WO2015005664A1 - 기호 이미지를 이용한 디자인 설계 장치 및 설계 방법과 기호 이미지가 적용된 설계 대상물 분석 장치 및 분석 방법 - Google Patents
기호 이미지를 이용한 디자인 설계 장치 및 설계 방법과 기호 이미지가 적용된 설계 대상물 분석 장치 및 분석 방법 Download PDFInfo
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Definitions
- the present invention relates to a design design apparatus and a design method using a symbol image and a design object analysis apparatus and an analysis method to which the symbol image is applied, and more particularly, using various symbol images symbolizing characters such as Korean, English, numbers, etc.
- the recognition of language is expressed by symbolically expressing letters or numbers of language in industrial products (products, art works, buildings, crafts, buildings, etc.) in various fields such as industry, art, design, architecture, crafts and urban planning.
- industrial products products, art works, buildings, crafts, buildings, etc.
- various fields such as industry, art, design, architecture, crafts and urban planning.
- an object of the present invention is to use a symbol image that enables the design design of various industrial products (products, art works, buildings, crafts, buildings, etc.) using symbol images symbolizing characters such as Korean, English, and numbers.
- the present invention provides an analysis apparatus and analysis method for a design object to which a symbol image for analyzing an image and text information corresponding thereto is applied.
- Design design method using a symbol image for achieving the above object, in the design design method using a symbol image, (a) an image corresponding to a predetermined character, corresponding to the margin position on the image of the character Designing a design object such that a symbol image, which is an image generated at a location, is represented; And (b) outputting an image of the designed object.
- the symbol image is characterized in that the shape is determined according to the shape of the margin on the letter or number image.
- the symbol image is characterized by having the shape of a triangle, a square, a circle, each figure.
- the structure of the design object may be designed according to the shape of the preference image.
- the outer surface of the design object may be designed according to the shape of the preference image.
- the design design apparatus using the symbol image according to the present invention the design object is designed so that the symbol image, which is an image generated at a position corresponding to the margin position on the image of the character as an image corresponding to a predetermined character, is designed.
- the symbol image is characterized in that the shape is determined according to the shape of the margin on the letter or number image.
- the symbol image is characterized by having the shape of a triangle, a square, a circle, each figure.
- the design processing unit may design the structure of the design object according to the shape of the preference image.
- the design processor may design an outer surface of the design object according to a shape of the preference image.
- the analysis method of the design object to which the symbol image is applied according to the present invention, (a) the image corresponding to the predetermined character, so that the symbol image which is an image generated at the position corresponding to the margin position on the image of the character to be represented Receiving external information of the implemented design object; (b) extracting a symbol image implemented in the design object by analyzing external information of the design object; And (c) displaying the extracted symbol image.
- the symbol image is a symbol image in which a plurality of symbol images are overlapped, and in step (b), each of the plurality of symbol images is extracted.
- the symbol image may be displayed when an analysis reference coordinate of the symbol image is required.
- the character characterized in that it comprises at least one of Hangul characters, English letters, numbers.
- the symbol image is characterized in that the shape is determined according to the shape of the margin on the letter or number image.
- the symbol image may be represented by an image or a character.
- the symbol image is characterized by having the shape of a triangle, a square, a circle, each figure.
- symbol image is characterized by being represented by points, lines, planes.
- the external information may be any one of image information, light information, temperature information, and frequency information of the design target.
- the design object analysis device to which the symbol image according to the present invention is applied, a design object implemented to represent a symbol image which is an image corresponding to a predetermined character and is generated at a position corresponding to a margin position on the image of the character.
- An input unit for receiving external information of the;
- An analysis unit for analyzing the external information input through the input unit and extracting a symbol image implemented in the design object;
- a display unit which displays the symbol image extracted by the analysis unit.
- the symbol image is a symbol image in which a plurality of symbol images are overlapped, and the analyzer extracts each of the plurality of symbol images.
- the symbol image may be displayed when an analysis reference coordinate of the symbol image is required.
- the character characterized in that it comprises at least one of Hangul characters, English letters, numbers.
- the symbol image is characterized in that the shape is determined according to the shape of the margin on the letter or number image.
- the symbol image is characterized in that the symbol image is applied having a shape of a triangle, a square, a circle, each figure.
- the external information may be any one of image information, light information, temperature information, and frequency information of the design target.
- a design design apparatus using a sign image to enable the design design of various industrial products (products, art works, buildings, crafts, buildings, etc.) by using the sign images symbolizing characters such as Hangul, English, numbers, etc. And a design method is provided.
- a symbol image embodied in the design from the design of various industrial products products, art works, buildings, crafts, buildings, etc.
- symbol images symbolizing characters such as Hangul, English, numbers, etc.
- an analysis apparatus and a design method of a design object to which a symbol image to analyze text information corresponding thereto is applied.
- FIG. 1 is a diagram illustrating a configuration of a sign image editing apparatus to which the present invention can be applied;
- FIGS. 2 and 28 are views illustrating a process of extracting a symbol image according to an embodiment of the present invention
- FIG. 3 is a view illustrating a principle of generating a symbol image corresponding to a consonant of Hangul according to an embodiment of the present invention
- FIG. 4 is a view showing a principle of generating a symbol image corresponding to the neutral of the Hangul according to an embodiment of the present invention
- FIG. 5 is a view showing a principle of generating a symbol image corresponding to the finality of the Hangul according to an embodiment of the present invention
- FIG. 6 is a view for explaining the principle of transforming and generating a symbol image according to an embodiment of the present invention.
- FIG. 7 is a diagram illustrating regions in which symbol images of Korean initial, neutral, and final stars are respectively generated according to an embodiment of the present invention.
- FIG. 8 is a view showing a principle of generating a symbol image corresponding to the Arabic numerals according to an embodiment of the present invention.
- FIG. 9 is a view illustrating a clock design using a number represented by a space compartment and a symbol according to an embodiment of the present invention.
- FIG. 10 is a view illustrating a principle of generating a symbol image corresponding to an English capital letter according to an embodiment of the present invention
- FIG. 11 is a functional block diagram showing the structure of a design designing apparatus using a symbol image according to the present invention.
- FIG. 12 is a flowchart illustrating a design design method using a symbol image according to the present invention.
- 13 to 17, 29 and 30 is a view showing a design object designed by a design design method using a symbol image according to the present invention
- FIG. 19 is a view showing an example of utilizing a rectangular sign image in FIG. 18; FIG.
- FIG. 20 is a view showing another design object designed by a design design method using a symbol image according to the present invention.
- 21 is a functional block diagram showing a structure of an analysis device of a design target according to the present invention.
- FIG. 22 is a flowchart illustrating a method of analyzing a design object according to the present invention.
- FIG. 23 is a diagram illustrating a display state of a display unit of a design object analyzing apparatus in FIG. 21;
- 24 is a view showing an example of overlapping characters according to an embodiment of the present invention.
- 26 and 27 are diagrams for explaining a principle of extracting text information in a state in which a spatial partition line of a sign image is not displayed.
