KR20200142965A - Online diagnosis system based on color puzzle visualization for observation and expression power diagnosis - Google Patents

Abstract

The present invention relates to an online system based on color puzzle visualization for diagnosing observation and expressive power. According to the present invention, an online diagnosis apparatus comprises: an image selection receiving unit for receiving a selection for any one of a plurality of candidate images from a user terminal; a color puzzle providing unit which generates a plurality of color puzzles for online diagnosis based on the candidate image according to the selection and provides the color puzzles to the user terminal; a user diagnosis receiving unit for receiving a rearrangement result of the plurality of color puzzles as a user diagnosis for a preset time limit; and an online diagnosis performing unit which performs the online diagnosis on the image expression power and observation power of the user diagnosis based on a change in a position of the plurality of color puzzles according to the rearrangement result. The color puzzle providing unit is provided to the user terminal by overlapping an obstruction puzzle on at least one of the plurality of color puzzles.

Description

Online diagnosis system based on color puzzle visualization for diagnosis of observation and expressive power {ONLINE DIAGNOSIS SYSTEM BASED ON COLOR PUZZLE VISUALIZATION FOR OBSERVATION AND EXPRESSION POWER DIAGNOSIS}

The present invention relates to an online diagnosis technology for observation and expressive power, and more particularly, to an online diagnosis system based on color puzzle visualization for diagnosis of observation power and expressive power that can effectively evaluate a user's visual understanding and observation power through online. .

As one of creative learning, Design Thinking methodology is a kind of complex problem solving logic that uses an empathetic mindset to observe users to understand customer needs and find opportunities to solve them. May correspond to a speculative approach.

In a changing society such as the 4th industrial revolution, innovation, and diversity, creativity has become a more important criterion for evaluating individual competence, but the numerical objective evaluation system that can know the degree of individual creativity is inadequate. The importance of a system that can provide effective diagnosis for the important elements of observation and expression is also increasing.

Korean Patent Registration No. 10-1144632 (2012.05.03) relates to a puzzle play equipment for creativity development, and users download the background image of the puzzle base plate, the theme image, and the icon of the hint image from the Internet and receive the subject image and hint image by themselves. It is characterized in that it is configured to design an original puzzle base plate by designating the number and position of and to develop an assembly pattern of each puzzle piece by itself.

Korean Patent Laid-Open Publication No. 10-2009-0005883 (2009.01.14) relates to a prefabricated puzzle block for improving creativity, and is harmful when infants and children play a combination of puzzles in various shapes to develop their creativity. Disclosed is a prefabricated puzzle block that is helpful in mental stability by forming a material so that it does not emanate, and by forming a scent rubber coating layer on the surface of the block to emit a soft touch and a subtle fragrance.

Korean Patent Registration No. 10-1144632 (2012.05.03) Korean Patent Publication No. 10-2009-0005883 (2009.01.14)

An embodiment of the present invention is to provide an online diagnosis system based on color puzzle visualization for diagnosing observational power and expressiveness that can effectively evaluate a user's visual understanding and observational power through online.

An embodiment of the present invention is to provide an online diagnosis system based on color puzzle visualization for diagnosis of observational power and expressive power that provides simple diagnosis through algorithm analysis through color puzzles so that basic features can be evaluated through visual observation.

An embodiment of the present invention provides an on-line diagnosis system based on color puzzle visualization for diagnosis of observing power and expressive power that can effectively perform user diagnosis by providing a color puzzle generated based on an image selected by a user by overlapping and providing an obstruction puzzle. I want to provide.

Among the embodiments, an online diagnosis system based on color puzzle visualization for diagnosing observation power and expression power includes an image selection receiver receiving a selection from a user terminal about any one of a plurality of candidate images, based on the candidate image according to the selection. A color puzzle providing unit that generates a plurality of color puzzles for online diagnosis and provides it to the user terminal, a user diagnosis receiving unit that receives the rearrangement result of the plurality of color puzzles for a preset time limit as a user diagnosis, and the rearrangement result And an online diagnosis performing unit that performs the online diagnosis on the image expression power and observation power of the user diagnosis based on a change in the position of the plurality of color puzzles according to the following.

