KR20190066450A - Personal font generation method using template and system - Google Patents

Abstract

It is an object of the present invention to provide a method and system for generating a personalized font using a template in which a font reflecting a handwriting characteristic of a user can be efficiently generated based on a minimum user input content (minimizing a character information template to be input) .
To this end, a method of generating a personalized font using a template according to an exemplary embodiment of the present invention includes: classifying characters into six types according to the presence or absence of a leading character, a neutral character, and a trailing character and a position of the neutral character; A consonant grouping step of dividing the consonants constituting the prefix into a plurality of groups according to whether they are identical or not; A grouping step of dividing the voiced vowels into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels; A template determination step of determining a template for determining the shape of each of the six types of consonants, the vowel group, and the consonants; A user input step of providing a template necessary for each of the six types to an image device and receiving input of a letter corresponding to the template through a user input device; A separating step of separating the beginning and the neutral of each letter input through the user input step on the basis of the consonant group and the vowel group; And a font generating step of generating a font by combining the consonants and vowels separated through the separating step.
This makes it possible to use a font effectively applied to each individual handwriting in a uniform Internet environment.

Description

TECHNICAL FIELD [0001] The present invention relates to a personalized font creation method and system using a template,

The present invention relates to a method and system for generating a personalized font using a template capable of efficiently generating fonts reflecting user's handwriting characteristics on the basis of minimum user input contents.

The personalized font generation method reflecting the characteristics of the present individual is a method of generating 2,350 characters of the completed code, and is being developed in such a way that an individual or a corporation asks the maker to produce it.

Personalized fonts developed with this process require a lot of time and money due to complicated processes, so it is difficult for a majority of ordinary users to use personalized fonts based on their handwriting.

Here, a font is a kind of character library that stores pre-designed letters of various styles and sizes, and includes all letters, numbers and special symbols necessary for typesetting.

In order for these fonts to be displayed or printed through a computer, the character type must be represented by data of 0 and 1. If the font can be represented by digital data of 0 and 1, the computer can save it, process it, or output it to an external output device. Therefore, a font can be said to be a set of character shape data expressed in digital form.

Conventionally, fonts have been used mainly in the field of professional use of publishing and document creation such as DTP (Desktop Publishing) or CTS (Computerized Typesetting System). However, as information communication technology has been developed, It is becoming more and more important in web and mobile environments.

However, since these fonts are still produced and supplied through long-term manual work of professional font designers, the number of computer fonts that can be actually used is limited. However, fonts required by users are becoming diverse.

Therefore, there is a need for a method that enables a user to easily design his / her own fonts anytime, anywhere.

In general, an electronic device such as a PC or a TV may have an input device for receiving information from a user. Of the various methods by which the user inputs information through the input device, the pen input method using a pen and a digitizer is similar to the information transmission method using paper and pen, which is the most traditional and common character expression tool of human being, And is widely used as a familiar input method.

As a pen input method, a virtual keyboard (aka, a soft keyboard) is displayed on the screen in a software form, and a user inputs character information by pointing the pen using a pen, and a method of using a pointing device such as a pen, , And recognizes it and inputs character information.

Especially, in the latter case, it is increasingly necessary to emphasize one's personality by expressing text by applying own fonts to e-mails and blogs that are used individually.

Korean Patent No. 10-1204615 (Personal Font Generation Method) of the related art is to generate a personal font based on the outline of a stroke vector generated after vectorization of a font design input from a user and separating the font design into a minimum font (One of a consonant or a vowel), and generates a personal font by referring to an existing font (a curriculum, a vocabulary, etc.).

However, the above-mentioned prior art adopts a method of receiving each of the suffixes of Hangul, and adopts a method in which the suffixes to be input are used for both the beginning, the middle, and the end of Hangul so that the individual pronouns It is said that it has a limitation that it can not reflect handwriting properly.

The present invention is to provide a method and system for generating a personalized font using a template in which a font reflecting a handwriting characteristic of a user can be efficiently generated based on a minimum user input content (minimizing a character information template to be input).

The problems to be solved by the present invention are not limited to the above-mentioned problems. Other technical subjects not mentioned may be clearly understood by those skilled in the art from the following description.

