database.

In addition, the method of operating the art gallery according to the present invention may include converting the image into a predetermined image by illuminating a light to receive an image of a predetermined visitor, receiving an image of the visitor displayed by the first projector, and The method may include receiving and analyzing an image of the digital camcorder and converting the image into an image projected only in a predetermined space, and illuminating the converted image to a visitor by a second projector.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, changes, and modifications are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

Figure 1b is a view showing an image conversion unit of the museum operating system according to the present invention.

2 is a view showing a relationship between a main server and a sub-server and respective projectors of the museum operating system according to the present invention;

4 is a view showing that the museum operating system according to the present invention is divided into five chapters and displayed spatially separated.

5 is a view showing the restoration work and reproduction work shown in the first chapter of the museum operating system according to the present invention.

Figures 7a, b, c show exhibition equipment used in the first chapter of the art museum operating system according to the present invention;

8 shows another exhibition equipment used in the first chapter of the museum operating system according to the present invention.

9 shows another exhibition equipment used in the first chapter of the museum operating system according to the present invention.

10 is a view showing the restoration work and reproduction work shown in the second chapter of the museum operating system according to the present invention.

11 is a view showing a 3D hologram animation of a certain work of the restoration work shown in the second chapter of the museum operating system according to the present invention.

12 is a view showing exhibition equipment used in the second chapter of the museum operating system according to the present invention.

Figure 13 shows a three-dimensional object representing the pop-up Bible story used in the second chapter of the museum operating system according to the present invention.

FIG. 14 is a diagram showing a hologram for producing a reaction with a picture by using a shadow of a spectator used in a second chapter of a museum operating system according to the present invention; FIG.

Figure 15 shows another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

Figure 16 shows another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

FIG. 17 is a diagram illustrating directing a dialogue with Michelangelo used in the second chapter of the museum operating system according to the present invention using a large special hologram. FIG.

FIG. 18 shows an original of the hologram used in FIG. 17; FIG.

19 shows another exhibition equipment used in the second chapter of the museum operating system according to the present invention.

FIG. 21 is a diagram showing a diorama for explaining the arrangement and background of the characters in the painting in the work of the last supper shown in the third chapter of the museum operating system according to the present invention. FIG.

Fig. 22 shows another exhibition equipment used in the second chapter of the museum operating system according to the present invention as shown in the third chapter of the museum operating system according to the present invention.

24 is a view showing the original work of FIG.

FIG. 25 is a view showing a visitor talking with the Mona Lisa of the 2D image to reveal the truth of the mysterious smile of the Mona Lisa shown in the third chapter of the museum operating system according to the present invention. FIG.

FIG. 26 is a view showing exhibition equipment used in the third chapter of the museum operating system according to the present invention; FIG.

FIG. 27 is a view showing that the viewer used in the third chapter of the museum operating system according to the present invention creates an illusion of entering the work using perspective. FIG.

Fig. 28 shows another exhibition equipment used in the third chapter of the museum operating system according to the present invention.

FIG. 30 is a diagram illustrating reproducing a masterpiece in a short animation image in a fourth chapter of a museum operating system according to the present invention to produce a documentary form of a situation that was at the time choked.

Figure 31 shows the original work of Figure 30;

32 is a view showing exhibition equipment used in the fourth chapter of the museum operating system according to the present invention;

Figures 33a, b is a view showing a 2D image reconstructed by the rendering technique mobilized by the five senses of the viewer in order to show the world outside the frame in the fourth chapter of the museum operating system according to the present invention.

34 shows another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention;

35 is a view showing that when a viewer touches a picture made of Dutch proverbs in the fourth chapter of the museum operating system according to the present invention, an image associated with each of them appears.

Figure 36 shows another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention.

37A and 37B show a camera obscura in a fourth chapter of the museum operating system according to the present invention;

FIG. 38 shows another exhibition equipment used in the fourth chapter of the museum operating system according to the present invention; FIG.

39 is a diagram showing a restoration shown in the fifth chapter of the museum operating system according to the present invention;

40 is a view showing a work of changing the picture according to the wavelength of sound in the fifth chapter of the museum operating system according to the present invention.

Figures 41a, b is a view showing a reproduction of the background and the props in the painting as it is in the fifth chapter of the museum operating system according to the present invention.