- a symbol image representing a Hangul character symbolically is a symbol that is arranged in a portion of the divided space by separating the space (space partition) in a predetermined partitioned space (for example, rectangular image frame) to be.
- a predetermined partitioned space for example, rectangular image frame
- a symbol image representing a letter or number corresponding to an English letter or number symbolically is at least one symbol disposed at a portion of the space in a predetermined partitioned space (eg, a rectangular image frame).
- a predetermined partitioned space eg, a rectangular image frame.
- the symbol is a letter or number of a language (Hangul, English, etc.) into a certain frame, and the shape figured out from the empty space (margin) is simplified to a point, a line, a face, etc., and the point is a triangle, a square, a circle, etc. It can have a variety of shapes.
- the symbol image editing apparatus 100 may include an input unit 110, a controller 120, a storage unit 130, and an output unit 140.
- the symbol image editing apparatus 100 of the present invention may be self-operating (see the first embodiment below), or may be provided in a communication terminal and may be provided with an external device (the symbol image editing apparatus 100 of the present invention) through a data communication network. The same device may be provided in another communication terminal or linked to another communication terminal) (see the second and third embodiments below).
- Examples of data communication networks include wired / wireless telephone networks, the Internet, and Bluetooth.
- Communication terminals include wired / wireless phones, SIP terminals, mobile phones, PDAs, general PCs, handheld PCs, laptops equipped with wired / wireless modems, smart glasses, smart cameras, smart watches, black boxes, navigation, cameras, and video recordings. It may be a digital device capable of wired / wireless data communication such as a device.
- the symbol image editing apparatus 100 converts a character (including a number) of a language (Korean, English, etc.) input through the input unit 110 into a symbol image and outputs the image in real time through the output unit 140.
- the symbol image editing apparatus 100 interprets the symbol image input through the input unit 110 and outputs a character (including a number) of a corresponding language in real time through the output unit 140. That is, the first embodiment performs both input and output processes in the symbol image editing apparatus 100.
- the symbol image editing apparatus 100 transmits character (including numbers) information of a language (Korean, English, etc.) input through the input unit 110 to another external device.
- the symbol image editing apparatus 100 interprets the symbol image input through the input unit 110 and transmits character (including numbers) information of the corresponding language to another external device. That is, the second embodiment performs an input process in the symbol image editing apparatus 100 and performs an output process through other external devices.
- the symbol image editing apparatus 100 converts a character (including a number) of a language (Hangul, English, etc.) transmitted from an external device into a symbol image and outputs it in real time through the output unit 140. do.
- the external device transmits the character (including numbers) information of the language (Hangul, English, etc.) input through the input unit 110 to the symbol image editing apparatus 100, or the symbol input through the input unit 110.
- the image is interpreted and the character (including numbers) information of the corresponding language is transmitted to the symbol image editing apparatus 100. That is, the third embodiment performs an input process through another external device and performs an output process in the symbol image editing apparatus 100.
- an input process is performed through another external device, but the output process is not performed in the symbol image editing apparatus 100, but through another external device. You can also do the output process.
- the other external device is the same device as the symbol image editing device 100 of the present invention.
- the external device is provided in another communication terminal or driven in conjunction with another communication terminal, and viewed through a data communication network.
- the device communicates with the symbol image editing apparatus 100 of the present invention.
- the symbol image is generated at a position corresponding to the margin position on the character or numeric image, and is determined according to the shape of the margin on the character or numeric image.
- the symbol image corresponding to the Hangul characters is a symbolic representation of the Hangul characters, and is divided into spaces by dividing the spaces so as to distinguish the initial, neutral, and trailing characters of the Hangul in a predetermined space representing at least one Hangul character.
- the symbol is placed in the part.
- a symbol image corresponding to an alphabet or a number is a symbolic representation of an alphabet or a number, and a symbol is disposed in a part of the space in a predetermined partitioned space representing at least one alphabet or a number.
- the line for space division may be visually expressed or omitted according to the intention of the operator, and the reference coordinate may be displayed when it is difficult to interpret the symbol image without the space division line.
- the control unit 120 converts character (including numbers) information of a language (Korean, English, etc.) input from the input unit 110 according to the first embodiment or from another external device according to the third embodiment into a symbol image. It converts and displays or transmits through the output unit 140 or prints the printer.
- the controller 120 includes a generator 121 and an editor 122.
- the generation unit 121 generates a symbol image at a position corresponding to the margin position on the character / numeric image corresponding to the character or numeric information of the language input through the input unit 110 output unit 140 Display on the display screen or print out.
- the generated symbol image is stored in the storage 130.
- the storage unit 130 is generated in a state in which the symbol images generated according to the symbol image generation principle described below for letters / numbers are mapped to each letter / number and stored.
- the unit 121 may extract a symbol image stored in the storage unit 130 in real time, mapped to letters / numbers input by a user, and display the image on a display screen of the output unit 140 or output the printer.
- the generation unit 121 analyzes a symbol image input through the input unit 110, and maps the letter / number stored in the storage unit 130 in real time by being mapped to the symbol image input by the user. Extract and output the letters / numbers of the language through the output unit 140.
- the editing unit 122 inputs an editing command for the user to adjust the size, color, shape, transparency, or position of the symbol image displayed on the display screen of the output unit 140 to another image or text.
- the symbol image is edited according to the editing command (the image editing function during the output process).
- the editing unit 122 freely edits a predetermined partitioned space (for example, a rectangular image frame) in which a symbol image is expressed and a space section that separates the space (for example, a space division for distinguishing initial, neutral, and final Korean characters). It can be configured (space editing function during input / output process).
- the input unit 110 is used for inputting character or numeric information of a language that the user wants to output as a symbol image (display or printer output, etc.), and also provides an editing command for the generated symbol image. Used to enter
- the input unit 110 is used to input a symbol image that the user wants to output (display, transmission or printer output, etc.) as letters or numbers of the language, and also edit commands for the symbol image input by the user. Used to enter
- the input unit 110 may include a predetermined partitioned space (eg, a rectangular image frame) in which a user's desired symbol image may be expressed, and a space section separating the spaces (eg, Korean initiality, neutrality, and finality). It is used to input the editing command for the space division to separate the.
- a predetermined partitioned space eg, a rectangular image frame
- a space section separating the spaces eg, Korean initiality, neutrality, and finality
- the input unit 110 may include a keypad, a touch screen unit, a mouse pad, a mouse, an optical pen, and the like.
- a keypad a touch screen unit
- a mouse pad a mouse
- an optical pen and the like.
- the object of the present invention may be a device having only a keypad, a device having only a touch screen unit, or a device having both a keypad and a touch screen unit.
- the keypad consists of a number of key buttons for entering numbers and special characters or characters.
- a function button and a general button for storing, modifying or loading the inputted letters / numbers are further provided, and perform a function of a medium for transmitting a user's instruction to the control unit 120.
- the keypad is required to recognize the corresponding letter / number when the user applies a certain pressure to the letter (consonant, vowel) / numeric keys using a hand or the like (or applies a minute current or recognizes the user's motion by a sensor).
