KR20220001476A - Spatial design coordinating system, method and program - Google Patents

Abstract

According to an embodiment of the present invention, a spatial design coordinating system includes: a design recommending unit which provides one or more recommended designs regarding spatial design according to inputs by a client; a customizing unit which provides an interface for customizing the recommended designs, and creates a request design which is a design customized according to the recommended designs and the client's inputs; and a professional matching unit which receives quotes for realizing the request design as an actual space from multiple professionals and provides the quotes to the client, and supports matching between professionals selected by the client and the client. Accordingly, the client without exhibition experience can conveniently prepare an exhibition.

Description

SPATIAL DESIGN COORDINATING SYSTEM, METHOD AND PROGRAM

TECHNICAL FIELD The present invention relates to space design, and more particularly, to techniques for coordinating space design.

Exhibitions are used as a strategic means to achieve corporate goals, as the perception of exhibitions in the past, which tried to meet with customers through exhibitions, demonstrations, and events, is transformed into an important marketing tool called exhibition marketing. many. It is not a stand-alone industrial exhibition, but a comprehensive exhibition and convention business that combines additional events such as exhibitions and conferences.

The exhibition booth refers to the basic space pre-installed in the exhibition hall. Exhibition booths can be classified in various ways according to materials and construction methods. For example, a system booth refers to an assembly system in which basic skeletons, walls, and lighting are commercialized. The materials are diverse, such as steel and aluminum, and the materials of the walls are also diverse, such as reinforced plastics and wood. However, it is unnatural to express the exhibition booth and it may be difficult to store and maintain the materials.

Woodworking booths are available in various designs and are used in relatively large exhibitions, but they are difficult to recycle. The mixed booth is a type of booth that combines the advantages of a recyclable and relatively easy-to-assemble steel system and a woodworking booth that allows for free expression, and is widely used at overseas exhibitions.

Small and medium-sized enterprises (SMEs) participating in the exhibition lack design competency compared to large enterprises, and most small and medium-sized enterprises (SMEs) are solving the business process related to booth design and construction of exhibitions by outsourcing.

When a participating company in the exhibition requests for a booth design, a company specializing in booth construction requests a design from a professional designer and provides a booth design that meets the needs of the requesting company. Until now, the requesting company has delivered information about booth design to the designer only through text or only an abstract concept, so there is a problem that the designer cannot accurately grasp the request of the client company.

In addition, a company's exhibition booth outsourcing is requested by a single freelance designer or a single construction company and the contents are provided. When a single freelance designer or design construction company is commissioned for production, the cost is high for a small and medium-sized business, and the design performance is low compared to the investment cost from the standpoint of a single freelance designer or construction company.

The problem to be solved by the present invention is to solve the problems of the prior art described above, and a client without exhibition experience can conveniently prepare an exhibition, and it is possible to provide a service at a reasonable design and construction cost, It is to provide a space design coordinating system, method and program that can provide one-stop service from preparation, exhibition operation, and booth dismantling.

According to an embodiment of the present invention, there is provided a design recommendation unit for providing one or more recommended designs related to a space design in response to an input from a client; a customization unit that provides an interface for customizing the recommended design and generates a customized request design based on the recommended design and the input of the client; and an expert matching unit that receives a cost estimate for implementing the requested design in an actual space from a plurality of experts, provides the cost estimate to the client, and supports matching between an expert selected by the client and the client A spatial design coordinating system may be provided.

In an embodiment, the design recommendation unit may include: a collection module configured to collect raw data images from one or more design sources; a classification module for extracting spatial design components from each of the plurality of raw data images and classifying the extracted spatial design components by category; a learning module for classifying and learning the plurality of raw data images by category, and learning the arrangement of the spatial design components; and a generation module that selects a plurality of design components corresponding to the input from the requestor, and generates one or more recommended designs in which the selected plurality of design components are arranged in a target space.

In an embodiment, the design recommendation unit calculates a similarity by comparing the recommended design with any one of the plurality of raw data images, and does not provide the recommended design to the client when the calculated similarity is greater than or equal to a specified value It may include a recommendation exclusion module.

In an embodiment, the classification module of the design recommendation unit performs edge detection on the raw data image to obtain an outline of the spatial design component, and based on the obtained outline, the spatial design included in each raw data image A component may be extracted, and the spatial design component may be classified and labeled based on the extracted shape of the spatial design component.