42 is a flowchart showing a method of operating an art gallery according to the present invention;

10: main server 11: control unit

12 input unit 13 image conversion unit

14: voice conversion unit 15: output unit

16: database part 21, 22, 23, 24, 25: subserver

13-1: hologram part 13-2: 3D animation part

13-3: 2D image converter 13-4: Diorama unit

Claims

In the museum management system,

An input unit for receiving an input signal;

A database unit for storing image information, voice information, time information, and spatial information;

An image converting unit converting the image information of the database unit into a predetermined image when the input signal is transmitted;

A voice converter configured to convert voice information of the database unit into a predetermined voice when the input signal is transmitted;

An output unit for outputting information converted by the image converter and the voice converter;

And a control unit which controls to output the predetermined image and sound converted through the image conversion unit and the voice conversion unit through the output unit according to the input signal or the predetermined time and space information of the database unit. .

The method of claim 1,

And the museum operating system comprises the database unit relating to one or more chapters of the chapters representing the ancient, medieval and renaissance, the late renaissance and the sixteenth, seventeenth, and impressionist or neo-impressive and modern.

The method of claim 1,

The image converting unit receives the image information of the database unit without the input signal and converts it into a predetermined image, and the voice converting unit receives the audio information of the database unit without the input signal and converts the predetermined voice. .

The method of claim 1,

The input unit,

Museum operating system, characterized in that connected to the sensor unit for detecting the visitor's approach can detect the visitor.

The method of claim 1,

The input unit,

Museum operating system, characterized in that the touch screen.

The method of claim 1,

The output unit,

Art museum operating system, which is connected to a monitor or projector.

The method of claim 1,

The image conversion unit,

A hologram unit forming a hologram using image information stored in the database;

A 3D animation unit for forming a 3D animation using image information stored in the database;

A 2D image converting unit converting the image information stored in the database into a 2D image;

A diorama unit for forming a diorama image using the image information stored in the database;

Museum operating system, characterized in that configured to include.

The method of claim 1,

Art museum operation system,

A first projector that shines light on an image of a spectator;

A digital camcorder receiving an image of a visitor displayed by the first projector;

An image conversion unit for receiving and analyzing the information of the digital camcorder and converting the image into an image projected only in a predetermined space;

A second projector projecting the converted image of the image conversion unit on the viewer;

Museum operating system, characterized in that configured to include.

The method of claim 1,

The museum operation system,

A monitor visible to the driver;

Including; a microphone for transmitting the voice of the driver;

Receiving the voice and image of the viewer from the input unit to project the image on the monitor, and a predetermined sound and the predetermined image through the microphone to deliver the predetermined image to the visitor operating system.

In the method of operating the museum using the museum operation system of claim 1,

Receiving, by the control unit, an input signal through the input unit;

Receiving, by the control unit, the input signal and converting the input signal into a predetermined image or receiving and receiving information from a database to convert the predetermined signal into a constant image;

Receiving, by the controller, the input signal and converting the predetermined signal into a predetermined voice or receiving the information of the database unit and converting the predetermined voice;

Outputting, by the controller, information converted by the image converter and the voice converter to an output unit;

Museum operating method comprising a.

The method of claim 10,

The above steps are performed through a database including information on one or more of the chapters representing the ancient, medieval and renaissance, the late renaissance and the sixteenth, seventeenth, and impressionist or neo-impressionist and modern. .

The method of claim 10,

And converting, by the image converting unit, the image information of the database unit without the input signal and converting the image into a predetermined image, and converting the predetermined voice by receiving the voice information of the database unit without the input signal. How to operate an art museum.

The method of claim 10,

The input unit further comprises the step of sensing the approach of the visitor.

The method of claim 10,

And the input unit receives a predetermined signal through a touch screen.

The method of claim 10,

And outputting the output unit to a monitor or a projector.

The method of claim 10,

Converting to a certain image,

Forming a hologram using the image information stored in the database by the image conversion unit;

Forming a 3D animation using image information stored in the database;

Converting the image information stored in the database into a 2D image;

Forming a diorama image using the image information stored in the database;

Art museum operation method characterized in that configured to include.

The method of claim 10,

Converting to a certain image,

Illuminating light to receive an image of a predetermined visitor;

Receiving an image of a visitor represented by the first projector;

Receiving and analyzing an image of the digital camcorder and converting the image into an image projected only in a predetermined space;

Illuminating the converted image to a viewer through a second projector;

Art museum operation method characterized in that configured to include.