- Generates data that is, key data, and transmits the generated key data to the controller 120, and the controller 120 checks the alphanumeric code data corresponding to the applied key data in the storage 130 and maps the alphanumeric code data.
- the extracted symbol image is extracted and displayed on the output unit 140 or transmitted or printed out. Since a hard key configuration of a keypad for inputting letters or numbers, and a method of recognizing and combining letters / numbers through the keypad may be configured according to a known technique, a detailed description thereof will be omitted.
- the touch screen unit is an object-oriented character / numeric information input means, when the user applies a predetermined pressure to the characters (consonants, vowels) / numbers on the upper surface of the panel using a writing instrument such as a hand or a stylus pen, the corresponding character / Generates data necessary for number recognition, that is, touch screen data, and transmits the generated touch screen data to the control unit 120.
- the control unit 120 checks the text / number code data corresponding to the applied touch screen data in the storage unit 130, The symbol image mapped to the numeric code data is extracted and displayed on the output unit 140 or printed out.
- Soft key configuration of the touch screen unit for inputting letters or numbers, and a method of character / number recognition and combination through the touch screen unit may be configured according to a known technique, and thus a detailed description thereof will be omitted.
- the storage unit 130 stores a program for driving a function processed by the controller 120, a predetermined program for implementing convenience and basic functions of a user, and the like.
- a program for driving a function processed by the controller 120 a predetermined program for implementing convenience and basic functions of a user, and the like.
- it is implemented as a volatile memory such as a RAM or a nonvolatile memory such as a flash memory, and stores a program that collectively controls the overall operation of the device or an operation program that processes data input from the input unit 110.
- the storage unit 130 has alphanumeric code data corresponding to key data or touch screen data input and processed according to an embodiment of the present invention and a symbol image mapped thereto. The symbol image mapped to the alphanumeric code data will be described later.
- the output unit 140 performs a display or printer output operation under the control of the controller 120.
- the symbol image information output to the output unit 140 is information corresponding to character / numeric information input through the input unit 110. That is, when a user inputs a letter / number, the letter / number code data corresponding thereto is extracted and the symbol image mapped thereto is output and displayed on the display screen of the output unit 140 or printed out.
- the letter / number information output to the output unit 140 is information corresponding to the symbol image information input through the input unit 110. That is, when a user inputs a symbol image, the character / numeric code data corresponding to the symbol image is interpreted and the symbol image mapped thereto is output and displayed on the display screen of the output unit 140 or printed out.
- the number of consonants of the first Hangul can be expressed if the total number of consonants is 19. Therefore, the 14 consonants (' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ') , ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ') and 5 consonants (' ⁇ ', ' ⁇ ', ' ⁇ ') , ' ⁇ ', ' ⁇ ') is enough.
- the finality can be expressed by 14 terminal sounds, 2 double consonants and 11 consonants (' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ '). , ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ').
- the symbol image editing apparatus 100 outputs characters (including numbers) of languages (Korean, English, etc.) as symbol images, or interprets symbol images as characters (including numbers) of the corresponding language.
- the symbol image corresponding to the Hangul characters is a symbolic representation of a letter or number of the language, and a predetermined partitioned space (eg, a rectangular image frame) representing at least one Hangul character (at least one syllable). At least one symbol is placed in a part of a space separated by spaces.
- This symbol is a simplified version of the shapes identified from the empty space into dots, lines, faces, etc. by putting letters or numbers of languages (Hangul, English, etc.) into a certain frame.
- a symbol image symbolizing a letter or number in a language defines the letter or number in the language as an object with volume and mass, rather than a flat object used for printing, and puts it in a fixed frame and pours water into an empty space. It is based on the letter / number processing technology that expresses letters or numbers in a simple and symbolic manner with the original mold by processing the casting, and the letters or numbers in FIGS. 2 (for Korean) and 28 (for English alphabet) The processing of the numbers is illustrated in plan.
- the symbol image of the Hangul displayed on the display screen of the output unit 140 includes a predetermined partitioned first space representing at least one Hangul character (at least one syllable), and a dot and line representing the first space.
- Hangul can be expressed symbolically by performing any one of the initial, neutral, or finality in the divided second spaces by dividing by a surface or another mark (dividing the first space into a second space). It is represented by a symbol of a space compartment and triangles, squares, circles, and straight lines arranged in the second spaces divided into the space compartments.
- each of the second spaces divided into the space compartments may be configured in a transverse direction or a longitudinal direction or a combination thereof, and each of the first spaces may be spaced apart in the transverse direction or the longitudinal direction.
- the symbol may be at least one of a triangle, a rectangle, a circle, an object having a shape of each figure, an object configured to have a shape, an image, and a character pronounced of each figure.
- the principle of generating a symbol image for a Hangul character is as follows.
- FIG. 3 to 5 are diagrams showing a principle of generating a symbol image corresponding to Hangul according to an embodiment of the present invention
- FIG. 6 illustrates the initial, neutral, and final properties of Hangul using points, lines, and surfaces.
- FIG. 7 is a diagram illustrating the initial, neutral, and final characteristics of Hangul as a space compartment.
- the space compartment means, for example, a space division for dividing the initial, neutral, and finality of Hangul.
- FIG. 3 illustrates a principle of generating a symbol image corresponding to Korean initial consonants.
- (a) is a rectangular symbol image is generated at the bottom left of the margin position at 'b'
- (b) is a rectangular symbol image such as the shape of the margin at the upper right side of the margin position at 'b'
- (C) creates a rectangular symbol image like the shape of the margin at the right middle middle of the margin position at 'c'.
- (d) creates a square symbol image like the shape of a margin at the margin at ' ⁇ '
- (e) creates a square symbol image like the shape of a margin at the center of the margin at ' ⁇ '.
- Created creates a rectangular symbol image with the shape of the margin at the middle and the upper middle of the margin at ' ⁇ ', respectively, and (g) shows the margin at the lower middle of the margin at 's'.
- a triangle symbol image like shape is generated, and (h) is a circular symbol image like a shape of a margin at the center of the margin position at ' ⁇ '.
- a symbol image having the same shape as that of the margin is generated at a position corresponding to the position of the margin only when the shape of the margin on each Hangul image is a rectangle, a triangle, or a circle. It is also possible to create a symbol image with a different shape from the margin at the position of the margin on the image, because the margin determines the unique characteristics of the text.
- Figure 4 illustrates the principle of generating a symbol image corresponding to the letters combined with the initial and neutral of the Hangul. However, instead of expressing vowels alone, they are expressed with consonants ' ⁇ ' for easy identification.
- FIG. 4 in generating a symbol image corresponding to a letter combining initial and neutral, first, as shown in (a) and (b) of FIG. (It is called 'spatial partition'), and the symbol image corresponding to the initial and neutral is generated independently of the initial image frame and the neutral image frame.
- the principle of generating the symbol image corresponding to the initial image in the initial image frame is the same as that described with reference to FIG. 3, and in the present invention, the position of the margin on the neutral image also in the generation of the symbol image corresponding to the neutral image in the neutral image frame.