In an embodiment, the customizing unit provides a graphical 3D stereoscopic view corresponding to the recommended design, receives change data for a spatial design component displayed on the 3D stereoscopic diagram through the interface, and the A request design may be generated based on the change data.

In an embodiment, the customizing unit may include: a component providing module for providing information on one or more spatial design components that can be arranged in a space; a spatial information storage module for storing information on a target space to be spatially designed; Providing the requestor with information about one or more spatial design components provided by the component providing module, changing the information of the spatial design component included in the recommended design, or adding a spatial design component not included in the recommended design component change module for; a component arrangement module for changing the arrangement of the space design component on the space design; and a request design generating module for generating a request design based on the added or changed component and the changed arrangement.

In an embodiment, the request design generating module may generate the requested design in two or more data formats usable in two or more 3D graphic engines of different types.

In an embodiment, the expert matching unit may include: a request transmission module for transmitting a three-dimensional view of the requested design or request information for a support service to a plurality of experts; an estimate receiving module for receiving cost estimates for each construction part when the requested design is applied to an actual space from the plurality of experts; and a transaction support module that transmits the cost estimate to the client and supports a transaction between the client and an expert selected from the client.

In one embodiment, a coordinating unit that provides a check list and schedule information necessary when implementing a space design in an actual space, and provides company recommendation information for a related service company based on the check list and the schedule information, is further may include

In one embodiment, after the requested design is implemented in the real space, a VR exhibition providing unit that captures the real space in which the requested design is implemented, stores it as VR data, and provides an online VR exhibition service using the stored VR data may include more.

In an embodiment, the VR exhibition providing unit provides a VR meeting function between the requester and the VR exhibition visitor, and the requester uses the VR meeting function to simulate the operation of the product to be promoted to the VR exhibition visitor in a VR space can do.

According to another embodiment of the present invention, a design recommendation step of providing one or more recommended designs related to a space design in response to an input from a client; a customizing step of providing an interface for customizing the recommended design, and generating a customized request design based on the recommended design and the input of the client; and an expert matching step of receiving a cost estimate for implementing the requested design in an actual space from a plurality of experts, providing the cost estimate to the client, and supporting matching between the expert selected by the client and the client A space design coordinating method may be provided.

According to another embodiment of the present invention, a program stored in a recording medium may be provided to perform the spatial design coordinating method by a computer.

According to an embodiment of the present invention, by including a design recommendation unit providing one or more recommended designs related to space design in response to an input from a client, and an expert matching unit supporting matching between an expert selected by the client and the client, the exhibition A space design coordinating system that allows an inexperienced client to conveniently prepare an exhibition, provide services at reasonable design and construction costs, and provide one-stop service from exhibition preparation, exhibition operation, and booth demolition; Methods and programs may be provided.

1 is a block diagram showing the configuration of a space design coordinating system according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of a design recommendation unit of a space design coordinating system according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a customizing unit of a space design coordinating system according to an embodiment of the present invention.
4 is a block diagram illustrating the configuration of an expert matching unit of a space design coordinating system according to an embodiment of the present invention.
5 is a flowchart of a spatial design coordinating method performed by a spatial design coordinating system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the entire specification, when a part "includes" a certain element, this means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software. .

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

1 is a block diagram showing the configuration of a space design coordinating system 1 according to an embodiment of the present invention.

Referring to FIG. 1 , the space design coordinating system 1 may be connected to a client 2 , a designer 3 , a construction company 4 , and a support company 5 through a network. The spatial design coordinating system 1 includes an input receiving unit 10, a database 20, a design recommendation unit 30, a customizing unit 40, an expert matching unit 50, a coordinating unit 60, and a VR exhibition providing unit. (70) may be included.

The space design coordinating system (1) is implemented as a web server and an application (or home page), and through online (Internet, ARS, telephone consultation service), a client who wishes to construct a space design and an expert who can provide space design ( It is possible to provide an intermediary service between a designer) and an expert (constructor and support company) who can provide interior construction services.

In terms of hardware, the web server has the same configuration as a typical web server, and in terms of software, it is a program that is implemented through various types of languages such as C, C++, Java, Visual Basic, Visual C, etc. and performs various functions. It can contain modules. In addition, it can be implemented using web server programs that are provided in various ways depending on operating systems such as DOS, Windows, Linux, Unix, and Macintosh on general server hardware. have.