The image selection receiver may receive, as the selection, an image recommended by an image recommendation algorithm based on the user's personal information including gender, age, major, and occupation received from the user terminal.

The color puzzle providing unit dividing the candidate image into a plurality of partial images having the same size, for each of the plurality of partial images, a color having the highest frequency of appearance among the colors for each pixel as a representative color of the corresponding partial image. Determining, assigning a unique identifier to each of the plurality of partial images and storing the corresponding unique identifier by associating a correct answer position and a representative color, and giving a representative color to each of the plurality of partial images The step of generating color puzzles, randomizing the position of each color puzzle, and providing it to the user terminal may be performed.

The color puzzle providing unit may provide the user terminal by overlapping a disturbing puzzle on at least one of the plurality of color puzzles.

The color puzzle providing unit may assign an intermediate color between a lightest color and a darkest color among representative colors of each of the plurality of color puzzles as a representative color of the disturbance puzzle.

The online diagnosis performing unit may classify the level of the image expression power and the observation power based on a ratio in which the position of each of the plurality of color puzzles according to the user diagnosis matches a corresponding correct answer position, and provide the result of the online diagnosis. .

The online diagnosis performing unit calculates the distance between the position of each of the plurality of color puzzles and the corresponding correct answer position according to the user diagnosis, and classifies the level of the image expression power and the observation power based on the sum of distances for all color puzzles. It can be provided as a result of the online diagnosis.

The online diagnosis system may further include a learning method guide unit for guiding a learning method regarding the image expression power and observation power according to a result of the online diagnosis reflecting at least one of gender, age, major, and occupation.

The disclosed technology can have the following effects. However, since it does not mean that a specific embodiment should include all of the following effects or only the following effects, it should not be understood that the scope of the rights of the disclosed technology is limited thereby.

The online diagnosis system based on color puzzle visualization for diagnosing observation and expressive power according to an embodiment of the present invention can provide a simple diagnosis through algorithm analysis through a color puzzle so that basic features can be evaluated through visual observation.

The online diagnosis system based on color puzzle visualization for diagnosing observation and expressive power according to an embodiment of the present invention can effectively perform user diagnosis by overlapping and providing a disturbing puzzle with a color puzzle generated based on an image selected by the user. have.

1 is a diagram illustrating a configuration of an online diagnosis system based on color puzzle visualization for diagnosing observation and expressive power according to the present invention.
FIG. 2 is a block diagram illustrating a physical configuration of the online diagnostic apparatus in FIG. 1.
3 is a block diagram illustrating a functional configuration of the on-line diagnostic apparatus in FIG. 1.
4 is a flowchart illustrating an online diagnosis process using color puzzle visualization performed in the online diagnosis apparatus of FIG. 1.
5 is an exemplary diagram illustrating the concept of visualizing a color puzzle used in an online diagnosis apparatus according to an embodiment of the present invention.
6 is an exemplary diagram illustrating a disturbance puzzle used in an online diagnosis apparatus according to an embodiment of the present invention.
7 is an exemplary diagram illustrating an online diagnosis process performed by the online diagnosis apparatus according to an embodiment of the present invention.
8 is a flowchart illustrating an online diagnosis process using a disturbance puzzle and a color puzzle.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be variously changed and have various forms, the scope of the present invention should be understood to include equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only those effects, the scope of the present invention should not be understood as being limited thereto.

Meanwhile, the meaning of terms described in the present application should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from other components, and the scope of rights is not limited by these terms. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component.

When a component is referred to as being "connected" to another component, it should be understood that although it may be directly connected to the other component, another component may exist in the middle. On the other hand, when it is mentioned that a certain component is "directly connected" to another component, it should be understood that no other component exists in the middle. On the other hand, other expressions describing the relationship between the constituent elements, that is, "between" and "just between" or "neighboring to" and "directly neighboring to" should be interpreted as well.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to implemented features, numbers, steps, actions, components, parts, or It is to be understood that it is intended to designate that a combination exists and does not preclude the presence or addition of one or more other features or numbers, steps, actions, components, parts, or combinations thereof.