- a rectangular symbol image with the same shape as the margin was created at the position corresponding to.
- the neutral image frame is divided into two vertically as in (m) and (n) to distinguish it from ' ⁇ ' and ' ⁇ '.
- ' ⁇ ' is written as ' ⁇ + ⁇ ' and ' ⁇ ' is preferably written as ' ⁇ + ⁇ '. Accordingly, (m) is a symbol image corresponding to 'e', and (l) is a symbol image corresponding to 'yes'.
- FIG. 5 illustrates a principle of generating a symbol image corresponding to Hangul finality in a final image frame.
- 14 terminal sounds ('a', 'b', 'c', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ', ' ⁇ ' of the Korean initial consonants (3a) to (3s) in FIG. ',' ⁇ ',' ⁇ ',' ⁇ ',' ⁇ ',' ⁇ ',' ⁇ ') and two consonants (' ⁇ ',' ⁇ ') can all be used as Hanguljong Except for the redundant description, in FIG.
- the two consonants which are not used as a consonant but used only as a final consonant, are divided into two regions in the same state as the other consonants of the Hangul. A symbol image corresponding to each consonant is generated.
- the symbol image may be generated according to the principles of FIGS. 3 to 5, and the image may be generated according to the modified form of the symbol as shown in FIG. 6.
- a rectangular symbol which is a symbol type for displaying a vowel
- a short vertical segment and as shown in (c), ' ⁇ ' is displayed.
- the left and right quadrangle symbols which are the symbol forms, may be generated by replacing the long horizontal segments, or the long horizontal segments may be connected by diagonal segments, and may be expressed in the form of 'Z' or in the form of reduced 'z'.
- the rectangular symbol image in the middle of the left and right ends is replaced with short horizontal segments, respectively. You may.
- the generation unit 121 generates a symbol image at a position corresponding to a margin position on a character image corresponding to a character of Korean input through the input unit 110, that is, a rectangular image.
- the frame is divided into a primary zone and a neutral zone (spatial compartment), and a symbol image corresponding to the initial zone and the neutral zone is independently generated in the primary zone image and the neutral image frame, respectively.
- the quadrangular image frame is divided into an initial region, a neutral region, and a final region as shown in FIGS. 7C to 7E (spatial compartment), and independently of the initial image frame, the neutral image frame, and the final image frame, respectively.
- a symbol image corresponding to the initial, neutral, and final properties is generated and displayed on a display screen of the output unit 140 or printed out.
- the generator 121 extracts the symbol image mapped to the character input by the user and stored in the storage unit 130, and forms a rectangular image frame as shown in (a) and (b) of FIG.
- the symbol image corresponding to the initial and the neutral or the rectangular image frame, respectively, is divided into and the neutral region (spatial partition) independently of the initial image frame and the neutral image frame, and the initial image as shown in (c) to (e) of FIG.
- the display screen of the output unit 140 divides the region, the neutral region, and the final region (spatial compartment) and independently displays the initial image frame, the neutral image frame, and the symbol image corresponding to the initial image, the neutral image, and the final image image independently of the final image frame. Display, send, or print on the printer.
- the user may input a symbol image desired for output (display, transmission, or printer output, etc.) as characters of a language.
- a symbol image desired for output displayed, transmission, or printer output, etc.
- the user may input a symbol image desired for output (display, transmission, or printer output, etc.) as characters of a language.
- the shape of the figure may be selected first, and then one or more of points, lines, and surfaces may be selected in the representation method.
- the generation unit 121 analyzes a symbol image input through the input unit 110 to allow the user to interpret the symbol image. Characters mapped to the input symbol image are stored in the storage unit 130, and the characters of the corresponding languages are output in real time through the output unit 140.
- the user can input the character information of the language that the user wants to output as a symbol image (display or printer output, etc.). You can also enter the desired symbol image.
- Arabic numerals can be expressed in total of ten.
- Arabic numerals are composed of '0', '1', '2', '3', '4', '5', '6', '7', '8' and '9'.
- the symbol image for the Arabic numeral can be represented by arranging a symbol in a part of the space in a predetermined partitioned space (eg, a rectangular image frame).
- a predetermined partitioned space eg, a rectangular image frame.
- numbers are not divided into primary / neutral / single, so it is not necessary to divide the partitioned space again.
- the symbol is a simplified figure of the shape found from the empty space by putting the Arabic numerals in a predetermined frame to a point, a line, a surface, etc.
- the point may have various shapes such as a triangle, a square, a circle, and the like.
- FIG. 8 illustrates a principle of generating a symbol image corresponding to an Arabic numeral in a numeric image frame.
- (a) is a symbol image corresponding to the number '0'
- (b) is a symbol image corresponding to the number '1'
- (c) is a symbol image corresponding to the number '2'
- (d ) Is a symbol image corresponding to the number '3'
- (e) is a symbol image corresponding to the number '4'
- (f) is a symbol image corresponding to the number '5'
- (g) is a number '6' 'Is a symbol image corresponding to the number' 7 '
- (i) is a symbol image corresponding to the number' 8 '
- (j) is a symbol image corresponding to the number' 9 ' Image.
- the symbol image corresponding to the number may be applied to a clock as shown in FIG. 9 to express the number by the space block and the symbol.
- the number of English alphabets can be represented by 52 in total, 26 each of uppercase and lowercase letters.
- the uppercase English alphabet has 21 consonant alphabets (ie 'B (/ b)', 'C (/ c)', 'D (/ d)', 'F (/ f)', 'G').
- the design design apparatus 200 using the symbol image according to the present invention includes an input unit 210, a storage unit 230, a conversion unit 250, an operation unit 270, and a design processing unit 290. ), And an output unit 280.
- the user inputs the character information to be used in designing the design of the industrial product or the symbol image generated corresponding to the corresponding character information, and the user designs the design.
- File information image files, 3D CAD files, city planning design information, etc.
- industrial products such as products, art works, buildings, crafts, and buildings that are intended to be designed are entered, and these are stored for future design design work. 230).
- the symbol image that the user intends to use in the design design is input through the input unit 210 from an external storage device such as USB, or from the external D / B in which the symbol image is stored to the storage unit 230 through the input unit 210. It may be downloaded.
- the file information about the design object is also input from the external storage device such as USB through the input unit 210, or the image file searched by using the keyword search through the external D / B, etc. are stored through the input unit 210 ( It may be downloaded to 230).
- the shape, structure, color, size, location, material, texture, environmental information, etc. of the design object may be input through the input unit 210, and the size information of the symbol image to be combined with the design object and expressed, Ratio information, shape information, location information, material information, etc. may be determined and input by the designer.
- the conversion unit 250 of the design design apparatus 200 converts the corresponding character information into a corresponding symbol image using the process described with reference to FIG. 2.
- the generated symbol image is stored in the storage unit 230 for future design design work.
- the conversion unit 250 automatically translates the foreign language character information into the national character information according to selection by the designer's operation unit 270, and then translates the translated information.