In addition, the web server is respectively connected to the client communication terminal, the designer communication terminal, the construction company communication terminal, and the support company communication terminal through the network, and examples of such networks include RF, 3GPP (3rd Generation Partnership Project) network, LTE ( Long Term Evolution) network, 5th Generation Partnership Project (5GPP) network, World Interoperability for Microwave Access (WIMAX) network, Internet, Local Area Network (LAN), Wireless LAN (Wireless Local Area Network), Wide Area (WAN) network Network), PAN (Personal Area Network), Bluetooth (Bluetooth) network, NFC network, satellite broadcasting network, analog broadcasting network, DMB (Digital Multimedia Broadcasting) network, etc. are included, but are not limited thereto.

The client communication terminal, designer communication terminal, construction company communication terminal, and partner communication terminal are PCS (Personal Communication System), GSM (Global System for Mobile communications), PDC (Personal Digital Cellular), PHS (Personal Handyphone System), PDA (Personal Digital Assistant), IMT (International Mobile Telecommunication)-2000, CDMA (Code Division Multiple Access)-2000, W-CDMA (W-Code Division Multiple Access), Wibro (Wireless Broadband Internet) terminal, smartphone ), a smart pad, and a portable communication device such as a tablet PC, as well as a general PC may be included.

Hereinafter, for convenience of explanation, the communication terminal of the client is named as the client, the communication terminal of the designer is the designer, the communication terminal of the construction company is the construction company, and the communication terminal of the support company is the support company.

The input reception unit 10 of the space design coordinating system 1 may receive input from the client 2 , the designer 3 , the construction company 4 , and the support company 5 .

The requester (2) provides the required information such as category, business type, size, budget, design concept, etc. for the space design desired for construction, and other service request information necessary for holding an exhibition or exhibition such as printing, guidance, interpretation, and customs clearance. It can be input to the coordinating system (1).

When the designer 3 receives a cost estimate request for the requested design confirmed by the client 2 from the space design coordinating system 1, the cost for creating detailed design data necessary when implementing the requested design in the actual space An estimate may be prepared, and the cost estimate data may be input into the space design coordinating system 1 through the input reception unit 10 .

The construction company 4 may construct the space design in an actual exhibition booth or an actual apartment space. When the construction company 4 receives a request for a cost estimate required for constructing the requested design confirmed by the client 2 in the actual space from the space design coordinating system 1, the cost required for construction It is possible to create an estimate and input the cost estimate data to the space design coordinating system 1 through the input reception unit 10 .

The support company 5 may provide other services other than construction necessary for an exhibition or exhibition, such as printing of brochures, guidance, interpretation, and customs clearance. When the support company 5 receives a cost estimate request for the support service confirmed by the client 2 from the space design coordinating system 1, it creates a cost estimate for the support service and transmits the cost estimate data. An input may be made to the space design coordinating system 1 through the input reception unit 10 .

The design recommendation unit 30 of the space design coordinating system 1 may provide one or more recommended designs related to the space design in response to an input from the requester 2 . The client 2 may select one requested design from one or more recommended designs recommended by the design recommendation unit 30 . In an embodiment, the design recommendation unit 30 may generate three recommended designs and transmit the generated three recommended designs to the client 2 . In another embodiment, the design recommendation unit 30 may generate two, four, six, etc. recommended designs and transmit them to the requester 2 . The number of recommended designs provided by the design recommendation unit 30 is not limited to this embodiment, and providing one or more recommended designs is included within the scope of the technical spirit of the present invention.

The design recommendation unit 30 may generate one or more recommended designs from pre-stored raw data images by a classification and learning algorithm using artificial intelligence (AI). The raw data image may be collected from public data available through an Internet connection, a design platform, a design library, or a design magazine such as a book.

The design recommendation unit 30 may extract spatial design components constituting the spatial design from the collected raw data images. For example, a space design component means walls, floors, ceilings, installations, exhibits, and decorations constituting a space design, and a space design component includes walls, floors, ceilings, installations, exhibits, and decorations from the collected raw data images. Information such as shape, size, color, and material of the light can be acquired.

The design recommendation unit 30 may classify and learn the extracted spatial design components by category, and learn the arrangement of the spatial design components. Also, the design recommendation unit 30 may generate a recommended design in which a plurality of design components are arranged in a target space in response to a detailed request for a space design input from a client. A specific generation process of the recommended design by the design recommendation unit 30 will be described later.

The customizing unit 40 of the spatial design coordinating system 1 may provide an interface for customizing the recommended design. The customizing unit 40 may generate the customized request design based on the recommended design and the change or additional input to the spatial design component from the requester 2 .