In each step, the identification code (for example, a, b, c, etc.) is used for convenience of explanation, and the identification code does not describe the order of each step, and each step has a specific sequence clearly in context. Unless otherwise stated, it may occur differently from the stated order. That is, each of the steps may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

The present invention can be embodied as computer-readable codes on a computer-readable recording medium, and the computer-readable recording medium includes all types of recording devices storing data that can be read by a computer system. . Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage devices. Further, the computer-readable recording medium is distributed over a computer system connected by a network, so that the computer-readable code can be stored and executed in a distributed manner.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the field to which the present invention belongs, unless otherwise defined. Terms defined in commonly used dictionaries should be construed as having meanings in the context of related technologies, and cannot be construed as having an ideal or excessive formal meaning unless explicitly defined in the present application.

1 is a diagram illustrating the configuration of an online diagnosis system according to the present invention.

Referring to FIG. 1, the online diagnosis system 100 may include a user terminal 110, an online diagnosis apparatus 130, and a database 150.

The user terminal 110 may correspond to a computing device capable of performing diagnosis on the expression power and observation power of an image online and confirming the diagnosis result, and may be implemented as a smartphone, a laptop computer, or a computer, but is not limited thereto. It can also be implemented in various devices such as a tablet PC. The user terminal 110 may be connected to the online diagnosis apparatus 130 through a network, and a plurality of user terminals 110 may be connected to the online diagnosis apparatus 130 at the same time.

The online diagnosis device 130 corresponds to a computer or program capable of performing a test on the user's image expression and observation power using a color puzzle generated based on the user's selected image and performing an online diagnosis based on the test result. It can be implemented as a server. The online diagnosis device 130 may be wirelessly connected to the user terminal 110 through Bluetooth, WiFi, a communication network, etc., and may exchange data with the user terminal 110 through a network.

In an embodiment, the online diagnosis apparatus 130 may store information necessary for online diagnosis by interworking with the database 150. Meanwhile, unlike FIG. 1, the online diagnosis apparatus 130 may be implemented including the database 150 therein. In addition, the online diagnosis apparatus 130 may be implemented including a processor, a memory, a user input/output unit, and a network input/output unit, which will be described in more detail with reference to FIG. 2.

The database 150 may correspond to a storage device that stores various information necessary in a process of performing an online diagnosis and providing a diagnosis result regarding the user's image expression and observation power. The database 150 may store the user's personal information and diagnosis results collected from the plurality of user terminals 110, and may store information about images and color puzzles used for online diagnosis, but is not limited thereto. , The online diagnosis apparatus 130 may store information collected or processed in various forms while performing an online diagnosis and providing the result.

FIG. 2 is a block diagram illustrating a physical configuration of the online diagnostic apparatus in FIG. 1.

Referring to FIG. 2, the online diagnosis apparatus 130 may be implemented by including a processor 210, a memory 230, a user input/output unit 250, and a network input/output unit 270.

The processor 210 may perform an online diagnosis based on an image selected by the user and perform a process of processing each operation in the process of providing the diagnosis result, and the memory 230 that is read or written throughout the process It can be managed, and a synchronization time between the volatile memory and the nonvolatile memory in the memory 230 can be scheduled. The processor 210 can control the overall operation of the online diagnostic device 130, and is electrically connected to the memory 230, the user input/output unit 250, and the network input/output unit 270 to control data flow between them. I can. The processor 210 may be implemented as a CPU (Central Processing Unit) of the online diagnostic apparatus 130.

The memory 230 may include an auxiliary memory device that is implemented as a nonvolatile memory such as a solid state drive (SSD) or a hard disk drive (HDD), and is used to store all data required for the online diagnostic device 130, A main memory device implemented as a volatile memory such as RAM (Random Access Memory) may be included.

