KR102627444B1 - Pop-up store space design 3D modeling delivery system - Google Patents

Abstract

The present invention relates to a system for providing 3D modeling for pop-up store space design. Specifically, it relates to a system for providing 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.
The effect of the present invention described above is to provide a space design close to the actual appearance by providing 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.

Description

Pop-up store space design 3D modeling delivery system {Pop-up store space design 3D modeling delivery system}

The present invention relates to a system for providing 3D modeling for pop-up store space design. Specifically, it relates to a system for providing 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.

In general, a pop-up store refers to a temporary store that operates for a short period of time. Recently, the activity of pop-up stores is increasing as spaces that can be used as pop-up stores are created in crowded downtown areas or streets with a large floating population.

Pop-up stores are often operated as a one-time operation, convey the core characteristics of a brand to people, and can be advantageous for word-of-mouth marketing. Unlike existing stores, they are a special type of store with unique designs and ideas, giving people a special experience associated with the brand. It has the effect of giving a sense of novelty by encouraging people to do it. In other words, it is the optimal way to increase brand awareness.

However, if a clear concept and target audience analysis are not made in the initial strategy establishment stage and work with a design company is carried out only with floor plans, there is a problem that the pop-up store interior may proceed in a direction different from the direction the client had in mind.

Korean Patent Publication No. 10-1925640 (2018.11.29) Korean Patent Publication No. 10-2020-0095853 (2020.08.11)

The purpose of the present invention is to provide 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to solve the above problem, the present invention includes a 3D modeling server 100 that provides a proposal including 3D drawings according to the client's needs, and the 3D modeling server 100 collects the client's needs information and , a needs analysis unit 110 to receive concept information of the target space where design work will be performed, and to receive needs analysis information including interior shape and structure type by analyzing the needs information and concept information using artificial intelligence, and needs analysis information. Transmit a needs analysis report containing a to the client terminal 200, receive confirmation information on the needs analysis information through the client terminal 200, and generate a proposal to generate a space design proposal for the target space based on the confirmation information. Characterized by comprising a unit 120 and a 3D modeling unit 130 for analyzing a two-dimensional floor plan containing target spatial information and arranging three-dimensional interiors and structures based on the analyzed information to generate a three-dimensional drawing. Provides a 3D modeling provision system for pop-up store space design.

The effect of the present invention described above is to provide a space design close to the actual appearance by providing 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.

The effects of the present invention are not limited to the effects mentioned above, and various effects may be included within the scope apparent to those skilled in the art from the contents described below.

1 is a diagram showing the overall appearance of the present invention.
Figure 2 is a configuration diagram showing the overall configuration of the present invention.
Figure 3 is a detailed configuration diagram of the 3D modeling unit 130 of the present invention.
Figure 4 is an example diagram of a two-dimensional floor plan obtained by the floor plan analysis unit 131 of the present invention.
Figure 5 is an example diagram of a 3D drawing generated by the 3D drawing generator 132 of the present invention.

Terms and words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor may appropriately define the concept of terms to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on principles.

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

The present invention relates to a system for providing 3D modeling for pop-up store space design. Specifically, it relates to a system for providing 3D modeling to suggest interiors, structures, etc. suitable for the pop-up store concept.

Figure 1 is a diagram showing the overall appearance of the present invention, and the present invention allows the 3D modeling server 100 and the requester terminal 200 to communicate through a communication network.

Figure 2 is a configuration diagram showing the configuration of the 3D modeling server 100 of the present invention.

The 3D modeling server 100 is used to produce a 3D drawing according to the client's needs and provide a proposal.

Referring to FIG. 3, the 3D modeling server 100 includes a needs analysis unit 110, a proposal generation unit 120, and a 3D modeling unit 130.

The needs analysis unit 110 collects needs information provided through the client's client terminal 200, receives concept information of the target space for design work, and analyzes the needs information and concept information using artificial intelligence to determine the shape of the interior, This is to provide needs analysis information including structure type.

The concept information includes information such as target space size, target space use, age range of use, number of users, multi-angle and multi-faceted images, item type (corresponding to sold products in the case of pop-up stores), etc.

The needs information is information for identifying the user's needs, and includes information such as preferred color, preferred tone, preferred material, preferred pattern, and desired budget.

The needs analysis report is information analyzed by artificial intelligence by combining concept information and needs information, and may include information on analysis results tailored to the concept and needs of the target space, such as interior type, type of structure, estimated budget, and concept information. .