The client 2 may select one design from among several recommended designs recommended by the design recommendation unit 30 . The requester 2 may generate the requested design by changing the details of the recommended design through the customizing unit 4 of the spatial design coordinating system 1 . A specific customizing process performed by the customizing unit 4 will be described later.

The expert matching unit 50 of the spatial design coordinating system 1 may receive cost estimates for implementing the requested design in an actual space from a plurality of experts and provide the cost estimate to the client 2 . The expert matching unit 50 may support matching between the experts 3 , 4 and 5 selected by the client 2 and the client 2 .

The client 2 may select a designer 3, a construction company 4, and a support company 5 to implement the selected requested design in an actual space. The expert matching unit 50 may transmit information on the selected requested design to the designer 3 , the construction company 4 , and the support company 5 , respectively. The designer 3 , the construction company 4 , and the support company 5 may create a cost estimate for the selected design request and transmit it to the space design coordinating system 1 through the expert matching unit 50 .

The expert matching unit 50 that has received the cost estimate from the experts 3 , 4 and 5 may transmit the cost estimate to the client 2 . After reviewing the received cost estimate, the client 2 may select a company to proceed with the contract from among a plurality of designers 3 , construction companies 4 and support companies 5 who have provided cost estimates. After the client (2) selects an expert, the expert matching unit 50 supports services such as contract conclusion and payment between the client (2) and the designer (3), the construction company (4), and the support company (5) can

The coordinating unit 60 of the space design coordinating system 1 provides a check list and schedule information necessary when implementing a space design in an actual space, and matters not prepared according to the schedule based on the check list and schedule information about this, and if necessary, it is possible to recommend other experts (interpretation, customs clearance, printing, guidance, broadcasting, video recording, filming, etc.).

In an embodiment, the space design coordinating system 1 periodically transmits a check list for exhibition operation to the client 2, and the client 2 may fill in the completed items in the received check list. For the items in the check list that are not completed, it is possible to receive a cost estimate from an expert (interpretation, customs clearance, printing, guidance, broadcasting, video recording, filming, etc.) of the service and automatically transmit it to the client 2 .

After the requested design is implemented in the real space, the VR exhibition providing unit 70 of the space design coordinating system 1 takes a picture of the real space in which the requested design is implemented, stores it as VR data, and uses the stored VR data to online VR exhibition service can be provided.

If an exhibition or exposition is held after actual construction after the design of the booth is completed, the exhibition booth must be dismantled when the exhibition or exhibition schedule is over. The VR exhibition providing unit 70 may store and provide a real space in which a requested design, such as a booth design, is implemented as VR data.

Even after the exhibition or exposition is over, the general public can access the space design coordinating system 1 and visit the exhibition booth after the schedule provided by the VR exhibition providing unit 70 through the VR image. Accordingly, even after the exhibition or exhibition is over, the client 2 can use the virtual space to promote their services or products.

The VR exhibition providing unit 70 may provide a VR meeting function between the client 2 and the VR exhibition visitor. The client 2 can simulate the operation of the promotional item to the VR exhibition visitor in the VR space by using the VR meeting function.

The client 2 and the VR exhibition visitor can wear a VR headset to use the VR meeting function. When the VR exhibition visitor accesses the VR exhibition hall of the spatial design coordinating system 1 , a message or email to the effect that there is a VR exhibition visitor may be transmitted to the requestor 2 .

After the client 2 wears a VR headset, prepares a VR controller, and accesses the space design coordinating system 1, a specific article can be promoted to VR exhibition visitors. The client 2 may show the operation of the promotional item to the VR exhibition visitor in the VR space by using the VR controller.

The VR exhibition providing unit 70 may use image data of the promotional item to generate in advance a VR object obtained by 3D modeling the promotional item. 3D modeling can be performed by creating a shape inflection point and a shape line object of the promotion target item based on the image data of the promotion target product, and generating a polygon data type 3D model using the generated shape inflection point and shape line object. have. The creation of a VR object may be performed by mapping a material to fit a polygonal object and rendering the color, texture, and change of the object according to a specific manipulation.

The client (2) explains the characteristics of the promotional item and the difference from the existing product by using the VR headset and VR controller worn, and manipulates the promotional item in the VR space to simulate the operation of the promotional item. have. For example, the client 2 may simulate the function of a newly released smartphone in the VR space. In addition, the client 2 can simulate the rotational motion of the new motor in the VR space.