The user input/output unit 250 may include an environment for receiving a user input and an environment for outputting specific information to a user. For example, the user input/output unit 250 may include an input device including an adapter such as a touch pad, a touch screen, an on-screen keyboard, or a pointing device, and an output device including an adapter such as a monitor or a touch screen. In one embodiment, the user input/output unit 250 may correspond to a computing device accessed through a remote connection, and in such a case, the online diagnostic device 130 may be performed as a server.

The network input/output unit 270 includes an environment for connecting to an external device or system through a network, and includes, for example, a local area network (LAN), a metropolitan area network (MAN), a wide area network (WAN), and a VAN ( Value Added Network) may include an adapter for communication.

3 is a block diagram illustrating a functional configuration of the on-line diagnostic apparatus in FIG. 1.

Referring to FIG. 3, the online diagnosis apparatus 130 includes an image selection receiving unit 310, a color puzzle providing unit 320, a user diagnosis receiving unit 330, an online diagnosis performing unit 340, and a learning method guide unit 350. And a control unit 360.

The image selection receiver 310 may receive a selection of any one of a plurality of candidate images from the user terminal 110. The online diagnosis apparatus 130 may store various images for diagnosing the user's image expression and observation power in the database 150, and the image selection receiver 310 is an image selected by the user from among a specific number of candidate images provided to the user. Can receive. To this end, the image selection receiving unit 310 may generate an interface for receiving an image selection from a user and provide it to the user terminal 110, and the user may select a desired image through the interface.

In one embodiment, the image selection receiving unit 310 may select and receive an image recommended by an image recommendation algorithm based on the user's personal information including gender, age, major, and occupation received from the user terminal 110. I can. The online diagnosis device 130 may store various personal information input from the user with the consent of the user, and use at least one personal information such as the user's gender, age, major, and occupation by using big data analysis to provide a specific user. Can recommend suitable candidate images. To this end, the image selection receiving unit 310 may utilize an image recommended through an image recommendation model generated through learning, and may process the recommended image as a user's selection.

The color puzzle providing unit 320 may generate a plurality of color puzzles for online diagnosis based on the candidate image according to the selection and provide the generated color puzzles to the user terminal 110. Here, the online diagnosis may correspond to a test regarding the user's image expression and observation ability, and the diagnosis may be performed based on a result of assembling a color puzzle according to a basic image provided by the user. For example, when the basic image is 500*500 pixels, the color puzzle is 16 square puzzles composed of 125*125 pixels, and may be provided to the user by arranging in a form of 4 horizontal rows * 4 vertical columns. The color puzzle providing unit 320 is not necessarily limited thereto, and may generate and provide a color puzzle having various sizes and arrangement structures to a user.

In one embodiment, the color puzzle provider 320 divides the candidate image into a plurality of partial images having the same size, and corresponds to a color with the highest frequency of appearance among the colors for each pixel for each of the plurality of partial images. Determining the representative color of the partial image, assigning a unique identifier to each of the plurality of partial images, and storing the corresponding unique identifier with the correct answer location and representative color, and assigning a representative color to each of the plurality of partial images Accordingly, a step of generating a plurality of color puzzles, randomizing the position of each color puzzle, and providing the color puzzle to the user terminal 110 may be performed.

That is, the color puzzle providing unit 320 may generate a color puzzle based on the image selected by the user, and in the process of generating the color puzzle, may assign a correct answer location and a representative color for each color puzzle for online diagnosis. . In addition, the color puzzle providing unit 320 may assign a unique identifier for each color puzzle in order to identify the color puzzle.

Meanwhile, the color puzzle providing unit 320 may give a representative color to the color puzzle in various ways. For example, the color puzzle provider 320 may generate a plurality of partial images by dividing the candidate image, and for each partial image, the color having the highest appearance frequency (or appearance rate) among the colors for each pixel is It can be determined by the representative color of the image. As another example, the color puzzle providing unit 320 may determine the average color of each pixel for each partial image as a representative color of the corresponding partial image.

