KR102430721B1 - Method and server for registering feature information of point for digitizing apparel pattern - Google Patents

Abstract

According to an embodiment of the present invention, in a method of registering feature information of a point for digitizing a clothing pattern, performed by a server, a guide line for photographing a drafted pattern panel including a reference area is a user terminal is displayed, and when the pattern panel is photographed in a state in which the reference area and the guide line are aligned, obtaining image information of the pattern panel generated through photographing of the user terminal; analyzing the image of the pattern panel, dividing the outline of the pattern panel into sections, and dividing each of the plurality of lines divided by sections into straight lines and curves; Recognize a plurality of points located at a point where each of the plurality of lines meet, and define each of the plurality of points by type as a first point where a straight line and a curve meet, a second point where a curve and a curve meet, and a third point where a straight line and a straight line meet separated by dots; and registering information indicating the type, coordinates, and order of each of the plurality of points as characteristic information of the points constituting the pattern panel.

Description

Method and server for registering feature information of points for digitizing clothing patterns

The present invention relates to a method and server for registering feature information of points for digitizing clothing patterns, and more particularly, dividing the outline of a pattern panel into sections, dividing each of the plurality of lines divided by sections into straight lines and curves, , recognizes a plurality of points located at a point where each of the plurality of lines meet, classifies each of the plurality of points by type, and provides information indicating the type, coordinates and sequence number of each of the plurality of points, characteristic information of points constituting the pattern panel It relates to a method of registering as and a server.

Clothing is a product made by hand using a sewing machine. Due to the characteristics of the market that needs to reflect various designs, new designs are needed every time, and patterns for making clothes are being produced accordingly.

On the other hand, a CAD system called fashion CAD is being introduced to improve the efficiency of the cutting process for mass production of clothes and to efficiently work by using grading to increase the size of the pattern with a computer.

These patterns and pattern CAD systems are inextricably linked, and since the patterning of the clothing design itself is the design drawing of the clothing design, the handling of pattern data is the first process performed in the clothing production system, and without this process Clothing production is the most important because it is impossible.

Although the Fashion CAD system is a very efficient system, the introduction cost is very high, and if the same system is not built in terms of use, the closed use method that cannot even check the data is a typical disadvantage.

Accordingly, there is an increasing demand for a service that does not separately incur system construction costs while maintaining the functions of pattern data production, editing, and output, which are advantages of the Fashion CAD system.

The present invention is to solve the problems of the prior art described above, by dividing the outline of the pattern panel by section, dividing each of a plurality of lines divided by section into a straight line and a curve, and located at the point where each of the plurality of lines meets To provide a method and server for recognizing a plurality of points, classifying each of the plurality of points by type, and registering information indicating the type, coordinate, and sequence number of each of the plurality of points as characteristic information of the points constituting the pattern panel for that purpose

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

According to an embodiment of the present invention for achieving the above object, in a method of registering characteristic information of a point for digitizing a clothing pattern, performed by a server, a pattern panel drafted including a reference area is photographed When a guide line is displayed on the user terminal to perform photographing of the pattern panel in a state where the reference area and the guide line are aligned, image information of the pattern panel generated through photographing of the user terminal is obtained step; analyzing the image of the pattern panel, dividing the outline of the pattern panel into sections, and dividing each of the plurality of lines divided by sections into straight lines and curves; Recognize a plurality of points located at a point where each of the plurality of lines meet, and define each of the plurality of points by type as a first point where a straight line and a curve meet, a second point where a curve and a curve meet, and a third point where a straight line and a straight line meet separated by dots; and registering information indicating the type, coordinates, and order of each of the plurality of points as characteristic information of the points constituting the pattern panel.

The step of dividing each of the plurality of lines into a straight line and a curved line may include: identifying points a1 and a2 located at both ends of line A, which are any one of the plurality of lines; identifying point a3 located in the middle of the line A instead of at both ends; and generating a comparison target line B that connects the a1 point and the a2 point with a straight line, and when it is confirmed that the a3 point is located on the B line, the A line is separated by a straight line, and the A line is separated on the B line. If it is confirmed that the point a3 is not located, dividing the line A by a curve may be included.