The proposal generation unit 120 transmits a needs analysis report containing needs analysis information to the client terminal 200, receives confirmation information on the needs analysis report through the client terminal 200, and sends confirmation information to the target space based on the confirmation information. This is to create a space design proposal.

The confirmation information may be any one or more of information including progress request information for requesting progress in the same manner as the contents of the needs analysis report, or information including feedback information requesting additions or modifications among the information proposed in the needs analysis report. there is.

The space proposal may include a two-dimensional floor plan, three-dimensional drawing, expected budget details, color composition, prop information, etc. generated by the 3D modeling unit 130.

The two-dimensional floor plan and three-dimensional floor plan may be identical to the concept image included in the needs analysis report and may include feedback information on the needs analysis report provided through the client's client terminal 200.

The expected budget details include prop information, interior composition, etc. based on the desired budget of the needs information provided by the client, the estimated budget analyzed through needs analysis information, and the feedback information on the needs analysis report provided through the client's client terminal 200. It may be the final reflected and calculated amount.

In addition, the estimated budget details are compared with the estimated budget provided in the needs analysis report in the following [Equation 1] and the final reflected and changed amount through feedback information, and the cost correction index for the budget details is calculated by reflecting the common cost per area of the target space. can be calculated and provided.

(Here, w is the correction index of the cost to the budget details, k is the target space characteristic weight, x is the common cost per area of the target space, s ₁ is the changed amount, and s ₂ is the estimated amount.)

The target space characteristic weight is a weight set according to the concept and type of the pop-up store installed in the target space, and has different values depending on the items handled in the pop-up store, which can provide a pre-set weight. The target space characteristic weight range is preferably between 0.5 and 1.5. It is desirable to have a high value when the common cost per area of the target space is high and a low value when the common cost per area of the target space is low.

In addition, the common cost per area of the target space is a cost commonly used in each part and consists of indirect material costs, indirect labor costs, and indirect expenses.

After calculating the correction index w, the final amount can be calculated by multiplying the estimated amount. This has the effect of normalizing the estimate by reflecting the weight calculated in a standardized manner.

The color composition is composed based on needs information and concept information and may correspond to the overall image of the target space and the color information of items including props to be used.

Prop information may be information that includes prop information provided in a needs analysis report or information that has been changed to alternative props, and may be prop information that has been changed to reflect information reflected in the expected budget details.

Prop information may include detailed information on items that are added or changed by reflecting the client's feedback, information on changed props according to expected budget details, etc.

Detailed information may include information such as image, price, product name, product size, composition, material, etc.

The 3D modeling unit 130 analyzes a two-dimensional floor plan containing target spatial information and places three-dimensional interiors and structures based on the analyzed information to generate a three-dimensional drawing.

Figure 3 is a detailed configuration diagram of the 3D modeling unit 130. The 3D modeling unit 130 includes a plan analysis unit 131, a 3D drawing creation unit 132, a 3D drawing correction unit 133, and a 3D printing unit. It is configured to include a transmission unit 134.

The floor plan analysis unit 131 is used to obtain and analyze a two-dimensional floor plan containing target spatial information including interior and structure locations.

Figure 4 is an example diagram of a two-dimensional floor plan obtained through the floor plan analysis unit 131.

The 3D drawing generation unit 132 is used to generate a 3D drawing by arranging three-dimensional interiors and structures based on information analyzed through the floor plan analysis unit 131.

Figure 5 is an example diagram of a 3D drawing generated through the 3D drawing generator 132.

The 3D drawing correction unit 133 is used to check the accuracy of the drawing in accordance with the actual space and modify the drawing.

In other words, the purpose is to increase the accuracy of the location of structures including interior and props in real space, identify problems that occur in real space in advance, and prevent problems as much as possible by adjusting the size of props, etc. through the 3D drawing correction unit 133. If there is a change, changes to structural information such as props provided in the space design proposal can be transmitted to the client terminal (200).

The 3D drawing correction unit 133 can modify the drawing by calculating the structure correction size through the following [Equation 2] in order to achieve harmony between the structures.

Equation 2 below can be used to ensure that the structures are in harmony by modifying and improving the average dimensions compared to surrounding structures.

(Here, Q is the modified structure size, QL is the initial structure size, r is the number of structures with a value greater than the y-coordinate value of the initial structure size, and y is the number of structures with a value smaller than the y-coordinate value of the initial structure size. , dh is the y-coordinate value of the hth x-coordinate value among the list of structures prepared according to the budget, whose y-coordinate value is greater than the initial structure size, and bv is the y-coordinate value among the list of structures prepared according to the budget, where the y-coordinate value is greater than the initial structure size. The y coordinate value for the vth x coordinate value, f is the preset standard distribution error value.)