A method of generating a personalized font using a template according to an exemplary embodiment of the present invention includes classifying texts into six types according to the presence or absence of texts, A consonant grouping step of dividing the consonants constituting the prefix into a plurality of groups according to whether they are identical or not; A grouping step of dividing the voiced vowels into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels; A template determination step of determining a template for determining the shape of each of the six types of consonants, the vowel group, and the consonants; A user input step of providing a template necessary for each of the six types to an image device and receiving input of a letter corresponding to the template through a user input device; A separating step of separating the beginning and the neutral of each letter input through the user input step on the basis of the consonant group and the vowel group; And a font generating step of generating a font by combining the consonants and vowels separated through the separating step.

In addition, the classifying step may include a first type of neutral formed on the right side of the primordia and the primordial, a second type of primordial on the lower side of the primordial and a second type of neutral located on the right of the primordial, A third type of neutral, located on the right side of the hypocondyl, a fourth type of neutral, located on the right side of the hypocondrium, a fifth type of neutral and longitudinal, located below the hypocondyl, And a sixth type consisting of a neutral and a trait located on the right and the bottom of the hypothermic.

The consonant grouping step is characterized in that consonants having the same end direction of the consonant sounds are grouped into a plurality of consonant groups.

The vowel grouping step may include grouping vowels having the same initial direction of the vowel as a group and dividing vowels having the same position of the vowel into a plurality of vowel groups.

The template determination step may include determining the template by including two shapes of consonants belonging to the consonant group in the template based on the possibility of linking the consonant with the vowel.

The template determination step may include determining 46 templates to determine the first type of character.

A personalization font generation system using a template according to an exemplary embodiment of the present invention includes a classification module for classifying letters into six types according to the presence or absence of letters, A consonant grouping module for dividing the consonants constituting the prefix into a plurality of groups according to the identity of the stroke direction; A vowel grouping module for dividing the voiced vowels into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels; A template determination module for determining a template for determining the shape of each of the six types of consonants, the vowel group, and the consonants; An image device displaying a template determined by the template determination module;

A user input device for inputting a character corresponding to the template; A separation module for separating the beginning and the neutral of each letter inputted through the user input device based on the consonant group and the vowel group; And a font generation module for generating a font by combining consonants and vowels separated through the separation module.

According to the embodiment of the present invention, it is possible to use a font effectively applied to each person's handwriting in the Internet environment where the font used is uniform.

In addition, since the user can input a minimum number of templates necessary for generating fonts reflecting individual handwriting characteristics, the user's fatigue according to the complex process required for generating individual handwriting characteristics can be effectively improved.

In addition, it can contribute to the creation of a cultural environment that expresses the personality of the individual by moving away from the conventional uniform font environment.

FIG. 1 is a flowchart illustrating a process of generating a personalized font using a template according to an exemplary embodiment of the present invention.
FIGS. 2A to 2F illustrate six types of texts applied to a personalized font generation method using a template according to an exemplary embodiment of the present invention.
FIG. 3 illustrates a classification criterion of a consonant in a personalized font generation method using a template according to an embodiment of the present invention.
FIG. 4 illustrates a criterion for classifying neutral vowels in a personalized font generation method using a template according to an exemplary embodiment of the present invention.
FIG. 5 is a diagram illustrating a process of determining a consonant shape to be input according to the possibility of connection between a consonant and a neutral group of vowels when determining a template in a personalized font generation method using a template according to an exemplary embodiment of the present invention.
FIG. 6 illustrates a personalized font generation system using a template according to an embodiment of the present invention.
FIG. 7 is a block diagram of a state in which a personalized font generation system using a template according to an embodiment of the present invention is actually implemented using a predetermined tool.
FIG. 8 is a system architecture in a state where a personalized font generation system using a template according to an embodiment of the present invention is actually implemented using a predetermined tool.

Other advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

Unless defined otherwise, all terms (including technical or scientific terms) used herein have the same meaning as commonly accepted by the generic art in the prior art to which this invention belongs. Terms defined by generic dictionaries may be interpreted to have the same meaning as in the related art and / or in the text of this application, and may be conceptualized or overly formalized, even if not expressly defined herein I will not.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, various uses of " comprises " and / or the verb do not exclude the presence or addition of one or more other elements, acts, and / or elements other than the mentioned elements, operations, and / or elements. A general description of known configurations may be omitted so as not to obscure the gist of the present invention. In the drawings of the present invention, the same reference numerals are used as many as possible for the same or corresponding configurations.