Visitors to the VR exhibition can talk with the client 2 using the VR headset they wear, and can directly inquire about the item. Accordingly, the client 2 can explain about the promotional item or perform marketing activities at any time within the virtual space with the VR exhibition visitor located at a remote location.

The database 20 of the spatial design coordinating system 1 includes information about the client 2 (login information, contact information, design request information, etc.), information about the designer 3 (login information, contact information, estimate information, etc.) etc.), information about the construction company 4 (login information, contact information, estimate information, etc.) and information about the support company 5 (login information, contact information, estimate information, etc.) can be stored.

The database 20 includes a raw data image collected by the design recommendation unit 30 from public data, a design platform, a design library, or a book, information about a spatial design component extracted by the design recommendation unit 30, and a recommended design by category. information can be stored. Also, the database 20 may store check list information and schedule information used by the coordinator 60 , and VR data of the exhibition booth used by the VR exhibition providing unit 70 .

2 is a block diagram showing the configuration of the design recommendation unit 30 of the space design coordinating system 1 according to an embodiment of the present invention.

Referring to FIG. 2 , the design recommendation unit 30 may include a collection module 31 , a classification module 32 , a learning module 33 , a recommendation design generation module 34 , and a recommendation exclusion module 35 . .

The collection module 31 may collect raw data images from one or more design sources. The raw data image may be collected from public data available through an Internet connection, a design platform, a design library, or a design magazine such as a book.

The classification module 32 may extract a spatial design component from each of a plurality of raw data images, and classify the extracted spatial design component by category. For example, the space design component may include walls, floors, ceilings, installations, exhibits, decorations, etc. constituting the space design. The classification module 32 may extract spatial design components such as walls, floors, ceilings, installations, exhibits, and decorations from the raw data image, and classify the extracted components by category.

The category classified by the classification module 32 may include an exhibition type or design concept. The exhibition industry may include various industries such as baby products, kids products, student products, semiconductor industry, printing industry, leisure industry, machine industry, 3D printing industry, and the like. The design concept may include a modern style, a Nordic style, a natural style, a vintage style, a classic antique style, an oriental style, and a unique style.

The modern style uses materials such as iron, glass, and leather, and mainly uses achromatic and vivid colors such as white and black. In the Nordic style, materials such as natural wood, tiles, and stainless steel are used, and white, beige, and pastel colors are mainly used, and you can feel a smooth finish.

The natural style uses natural materials, wood, and hemp fabrics, and wood, cream, and natural colors are mainly used, and it is a style that can feel rough and comfortable. In the vintage style, materials such as brick, iron, glass, and plastic are used, and dark brown, gray, and black colors are mainly used, and it is a style that feels rough and unfinished.

The classic antique style uses materials such as wood, leather, wool, and silk, and mainly uses brown, black, and calm colors. The oriental style uses materials such as wood, soil, and rattan, and mainly uses wood and natural colors, and has a rough finish. Unique style is a style that uses a variety of new materials, mainly uses primary colors or vivid colors, and gives a lively feeling while bouncing.

The classification module 32 performs edge detection on the raw data image to obtain the contour of the spatial design component, extracts the spatial design component included in each raw data image based on the obtained contour, and the extracted spatial design component You can classify and label spatial design components based on their shape.

In one embodiment, the classification module 32 acquires contours of walls, ceilings, floors, installations, etc. included in the raw data image, and extracts spatial design components such as walls, ceilings, floors, and installations based on the acquired contours can do. In addition, the classification module 32 may classify and label the spatial design component as a wall, ceiling, floor, installation, etc., based on the extracted shape of the spatial design component.

The learning module 33 may classify and learn a plurality of raw data images by category, and may learn the arrangement of spatial design components. In an embodiment, the learning module 33 uses raw data images collected from public data, design platforms, design libraries, or books, for example, baby products, kids products, semiconductor industry, defense industry, cosmetics, start-up details, etc. It is possible to classify and learn by category, and to learn the proper arrangement of installations (chairs, tables, coffee machines, billboards, etc.) of the extracted spatial design components.

The recommended design generating module 34 may select a plurality of design components corresponding to an input from a requester, and generate one or more recommended designs in which the selected plurality of design components are disposed in a target space.

In one embodiment, when the exhibition industry from the client is an outdoor product and the concept of a natural style is input as a detailed request, the recommended design generation module 34 is an outdoor product and a design component of an exhibition booth related to a natural style ( floor, wall, chair, table, billboard, outdoor related installations and supplies) of the exhibition booth, and three recommended designs in which a plurality of selected design components are arranged in the exhibition booth can be created.