- Korean character information may be converted into a corresponding symbol image.
- the conversion unit 250 automatically translates the Korean character information into foreign language character information according to a selection made by the designer's operation unit 270, and then translates the translated foreign language.
- the text information may be converted into a corresponding symbol image.
- the operation unit 270 of the design design apparatus 200 may be used by the designer to input various manipulation and editing commands such as reduction, enlargement, scaling, and deletion, and the user may operate the operation unit 270 of the design design apparatus 200.
- the character keyboard provided at) may directly input specific character information to be used for design design.
- the design processing unit 290 of the design design apparatus 200 modifies and modifies the data file of the design object such that a predetermined symbol image is represented on the design object according to an operation and editing command input through the operation unit 270.
- a function of designing a design object is performed, and an image of the design object designed by the design processor 290 is output to the outside through an output unit 280 such as a screen or a printer.
- FIGS. 11 and 12 are flowchart illustrating a design design method using a symbol image according to the present invention.
- a design design method using a symbol image according to the present invention will be described.
- File information image files, 3D CAD files, etc.
- the information is stored in storage 230 for future design design work.
- the conversion unit 250 of the design design apparatus 200 converts and generates the character information input through the input unit 210 into a corresponding symbol image in operation S310, and the generated symbol image is used for future design design work. And is also stored in storage 230.
- step S310 may not be input the character information through the input unit 210, the existing symbol image may be input, in this case, the conversion unit 250 is input symbol Character information corresponding to the corresponding symbol image is extracted from the image, and the extracted character information may be stored in the storage 230.
- the character information extracted through the conversion unit 250 and the character information directly input through the input unit 210 are displayed together on the image of the final designed design object by applying a symbol image, thereby converting the shaped character information into the design object. It may be used to indicate.
- step S310 in the state in which the symbol image to be used for the design and the information of the design object is stored in the storage unit 230, the designer inputs a specific design command through the operation of the operation unit 270 ( S330).
- the design processing unit 290 of the design design apparatus 200 modifies and deforms the data file (image file or 3D CAD file, etc.) of the design object such that a predetermined symbol image is represented on the design object according to the design instruction of the designer. As a result, the design is performed such that the character corresponding to the predetermined symbol image is shaped on the design object (S350).
- the image of the design object designed by the design processing unit 290 is stored in the storage unit 230
- the final design image of the design object in accordance with the operation command through the operation unit 270 of the designer is an output unit such as a screen or a printer It is output to the outside through the (280) (S370).
- the design processing unit 290 may be designed to deform the structure itself of the design object according to the shape of the symbol image according to the designer's operation command. will be.
- the design processor 290 may display a plurality of symbol images generated corresponding to predetermined characters input by the designer. You will be able to adjust the construction location and spacing within the block of the building, and the color, shape, size, and material of the block.
- the design processing unit 290 may modify the design of the outer surface of the design object according to the shape of the symbol image according to the designer's operation command.
- the design processing unit 290 of the design design apparatus 200 when viewed from the front of the plurality of buildings, as shown in FIG. 13, so that the symbol image intended by the designer is sequentially displayed on the front of each building, You may be able to modify the shape, shape, material, size, location, and color of the facade of each building.
- the design processing unit 290 of the design design apparatus 200 displays a symbol image corresponding to “sa” which is a character input by a designer on the upper surface of the box when designing a box of a cube.
- a symbol image corresponding to the letter "rang” input by the designer is displayed, and a symbol image corresponding to the letter "solution” input by the designer may be displayed on the side of the box.
- the design processing unit 290 of the design design apparatus 200 in designing the box of the cube, the character input by the designer in front of the box without displaying any symbol image on the upper surface of the box A symbol image corresponding to "sa” and "lang” is displayed, and a symbol image corresponding to "solution” which is a character input by a designer may be displayed on the side of the box.
- design processing unit 290 of the design design apparatus 200 may further enhance the completeness of the outer design of the box structure as shown in FIG. 14C by displaying additional patterns on the box designed in FIG. 14B.
- FIG. 15 is a view showing an image of a chair designed using the design design apparatus 200 according to the present invention.
- a symbol image corresponding to “ ⁇ ”, which is a character input by a designer is displayed on the upper surface of the cushion of the chair, and the shape of the hole formed at the center of the leg member supporting the cushion is “ ⁇ ” and “a”.
- the chair in FIG. 15 reflects a design in which the character information" bok "is shaped.
- FIG. 16 is a view illustrating an image design process of a watch using the design design apparatus 200 according to the present invention.
- the design processor 290 may display the sign image generated through the process of generating the sign image as shown in FIG. 9.
- a design object as shown in (b) of FIG. 16
- a final design image as shown in (c) of FIG. 16 is generated.
- the design processor 290 of the design design apparatus 200 displays a symbol image corresponding to the letter “Bo”, which is a character input by a designer, on the front of the building when designing an exterior surface of the building.
- it can be designed to express 'spring' by expressing ' ⁇ ' by white square structure so that it can be distinguished brightly from shadow in the area of building shadow caused by the sun.
- the design processor 290 executes the design considering the natural phenomenon as described above, so that the installation target design object can represent the image of a specific character according to the natural phenomenon.
- a sidewalk block can be designed to express a sign image when it is heated above a certain temperature in summer, so that warning messages such as 'heat stroke warning' and 'ozone warning' can be delivered. Character representation is possible.
- the pinwheel on the outside of the design object together with the pinwheel to display a color different from the stationary state by rotating when the wind blows, and the pinnacle displaying only the stationary color that is not rotated even when the wind blows.
- the symbol image may be designed to be implemented on the outer surface of the design object by the pinwheel rotated when the wind blows.
- Such implementation of the symbol image on the design object according to the natural phenomenon may be provided as a 'preview' to the user through the output unit 280 through a simulation function provided by the design processor 290. will be.
- the design processing unit 290 analyzes the shape, structure, material, location, size, color, gloss, texture, installation environment, etc. of the design object to output various possibilities that the symbol image can be combined with the design object ( Automatically present to the designer through 280, the designer can optimize the implementation of the symbol image on the design object by editing through the operation unit 270 based on various combinations presented through the output unit 280 It would be desirable.
- the automatic design function as described above provided by the design processing unit 290 is preferably applied to the design of a small design object, and in the design of a large design object, such as a building, the designer rather than apply the automatic design It may be desirable to design in a manner that gives a specific feature to the design object through the operation unit 270.
- the design processing unit 290 may perform a function of automatically checking the stability by analyzing the load distribution of the design object for which the design or modified design is completed, and for this purpose, the design processing unit 290 may be used in civil engineering and building engineering. It would be desirable to have a load analysis program installed.
- the design processing unit 290 may be designed to combine the symbol image into a shape that can be visually distinguished from the outer surface of the design object, but to the design object using ultraviolet, infrared, microcurrent, sound waves, chemical reaction samples, and the like.
- the symbol image By designing the symbol image to be displayed, it is not distinguished by the naked eye, but it may be designed to recognize the symbol image through special equipment such as an infrared camera.