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

First of all, the present invention will be described briefly. In order to apply the handwriting of the user who uses the font, the user needs to input the characters of all the shapes. However, since the process is very cumbersome, And selects a representative character to be included in the template. Characters other than representative characters can be created by dividing and combining processes in the written characters.

Since the process is based on the completed text, it has a characteristic that it can display the characteristics of the connection of the character.

In addition, Hangul can be divided into 6 types to be described below depending on the existence of the neutrality and the nature of the structure, and the characters generated by each type are 171 characters, 95 characters, 133 characters, 4617 characters, 2565 characters In 3591 characters, a total of 11,172 characters are required to create a personalized font. However, according to the structural characteristics of Hangul, a representative character can be selected for each type, and a personalized font reflecting individual characteristics can be created by only 289 characters other than 11,172 characters. Each process will be described below with reference to FIGS. 1 to 8 attached hereto.

First, a general process of a personalized font generation method using a template according to an embodiment of the present invention will be described with reference to FIG.

FIG. 1 is a flowchart illustrating a process of generating a personalized font using a template according to an exemplary embodiment of the present invention.

As shown in FIG. 1, a method of generating a personalized font using a template according to an embodiment of the present invention includes the steps of classifying the font into six types according to the font type (S10), grouping according to the stroke direction of the initial consonant S11), grouping them according to the stroke direction and the vowel position of the medus vowels, selecting a template corresponding to each type (S13), receiving a user's character for the template (S14) A step S15 of separating consonants and vowels of the consonant and vowels, and a step S16 of generating a font by combining the consonants and vowels separated.

Each of the above steps will be described in detail as follows.

First, step S10 is a step of classifying six types of letters according to the presence or absence of the beginning, the neutral, and the ending, and the position of the neutral character of the Hangul character. In other words, it is divided into 6 types according to the structural characteristics of the letters, and the number and shape of the letters to be input for writing the handwriting of the individual can be drastically reduced by using this structure in the future. The six types will be described later in detail in FIGS. 2A to 2F.

Next, step S11 is a step of dividing the consonants into a plurality of groups based on whether or not the stroke directions of consonants forming the prefix are the same. Concretely, the consonants having the same end direction of the consonant strokes constituting the prefix are divided into a plurality of consonant groups as one group. This process will be described in detail in FIG. 3, which will be described later.

Next, step S12 is a step of dividing the groups into a plurality of groups according to whether or not the stroke directions of the respective vowels having neutrality are the same and the positions of the vowels (whether they are on the lower or right side of the consonants). Specifically, the same vowel is divided into a plurality of vowel groups by arranging the same vowel as one group, but arranging vowels having the same vowel position as one group. This process will be described in detail later with reference to FIG.

Next, step S13 is a step of determining a template for requesting a character to be input to a user who uses the font. In step S13, it is determined whether or not the consonant group and the vowel group are grouped, As additional criteria, a template is determined to determine the shape of each of the six types of letters.

Here, the possibility of the connection between consonants and vowels may vary depending on the individual tendency, but generally, when a person writes a letter, the shape of the consonant corresponding to the beginning varies according to the shape of the vowel corresponding to the vowel. In other words, when the vowel that forms the neutral is directed toward the consonant of the beginning, it tends to consecutively consonant and vowel. In contrast, when the vowel is not directed toward the consonant, it rarely occurs. In order to effectively reflect the tendency of each individual handwriting on the basis of this tendency, the final template is determined by including two shapes of the consonants in the template based on the possibility of connection with the collection of consonants. This process will be described in detail later with reference to FIG.

Next, step S14 is a step of classifying the determined templates according to the six types, providing them to the image device, and receiving input of characters corresponding to the templates through the user input device. Specifically, in this step, the finally determined six types of templates for each type are provided to the user, and the letters are inputted into the handwriting that only the user has through the user input device. Through this process, it is possible to acquire the character information to which each individual handwriting for forming a font is applied.

Next, step S15 is a step of separating the beginning and the neutral of each letter input through the user input step on the basis of the consonant group and the vowel group. That is, this step is a step of separating the initiality and neutrality of the input character when the user inputs a character based on the provided template. At this time, the consonant corresponding to the utterance is not considered separately. Through this process, it is possible to collect the initials (consonants) and neutrals (vowels), which are components for creating fonts to which the user's handwriting is applied.

