KR102650448B1 - A building design system that considers trend-reflected remodeling designs - Google Patents

Abstract

The present invention relates to a building design system considering remodeling design that reflects trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor, in which a request for the design of a new building is received from an administrator account. When receiving information, a trend information search unit that searches for trend information on new buildings based on the received request information among a plurality of architectural trend information registered online; When the search for the trend information is completed by performing the function of the trend information search unit, the searched trend information is analyzed based on a pre-stored artificial intelligence algorithm, and the guide generates design guide information for the new building through the analysis results. information generation unit; And when the creation of the design guide information is completed, the design guide information and design tool interface are provided to the administrator account, and the administrator account reflects design elements based on the design guide information in the design tool interface to build the new construction. It is characterized in that it includes a design service provision unit that completes the design creation process for the building. In addition to this, various embodiments identified through this document are possible.

Description

Building design system considering remodeling design that reflects trends {A BUILDING DESIGN SYSTEM THAT CONSIDERS TREND-REFLECTED REMODELING DESIGNS}

The present invention relates to a building design system considering remodeling design that reflects trends. Specifically, when receiving request information for the design of a new building from an administrator account, the request information is based on the request information among a plurality of architectural trend information registered online. Search for trend information on new buildings, analyze the searched trend information based on a pre-stored artificial intelligence algorithm, generate design guide information for new buildings through the analysis results, and send design guide information and information to the administrator account. It is about a technology that provides a design tool interface and allows the administrator account to complete the design creation process for a new building by reflecting design elements based on design guide information in the design tool interface. In addition, it relates to a technology for performing a remodeling design for an existing building when receiving remodeling request information for an existing building from an administrator account.

With projections suggesting that the size of the domestic construction market will approach 50 trillion won by 2026, remodeling of existing buildings is actively underway along with the construction of new buildings. Recently, as the apartment remodeling market has emerged as a major source of income for construction companies, not only the top 10 domestic construction companies but also latecomers are succeeding in winning exclusive orders. In particular, as the size of the remodeling market in 2022 exceeds 19 trillion won, the construction industry is working hard to receive orders for remodeled buildings in addition to new ones. Accordingly, the construction industry is developing various technologies to win orders for new and existing buildings.

As an example, Korean Patent No. 10-1792833 (Method for determining the remodeling time of a building) predicts the remodeling time of a building when an existing building is used as is without remodeling and when it is used as a building with improved performance through remodeling. The technology has been disclosed.

However, in the above-described prior art, only the technology for determining the optimal time for remodeling to improve the aging of buildings and energy performance is disclosed. When request information for the design of a new building is received from the manager account, online Among the plurality of architectural trend information registered in , trend information for new buildings is searched based on request information, and the searched trend information is analyzed based on a previously stored artificial intelligence algorithm, and the analysis results provide a design guide for new buildings. After creating the information, the design guide information and design tool interface are provided to the administrator account, allowing the administrator account to reflect the design elements based on the design guide information in the design tool interface to complete the design creation process for the new building. As this is not possible, the need for technology that can solve this problem is emerging.

Accordingly, the present invention, when receiving request information for the design of a new building from a manager account through a building design system that considers remodeling design reflecting trends, requests the new building based on the request information among a plurality of architectural trend information registered online. Search for trend information, analyze the searched trend information based on a pre-stored artificial intelligence algorithm, generate design guide information for new buildings through the analysis results, and then send design guide information and design tool interface to the administrator account. provides an administrator account to complete the design creation process for new buildings by reflecting design elements based on design guide information in the design tool interface, and when receiving remodeling request information for existing buildings from the administrator account, By performing remodeling design, the purpose is to increase the possibility of receiving construction orders based on designs for new buildings that reflect trends and remodeling designs for existing buildings that reflect trends, and to perform design work quickly and simply.

In a building design system considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor according to an embodiment of the present invention, a new building is designed from an administrator account. When receiving request information for design, a trend information search unit that searches for trend information on new buildings based on the received request information among a plurality of architectural trend information registered online; When the search for the trend information is completed by performing the function of the trend information search unit, the searched trend information is analyzed based on a pre-stored artificial intelligence algorithm, and the guide generates design guide information for the new building through the analysis results. information generation unit; And when the creation of the design guide information is completed, the design guide information and design tool interface are provided to the administrator account, and the administrator account reflects design elements based on the design guide information in the design tool interface to build the new construction. It is characterized in that it includes a design service provision unit that completes the design creation process for the building.

The request information includes information on the square footage of the space where the new building is built, square footage information on the new building, information on the number of rooms in the new building, information on the number of floors in the new building, and an area containing the space where the new building is built. It is desirable to include environmental information and information on the use of the new building.

The trend information search unit searches a plurality of architectural trend information registered online based on keywords corresponding to each of the detailed request information included in the request information, and among the plurality of architectural trend information retrieved as a search result, The matching rate with the keyword is higher than the specified matching rate, and it is possible to identify only information registered online within a specified period as the trend information.