- design reflection of the symbol image that can be distinguished by the naked eye and the design reflection of the symbol image that cannot be distinguished by the naked eye may be applied to the same design object.
- the design processing unit 290 of the design design apparatus 200 may be designed to deform the silhouette of the symbol image by arranging the spatial partition lines of the symbol image in the same manner as the background color of the symbol image. For example, if the black space segment and symbol images are represented on a white background, if the symbol image and space segment line are inverted to white and the empty white space is black, the character form is expressed as a silhouette. This is because they change to the same color and appear to disappear.
- the design processor 290 may be designed to be a symbol image obtained by encrypting the symbol image displayed on the outer surface of the design object.
- the exterior surface of the design object is decorated by an electric light function, and a plurality of light bulbs that are to be emitted to display a sign image are not simultaneously executed, but are sequentially and alternately emitting light at a time difference, thereby continuously photographing an electric light plate. If only the symbol image can be recognized externally.
- the conversion unit 250 generates a symbol image corresponding to the character information input through the operation unit 270 of the design design apparatus 200, the generated sign image is installed on the electronic display board
- the electronic board controls the lighting of the electronic board so that the sign image received from the design design apparatus 200 is implemented, so that the design object designed by the designer through the electronic design board 200 is immediately implemented through the electronic board. You could do it.
- the conversion unit 250 generates a symbol image corresponding to the character information (KOREA) input through the operation unit 270 of the design design apparatus 200 as shown in FIG.
- the design processor 290 may design a design object such that the symbol image generated through the generation of the symbol image is represented in various cultural images as shown in FIGS. 29 (b), (c), and (d). will be.
- the conversion unit 250 converts the symbol image corresponding to the character information TOM input through the operation unit 270 of the design design apparatus 200 as shown in FIG.
- the design processor 290 may deform and design the symbol image generated by generating the symbol image as shown in FIGS. 30B and 30C.
- the design design apparatus 200 may be a smart phone installed with a predetermined application supporting each of the above-described functions, and the foreign tourist has his or her name and visit in the state of having such a smart phone. You may enter a country or city name and date of visit, and take a commemorative photo in front of the symbolic image of the letter.
- the design design apparatus 200 when designing the design object in the above-described step S350, may use the symbol image as shown in Figs.
- the symbol image in FIG. 18 is a so-called rectangular symbol image, and is a symbol image simultaneously representing symbol images formed by rotating a symbol image corresponding to a specific character (consonant of a Korean character) by 90 degrees.
- the symbol letter 'Bok' is displayed only when viewed from the front, but when the same symbol letter is displayed on the front, rear, left and right slopes, the upper part ' ⁇ ' receives the same symbol image four times, as shown in FIG. Created as an image.
- FIG. 19 is a view showing a state in which " loved " is displayed as a symbol image by applying a rectangular symbol image to a consonant of each syllable as an example of utilization of the rectangular symbol image in FIG.
- the design object designed by the design design apparatus 200 according to the present invention in step S350 may be a display unit of a mobile phone or an electronic watch as shown in FIG. 20, and specifically, numeric information (07) of the display unit. : 09) can be designed by applying a symbol image.
- the symbol image used in the present invention is a symbolic for the combination and metaphor that promotes the combination of the character and the image in the plane and combines the subject and the character in three dimensions. Character. It can be easily combined with objects and spaces without being easily read by the geometric composition, and can increase the value of objects and spaces by metaphorically including the message intended by the creator.
- mass consumption is made by mass production today, and this consumption pattern emphasizes the value of the product and the price of the product.
- the present invention makes it easier to combine the product with letters, so that a special meaning of purchase such as a birthday or a wedding is applied to the product.
- users will discover new values in addition to prices and brands through the meaning of the letters associated with the product.
- the present invention can be more interesting in the field of crafts, art, architecture, interior, fashion, lighting design, urban planning. Since characters can be expressed metaphorically, it is easy to express characters that do not undermine the essence of the work, so that the characters containing the artist's philosophy, intentions, beliefs, origins and favorite meanings can be easily combined and developed into a new creative genre. .
- the present invention will be more powerful in combination with smart devices. Even those who do not have professional design education can use this technology to create and share new creations with their own special meanings in the space, and to freely choose the object and method of sharing.
- the present invention relates to the use of characters in this era, and can be summarized as related to character expression and interpretation incorporating science and technology.
- the design object analysis device 400 to which the symbol image is applied is further devised.
- the design object analyzing apparatus 400 to which the symbol image according to the present invention is applied includes an input unit 410, a storage unit 430, an analysis unit 450, and a display unit 470.
- external information of a design object implemented to express a symbol image is input through the input unit 410, and external information of the design object input through the input unit 410 is stored in the storage unit 430.
- the external information of the design object input through the input unit 410 may be a photographed image file of the design object, and the external information of the design object may be input unit 410 from an external storage device such as USB. ) Or may be downloaded to the storage unit 430 through the input unit 410 from an external D / B in which external information of the design object is stored.
- the analysis unit 450 of the design object analyzing apparatus 400 analyzes external information, extracts a symbol image implemented in the design object, and analyzes text information corresponding to the symbol image, and displays the display unit 470. By displaying the symbol image and text information extracted by the analysis unit 450, performs a function of providing the analysis information to the user.
- the design object analysis device 400 is provided with a separate camera module, and by directly photographing the design object through this, it is also possible to obtain an image file as external information, as described above
- the image file obtained by the analysis unit 450 may also be stored in the storage unit 430 for analysis through the analysis unit 450.
- FIGS. 21 and 22 are flowchart illustrating a method of analyzing a design object to which a symbol image is applied according to the present invention.
- external information of the design object is input through the input unit 410 of the design object analyzing apparatus 400 (S510). ), The external information of the input design object is stored in the storage unit 430 for analysis.
- the analysis unit 450 of the design object analyzing apparatus 400 Based on the external information of the design object stored in the storage unit 430, the analysis unit 450 of the design object analyzing apparatus 400 extracts a symbol image implemented on the design object, and extracts text information corresponding to the symbol image. Analyze (S530).
- the analysis unit 450 may analyze the image of the upper surface of the box as the design object.
- the symbol image displayed on the screen is extracted, and from the extracted symbol image, corresponding word information "sa" is analyzed.
- the analysis unit 450 extracts the symbol image displayed on the front side through image analysis of the front side of the box as the design target, and analyzes the corresponding character information "lang" from the extracted symbol image.
- the symbol image displayed on the side is extracted, and the corresponding character information "solution” is analyzed from the extracted symbol image.
- the analysis unit 450 extracts a symbol image from the image information that is external image information of the design target, the image information of the design target input to the input unit 410 various symbol images previously stored in the storage unit 430. It is desirable to use a method of selecting a symbol image showing the highest degree of matching through a pattern search that contrasts 1: 1 with.
- the analysis unit 450 extracts and analyzes corresponding character information from the extracted symbol image
- the character information is extracted from the symbol image by applying an operation of generating a symbol image from each character in FIG. You can extract the conversion.