The method of registering feature information of a point for digitizing the clothing pattern further comprises the step of deriving the shape of the pattern panel by checking the type, coordinate, and order number of each of the plurality of points based on the feature information, The step of deriving the shape of the pattern panel may include: calculating a straight line using a point divided by the first point and a point divided by the third point; calculating a curve using a point divided by the first point and a point divided by the second point; and deriving the shape of the pattern panel by connecting the calculated straight line and the calculated curve in sequence.

In the calculating of the straight line, when a1 point registered in the first order in the feature information is divided into the first point, and a2 point registered in the second order in the feature information is divided into the third point, the a1 point and calculating the point a2 by connecting the point a2 with a straight line; calculating the a1 point and the a2 point by connecting the a1 point and the a2 point with a straight line when the a1 point is divided into the third point and the a2 point is divided into the third point; and when the a1 point is divided into the first point and the a2 point is also divided into the first point, the type of line connected from the a1 point to the next and the type of the line connected from the a2 point to the previous sequence is a straight line. When it is confirmed, the step of calculating by connecting the a1 point and the a2 point with a straight line, and calculating the curve, the a1 point is divided into the first point, and the a2 point is divided into the second point , calculating by connecting the a1 point and the a2 point with a curve; calculating the a1 point and the a2 point by connecting the a1 point and the a2 point with a curve when the a1 point is divided into the second point and the a2 point is divided into the second point; and when the a1 point is divided into the first point and the a2 point is divided into the first point, the type of line connected from the a1 point to the next and the type of the line connected from the a2 point to the previous sequence is a curve. If confirmed, the method may include calculating the a1 point and the a2 point by connecting them with a curve.

The step of calculating the curve includes i) the position of the point b1, which is the antipodal point of the point a3 to be located at the maximum width in the curve section between the points a1 and a2, on the line A connecting the points a1 and a2 with a straight line. checking; ii) calculating the position of the point a3 based on the distance of the maximum width set in the curved section between the point a1 and the point a2 and the position of the point b1; iii) confirming the position of the point b2, which is the antipodal point of the point a4 to be located at the maximum width in the curved section between the point a1 and the point a3, on the line B connecting the point a1 and the point a3 with a straight line; iv) calculating the location of the point a4 based on the distance of the maximum width set in the curved section between the point a1 and the point a3 and the location of the point b2; v) confirming the position of the point b3, which is the antipodal point of the point a5 to be located at the maximum width in the curved section between the point a2 and the point a3, on the line C connecting the point a2 and the point a3 with a straight line; vi) calculating the position of the point a5 based on the distance of the maximum width set in the curved section between the point a2 and the point a3 and the position of the point b3; and connecting the points calculated by repeating steps i) to vi) with a curve to calculate the points.

According to an embodiment of the present invention, just by photographing the pattern panel drafted by the manufacturer, the outline of the pattern panel is divided into sections, each of the plurality of lines divided by section is divided into straight lines and curves, and a plurality of By recognizing a plurality of points located at the point where each line meets, classifying each of the plurality of points by type, and registering information indicating the type, coordinate, and sequence number of each of the plurality of points as characteristic information of the points constituting the pattern panel. , it is possible to derive the shape of the pattern panel again through only feature information later.

In addition, according to an embodiment of the present invention, it is possible to easily create, edit, and output handmade clothing pattern data using characteristic information, thereby increasing economic feasibility and production efficiency by breaking away from the existing fashion CAD system.

The effects of the present invention are not limited to the above effects, and it should be understood to include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a diagram schematically showing the configuration of a system for providing a digitizing service of a clothing pattern according to an embodiment of the present invention.
2 is a diagram showing the configuration of a server according to an embodiment of the present invention.
3 is a diagram showing the configuration of a user terminal according to an embodiment of the present invention.
4 is a flowchart illustrating a process of registering feature information of a point for digitizing a clothing pattern performed by a server according to an embodiment of the present invention.
5 is a view showing a pattern panel according to an embodiment of the present invention.
6 is a view for explaining photographing of a pattern panel according to an embodiment of the present invention.
7 is a view showing a plurality of points recognized in a pattern panel according to an embodiment of the present invention.
8 is a view for explaining a process of dividing a line into a straight line and a curved line according to an embodiment of the present invention.
9 is a diagram for explaining a process of calculating points by connecting points with a curve according to an embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. However, the present invention may be embodied in several different forms, and thus 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.

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

1 is a diagram schematically showing the configuration of a system for providing a digitizing service of a clothing pattern according to an embodiment of the present invention.