When the recommended design generating module 34 generates the recommended design, the configuration and arrangement information of the design component learned by the learning module 33 using the plurality of raw data images may be reflected. In addition, the recommended design generating module 34 may determine the recommended design for each category based on scores evaluated by experts such as the client 2 or the designer 3 in the existing request case.

The recommendation exclusion module 35 calculates the similarity by comparing the recommended design with any one of the plurality of raw data images, and when the calculated similarity is equal to or greater than a specified value, the recommendation design may be excluded from being provided to the requester 2 . . If the similarity is greater than or equal to a specified value, for example, 80%, the recommended design may infringe on copyright or design rights related to the raw data image, and thus the design may be excluded from the recommended design.

3 is a block diagram showing the configuration of the customizing unit 40 of the space design coordinating system 1 according to an embodiment of the present invention.

Referring to FIG. 3 , the customizing unit 40 includes a component providing module 41 , a spatial information storage module 42 , a component change module 43 , a component arrangement module 44 , and a request design creation module 45 . can

The component providing module 41 may provide information on one or more spatial design components that can be arranged in a space based on the information on the spatial design components extracted and classified by the design recommendation unit 30 . In an embodiment, the component providing module 41 may provide information (color, material, size, etc.) about space design components such as a floor of an exhibition booth, a wall chair, a table, a billboard, and an outdoor product.

The spatial information storage module 42 may store information about a target space that is a target of spatial design. In an embodiment, the spatial information storage module 42 may store information on the size (width, length, height, etc.) of the exhibition booth input from the client 2 .

The component change module 43 provides information about one or more spatial design components provided by the component providing module to the requester 3, changes the information of the spatial design component included in the recommended design, or is not included in the recommended design. You can add non-space design components.

In one embodiment, when the requester 3 wants to change the floor material, table, billboard, etc. of the exhibition booth included in the component recommendation design, it is provided by the component providing module 41 using the changing module 43 You can change the recommended design to other floor materials, tables, billboards, etc.

In addition, if it is desired to add a ceiling light that is not included in the recommended design, the requester 3 uses the change module 43 to select the desired lighting from various ceiling lights provided by the component providing module 41 . You can select and add them within the featured design.

The component arrangement module 44 may change the arrangement of space design components on the space design. When the requester 2 does not like the arrangement of the spatial design component arranged in the recommended design, the requester 2 may move the corresponding spatial design component through the component arrangement module 44 through drag and drag operation.

The request design generating module 45 may generate a request design based on the added or changed component and the changed arrangement. The request design generating module 45 may generate the requested design in two or more data formats usable in two or more 3D graphic engines of different methods. In one embodiment, the two or more data formats may include data formats usable in an html5 3D engine or an unreal 3D engine.

The html5 3D engine has a fast processing speed when running on the web, but it is difficult to express details such as the material of components. While the processing speed of the Unreal 3D engine is slower than that of the html5 3D engine when running on the web, more detailed expressions such as the material of components are possible compared to the html5 3D engine.

Since the requester 2 accesses the spatial design coordinating system 1 through a web or mobile app, the interface provided by the customizing unit 40 requires a fast processing speed. However, for the designer 3, the detail of the design is more important than the processing speed. Since it is difficult for the designer 3 to design detailed exhibition booths and the like by the html5 3D engine, the designer 3 may be provided with an interface based on the Unreal 3D engine capable of more realistic and detailed design. In this regard, the requested design creation module 45 may be configured to generate a design in two data formats usable in an html5 3D engine and an unreal 3D engine.

4 is a block diagram showing the configuration of the expert matching unit 50 of the spatial design coordinating system 1 according to an embodiment of the present invention.

Referring to FIG. 4 , the expert matching unit 50 may include a request transmission module 51 , a quotation reception module 52 , and a transaction support module 53 .

The request transmission module 51 may transmit a three-dimensional view of the requested design selected by the client 2 or request information for a support service to be used in the operation of an exhibition to a plurality of experts. The client (2) confirms the requested design by changing the recommended design according to his or her preference, and inputs the requested information for other services (interpretation, guidance, brochure printing, etc.) required for the exhibition into the spatial information coordinating system (1) can do. The request transmission module 51 of the coordinating system 1 may transmit the three-dimensional drawing of the confirmed requested design and request information for the support service to a designer, a construction company, or a support company.