When the search for the trend information is completed, the guide information generator analyzes the request information and the trend information based on the pre-stored artificial intelligence algorithm, and based on the analysis results, provides a design element necessary for designing the new building. 1 Design element identification unit that extracts design elements by preset items; And when the extraction of the first design element is completed, the extracted first design element is reflected in a preset design guide form to generate design guide information that is guide information for the basic design of the new building. It is possible to include a part;

When the design element identification unit completes the search for remodeling trend information for the existing building by performing the function of the trend information search unit while receiving remodeling request information for an existing building previously constructed from the manager account. , Based on the previously stored artificial intelligence algorithm, it is possible to analyze the remodeling request information and remodeling trend information, and extract second design elements for the existing building for each preset item through the analysis results.

The remodeling request information includes drawing information of the existing building, environmental information of the area including the space where the existing building is located, design caution information according to the drawing information of the existing building, use information of the existing building, and information of the existing building. It is possible to include usage history information, repair request information, and request information when remodeling the existing building.

The first design element is information used for the design of a new building that is generated by analyzing the request information and the trend information based on the pre-stored artificial intelligence algorithm, including structural and form elements of the new building, It includes layout elements arranged inside and outside the new building, material elements used in the construction of the new building, construction method elements for each material used in the new building, and interior elements recommended when constructing the new building, wherein the second design element is , Based on the previously stored artificial intelligence algorithm, the remodeling request information and the remodeling trend information are analyzed and are generated as information used for remodeling the existing building, including the structure and form elements of the existing building, and the existing building. Arrangement elements arranged inside and out, material elements used when remodeling the existing building, construction method elements for each material used in remodeling the existing building, factors to be aware of when remodeling the existing building, and repair elements according to the use history of the existing building. It is possible.

The guide information generation unit is a building object implementation unit that implements a building object, which is a virtual object corresponding to the existing building based on the remodeling request information, in 3D space when extraction of the second design element required when remodeling the existing building is completed. ; When the implementation of the building object is completed, among the second design elements, an indoor structure corresponding to a significant element when remodeling an existing building is identified, and the identified indoor structure is prevented from being remodeled or deleted from the building object. 2 An interior structural remodeling department that completes remodeling by modifying the building object to correspond to the structural and form elements of the existing building among design elements; And when the function of the indoor structural remodeling unit is completed, an area based on a repair element according to the use history of the existing building is identified among the second design elements, and a graphic effect is applied to the identified area in the existing building object for repair. It is possible to further include a compensation recommendation notification section that announces the recommendation.

When the functions of the building object implementation unit, the indoor structure remodeling unit, and the repair recommendation notice unit are completed, the guide information generation unit applies the second design element to the building object to provide remodeling design design information for the existing building. It is possible to create .

When the generation of the remodeling design design information is completed, the design service provider reflects the generated remodeling design design information in the design tool interface provided to the manager account, and determines whether the remodeling has been completed through one area of the design tool interface. A building object corresponding to an existing building is output, but a modification interface capable of modifying detailed elements included in the second design element is also output in another area of the design tool interface to display detailed elements modified by the administrator account. It is possible to reflect this on the building object.

The present inventor's building design system considering remodeling design reflecting trends can identify trends according to the use of buildings and create a design for a new building based on the identified trend or a remodeling design for an existing building.

Accordingly, construction orders can be secured with a high probability based on the created design, and resources (e.g. labor and capital) consumed in creating the design can be reduced.

Figure 1 is a block diagram for explaining a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.
Figure 2 is a block diagram for explaining the guide information generation unit of the building design system considering remodeling design reflecting trends according to an embodiment of the present invention.
Figure 3 is a block diagram illustrating a design element identification unit of a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.
Figure 4 is another block diagram for explaining the guide information generation unit of the building design system considering remodeling design reflecting trends according to an embodiment of the present invention.
Figure 5 is a block diagram illustrating a design service providing unit of a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.
FIG. 6 is a diagram for explaining an example of the internal configuration of a computing device according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Various embodiments and/or aspects are now disclosed with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth to facilitate a general understanding of one or more aspects. However, it will also be appreciated by those skilled in the art that this aspect(s) may be practiced without these specific details. The following description and accompanying drawings set forth in detail certain example aspects of one or more aspects. However, these aspects are illustrative and some of the various methods in the principles of the various aspects may be utilized, and the written description is intended to encompass all such aspects and their equivalents.

As used herein, “embodiment,” “example,” “aspect,” “example,” etc. may not be construed to mean that any aspect or design described is better or advantageous than other aspects or designs. .

Additionally, the terms "comprise" and/or "comprising" mean that the feature and/or element is present, but exclude the presence or addition of one or more other features, elements and/or groups thereof. It should be understood as not doing so.

Additionally, terms containing ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be referred to as a second component, and similarly, the second component may be referred to as a first component without departing from the scope of the present invention. The term and/or includes any of a plurality of related stated items or a combination of a plurality of related stated items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are as commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. It has the same meaning. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless clearly defined in the embodiments of the present invention, have an ideal or excessively formal meaning. It is not interpreted as

Figure 1 is a block diagram for explaining a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.

Referring to FIG. 1, a building design system 100 considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor (hereinafter referred to as the design system) ) may include a trend information search unit 101, a guide information generation unit 103, and a design service provision unit 105.