Referring to FIG. 1 , a system according to an embodiment of the present invention includes a server 100 and a user terminal 200 , and includes a communication network 300 that interconnects the server 100 and the user terminal 200 . do.

The server 100 according to an embodiment of the present invention may provide feature information of the clothing pattern, etc. to provide a digitizing service of the clothing pattern through an application mounted on the user terminal 200 .

The user terminal 200 may receive a user interface capable of registering characteristic information of the clothing pattern from the server 100 , and use the camera module included in the user terminal 200 to photograph the clothing pattern panel and shoot. may transmit the generated image information to the server 100 .

The server 100 may receive and obtain image information of the pattern panel from the user terminal 200 , extract characteristic information of a clothing pattern through the acquired image information, and register the extracted characteristic information in a database.

The application used to provide the digitizing service of the clothing pattern may be an application embedded in the user terminal 200 or an application downloaded from an application distribution server and installed in the user terminal 200 .

The user terminal 200 may mean a communication terminal capable of using an application in a wired/wireless communication environment, and may be, for example, a portable terminal. The user terminal 200 may include any form of a handheld computing device (eg, PDA, email client, etc.), a mobile phone, or any other type of computing or communication platform, although the present invention is not limited thereto. It is not limited, and as described above, it may be borrowed without limitation for a terminal capable of mounting an application.

The user terminal 200 is a terminal used by manufacturers who produce clothing patterns, and by digitizing the clothing pattern panel based on the photographed image, the characteristic information of the pattern panel converted into digital data is registered in the server 100. , it is possible to derive the shape of the pattern panel again through only feature information later.

Meanwhile, the communication network 300 serves to connect the server 100 and the user terminal 200 . That is, the communication network 300 refers to a communication network that provides an access path so that the user terminal 200 can transmit and receive data after accessing the server 100 . The communication network 300 is, for example, a wired network such as LANs (Local Area Networks), WANs (Wide Area Networks), MANs (Metropolitan Area Networks), ISDNs (Integrated Service Digital Networks), wireless LANs, CDMA, Bluetooth, satellite communication, etc. may cover a wireless network, but the scope of the present invention is not limited thereto.

2 is a diagram showing the configuration of the server 100 according to an embodiment of the present invention.

Referring to FIG. 2 , the server 100 according to an embodiment of the present invention includes a communication module 110 , a memory 120 , a processor 130 , and a database 140 .

The communication module 110 provides a communication interface necessary to provide a transmission/reception signal between the server 100 and the user terminal 200 in the form of packet data by interworking with the communication network 300 . Furthermore, the communication module 110 may perform a role of receiving a data request from the user terminal 200 and transmitting data in response thereto.

The communication module 110 may be a device including hardware and software necessary for transmitting and receiving signals such as control signals or data signals through wired/wireless connection with other network devices.

In the memory 120, a program for performing a method of registering characteristic information of a point for digitizing a clothing pattern is recorded. In addition, the processor 130 performs a function of temporarily or permanently storing the processed data. Here, the memory 120 may include magnetic storage media or flash storage media, but the scope of the present invention is not limited thereto.

The processor 130, as a kind of central processing unit, controls the entire process of providing a method of registering feature information of a point for digitizing a clothing pattern. Each step performed by the processor 130 will be described later with reference to FIG. 4 .

Here, the processor 130 may include all kinds of devices capable of processing data, such as a processor. Here, the 'processor' may refer to a data processing device embedded in hardware, for example, having a physically structured circuit to perform a function expressed as a code or an instruction included in a program. As an example of the data processing device embedded in the hardware as described above, a microprocessor, a central processing unit (CPU), a processor core, a multiprocessor, an application-specific integrated (ASIC) circuit) and a processing device such as a field programmable gate array (FPGA), but the scope of the present invention is not limited thereto.

The database 140 may store image information of the pattern panel received from the user terminal 200 , feature information extracted through image analysis of the pattern panel, and the like.

Here, the characteristic information is information indicating the characteristics of the points constituting the pattern panel, and may include information on the type, coordinates, order number, etc. of each point.

3 is a diagram showing the configuration of the user terminal 200 according to an embodiment of the present invention.

Referring to FIG. 3 , the user terminal 200 according to an embodiment of the present invention includes a communication module 210 , a memory 220 , a processor 230 , a display module 240 , and a camera module 250 . .