Finally, step S16 is a step of creating a font by recombining the consonant and vowel separated through the separation step. Specifically, when the consonant and the vowel are combined again, the same consonant group uses the same vowel group. However, when the start direction of the vowel group is oriented toward the consonant group direction, The letters can be combined using the two consonants of the input shape. That is, when a consonant and a vowel are combined in the process of generating a font, the final font can be generated by selecting any one of the two kinds of consonants and combining them according to whether consonants and vowels are consecutively written or not.

Next, each of steps S10 to S16 described above will be described in detail on the basis of 2a to 5.

First, step S10 is described in detail below based on Figs. 2A to 2F.

FIGS. 2A to 2F illustrate six types of texts applied to a personalized font generation method using a template according to an exemplary embodiment of the present invention.

The type shown in FIG. 2A is the first of the six types of letters, consisting of a prefix and a neutrality, in which the neutrality is located to the right of the prefix. In principle, the number of templates corresponding to the result of the product of the number of consonants and the number of vowels that form a primitive is provided to the user, and the corresponding letter must be input. Finally, the letter corresponding to this type You can complete the font by creating an applied character). However, according to the embodiment of the present invention, it is possible to group consonants and vowels having a prefix and a neutral character appropriately, generate a minimal template based on the possibility of consonant and vowel consonant, and then input a corresponding letter, You can complete the final personal handwriting application font. This will be described later in the description of FIG.

2B is a second type of the six types of letters, in which the neutrality among the letters consisting of the beginning and the neutral is located at the bottom of the beginning. As in the description of FIG. 2A, a consonant and a vowel having a neutral character can be grouped to generate a character to which an optimum number of individual handwriting is applied, and then a font can be completed.

Next, shown in FIG. 2C is a third type of the six types of letters, in which neutrality among the letters consisting of the beginning and the neutral is simultaneously located on the lower and right sides of the beginning.

Next, the second type shown in FIG. 2D is a fourth type, in which the neutrality is located on the right side of the head, with letters consisting of the beginning, the neutral, and the utterance.

Next, the type shown in FIG. 2E is a fifth type, in which the neutrality is located at the bottom of the hypothalamus with the letter consisting of the hypothalamus, the neutrals, and the uterus.

Finally, the type shown in FIG. 2f is the sixth type, in which the neutrals are located at the right side and the lower side of the hypersensitive, neutral, and longitudinal.

The classification of the six types of letters mentioned above is to receive the minimum number of user letters while allowing the maximum number of individual handwriting to be applied.

Next, the grouping step corresponding to S11 and S12 will be described in detail below based on Figs. 3 to 4. Fig.

FIG. 3 is a diagram illustrating a reference for sorting consonants in a personalized font according to an exemplary embodiment of the present invention. FIG. 4 is a flowchart illustrating a method of generating personalized fonts using templates according to an exemplary embodiment of the present invention. It shows the criteria for classifying vowels.

Referring to FIG. 3, as shown in FIG. 3, the consonants forming the prefix can be classified into three groups (a) to (c). The classification criterion is the direction toward the end of the stroke when creating consonants. That is, in the case of (a) group (a, b, c), the direction toward the end of the consonant is left, and in the case of group (C) In the case of a group (b, c, d, k, f, g, i, j, t,

Referring to FIG. 4, as shown in FIG. 4, the vowels having a neutral characteristic can be roughly classified into three groups (a) to (c). And each group can be divided into two groups again. The classification criterion is the position of the neutral position and the direction toward the beginning of the stroke when creating a vowel.

That is, (a) the group is a group of vowels applied to the first type and the fourth type, and specifically, the first group (a, ㅑ, ㅐ, ㅒ, ㅣ) and the first group (ㅓ, ㅕ, ㅖ). Here, the start direction of the collection stroke of the group 1-1 is the downward direction, and the start direction of the collection stroke of the group 1-2 is the right direction.

The group (b) is a group of vowels applied to the second type and the fifth type, and is made up of a group 2-1 (ㅗ, ㅛ) and a group 2-2 (ㅜ, ㅠ, ㅡ) in detail. Here, the start direction of the vowel stroke is the downward direction in the 2-1 group, and the start direction of the vowel stroke is the right direction in the 2-2 group.