According to one embodiment, when the trend information search unit 101 receives request information 101a for the design of a new building from an administrator account, the received request information is selected from a plurality of architectural trend information registered online. Based on (101a), you can search for trend information about new buildings.

According to one embodiment, the request information 101a includes information on the square footage of the space where the new building is constructed, square footage information of the new building, information on the number of rooms in the new building, information on the number of floors in the new building, and information on the square footage of the new building. It may include environmental information on the area containing the built space (e.g., commercial area, academy district, cafe area) and use information of the new building (e.g., representative use of the building, use by room).

According to one embodiment, when the trend information search unit 101 receives the request information 101a from the manager account, a keyword corresponding to each of the detailed request information included in the received request information 101a can be identified. At this time, the identified keyword may be a keyword that can identify how many square meters the new building has, how many rooms there are in the new building, and what the purpose of each room is. In relation to the above, the trend information search unit 101 may identify the keyword by analyzing the request information 101a through a previously stored natural language processing algorithm (NLP).

Afterwards, the trend information search unit 101 determines that among a plurality of architectural trend information registered online based on the identified keyword, the matching rate with the keyword is higher than the specified matching rate, and the matching rate is higher than the specified matching rate, and the You can search and identify trend information.

In relation to the above, the trend information search unit 101 enters and searches the keyword on a specific website, and identifies the information derived within a specified page among the plurality of architectural trend information derived as trend information with a specified matching rate or higher. You can. That is, the trend information search unit 101 converts information searched within a specified page according to a preset search algorithm among a plurality of architectural trend information registered on a specific website into trend information whose matching rate with the keyword is higher than the specified matching rate. Among the identified trend information, only information registered on the specific site within a specified period can be finally identified as the trend information.

According to one embodiment, the trend information is information identified based on the keyword, and may include trend keywords related to the new building in more detail, and example designs (structure and form) of other buildings based on the trend keyword. ), interior images of other buildings based on the trend keywords, landscape images of other buildings based on the trend keywords, building material information of other buildings based on the trend keywords, interior technique information of other buildings based on the trend keywords, etc. This may be information.

For example, if the trend keyword based on the trend information is "well-being, green, tree", images of other buildings containing at least one of the trend keywords "well-being, green, tree", landscaping image, building material information, Interior technique information may be identified with the trend information.

According to one embodiment, when the guide information generation unit 103 completes the search for the trend information by performing the function of the trend information search unit 101, the searched trend is based on a pre-stored artificial intelligence algorithm 103a. By analyzing the information, design guide information for the new building can be generated through the analysis results.

According to one embodiment, the pre-stored artificial intelligence algorithm 103a machine learns the correlation between other request information, other trend information, and other first design elements, and creates a first design element reflecting the trend for the request information. It may be an algorithm that extracts each preset item.

For example, the guide information generator 103 is based on a pre-stored artificial intelligence algorithm 103a, and determines the correlation between the trend information and the environmental information of the area including the space where the new building is constructed based on the request information. Relationships can be analyzed. At this time, the guide information generation unit 103 confirms that the area containing the space where the new building is constructed is a commercial area through the environmental information, and based on the pre-stored artificial intelligence algorithm 103a, The correlation between the above trend information and new buildings installed in dense commercial areas can be analyzed.

In relation to the above, the guide information generator 103 determines that the first building material included in the building material information among the detailed trend information included in the trend information is a building material mainly used for soundproofing through the analysis result of the correlation. If it is confirmed that it is, the first building material can be entered into the building material item among the preset items. Accordingly, the building material item in which the first building material is input may be classified as a partial configuration of the first design element.

According to another embodiment, when the guide information generator 103 confirms that some of the structures and shapes of buildings among the detailed trend information included in the trend information are structures mainly used for soundproofing, among the preset items, You can enter a design image corresponding to the confirmed structure in the building structure item. Accordingly, the structure item into which the design image is input may be classified as a partial configuration of the first design element.

According to one embodiment, when extraction of the first design element is completed, the guide information generator 103 may generate the design guide information based on the extracted first design element.

In relation to the above, the design guide information is information that allows a user of an administrator account to complete the design creation process through a design tool interface, and may be information generated based on the first design element. The first design element is an element used to construct a new building that reflects trends, including structural and form elements of the new building, placement elements (furniture, electronic products, landscaping products, etc.) placed inside and outside the new building, It may include material elements (building materials) used in the construction of a new building, construction method elements for each material used in the new building, and interior elements (interior techniques and images thereof) recommended when constructing the new building.

In other words, the design guide information is information generated based on the contents entered into each detailed element included in the first design element, and is information generated by entering the contents entered into each detailed element into a preset design guide form. It can be. In relation to the above, the preset design guide form may be form information set in a designated order so that an administrator account can perform a design creation process based on the design guide information.

According to one embodiment, when the design service provider (%01) completes the creation of the design guide information, it provides the design guide information and the design tool interface to the manager account, allowing the manager account to create the design guide. Information-based design elements can be reflected in the design tool interface to complete the design creation process for the new building.

In relation to the above, the design tool interface is a possible interface for designing a new building object, which is a virtual object corresponding to the new building, and the administrator account confirms the first design element based on the design guide information and interfaces the design tool. You can design new building objects that reflect trends.