In the description of the communication module 210 , the memory 220 and the processor 230 , the description overlaps with the description of the communication module 110 , the memory 120 and the processor 130 described above with reference to FIG. 2 . is to be omitted.

In detail, the communication module 210 provides a communication interface necessary to provide a transmission/reception signal between the server 100 and the user terminal 200 in the form of packet data by interworking with the communication network 300 . Furthermore, the communication module 210 may transmit a data request to the server 100 and receive data in response thereto.

In the memory 220, a program for performing a method of registering feature information of a point for digitizing a clothing pattern is recorded. In addition, the processor 230 performs a function of temporarily or permanently storing the processed data. In this case, programs for performing the method of registering feature information of dots for digitizing clothing patterns recorded in the memory 120 and the memory 220 may be different for a terminal and for a server.

The processor 230 is a kind of central processing unit and controls the entire process of providing a method of registering feature information of a point for digitizing a clothing pattern. The processor 230 may perform the process of digitizing the clothing pattern by itself, but preferably, the process of digitizing the clothing pattern through the server 100 may be performed.

The display module 240 performs a function of displaying an application execution screen for a method of registering characteristic information of a dot for digitizing a clothing pattern, and an interface for a method of registering characteristic information of a dot for digitizing a clothing pattern through the application can be provided.

The camera module 250 is a device for photographing a pattern panel in order to digitize a clothing pattern, and has a function of generating image information, image information, and the like.

4 is a flowchart illustrating a process of registering feature information of a point for digitizing a clothing pattern performed by the server 100 according to an embodiment of the present invention.

Referring to FIG. 4 , first, in step S401 , the server 100 may acquire image information of the pattern panel.

Specifically, a pattern panel including a reference area is drafted, a guide line for photographing the drafted pattern panel is displayed on the user terminal 200, and the pattern panel is photographed in a state where the reference area and the guide line are aligned. In this case, the server 100 may acquire image information of the pattern panel generated through photographing of the user terminal 200 .

In step S402, the server 100 may analyze the image of the pattern panel, extract an outline of the pattern panel, and divide the extracted outline into sections.

In dividing the outline into sections, the server 100 may classify the outline for each section according to a preset interval, and determine the part that changes to more than or less than a specific angle as the start of a new section to divide the outline into sections. .

In step S403 , the server 100 may identify the type of line included in the section divided in step S402 and classify the line into a straight line and a curved line. A detailed description related to dividing a line into a straight line and a curved line will be described later with reference to FIG. 8 .

In step S404, the server 100 may check whether a line that is not divided into a straight line and a curved line exists in the outline of the pattern panel.

If a line that is not divided into a straight line and a curved line exists in the outline of the pattern panel in step S404, the server 100 may perform step S403 again.

For example, when line A and line B are divided by the outline of the pattern panel, and line B is not divided by any line while line A is separated by a straight line, the server 100 performs step S403 again to , line B can be separated by a curve.

That is, when the server 100 divides the outline of the pattern panel into a plurality of sections for each section, the process of dividing the plurality of lines divided for each section into a straight line and a curve is repeatedly performed, so that the entire outline of the pattern panel is a straight line for each section. and curves can be distinguished.

If there is no line that is not divided into straight and curved lines in the outline of the pattern panel in step S404, in step S405, the server 100 recognizes a plurality of points located at the points where each of the plurality of lines divided by section meet, It is possible to distinguish which type of point the recognized point is. A detailed description related to the content of dividing the points will be described later with reference to FIG. 7 .

In classifying the points by type, the server 100 divides a point where a straight line and a curve meet as a first point, classifies a point where a curve and a curve meet as a second point, and divides a point where a straight line and a straight line meet as a third point. can be separated by dots.

For example, when line A is a straight line and line B is a curve, point a located at a point where line A and line B meet may be classified as a first point.

In step S406, the server 100 checks whether there is a point that is not divided into the first point, the second point, and the third point among the plurality of points connecting each of the plurality of lines divided for each section in the outline of the pattern panel. can

If there is a point that is not divided into the first point, the second point, and the third point among the plurality of points in step S406 , the server 100 may perform step S405 again.

For example, line A, line B, and line C are divided by the outline of the pattern panel. Point a1 located at the point where line A and line B meet is divided as the first point, and line B and line C are located at the intersection If point a2 is not divided into any type of point, the server 100 may perform step S405 again to classify point a2 as a second point.