The estimate receiving module 52 may receive, from a plurality of experts, a cost estimate for a detailed design required when the requested design is applied to an actual space, a cost estimate for each construction part, or a cost estimate for a support service. In one embodiment, the designer 3 transmits a cost estimate of 1 million won for the detailed design of the requested design, the construction company 4 transmits a cost estimate of 2 million won for the construction of the requested design, and a printing company specializing in printing The support company 5, such as, may transmit a cost estimate of 500,000 won for printing of brochures and the like.

The transaction support module 53 may transmit the cost estimate received from the expert to the client 2 and support the transaction between the selected expert and the client 2 . After reviewing the received cost estimate, the client 2 may select a company to proceed with the contract from among a plurality of designers 3 , construction companies 4 and support companies 5 who have provided cost estimates. After the client (2) selects an expert, the expert matching unit 50 supports services such as contract conclusion and payment between the client (2) and the designer (3), the construction company (4), and the support company (5) can

5 is a flowchart illustrating a process of a spatial design coordinating method performed by the spatial design coordinating system 1 according to an embodiment of the present invention.

The space design coordinating system 1 may perform a design request reception step S10 of receiving a request for a space design from the requester 2 . The requester 2 may input required information such as a category, industry type, size, budget, design concept, etc. for a space design desired for construction into the space design coordinating system 1 . In addition, the client 2 may input other service request information necessary for holding an exhibition or fair, such as printing, guidance, interpretation, and customs clearance, into the space design coordinating system 1 .

When a design request is received from the client 2, the space design coordinating system 1 performs a design recommendation step S20 of providing one or more recommended designs related to the space design in response to the input from the client 2 can The client 2 may select one requested design from one or more recommended designs recommended by the design recommendation unit 30 . In an embodiment, the design recommendation unit 30 may generate three recommended designs and transmit the generated three recommended designs to the client 2 .

After the recommended design is transmitted, the spatial design coordinating system 1 provides an interface for customizing the recommended design, and based on the recommended design and changes or additional input to the spatial design component from the requester 2, the customized A customizing step (S30) of generating a request design may be performed. The client 2 may select one design from among several recommended designs recommended by the design recommendation unit 30 . The requester 2 may generate the requested design by changing the details of the recommended design through the interface provided by the customizing unit 4 of the spatial design coordinating system 1 .

When the requested design is created, the space design coordinating system 1 receives a cost estimate for implementing the requested design in an actual space or a cost estimate for a required support service from a plurality of experts, and provides the cost estimate to the client 2 The provided expert matching step (S40) may be performed. After the client (2) selects an expert, services such as contract signing and payment between the client (2) and the designer (3), the construction company (4) and the supporting company (5) are performed in the space design coordinating system (1) can be provided by

When a contract between the client 2 and the expert is concluded, the space design coordinating system 1 may perform a coordinating step (S50) of providing a checklist and schedule information necessary when implementing a space design in an actual space. have. The space design coordinating system 1 notifies the client 2 about matters not prepared according to the schedule in the coordinating step S50, and, if necessary, other experts (interpretation, customs clearance, printing, guidance, broadcasting, video) recording, filming) can be recommended.

The space design coordinating system 1 periodically transmits a check list for exhibition operation to the client 2, and the client 2 can fill in the completed items in the received check list. For the items in the check list that are not completed, it is possible to receive a cost estimate from an expert (interpretation, customs clearance, printing, guidance, broadcasting, video recording, filming, etc.) of the service and automatically transmit it to the client 2 .

When the actual exhibition bush is completed by the requested design, the space design coordinating system 1 captures the actual space in which the requested design is implemented, stores it as VR data, and provides an online VR exhibition service using the stored VR data A VR exhibition providing step ( S60 ) may be performed. Accordingly, even after the exhibition or exposition is over, the general public can access the space design coordinating system 1 and visit the exhibition booth after the schedule provided by the VR exhibition providing unit 70 through the VR image, and the client ( 2) can use the virtual space to promote their services or products.

In the above, the object of space design is illustrated as an exhibition booth as an embodiment of the present invention, but in the present invention, the object of space design is not limited to an exhibition booth, and a performance hall, a drama set, an event booth, a house interior, a shopping mall interior Any space such as etc. is also included in the object of the space design of the present invention.

The steps or processes described above may be executed by a hardware component, a software component, and/or a combination of the hardware component and the software component. For example, a step or process described in the embodiments may be, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA), a PLU It may be implemented using one or more general purpose or special purpose computers, such as a programmable logic unit, microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. A processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For convenience of understanding, although one processing device is sometimes described as being used, one of ordinary skill in the art will recognize that the processing device includes a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that can include For example, the processing device may include a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as parallel processors.