At this time, in relation to the above, since the design tool interface is linked to the design guide information, if the administrator account inputs a standard value other than the standard value based on each of the first design elements, the other inputted New building objects that reflect standard values may not be implemented.

Figure 2 is a block diagram for explaining the guide information generation unit of the building design system considering remodeling design reflecting trends according to an embodiment of the present invention.

Referring to FIG. 2, a building design system considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor (e.g., a remodeling design reflecting the trends of FIG. 1 The building design system 100 that takes design into account (hereinafter referred to as the design system) may include a guide information generator 200 (eg, the guide information generator 103 in FIG. 1).

According to one embodiment, when the guide information generation unit 200 completes the search for trend information by performing the function of the trend information search unit (e.g., the trend information search unit 101 in FIG. 1), the pre-stored artificial intelligence The retrieved trend information can be analyzed based on the algorithm 201a, and design guide information for the new building can be generated through the analysis results.

According to one embodiment, the guide information generator 200 may include a design element identification unit 201 and a design guide information generator 203 as detailed components for performing the above-described functions.

According to one embodiment, when the design element identification unit 201 completes the search for the trend information by performing the function of the trend information search unit, the request information and the By analyzing the trend information, the first design element, which is a design element required when designing the new building, can be extracted for each preset item through the analysis results.

According to one embodiment, the pre-stored artificial intelligence algorithm 201a machine learns the correlation between the other request information, the other trend information, and other first design elements to create a first design that reflects the trend for the request information. It may be an algorithm that extracts elements by preset items (e.g., first preset items).

In relation to the above, the pre-stored artificial intelligence algorithm includes a convolutional neural network (CNN) and a recurrent neural network (RNN) model, and machine learns the correlation between the other trend information and other first design elements to generate request information. It would be natural to extract the first design element reflecting the trend for each preset item (e.g., first preset item).

That is, the design element identification unit 201 uses the pre-stored artificial intelligence algorithm 201a to determine the detailed request information based on the request information, such as information on the square footage of the space where the new building is built, square footage information on the new building, Information on the number of rooms in a new building, example designs (structure and form) of other buildings based on the number of floors and trend information in the new building, interior images of other buildings, landscaping images of other buildings, building material information of other buildings, other buildings By analyzing the correlation between interior technique information, the first design element can be extracted for each preset item through the analysis results.

According to one embodiment, when the extraction of the first design element is completed, the design guide information generation unit 203 reflects the extracted first design element in the preset design guide form 203a to generate the new building. Design guide information, which is design guide information for the basic design, can be created.

According to one embodiment, the preset design guide form 203a is used to create a first design in order to allow an administrator account to create a design in an order based on the design creation process when creating a design for a new building through a design tool interface. This may be form information in which the form in which the element is reflected is set in a specified order.

Afterwards, when the first design element is reflected in the preset design guide form, the design guide information generator 203 may generate design guide information, which is guide information for the basic design of the new building. .

Figure 3 is a block diagram illustrating a design element identification unit of a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.

Referring to FIG. 3, a building design system considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor (e.g., a remodeling system reflecting the trends of FIG. 1 The building design system 100 considering design (hereinafter referred to as the design system) may include a design element identification unit 301 (eg, the design element identification unit 201 in FIG. 2).

According to one embodiment, when the search for trend information is completed by performing the function of the trend information search unit 303 (e.g., the trend information search unit 101 in FIG. 1), the design element identification unit 301 By analyzing the request information and the trend information based on the stored artificial intelligence algorithm, the first design element required when designing the new building can be extracted for each preset item through the analysis result.

According to one embodiment, the design element identification unit 301 may perform other functions in addition to the functions described above.

According to one embodiment, the design element identification unit 301 receives remodeling request information for an existing building previously constructed from the manager account and performs the function of the trend information search unit to search for the existing building. When the search for remodeling trend information is completed, based on the pre-stored artificial intelligence algorithm, the remodeling request information and remodeling trend information are analyzed, and the second design element for the existing building is determined through the analysis result. It can be extracted by item (e.g., secondary set item).

According to one embodiment, the design system may receive the remodeling request information from the manager account.

According to one embodiment, the remodeling request information includes drawing information of the existing building (including shape, structure, number of rooms, number of floors, etc.), environmental information of the area including the space where the existing building is located, and a drawing of the existing building. Information on design precautions based on information (e.g. information on pillars and areas prohibited from being destroyed or remodeled during remodeling), information on the use of the existing building, use history of the existing building (use history by room, use history by indoor area) Information and repair request (repair request requested by the manager of the existing building) information and information on requests for remodeling the existing building may be included.

Accordingly, the trend information search unit 303 may identify keywords (eg, construction remodeling keywords) corresponding to each detailed remodeling request information included in the remodeling request information. At this time, the identified keyword may be a keyword that can identify how many square meters the existing building has, how many rooms there are in the existing building, and what the purpose of each room is. In relation to the above, the trend information search unit 303 may identify the keyword by analyzing the remodeling request information through a pre-stored natural language processing algorithm (NLP).