- the extracted symbol image and text information are displayed to the user by being displayed through the display unit 470 of the design object analyzing apparatus 400 (S550).
- the analysis unit 450 is an upper surface through image analysis of the upper surface of the cushion of the chair
- the symbol image displayed on the screen is extracted, and the corresponding character information " ⁇ " is analyzed from the extracted symbol image.
- the analysis unit 450 extracts a symbol image through image analysis of the leg member supporting the cushioning unit, and sequentially analyzes the corresponding character information “” and “a” from the extracted symbol image.
- Dot characters b which are symbol images extracted through FIG. 15, are displayed through the display unit 470 of the design object analyzing apparatus 400 as shown in FIG. "And" LUCK ", which is the English translation information (d) and” ⁇ ", which is the Chinese translation information (e), are displayed together with the chair image which is the design object in FIG.
- the analysis unit 450 performs the above analysis in the state where the design object is displayed on the display unit 470 by photographing through a camera module included in the design object analyzing apparatus 400, and the symbol as a result of the analysis is performed. If the image or text information is displayed on the display unit 470 so as to overlap with the captured image of the design object, the user may be provided with an augmented reality service through the design object currently being photographed.
- the user can easily compare and check them in the future.
- additional information f and option setting information g may be additionally displayed on the display unit 470 of the design object analyzing apparatus 400.
- the external information of the design object input through the input unit 410 of the design object analysis device 400 is generated from the temperature information for each part of the design object, the design object in addition to the image information of the design object. It may be light information to say, frequency information for each part of the design object.
- the analysis unit 450 may extract the symbol image by analyzing external image information of the design object, but if the symbol object is implemented as an invisible temperature distribution or frequency distribution, the analysis unit 450 May extract the symbol image by performing visual graphic processing of the external temperature distribution information or the frequency distribution information of the design object and analyzing the temperature distribution image or the frequency distribution image subjected to the visual graphic processing.
- infrared image information ultraviolet image information, thermal image information, sound wave distribution information, chemical reaction detection image information, electrical signal detection image information, etc. may be used independently or in combination as external information.
- the analysis unit 450 may extract a symbol image from an image obtained through visual processing of these external information.
- the external information input through the input unit 410 may be input while the image image of the top, bottom, front, back, left and right sides of the design object are separated, respectively, but through a camera module having a zoom function.
- image information on the maximum three surfaces may be simultaneously input through the input unit 410 using a zoom function.
- the analysis unit 450 may receive the image information on the three surfaces.
- the analysis unit 450 performs the analysis based on the external information sequentially input through the input unit 410, after completion of the analysis according to the first input external information, for the image associated with the analyzed symbol image,
- the user may further perform sequential analysis according to an additional search such as performing an analysis on the second information input through the input unit 410 through the additional search.
- stages where symbol images are embodied at different time intervals such as when illuminations embodying each symbol image corresponding to each character information "Thank you for support” are sequentially irradiated on the stage in the performance hall.
- the camera module provided in the design object analyzing apparatus 400 continuously photographs the stage, so that the analysis unit 450 sequentially analyzes the lighting image of the stage, and accordingly Through the display unit 470 will be able to display a message through the performance lighting, "thank you for the support.”
- the present invention can also be used for analysis of the design object implemented so that a plurality of symbol images overlap (overlapping). That is, as shown in FIG. 24, the analysis can be performed even in a state where the spatial spaces and the symbol objects are overlapped.
- two symbol images may be overlapped to achieve a complicated symbol arrangement and a spatial partition.
- the 'axis' character is black, and the 'bok' character is grayed out as shown in the second image of (a), and the two symbol images are overlapped (a ) As shown in the third image.
- the shape (the final image) of the second symbol image (layer 2) is the same as the shape of the first symbol image (layer 1).
- the size of the figure (the final image) of the first symbol image (layer 1) is reduced (b) or the size of the second symbol image (the layer 2) is enlarged (c).
- the figure display of the second symbol image may be omitted (d).
- the overlapping two symbol images (layers 1 and 2) are given a unique characteristic so that they can be distinguished, and it is possible to separate each layer by one character by this characteristic.
- a variety of methods such as color, texture (strictly visual), lightness, saturation, shape, contrast, pattern, and transparency, as well as spatial separation by two-dimensional and three-dimensional dimensions, are considered. Can be.
- a mark (identifier) having the same characteristics as those of each layer is displayed on the overlapped layers to display the order of the overlapped layers. Since the purpose of the identifier is order display and decoration, it can be displayed or different from the same number as the number of layers.
- the order of layers can be identified by the identifier, and the number of layers can be identified by the number of symbol types in the overlapping symbol characters.
- the order of the identifiers is determined from 'up' to 'down' if displayed vertically or 'left' to 'right' if displayed horizontally. Thus, the identifiers located at the top and the left represent the first layer.
- the same identifier (black identifier) as one of the color, contrast, brightness, pattern, transparency, and texture of the first symbol image (Layer 1) generated first is displayed in front as in the first image of FIG. 25,
- the same identifier (gray identifier) as one of the color, contrast, brightness, pattern, and texture of the second symbol image (Layer 2) created later is displayed later as in the first image of FIG.
- the overlapped first image a can be read as 'Korean'.
- the design object analyzing apparatus 400 may also distinguish the overlapped symbol images implemented in the design object through the identifier, and specifically, the analysis unit 450 may overlap the first image of FIG. 25.
- the two symbol images layers 1 and 2
- the analysis unit 450 may overlap the first image of FIG. 25.
- the first overlapped image can then be read and analyzed in Korean.
- the symbol image implemented in the design object in the present invention may be implemented in the design object in the absence of a spatial partition line as shown in (c) of FIG. 26, in this case through the analysis unit 450
- reference coordinates are displayed in the form of '+' on each of four corners of the space partition line as shown in FIG. 26, and the reference coordinate display differs according to the designer's intention. It may be expressed in form, added, or omitted.
- the analyzer 450 recognizes the reference coordinates displayed at the four side corners of the symbol image, and displays the types of spatial partition lines having the corresponding reference coordinates as the corners.
- the spatial partition line of the branch character information analyzed for each of the six spatial partition lines can be analyzed in a state of being sequentially applied as shown in FIG. 27.
- valid character information among character information analyzed according to six spatial partition lines sequentially applied as shown in FIG. 27 is the only 'bok' extracted from (i).
- the analysis unit 450 can analyze the character information from the symbol image based on the reference coordinate (+) even when the spatial partition line of the symbol image is not displayed as shown in (c) of FIG. 26. Will be.
- the reference coordinates may be omitted. If multiple symbol images are listed at the same time, the character information may be combined by combining the layout and shape information between the symbol images even if the spatial partition line is not displayed. In this case, the reference coordinate may be omitted. Also, since the reference coordinate is used as a reference point for the initial spatial partition line, it can be displayed by various symbols or methods besides the (+) form.
- the present invention is recognized in the field of computer-related design.