That is, the server 100 repeats the process of classifying the plurality of points by type when the outline of the pattern panel is divided into a plurality of lines for each section and a plurality of points connecting each of the plurality of lines divided for each section are recognized. Accordingly, all of the plurality of points may be divided into the first point, the second point, and the third point for each type.

If there is no point that is not divided by type among the plurality of points in step S406 , in step S407 , the server 100 may extract and register characteristic information for each of the plurality of points constituting the pattern panel.

In registering the feature information, the server 100 may extract information indicating the type, coordinate, and order of each of a plurality of points, and register the extracted information as feature information of the points constituting the pattern panel.

After the characteristic information is registered, the server 100 may derive the shape of the pattern panel by checking the type, coordinate, and order number of each of the plurality of points based on the characteristic information.

Specifically, the server 100 calculates a straight line using a point divided by a first point and a point divided by a third point, and a curve using a point divided by a first point and a point divided by a second point can be calculated.

In calculating a straight line, the server 100 divides the a1 point registered in the first order in the feature information into the first point, and when the a2 point registered in the second order in the feature information is divided into the third point, the a1 point and the a2 It can be calculated by connecting the points with a straight line.

In addition, when the point a1 is divided into the third point and the point a2 is divided into the third point, the server 100 may calculate the point a1 and the point a2 by connecting them with a straight line.

In addition, in the server 100, when point a1 is divided into the first point and point a2 is divided into the first point, the type of line connected from point a1 to the next order and the type of line connected from point a2 to the previous order are straight lines. If confirmed, it can be calculated by connecting the points a1 and a2 with a straight line.

In calculating the curve, when point a1 is divided into a first point and point a2 is divided into a second point, the server 100 may calculate by connecting point a1 and point a2 with a curve.

Also, when the point a1 is divided into the second point and the point a2 is divided into the second point, the server 100 may calculate the point a1 and the point a2 by connecting them with a curve.

In addition, the server 100 determines that when point a1 is divided into the first point and point a2 is divided into the first point, the type of line connected from point a1 to the next order and the type of line connected from point a2 to the previous order are curves. If confirmed, it can be calculated by connecting the points a1 and a2 with a curve.

In calculating a straight line by connecting the points, the server 100 can calculate a straight line only by connecting the two points with a straight line since only one straight line passing through the two points can be calculated.

Since the server 100 connects the points to calculate the curve, the curve passing through the two points can be calculated in various forms depending on the curved shape, so simply connecting the two points cannot calculate the curve. , it is possible to check the point located at the maximum width in the curve section, and calculate the curve using the checked point. A detailed description in this regard will be described later with reference to FIG. 9 .

When the server 100 connects the points to calculate a straight line and a curve, the calculated straight line and the calculated curve are connected in sequence to derive the shape of the pattern panel.

5 is a view showing a pattern panel according to an embodiment of the present invention.

A garment pattern maker may draft a pattern based on the body measurements intended by the manufacturer, and the categories of body measurements include neck width, neck circumference, shoulder width, shoulder length, chest circumference, waist circumference, hem circumference, front length, Various items such as back length (top length), waist length, sleeve circumference, sleeve length, sleeve hem circumference, etc. can be included.

When a pattern is drafted by a manufacturer, as shown in FIG. 5 , a pattern panel 1000 may be manufactured.

The pattern panel 1000 may represent a front plate, and the reference area 2000 may be included in the pattern panel 1000 to be drafted.

The reference area 2000 may be set in a square shape, and may be used as a reference for preventing measurement errors and improving measurement accuracy when photographing the pattern panel 1000 .

6 is a view for explaining photographing of the pattern panel 1000 according to an embodiment of the present invention.

As shown in FIG. 6 , the pattern panel 1000 may be photographed through the user terminal 200 .

In photographing the pattern panel 1000 , the guide line 3000 may be displayed on the screen of the user terminal 200 , and the guide line 3000 and the reference area 2000 displayed on the screen of the user terminal 200 are In the matched state, photographing of the pattern panel 1000 may be performed.

7 is a view showing a plurality of points recognized by the pattern panel 1000 according to an embodiment of the present invention.

The server 100 divides the outline of the pattern panel 1000 into sections, divides each of the plurality of lines divided by sections into straight lines and curves, and recognizes a plurality of points located at the points where each of the plurality of lines meet. can

As shown in FIG. 7 , the server 100 may recognize points a, b, c, d, e, f, g, h, and i in the pattern panel 1000 . .