Afterwards, the trend information search unit 303 determines that the matching rate with the keyword among the plurality of architectural trend information registered online (303a) based on the identified keyword (e.g., construction remodeling keyword) is greater than or equal to the specified matching rate. And, remodeling trend information 303b, which is information registered online within a specified time, can be searched and identified.

In relation to the above, the remodeling trend information 303b is information identified based on the construction remodeling keyword, and may include, in more detail, remodeling trend keywords related to the existing building, and other existing buildings based on the remodeling trend keyword. Example designs (structure and form) of buildings, interior images of other existing buildings based on the trend keywords, landscaping images of other existing buildings based on the trend keywords, construction material information of other existing buildings based on the trend keywords, and the trend keywords The information may include interior technique information of other existing buildings based on .

For example, if the remodeling trend keyword based on the remodeling trend information is “cafe, coffee, modern, healing”, an image of another existing building containing at least one of the remodeling trend keywords “cafe, coffee, modern, healing” , landscaping images, building material information, and interior technique information can be identified as the remodeling trend information.

According to one embodiment, when the design element identification unit 301 completes the search for the remodeling trend information 303b for the existing building by performing the function of the trend information search unit 303, the pre-stored artificial intelligence algorithm Based on this, the remodeling request information 301a and the remodeling trend information 303b are analyzed, and the second design elements for the existing building are extracted by preset items (e.g., second preset items) through the analysis results. can do.

According to one embodiment, the pre-stored artificial intelligence algorithm machine learns the correlation between other remodeling request information, other remodeling trend information, and other second design elements, and creates a second design element reflecting the trend for the remodeling request information. It may be an algorithm that extracts each preset item (e.g., a second preset item).

In relation to the above, the second design element 301b is information used for remodeling an existing building that is generated as the remodeling request information and the remodeling trend information are analyzed based on the pre-stored artificial intelligence algorithm, Structural and form elements of the existing building, arrangement elements arranged inside and outside the existing building, material elements used when remodeling the existing building, construction method elements for each material used in remodeling the existing building, factors to be kept in mind when remodeling the existing building, and It may be a configuration that includes repair elements according to the use history of the existing building.

According to one embodiment, when analyzing the correlation between request information and trend information, the design element identification unit 301 analyzes the pre-stored artificial intelligence algorithm to extract the first design element for each first preset item. When analyzing the correlation between remodeling request information and remodeling trend information, the second design element can be extracted for each second set item by analyzing the previously stored artificial intelligence algorithm.

For example, the design element identification unit 301 determines the correlation between the environmental information of the area including the space where the existing building is located based on the remodeling request information and the remodeling trend information, based on a pre-stored artificial intelligence algorithm. It can be analyzed. At this time, the design element identification unit 301 determines that the area containing the space where the existing building is located is a cafe-dense area through the environmental information, and uses the pre-stored artificial intelligence algorithm to provide the remodeling trend information. It is possible to analyze the correlation between existing buildings located in areas where cafes are concentrated.

In relation to the above, the design element identification unit 301 determines a structure based on example design information (structure and form information) of other existing buildings among the detailed remodeling trend information included in the remodeling trend information through the correlation analysis result. If it is confirmed that some of the shapes are structures and shapes mainly used in cafe-dense areas, an image (design image) based on the confirmed structures and shapes can be entered in the structure and shape items among the preset items. Accordingly, the structure and form items for which the design image based on the confirmed structure and form is input may be classified as some components of the second design element 301b (e.g., structure and form elements of an existing building).

According to another embodiment, the design element identification unit 301 determines that some of the landscaping products and landscaping positions based on landscaping images of other existing buildings among the detailed remodeling trend information included in the remodeling trend information through the correlation analysis results. If it is confirmed that the landscaping product and landscaping location are mainly used in a cafe-dense area, an image corresponding to the confirmed landscaping product and landscaping location can be entered into the placement element item among the preset items. Accordingly, the arrangement element item in which the image is input may be classified as a partial configuration of the second design element 301b (eg, an arrangement element arranged inside and outside the existing building).

Figure 4 is another block diagram for explaining the guide information generation unit of the building design system considering remodeling design reflecting trends according to an embodiment of the present invention.

Referring to FIG. 4, a building design system considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor (e.g., a remodeling design reflecting the trends of FIG. 1 The building design system 100 that takes design into account (hereinafter referred to as the design system) may include a guide information generator 400 (e.g., the guide information generator 103 in FIG. 1).

According to one embodiment, when the guide information generation unit 400 completes the search for trend information by performing the function of the trend information search unit (e.g., the trend information search unit 101 in FIG. 1), the pre-stored artificial intelligence By analyzing the retrieved trend information based on an algorithm, design guide information for the new building can be generated through the analysis results.

In relation to the above, the guide information generator 400 may perform other functions through the second design element mentioned in FIG. 3 in addition to the functions described above.

According to one embodiment, the guide information generation unit 400 is a detailed configuration for performing the other functions described above, and includes a building object implementation unit 401, an indoor structure remodeling unit 403, and a repair recommendation notification unit 405. may include.