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Abstract
Description
Claims (26)
- 기호 이미지를 이용한 디자인 설계 방법에 있어서,(a) 소정의 문자에 대응되는 이미지로서, 상기 문자의 이미지 상의 여백 위치에 대응되는 위치에 생성되는 이미지인 기호 이미지가 표현되도록, 설계 대상물을 설계하는 단계; 및(b) 설계된 상기 설계 대상물의 이미지를 출력하는 단계를 포함하는 기호 이미지를 이용한 디자인 설계 방법.
- 제1항에 있어서,상기 문자는, 한글 문자, 영문자, 숫자 중 적어도 하나를 포함하는 것인 기호 이미지를 이용한 디자인 설계 방법.
- 제1항에 있어서,상기 기호 이미지는 해당 문자 또는 숫자 이미지 상의 여백의 모양에 따라 그 모양이 결정되는 것인 기호 이미지를 이용한 디자인 설계 방법.
- 제3항에 있어서,상기 기호 이미지는 삼각형, 사각형, 원, 각 도형의 형상을 갖는 것인 기호 이미지를 이용한 디자인 설계 방법.
- 제1항에 있어서,상기 (a) 단계는,상기 설계 대상물의 구조를 상기 기호 이미지의 형상에 따라 설계하는 것인 기호 이미지를 이용한 디자인 설계 방법.
- 제1항에 있어서,상기 (a) 단계는,상기 설계 대상물의 외면을 상기 기호 이미지의 형상에 따라 설계하는 것인 기호 이미지를 이용한 디자인 설계 방법.
- 기호 이미지를 이용한 디자인 설계 장치에 있어서,소정의 문자에 대응되는 이미지로서, 상기 문자의 이미지 상의 여백 위치에 대응되는 위치에 생성되는 이미지인 기호 이미지가 표현되도록, 설계 대상물을 설계하는 설계 처리부; 및상기 설계 처리부에 의해 설계된 상기 설계 대상물의 이미지를 출력하는 출력부를 포함하는 기호 이미지를 이용한 디자인 설계 장치.
- 제7항에 있어서,상기 문자는, 한글 문자, 영문자, 숫자 중 적어도 하나를 포함하는 것인 기호 이미지를 이용한 디자인 설계 장치.
- 제7항에 있어서,상기 기호 이미지는 해당 문자 또는 숫자 이미지 상의 여백의 모양에 따라 그 모양이 결정되는 것인 기호 이미지를 이용한 디자인 설계 장치.
- 제9항에 있어서,상기 기호 이미지는 삼각형, 사각형, 원, 각 도형의 형상을 갖는 것인 기호 이미지를 이용한 디자인 설계 장치.
- 제7항에 있어서,상기 설계 처리부는, 상기 설계 대상물의 구조를 상기 기호 이미지의 형상에 따라 설계하는 것인 기호 이미지를 이용한 디자인 설계 장치.
- 제7항에 있어서,상기 설계 처리부는, 상기 설계 대상물의 외면을 상기 기호 이미지의 형상에 따라 설계하는 것인 기호 이미지를 이용한 디자인 설계 장치.
- 기호 이미지가 적용된 설계 대상물의 분석방법에 있어서,(a) 소정의 문자에 대응되는 이미지로서, 상기 문자의 이미지 상의 여백 위치에 대응되는 위치에 생성되는 이미지인 기호 이미지가 표현되도록 구현된 설계 대상물의 외부 정보를 입력받는 단계;(b) 상기 설계 대상물의 외부 정보를 분석하여, 상기 설계 대상물에 구현된 기호 이미지를 추출하는 단계; 및(c) 추출된 상기 기호 이미지를 표시하는 단계를 포함하는 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제13항에 있어서,상기 기호 이미지는 복수의 기호 이미지가 오버랩핑된 기호 이미지이며,상기 (b) 단계에서 상기 복수의 기호 이미지 각각을 추출하는 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제13항에 있어서,상기 기호 이미지는, 상기 기호 이미지의 해석 기준 좌표가 표시되어 있는 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제13항에 있어서,상기 문자는, 한글 문자, 영문자, 숫자 중 적어도 하나를 포함하는 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제13항에 있어서,상기 기호 이미지는 해당 문자 또는 숫자 이미지 상의 여백의 모양에 따라 그 모양이 결정되는 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제17항에 있어서,상기 기호 이미지는 삼각형, 사각형, 원, 각 도형의 형상을 갖는 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 제13항에 있어서,상기 외부 정보는 상기 설계 대상물의 영상 정보, 빛의 정보, 온도 정보, 및 주파수 정보 중 어느 하나인 것인 기호 이미지가 적용된 설계 대상물의 분석방법.
- 기호 이미지가 적용된 설계 대상물 분석 장치에 있어서,소정의 문자에 대응되는 이미지로서, 상기 문자의 이미지 상의 여백 위치에 대응되는 위치에 생성되는 이미지인 기호 이미지가 표현되도록 구현된 설계 대상물의 외부 정보를 입력받는 입력부;상기 입력부를 통해 입력된 외부 정보를 분석하여, 상기 설계 대상물에 구현된 기호 이미지를 추출하는 분석부; 및상기 분석부에 의해 추출된 기호 이미지를 표시하는 표시부를 포함하는 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제20항에 있어서,상기 기호 이미지는 복수의 기호 이미지가 오버랩핑된 기호 이미지이며,상기 분석부는, 상기 복수의 기호 이미지 각각을 추출하는 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제20항에 있어서,상기 기호 이미지는, 상기 기호 이미지의 해석 기준 좌표가 표시되어 있는 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제20항에 있어서,상기 문자는, 한글 문자, 영문자, 숫자 중 적어도 하나를 포함하는 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제20항에 있어서,상기 기호 이미지는 해당 문자 또는 숫자 이미지 상의 여백의 모양에 따라 그 모양이 결정되는 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제24항에 있어서,상기 기호 이미지는 삼각형, 사각형, 원, 각 도형의 형상을 갖는 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
- 제20항에 있어서,상기 외부 정보는 상기 설계 대상물의 영상 정보, 빛의 정보, 온도 정보, 및 주파수 정보 중 어느 하나인 것인 기호 이미지가 적용된 설계 대상물 분석 장치.
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US14/903,655 US10049429B2 (en) | 2013-07-09 | 2014-07-09 | Device and method for designing using symbolized image, and device and method for analyzing design target to which symbolized image is applied |
CN201480039655.8A CN105659236B (zh) | 2013-07-09 | 2014-07-09 | 图案设计装置及方法、设计对象的分析装置及方法 |
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KR10-2013-0080574 | 2013-07-09 | ||
KR20130080573A KR20150006738A (ko) | 2013-07-09 | 2013-07-09 | 기호 이미지를 이용한 디자인 설계 장치 및 방법 |
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CN105659236B (zh) | 2020-03-17 |
JP2016532937A (ja) | 2016-10-20 |
CN105659236A (zh) | 2016-06-08 |
US10049429B2 (en) | 2018-08-14 |
US20160148341A1 (en) | 2016-05-26 |
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