The color puzzle providing unit 320 may randomize the position of each color puzzle in a process of providing the generated color puzzles to a user for testing. For example, the position of each color puzzle may be randomized within the entire range, and in some cases, the position may be randomly changed only within each row or column range.

In an embodiment, the color puzzle providing unit 320 may provide the user terminal 110 by overlapping the disturbing puzzle on at least one of the plurality of color puzzles. Here, the disturbing puzzle may correspond to an additional color puzzle adopted in order to perform a user's test more accurately, not a color puzzle normally generated from a candidate image selected by the user.

For example, in a normal case, a total of 16 color puzzles may be provided for one basic image, and additionally 2 or 3 disturbing puzzles may be provided. Therefore, even if the disturbing puzzle exists, the user may obtain a higher score (or grade) when performing the test using only the normal color puzzle than when performing the test using the disturbing puzzle. The color puzzle providing unit 320 may generate a plurality of color puzzles and then generate an additional disturbing puzzle, overlap with a random color puzzle, and provide it to the user terminal 110.

In an embodiment, the color puzzle providing unit 320 may assign an intermediate color between the lightest color and the darkest color among the representative colors of each of the plurality of color puzzles as the representative color of the interference puzzle. On the contrary, the color puzzle providing unit 320 may assign a color outside the color range to which the plurality of color puzzles belong to the disturbing puzzle in order to be identified from the plurality of normally generated color puzzles. In this case, if a user performs a test using a disturbing puzzle, the user's image expression and observation power are likely to be lower than the average. In addition, the color puzzle providing unit 320 may generate a disturbing puzzle based on brightness, saturation, etc. in addition to color.

The user diagnosis receiving unit 330 may receive a rearrangement result of a plurality of color puzzles for a preset time limit as a user diagnosis. For example, the user diagnosis receiving unit 330 may receive a result of rearranging the color puzzle for a limited time of 3 minutes as a user diagnosis. The user diagnosis may correspond to a test result performed by the user, and in this case, it may correspond to a result of rearranging the provided color puzzle by referring to the basic image. The user diagnosis receiving unit 330 may receive a unique identifier of the color puzzle and an arrangement position associated with the corresponding identifier as information on user diagnosis.

The online diagnosis performing unit 340 may perform an online diagnosis regarding the image expression power and observation power of the user diagnosis based on a change in position of the plurality of color puzzles according to the relocation result. That is, the online diagnosis performing unit 340 may generate a diagnosis result based on a result of comparing the correct answer position to the color puzzle with the actual position arranged by the user. Therefore, as the color puzzle arranged by the user is similar to the basic image, the diagnosis result may be improved.

In one embodiment, the online diagnosis performing unit 340 classifies the level of the image expression power and the observation power based on a ratio in which the positions of each of the plurality of color puzzles according to the user diagnosis match the corresponding correct answer position, as a result of the online diagnosis. Can provide. The online diagnosis apparatus 130 may set a grade criterion for classifying the diagnosis result in advance, and the online diagnosis execution unit 340 may generate a diagnosis result based on the corresponding grade criterion. Since the position of the correct answer is determined at the time of creation of each color puzzle, the diagnosis result may increase as the ratio of the correct answer position and the position arranged by the user is higher. The online diagnosis performing unit 340 may determine whether or not to match the correct answer positions for all color puzzles, and then determine a matching rate according to user diagnosis, and may determine a final diagnosis result according to a rating criterion.

In one embodiment, the online diagnosis performing unit 340 calculates the distance between the position of each of the plurality of color puzzles and the corresponding correct answer position according to the user diagnosis, and based on the sum of the distances for all color puzzles, the image expression power and observation power Can be classified and provided as the result of online diagnosis.

That is, when the color puzzle is accurately arranged at the correct answer position, the distance from the correct answer position of the corresponding color puzzle may correspond to zero. Conversely, when the color puzzle is not placed in the correct answer position, the distance from the correct answer position may be greater than 0. The distance between color puzzles may be calculated as a distance between center coordinates of the color puzzles.