The server 100 may divide each of the plurality of points into a first point where a straight line and a curve meet, a second point where a curve and a curve meet, and a third point where a straight line and a straight line meet for each type.

That is, the server 100 divides the pattern panel 1000 into a line segment part and a curved part by utilizing the difference in properties of the points constituting the line segment and the curve, and then classifies the types of points according to the type of the divided line. .

For example, point a is divided into a first point where a curve and a straight line meet, point b is divided into a first point where a straight line and a curve meet, point c is divided into a first point where a curve and a straight line meet, d The point is divided into the first point where the straight line and the curve meet, the e point is divided into the first point where the curve and the straight line meet, the f point is divided into the third point where the straight line and the straight line meet, and the g point is the straight line and the curve The intersection may be divided into a first point, point h may be divided into a second point where the curve meets the curve, and point i may be divided into a second point where the curve meets the curve.

8 is a view for explaining a process of dividing a line into a straight line and a curved line according to an embodiment of the present invention.

The server 100 may divide the outline of the pattern panel 1000 for each section, and divide each of the plurality of lines divided for each section into a straight line and a curved line.

As shown in FIG. 8 , the server 100 may recognize line A, which is any one of a plurality of lines divided for each section, and check points a1 and a2 located at both ends of line A, and both ends of line A are You can check the a3 point located in the middle part.

The server 100 may generate a comparison target line B by connecting the points a1 and a2 with a straight line.

When it is confirmed that the point a3 is located on the line B, the server 100 may classify the line A as a straight line, and if it is confirmed that the point a3 is not located on the line B, the server 100 may classify the line A as a curve.

9 is a diagram for explaining a process of calculating points by connecting points with a curve according to an embodiment of the present invention.

As shown in FIG. 9 , the server 100 may check the positions of the points a1 and a2 to be connected with a curve, and may generate a line A connecting the points a1 and a2 with a straight line.

The server 100 may check the position of the point b1, which is the antipodal point of the point a3 to be located at the maximum width in the curve section between the points a1 and a2, on the A line.

The server 100 may calculate the position of point a3 based on the distance of the maximum width set in the curved section between the points a1 and a2 and the position of the point b1.

The server 100 repeats the process of calculating the position of point a3 in the curve section between point a1 and point a2 to calculate the location of point a4 in the curve section between point a1 and point a3, and the curve between point a2 and point a3 The position of point a5 can be calculated in the section.

In order to calculate the position of the a4 point, the server 100 may check the positions of the a1 point and the a3 point to be connected with a curve, and may generate a B line connecting the a1 point and the a3 point with a straight line.

The server 100 may check the position of point b2, which is an antipodal point of point a4 to be located at the maximum width in the curve section between point a1 and point a3, on line B.

The server 100 may calculate the position of the point a4 based on the distance of the maximum width set in the curved section between the points a1 and a3 and the position of the point b2.

In order to calculate the position of the a5 point, the server 100 may check the positions of the a2 point and the a3 point to be connected with a curve, and may generate a C line connecting the a2 point and the a3 point with a straight line.

The server 100 may check the position of the point b3, which is the antipodal point of the point a5 to be located at the maximum width in the curve section between the points a2 and a3, on the C line.

The server 100 may calculate the position of the point a5 based on the distance of the maximum width set in the curve section between the points a2 and a3 and the position of the point b3.

The server 100 calculates the position of point a3 in the curve section between point a1 and point a2, then calculates the position of point a4 in the curve section between point a1 and point a3, and calculates the location of point a4 in the curve section between point a2 and point a3, and then a5 in the curve section between point a2 and point a3 A plurality of points can be calculated by repeating the process of calculating the position of the point, and by connecting the calculated points with a curve, a curved section connected by a1 point, a4 point, a3 point, a5 point, a2 point, etc. can be calculated. can

The above description of the present invention is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

100: server 110: communication module
120: memory 130: processor
140: database 200: user terminal
210: communication module 220: memory
230: processor 240: display module
250: camera module 300: communication network
1000: pattern panel 2000: reference area
3000: guidelines

Claims (5)