The group (c) is a group of vowels applied to the third and sixth types. Specifically, the group 3-1 (ㅘ, ㅚ, ㅙ) and the group 3-2 (ㅝ, ㅞ, ㅟ, ㅢ) . Here, the start direction of the collection stroke is the downward direction in the 3-1 group, and the start direction of the collection stroke is the right direction in the 3-2 group.

As described above, by grouping consonants and vowels, it is possible to maximize efficiency in determination of the contents and the number of templates necessary for receiving a letter input to a user in the future.

Next, the initial consonant type of user input required for template generation will be described in detail below with reference to FIG.

FIG. 5 is a diagram illustrating a process of determining a consonant shape to be input according to the possibility of connection between a consonant and a neutral group of vowels when determining a template in a personalized font generation method using a template according to an exemplary embodiment of the present invention.

In order to determine the character to be input through the user input device, a template to be provided to the user must be determined. In order to determine such a template, the consonant group and the vowel group formation process described above, .

As shown in FIG. 5, it can be seen that the consonant consonants can be changed depending on the shape of the neutral vowel positioned on the right side, as shown in FIG. That is, depending on whether the start direction of the vowel is a downward group (group 1-1) or a group in which the start direction of the vowel starts in the consonant direction and is directed to the right (group 1-2) . In FIG. 5, the letters on the left are cases where no consonant is generated between consonants and vowels, and the words on the right are consecutive consonants and vowels.

Based on the above-described phenomenon, in order to generate a font having the largest amount of applied individual handwriting, it is necessary to use a consonant shape (the shape of the vowel in the first group and the shape in the first and second groups ) Must be input from the user.

Although only a part of the letter corresponding to the first type is shown in FIG. 5, the second to sixth types can also be applied in the manner described above.

Based on the above description, a total of 34 templates are required in the case of the first type. In other words, a total of 171 (19 * 9 = 171) templates are required to convert the first type character into a letter applied with a personal handwriting and to convert it into a font by simply arithmetic. However, according to the embodiment of the present invention, Providing only the template allows the user to create a properly applied letter. More specifically, only a total of 34 templates are provided to the user, and if there is a corresponding user input (step S14), necessary consonants and vowels can be obtained. The vowel group (1-1 Group, and group 1-2) can be used for all letters with only one input, and consonants corresponding to the groups (a) to (c) must be input two each in consideration of subsequent writing.

The obtained consonants and vowels are separated again according to the step S15, and then the separated consonants and vowels are combined according to the step S16 to finally generate a font.

In the case of the second type, a total of 39 templates, a total of 42 templates in the case of the third type, a total of 54 templates in the case of the fourth type, and a total of 54 templates in the case of the fifth type, In the case of the sixth type, a total of 54 templates are required.

As a result, a total of 383 templates including 289 Korean characters, 53 English characters, 10 special characters, and 31 special characters are required. Based on this, a personalized font that reflects individual characteristics can be generated.

Finally, a personalized font generation system using a template according to an embodiment of the present invention will be described below with reference to FIG.

FIG. 6 illustrates a personalized font generation system using a template according to an embodiment of the present invention.

6, a personalization font creation system using a template according to an exemplary embodiment of the present invention includes a classification module 101, a consonant grouping module 102, a vowel grouping module 103, a template determination module 104, An image input device 105, a user input device 106, a separation module 107, and a font generation module 108. [

Here, the classification module 101 classifies letters into six types according to the presence or absence of the initial, neutral, and trailing characters of the letters and the position of the neutral.

Also, the consonant grouping module 102 divides the consonants forming the prefix into a plurality of groups according to whether or not they are identical in the stroke direction.

In addition, the vowel grouping module 103 divides the vowels constituting the neutral into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels.

In addition, the template determination module 104 determines a template for determining the shape of each of the six types based on the possibility of linking the consonant group, the vowel group, and the collection of consonants.

Further, the image device 105 displays the template determined by the template determination module 104, and the user thus recognizes the contents thus displayed.

In addition, the user input device 106 is a device that receives characters corresponding to a template from a user.

In addition, the separation module 107 separates the beginning and the neutral of each letter inputted through the user input device 106 based on the consonant group and the vowel group.

The font generation module 108 combines the consonants and the vowels separated through the separation module 107 to finally generate a font to which the user's handwriting is applied.