Software may comprise a computer program, code, instructions, or a combination of one or more thereof, which configures a processing device to operate as desired or is independently or collectively processed You can command the device. The software and/or data may be any kind of machine, component, physical device, virtual equipment, computer storage medium or apparatus, to be interpreted by or to provide instructions or data to the processing device. , or may be permanently or temporarily embody in a transmitted signal wave. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and used by those skilled in the art. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (12)

a design recommendation unit for providing one or more recommended designs for a space design in response to an input from a client;
a customization unit that provides an interface for customizing the recommended design and generates a customized request design based on the recommended design and the input of the client; and
An expert matching unit that receives a cost estimate for implementing the requested design in an actual space from a plurality of experts, provides the cost estimate to the client, and supports matching between the client and the expert selected by the client
A space design coordinating system that includes. According to claim 1,
The design recommendation unit,
a collection module for collecting raw data images from one or more design sources;
a classification module for extracting spatial design components from each of the plurality of raw data images, and classifying the extracted spatial design components into categories;
a learning module for classifying and learning the plurality of raw data images by category, and learning the arrangement of the spatial design components; and
A generating module that selects a plurality of design components corresponding to the input from the client and generates one or more recommended designs by arranging the selected plurality of design components in a target space
A space design coordinating system that includes. 3. The method of claim 2,
The design component includes at least one of a wall, a floor, a ceiling, an installation, an exhibit, and a decoration,
The category is a space design coordinating system classified according to the exhibition industry or design concept. 3. The method of claim 2,
The classification module of the design recommendation unit,
performing edge detection on the raw data image to obtain an outline of the spatial design component;
Extracting the spatial design component included in each raw data image based on the obtained outline,
A spatial design coordinating system for classifying and labeling the spatial design component based on the extracted shape of the spatial design component. According to claim 1,
The customization unit,
To provide a graphical 3D stereoscopic view corresponding to the recommended design,
A spatial design coordinating system for receiving change data for a spatial design component displayed on the three-dimensional view through the interface, and generating a requested design based on the changed data. 6. The method of claim 5,
The customization unit,
a component providing module for providing information on one or more spatial design components that can be placed in a space;
a spatial information storage module for storing information on a target space to be spatially designed;
Providing the requestor with information about one or more spatial design components provided by the component providing module, changing the information of the spatial design component included in the recommended design, or adding a spatial design component not included in the recommended design component change module for;
a component arrangement module for changing the arrangement of the space design component on the space design; and
A request design creation module that creates a request design based on the added or changed components and the changed arrangement
A space design coordinating system that includes. According to claim 1,
The customizing unit, a spatial design coordinating system that provides an interface based on an Unreal 3D engine to the expert, and provides an interface based on an html5 3D engine to the client. According to claim 1,
The expert matching unit,
a request transmission module for transmitting a three-dimensional view of the requested design or request information for a support service to a plurality of experts;
an estimate receiving module for receiving cost estimates for each construction part when the requested design is applied to an actual space from the plurality of experts; and
A transaction support module that transmits the cost estimate to the client and supports a transaction between the client and the expert selected from the client
A space design coordinating system that includes. According to claim 1,
A space design coordinator further comprising a coordinator providing checklist and schedule information necessary for realizing space design in an actual space, and providing company recommendation information for a related service company based on the checklist and the schedule information ting system. According to claim 1,
After the requested design is implemented in the real space, the actual space in which the requested design is implemented is captured and stored as VR data, and further comprising a VR exhibition providing unit that provides an online VR exhibition service using the stored VR data,
The VR exhibition providing unit provides a VR meeting function between the client and the VR exhibition visitor,
The space design coordinating system for the requester to simulate the operation of the promotional item to the VR exhibition visitor in the VR space by using the VR meeting function. a design recommendation step of providing one or more recommended designs for a space design in response to an input from a client;
a customizing step of providing an interface for customizing the recommended design, and generating a customized request design based on the recommended design and the input of the client; and
An expert matching step of receiving a cost estimate for implementing the requested design in an actual space from a plurality of experts, providing the cost estimate to the client, and supporting matching between the expert selected by the client and the client
A method of coordinating space design that includes. A program stored in a computer-readable recording medium for performing the spatial design coordinating method according to claim 11 by a computer.

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