According to one embodiment, when the extraction of the second design element 403a required when remodeling the existing building is completed, the building object implementation unit 401 creates a virtual object corresponding to the existing building based on the remodeling request information in 3D space. The building object 401a, which is an object of, can be implemented.

According to one embodiment, the remodeling request information includes drawing information of the existing building, environmental information of the area including the space where the existing building is located, design caution information according to the drawing information of the existing building, and use information of the existing building. , It may include information on the use history of the existing building, information on repair requests, and information on requests when remodeling the existing building.

In relation to the above, the building object implementation unit 401 is based on the drawing information of the existing building included in the remodeling request information and the environmental information of the area including the space where the existing building is located, in the 3D space. A building object 401a, which is a virtual object corresponding to an existing building, can be implemented.

That is, the building object implementation unit 401 creates the building object (401a) in the 3D space based on the dimension values input in the drawing information of the existing building and the environmental information of the area including the space where the existing building is located. ) can be implemented.

According to one embodiment, when the implementation of the building object 401a is completed, the indoor structure remodeling unit 403 identifies the indoor structure corresponding to a significant factor when remodeling an existing building among the second design elements 403a. , prevent the identified indoor structure from being modified or deleted from the building object 401a, and modify the building object 401a to correspond to the structural and form elements of the existing building among the second design elements 403a. Remodeling can be completed.

In relation to the above, the elements of note when remodeling an existing building included in the second design element 403a are components that correspond to the design note information included in the remodeling request information, and include the remodeling and shape of the existing building to be remodeled. It may be configured to identify areas where destruction is prohibited.

According to one embodiment, the indoor structure remodeling unit 403 identifies areas where remodeling and destruction are prohibited among the structure and form of the existing building through significant factors when remodeling the existing building, and implements the 3D virtual space in the 3D virtual space. In a building object, an object area (remodeling prohibited area) corresponding to the identified area can be identified and set to prevent deletion or modification (e.g. modification).

Afterwards, the indoor structural remodeling unit 403 identifies an area to be remodeled based on the structural and form elements of the existing building included in the second design element 403a, and generates an area corresponding to the area to be remodeled. Remodeling can be performed by identifying the object area (remodeling area). At this time, the indoor structure remodeling unit 403 identifies the area to be remodeled based on the structural and form elements of the existing building, and then moves the interior and exterior of the existing building included in the second design element 403a. The remodeling process of the building object 401a can be performed based on the arranged layout elements, material elements used when remodeling the existing building, and construction method elements for each material used in remodeling the existing building.

According to one embodiment, when the function of the indoor structure remodeling unit 403 is completed, the repair recommendation notification unit 405 is based on a repair element according to the use history of the existing building among the second design elements 403a. By identifying an area, a repair recommendation can be announced by applying a graphic effect to the identified area in the existing building object.

According to one embodiment, the repair recommendation notification unit 405 may identify an area based on repair factors according to the use history of the existing building among the second design elements 403a. In relation to the above, the repair recommendation notification unit 405 identifies an area based on repair elements according to the use history of the existing building, and creates an object area corresponding to the identified area in the building object implemented in the 3D virtual space. You can apply graphic effects by identifying the (conservative area). In relation to the above, the graphic effect may be a graphic effect that highlights a repair area in need of repair.

According to one embodiment, when the guide information generation unit 400 completes the functions of the building object implementation unit 401, the indoor structure remodeling unit 403, and the repair recommendation notification unit 405, the first 2 By applying the design element 403a to the building object, remodeling design design information for the existing building can be generated.

In more detail, the guide information generation unit 400 is configured to generate information on the building object 401a according to the performance of the functions of the building object implementation unit 401, the indoor structure remodeling unit 403, and the repair recommendation notification unit 405. When the application of the second design element 403a is completed, the remaining elements of the second design element 403a (e.g., construction method elements for each material) that are not applied to the building object 401a are reflected to reflect the second design element ( Remodeling of the building object 401a reflecting the trend based on 403a) can be completed.

Afterwards, the guide information generator 400 may generate the remodeling design design information through the remodeled building object 401a.

Figure 5 is a block diagram illustrating a design service providing unit of a building design system considering remodeling design reflecting trends according to an embodiment of the present invention.

Referring to FIG. 5, a building design system considering remodeling design reflecting trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor (e.g., a remodeling design reflecting the trends of FIG. 1 The building design system 100 considering design (hereinafter referred to as the design system) may include a design service providing unit 501 (e.g., the design service providing unit 105 in FIG. 1).

According to one embodiment, when the design service provider 501 completes the creation of the design guide information, it provides the design guide information and the design tool interface to the manager account, allowing the manager account to create a design based on the design guide information. It may be configured to complete the design creation process for the new building by reflecting design elements (eg, first design elements) in the design tool interface.

According to one embodiment, when the design service providing unit 501 completes the creation of the remodeling design design information 503a by performing the function of the guide information generating unit 503, the design tool interface provided to the manager account is provided. By reflecting the generated remodeling design design information 503a, a building object corresponding to an existing building for which remodeling has been completed can be output through one area of the design tool interface.

According to one embodiment, the design service provider 501 outputs through one area of the design tool interface and at the same time modifies detailed elements included in the second design element in another area of the design tool interface. The modification interface can also be printed.