A method of registering feature information of a point for digitizing a clothing pattern, performed by a server, the method comprising:
A guide line for photographing a drafted pattern panel including a reference area is displayed on the user terminal, and when photographing is performed on the pattern panel in a state where the reference area and the guide line are aligned, through the photographing of the user terminal acquiring image information of the generated pattern panel;
analyzing the image of the pattern panel, extracting an outline of the pattern panel, and dividing the extracted outline into sections;
dividing each of the at least one or more lines included in each section into a straight line and a curved line for each divided section;
Recognize the coordinates of the point located at the point where the line meets the line, classify the point where the straight line and the curve meet by the type of point as the first point, classify the point where the curve meets the curve as the second point, and dividing the meeting point into a third point;
storing the first point, the second point, and the third point in order in consideration of the coordinates and types of the points to which at least one point is connected to each other;
registering information indicating the type, coordinate, and order of each point as characteristic information of the points constituting the pattern panel; and
and deriving the shape of the pattern panel by using the type, coordinate, and order number of each point included in the feature information of the point,
The step of deriving the shape of the pattern panel,
Based on the feature information of the point, the a1 point having 1 coordinate and 1 type (straight-curve) registered in the 1st order is divided into the 1st point and has 2 coordinates and 3 type (straight-straight) registered in the 2nd order. When point a2 is divided into 3 points, and point a1 having 1 coordinates and 3 types (straight-straight) registered in the 1st order is divided into 3 points and 2 coordinates and 3 types (straight-straight lines) registered in the 2nd order ) is divided into 3 points, and a1 point with 1 coordinate and 1 type (straight-curve) registered as 1st order is divided into 1st point and 2nd coordinates and 1 type registered as 2nd order ( When point a2 having a straight line-curve) is divided into the first point, the type of line connecting from point a1 to the next is a straight line, and when the type of line connecting from point a2 to the previous number is a straight line, point a1 and point a2 are connecting to calculate a straight line;
Based on the characteristic information of the point, the a1 point having 1 coordinate and 1 type (straight-curve) registered in the 1st order is divided into the 1st point and 2 coordinates and 2 types (curve-curve) registered in the 2nd order. A case where point a2 is divided into a second point, and a1 point having 1 coordinates and 2 types (curve-curve) registered as the 1st order is divided into 2nd points and 2 coordinates and 2 types (curve-curve) registered as 2nd order (curve-curve) ) is divided into the second point, and the a1 point with 1 coordinate and 1 type (straight-curve) registered as 1st order is divided into 1st point and 2coordinates and 1 type registered as 2nd order ( When point a2 having a straight line-curve) is divided into the first point, the type of line connecting from point a1 to the next is a curve, and when the type of line from point a2 to the previous number is a curve, point a1 and point a2 are connecting to calculate a curve; and
A method of registering feature information of a point for digitizing a clothing pattern, comprising the step of deriving the shape of the pattern panel by connecting the calculated straight line and the calculated curve according to the order of the points. The method of claim 1,
The step of dividing each of the lines into a straight line and a curved line,
identifying points a1 and a2 located at both ends of line A, which is any one of at least one or more lines;
checking the a3 point located in the middle of the A line, not at both ends; and
Create a comparison target line B that connects points a1 and a2 with a straight line. If point a3 is located on line B, line A is separated by a straight line, and it is confirmed that point a3 is not located on line B If it is, a method of registering characteristic information of a point for digitizing a clothing pattern, comprising the step of dividing line A into a curve. delete delete The method of claim 1,
The step of calculating the curve is
i) confirming the position of the point b1, which is the antipodal point of the point a3 to be located at the maximum width in the curved section between the points a1 and a2, on the line A connecting the points a1 and a2 with a straight line;
ii) calculating the position of the point a3 based on the distance of the maximum width set in the curved section between the points a1 and a2 and the position of the point b1;
iii) confirming the position of the point b2, which is the antipodal point of the point a4 to be located at the maximum width in the curved section between the points a1 and a3, on the B line connecting the points a1 and a3 with a straight line;
iv) calculating the position of the point a4 based on the distance of the maximum width set in the curved section between the points a1 and a3 and the position of the point b2;
v) confirming the position of the point b3, which is the antipodal point of the point a5 to be located at the maximum width in the curved section between the points a2 and a3, on the C line connecting the points a2 and a3 with a straight line;
vi) calculating the position of point a5 based on the distance of the maximum width set in the curved section between the points a2 and a3 and the position of the point b3; and
A method for registering feature information of points for digitizing clothing patterns, comprising calculating the points calculated by repeating steps i) to vi) by connecting them with a curve.

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