The structure list is a list of structures that can fit within the initial structure size according to the budget, and includes the size (x, y coordinate values) for each structure.

In other words, by correcting and improving the average value of the structures through the structure modification size calculated through Equation 2 above, it is possible to exclude structures that stand out aesthetically from the list of structures within the budget and select the optimal structure.

The 3D print transmission unit 134 is for printing the generated 3D drawing in 3D form.

The client terminal 200 is intended to communicate with the 3D modeling server 100 via a communication network and to transmit the client's needs information to the 3D modeling server 100.

In addition, the client terminal 200 can transmit confirmation information about the needs analysis report provided through the 3D modeling server 100 to the 3D modeling server 100 and receive information about corrections/changes from the 3D modeling server 100. It can be provided.

The embodiments described in the present specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so various equivalents and modifications can be substituted for them. It should be understood that there may be examples.

100 3D modeling server
110 Needs Analysis Department
120 Proposal Generation Department
130 3D Modeling Department
131 Floor Plan Analysis Department
132 3D drawing generation unit
133 3D drawing modification unit
134 3D Print Transmission Department
200 client terminal

Claims (3)

It includes a 3D modeling server (100) that provides proposals including 3D drawings according to the client's needs,

The 3D modeling server 100 is
A needs analysis department (Needs Analysis Department) collects the client's needs information, provides concept information of the target space for design work, analyzes the needs information and concept information using artificial intelligence, and provides needs analysis information including interior shape and type of structure. 110) Wow,
Transmitting a needs analysis report containing needs analysis information to the client terminal 200, receiving confirmation information on the needs analysis information through the client terminal 200, and generating a space design proposal for the target space based on the confirmation information. A proposal generation unit 120 for
It includes a 3D modeling unit 130 for analyzing a two-dimensional floor plan containing target spatial information and generating a three-dimensional drawing by arranging three-dimensional interiors and structures based on the analyzed information,

The 3D modeling unit 130 is
A floor plan analysis unit 131 that acquires and analyzes a two-dimensional floor plan containing target spatial information including interior and structure locations,
A 3D drawing generator 132 that generates a 3D drawing by arranging three-dimensional interiors and structures based on information analyzed through the floor plan analysis unit 131;
A three-dimensional drawing correction unit 133 for checking the accuracy to match the actual space and modifying the drawing,
It includes a 3D print transmission unit 134 for printing the generated 3D drawing in 3D form,

The needs analysis report is information analyzed by artificial intelligence by combining concept information and needs information, and includes information on the concept of the target space, including interior type, type of structure, estimated budget, and concept information, and analysis results tailored to the needs. ,

The space proposal includes a two-dimensional floor plan, three-dimensional drawing, expected budget details, color composition, and prop information generated by the 3D modeling unit 130,

The above estimated budget details are provided by comparing the estimated budget provided in the needs analysis report in the following [Equation 1] with the final reflected and changed amount through feedback information, and calculating the correction index by reflecting the common cost per area of the target space,
[Equation 1] is,

(Here, w is the correction index of the cost to the budget details, k is the target space characteristic weight, x is the common cost per area of the target space, s ₁ is the changed amount, and s ₂ is the estimated amount.),

The target space characteristic weight is a weight set according to the concept and type of the pop-up store installed in the target space,

Characterized in that the final amount is calculated by calculating the correction index w of the cost for the budget details and then multiplying it by the estimated budget,

The 3D drawing correction unit 133 calculates the structure correction size through the following [Equation 2] in order to harmonize the structures and revise the drawing.
[Equation 2] is

(Here, Q is the modified structure size, QL is the initial structure size, r is the number of structures with a value greater than the y-coordinate value of the initial structure size, and y is the number of structures with a value smaller than the y-coordinate value of the initial structure size. , dh is the y-coordinate value of the hth x-coordinate value among the list of structures prepared according to the budget, whose y-coordinate value is greater than the initial structure size, and bv is the y-coordinate value among the list of structures prepared according to the budget, where the y-coordinate value is greater than the initial structure size. The y coordinate value for the vth x coordinate value, f is the preset standard distribution error value.),

The structure list is a list of structures that fit within the initial structure size according to the budget, and includes the size (x, y coordinate values) for each structure,

A pop-up store space design 3D modeling providing system characterized by correcting and supplementing the average value of structures through the structure correction size calculated through Equation 2 above. delete delete