Finally, an example in which a personalized font generation system using a template according to an embodiment of the present invention is actually implemented will be described with reference to FIGS. 7 to 8. FIG.

FIG. 7 is a block diagram of a state in which a personalized font generation system using a template according to an embodiment of the present invention is practically implemented using a predetermined tool, FIG. 8 is a flowchart illustrating a personalized font generation system using a template according to an exemplary embodiment of the present invention Is actually a system architecture that is implemented using a predetermined tool.

Referring to the block diagram shown in FIG. 7, first, a template is created according to the above-described embodiment (template determination module 102), and a preprocessing process is performed based on the template. The preprocessing process is omitted since it is a prior art technique such as a tilt correction. It then performs an EPS transformation that transforms the vector data into a font. Then, the font of the corresponding template is separated through the divider (separation module 107), and SFD conversion is performed to convert the template into SFD format, which is one of the font formats. Finally, the conversion to the final font is performed.

The core modules of the system of FIG. 8 include an Autotrace open source program for vectorizing a bitmap image, an image processor for performing an image preprocessing process of a user template, an EPS converter for converting vector data into a font, A Font forge open source program used for conversion and creation, and SFD files used in Fontforge, and a character composer for combining the characters according to Unicode.

It is to be understood that the above-described embodiments are provided to facilitate understanding of the present invention, and do not limit the scope of the present invention, and it is to be understood that various modifications may be made within the scope of the present invention. Therefore, the technical protection scope of the present invention should be determined by the technical idea of the claims, and the technical protection scope of the present invention is not limited to the literary description of the claims, The invention of a category.

101: classification module 102: consonant grouping module
103: collection grouping module 104: template determination module
105: image device 106: user input device
107: Separation module 108: Font generation module

Claims (7)

A classification step of classifying the letters into six types according to the presence or absence of the initial, neutral, and trailing letters of the letters and the position of the neutral;
A consonant grouping step of dividing the consonants constituting the prefix into a plurality of groups according to whether or not they are identical in the stroke direction;
A grouping step of dividing the voiced vowels into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels;
A template determination step of determining a template for determining the shape of each of the six types of consonants, the vowel group, and the consonants;
A user input step of providing a template necessary for each of the six types to an image device and receiving input of a letter corresponding to the template through a user input device;
A separating step of separating the beginning and the neutral of each letter input through the user input step on the basis of the consonant group and the vowel group; And
And generating a font by combining the consonant and the vowel separated through the separation step. The method according to claim 1,
Wherein said classifying step comprises the steps of: classifying a first type consisting of the hypothalamus and the neutral to the right of the hypothalamus; a second type consisting of hypersensitivity and neutrality located below the hypothalamus; A third type consisting of neutrality and neutrality, a fourth type consisting of neutrality and neutrality located on the right side of the hypothalamus, a fifth type hypothalmus and neutrality located below the hypothalamus, And a sixth type consisting of a neutral and a trailing character positioned on the right and the bottom of the personalized font. The method according to claim 1,
Wherein the consonant grouping step divides the consonants having the same end direction of the consonant sounds into one group and a plurality of consonant groups. The method according to claim 1,
Wherein the grouping of the vowels is performed by dividing the vowels having the same initial direction of the vowel into one group and the vowels having the same position of the vowel as one group into a plurality of vowel groups. Way. The method according to claim 1,
Wherein the template determining step determines the template by including two shapes of consonants belonging to the consonant group in the template based on the possibility of linking the consonant with the vowel. Way. 6. The method of claim 5,
Wherein the template determination step determines 46 templates to determine the first type of character. A classification module for classifying letters into six types according to the presence or absence of letters, neutrality, and traits and the position of the neutral;
A consonant grouping module for dividing the consonants constituting the prefix into a plurality of groups according to the identity of the stroke direction;
A vowel grouping module for dividing the voiced vowels into a plurality of groups according to whether or not they are the same in the stroke direction and the positions of the vowels;
A template determination module for determining a template for determining the shape of each of the six types of consonants, the vowel group, and the consonants;
An image device displaying a template determined by the template determination module;
A user input device for inputting a character corresponding to the template;
A separation module for separating the beginning and the neutral of each letter inputted through the user input device based on the consonant group and the vowel group; And
And a font generation module for generating a font by combining consonants and vowels separated through the separation module.

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