In relation to the above, when the design service provider 501 receives an input from the administrator account to change the setting values of detailed elements included in the second design element output through the modification interface, the received input Based on this, the changed setting value can be reflected in the building object. However, the design service provider 501 may prevent some areas of the building object set as remodeling prohibited areas from being modified or deleted by the administrator account.

FIG. 6 is a diagram for explaining an example of the internal configuration of a computing device according to an embodiment of the present invention.

FIG. 6 illustrates an example of the internal configuration of a computing device according to an embodiment of the present invention. In the following description, descriptions of unnecessary embodiments that overlap with the description of FIGS. 1 to 5 described above will be omitted. Do this.

As shown in FIG. 6, the computing device 10000 includes at least one processor 11100, a memory 11200, a peripheral interface 11300, and an input/output subsystem ( It may include at least an I/O subsystem (11400), a power circuit (11500), and a communication circuit (11600). At this time, the computing device 10000 may correspond to a user terminal (A) connected to a tactile interface device or the computing device (B) described above.

The memory 11200 may include, for example, high-speed random access memory, magnetic disk, SRAM, DRAM, ROM, flash memory, or non-volatile memory. there is. The memory 11200 may include software modules, instruction sets, or various other data required for the operation of the computing device 10000.

At this time, access to the memory 11200 from other components such as the processor 11100 or the peripheral device interface 11300 may be controlled by the processor 11100.

The peripheral interface 11300 may couple input and/or output peripherals of the computing device 10000 to the processor 11100 and the memory 11200. The processor 11100 may execute a software module or set of instructions stored in the memory 11200 to perform various functions for the computing device 10000 and process data.

The input/output subsystem 11400 can couple various input/output peripheral devices to the peripheral interface 11300. For example, the input/output subsystem 11400 may include a controller for coupling peripheral devices such as a monitor, keyboard, mouse, printer, or, if necessary, a touch screen or sensor to the peripheral device interface 11300. According to another aspect, input/output peripheral devices may be coupled to the peripheral interface 11300 without going through the input/output subsystem 11400.

Power circuit 11500 may supply power to all or some of the terminal's components. For example, power circuit 11500 may include a power management system, one or more power sources such as batteries or alternating current (AC), a charging system, a power failure detection circuit, a power converter or inverter, a power status indicator, or a power source. It may contain arbitrary other components for creation, management, and distribution.

The communication circuit 11600 may enable communication with another computing device using at least one external port.

Alternatively, as described above, if necessary, the communication circuit 11600 may include an RF circuit to transmit and receive RF signals, also known as electromagnetic signals, to enable communication with other computing devices.

This embodiment of FIG. 6 is only an example of the computing device 10000, and the computing device 11000 may omit some components shown in FIG. 6, further include additional components not shown in FIG. 6, or 2. It may have a configuration or arrangement that combines more than one component. For example, a computing device for a communication terminal in a mobile environment may further include a touch screen or a sensor in addition to the components shown in FIG. 6, and may include various communication methods (WiFi, 3G, LTE) in the communication circuit 1160. , Bluetooth, NFC, Zigbee, etc.) may also include a circuit for RF communication. Components that may be included in the computing device 10000 may be implemented as hardware, software, or a combination of both hardware and software, including one or more signal processing or application-specific integrated circuits.

Methods according to embodiments of the present invention may be implemented in the form of program instructions that can be executed through various computing devices and recorded on a computer-readable medium. In particular, the program according to this embodiment may be composed of a PC-based program or a mobile terminal-specific application. The application to which the present invention is applied can be installed on a user terminal through a file provided by a file distribution system. As an example, the file distribution system may include a file transmission unit (not shown) that transmits the file according to a request from the user terminal.

The device described above may be implemented with hardware components, software components, and/or a combination of hardware components and software components. For example, devices and components described in embodiments may include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA), It may be implemented using one or more general-purpose or special-purpose computers, such as a programmable logic unit (PLU), microprocessor, or any other device capable of executing and responding to instructions. A processing device may execute an operating system (OS) and one or more software applications that run on the operating system. Additionally, a processing device may access, store, manipulate, process, and generate data in response to execution of software. For ease of understanding, a single processing device may be described as being used; however, those skilled in the art will understand that a processing device may include multiple processing elements and/or multiple types of processing elements. It can be seen that it may include. For example, a processing device may include a plurality of processors or one processor and one controller. Additionally, other processing configurations, such as parallel processors, are possible.

Software may include a computer program, code, instructions, or a combination of one or more of these, which may configure a processing unit to operate as desired, or may be processed independently or collectively. You can command the device. Software and/or data may be used by any type of machine, component, physical device, virtual equipment, computer storage medium or device to be interpreted by or to provide instructions or data to a processing device. It can be embodied permanently or temporarily. Software may be distributed over networked computing devices and stored or executed in a distributed manner. Software and data may be stored on 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 on a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc., singly or in combination. Program instructions recorded on the medium may be specially designed and configured for the embodiment or may be known and available to those skilled in the art of computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -Includes optical media (magneto-optical media) and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, etc. Examples of program instructions include machine language code, such as that produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter, etc. 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 limited examples and drawings, various modifications and variations can be made by those skilled in the art from the above description. For example, the described techniques are performed in a different order than the described method, and/or components of the described system, structure, device, circuit, etc. are combined or combined in a different form than the described method, or other components are used. Alternatively, appropriate results may be achieved even if substituted or substituted by an equivalent. Therefore, other implementations, other embodiments, and equivalents to the claims also fall within the scope of the claims described below.

Claims (10)

In a building design system considering remodeling design that reflects trends implemented in a computing device including one or more processors and one or more memories storing instructions executable by the processor,
When receiving request information for the design of a new building from an administrator account, a trend information search unit that searches for trend information about the new building based on the received request information among a plurality of architectural trend information registered online;
When the search for the trend information is completed by performing the function of the trend information search unit, the searched trend information is analyzed based on a pre-stored artificial intelligence algorithm, and the guide generates design guide information for the new building through the analysis results. information generation unit; and
When the creation of the design guide information is completed, the design guide information and design tool interface are provided to the manager account, and the manager account reflects design elements based on the design guide information in the design tool interface to create the new building. A design service provider that completes the design creation process for;
The above request information is:
Information on the square footage of the space where the new building is built, square footage information on the new building, information on the number of rooms in the new building, information on the number of floors in the new building, environmental information on the area including the space where the new building is built, and the new building. Include information on the use of the building,
The trend information search unit,
A plurality of architectural trend information registered online is searched based on keywords corresponding to each of the detailed request information included in the request information, and the matching rate with the keyword among the plurality of architectural trend information retrieved as a search result is Only the information that is higher than the specified matching rate and registered online within the specified period is identified as the trend information,
The guide information generator,
When the search for the trend information is completed, the request information and the trend information are analyzed based on the pre-stored artificial intelligence algorithm, and the first design element, which is a design element required when designing the new building, is preset through the analysis results. A design element identification unit that extracts each item; and
When the extraction of the first design element is completed, a design guide information generator that generates design guide information, which is guide information for the basic design of the new building, by reflecting the extracted first design element in a preset design guide form. Including ;,
The design element identification unit,
When remodeling request information for an existing building previously constructed is received from the manager account and the search for remodeling trend information for the existing building is completed by performing the function of the trend information search unit, the previously stored artificial intelligence Based on an algorithm, the remodeling request information and remodeling trend information are analyzed, and the second design elements for the existing building are extracted for each preset item through the analysis results,
The above remodeling request information is:
Drawing information of the existing building, environmental information of the area including the space where the existing building is located, design caution information according to the drawing information of the existing building, use information of the existing building, use history information of the existing building, and repair request. A building design system considering remodeling design that reflects trends, including information and information on requests for remodeling existing buildings.
delete delete delete delete delete According to paragraph 1,
The first design element is,
Based on the previously stored artificial intelligence algorithm, the information used for the design of a new building is generated as the request information and the trend information are analyzed, including the structural and form elements of the new building and the interior and exterior of the new building. Includes layout elements, material elements used in the construction of the new building, construction method elements for each material used in the new building, and interior elements recommended when constructing the new building,
The second design element is,
Based on the previously stored artificial intelligence algorithm, information used for remodeling of existing buildings is generated as the remodeling request information and remodeling trend information are analyzed, including the structure and form elements of the existing building, the interior and exterior of the existing building. It includes arrangement elements arranged as such, material elements used when remodeling the existing building, construction method elements for each material used in the remodeling of the existing building, elements of note when remodeling the existing building, and repair elements according to the use history of the existing building. A building design system that considers remodeling design that reflects the featured trends.
In clause 7,
The guide information generator,
a building object implementation unit that implements a building object, which is a virtual object corresponding to the existing building based on the remodeling request information, in 3D space when the extraction of the second design element required when remodeling the existing building is completed;
When the implementation of the building object is completed, among the second design elements, an indoor structure corresponding to a significant element when remodeling an existing building is identified, and the identified indoor structure is prevented from being remodeled or deleted from the building object. 2 An interior structural remodeling department that completes remodeling by modifying the building object to correspond to the structural and form elements of the existing building among design elements; and
When the function of the indoor structural remodeling unit is completed, an area based on repair elements according to the use history of the existing building is identified among the second design elements, and a graphic effect is applied to the identified area in the existing building object to recommend repair. A building design system considering remodeling design that reflects trends, further comprising a repair recommendation notice section that announces.
According to clause 8,
The guide information generator,
When the functions of the building object implementation unit, the indoor structure remodeling unit, and the repair recommendation notice unit are completed, the second design element is applied to the building object to generate remodeling design design information for the existing building. A building design system that considers remodeling design that reflects current trends.
According to clause 9,
The design service provider department,
When the creation of the remodeling design drawing information is completed, the generated remodeling design drawing information is reflected in the design tool interface provided to the manager account, and a building corresponding to the existing building for which remodeling has been completed is completed through one area of the design tool interface. Print the object,
A trend characterized in that the detailed elements modified by the administrator account are reflected in the building object by outputting a modification interface in which detailed elements included in the second design element can be modified in another area of the design tool interface. A building design system that takes into account remodeling design.