As a result, as the sum of distances to the correct answer positions for all color puzzles increases, the diagnosis result may decrease. The online diagnosis performing unit 340 may calculate the sum of distances for all color puzzles and then generate a final diagnosis result according to a preset grade criterion.

The learning method guide unit 350 may guide a learning method for image expression and observation power according to the result of an online diagnosis reflecting at least one of gender, age, major, and occupation. The learning method guide unit 350 may provide a learning method that can help improve visual expression and observation by reflecting the user's gender, age, major, and occupation based on the online diagnosis result.

The control unit 370 controls the overall operation of the online diagnosis apparatus 130, and the image selection receiving unit 310, the color puzzle providing unit 320, the user diagnosis receiving unit 330, the online diagnosis performing unit 340, the learning method A control flow or data flow between the guide units 350 may be managed.

4 is a flowchart illustrating an online diagnosis process using color puzzle visualization performed in the online diagnosis apparatus of FIG. 1.

Referring to FIG. 4, the online diagnosis apparatus 130 may receive a selection of any one of a plurality of candidate images from the user terminal 110 through the image selection receiver 310 (step S410). The online diagnosis apparatus 130 may generate a plurality of color puzzles for online diagnosis based on a candidate image selected through the color puzzle providing unit 320 and provide them to the user terminal 110 (step S430).

In addition, the online diagnosis apparatus 130 may receive a relocation result of a plurality of color puzzles for a preset time limit as a user diagnosis through the user diagnosis receiving unit 330 (step S450). The online diagnosis apparatus 130 may perform an online diagnosis on the image expression power and observation power of the user diagnosis based on the position change of the plurality of color puzzles according to the relocation result through the online diagnosis execution unit 340 (step S470).

Finally, the online diagnosis apparatus 130 guides a learning method regarding image expression and observation power according to the result of the online diagnosis reflecting at least one of gender, age, major, and occupation through the learning method guide unit 350. Yes (step S490).

5 is an exemplary diagram illustrating the concept of visualizing a color puzzle used in an online diagnosis apparatus according to an embodiment of the present invention.

Referring to FIG. 5, the online diagnosis apparatus 130 may use a 500*500 pixel image as an image received from the user terminal 110 for online diagnosis (Fig. (a)). The online diagnosis apparatus 130 may generate 16 color puzzles having a size of 125*125 pixels based on the basic image selected by the user (Fig. (b-1)). Each of the 16 color puzzles can be stored with the correct answer location determined, and if the user arranges the 16 color puzzles in the correct location, an image having a color distribution similar to the basic image can be obtained (Fig. (c)).

In one embodiment, the online diagnosis apparatus 130 may additionally generate four disturbing puzzles as disturbing elements that cause visual confusion of the user along with 16 normal color puzzles generated based on the basic image (Fig. (b- 2)). The user may match the puzzle by using the disturbing puzzle, and whether to use the disturbing puzzle may be determined according to the user's decision. In particular, the online diagnosis apparatus 130 may randomize the position of the disturbing puzzle and provide it to the user along with the normal color puzzle, and the user may perform online diagnosis without knowing the position of the disturbing puzzle.

The online diagnosis apparatus 130 may provide a basic image and a randomized color puzzle to the user, and receive the rearranged result from the user for a preset time limit (eg, 3 minutes) (Fig. )). The online diagnosis apparatus 130 may generate a final diagnosis result based on the color puzzle arrangement result received from the user.

6 is an exemplary diagram illustrating a disturbance puzzle used in an online diagnosis apparatus according to an embodiment of the present invention.

Referring to FIG. 6, the online diagnosis apparatus 130 generates a plurality of color puzzles for online diagnosis based on a candidate image selected by a user through the color puzzle providing unit 320 and provides it to the user terminal 110 You can do it (Figure (a)).

In an embodiment, the color puzzle providing unit 320 may provide a normal color puzzle generated from a basic image and a disturbing puzzle 650 together. In particular, the color puzzle providing unit 320 may assign an intermediate color between the lightest color puzzle 630 and the darkest color puzzle 610 among the plurality of color puzzles as a representative color of the interference puzzle 650.

The online diagnostic device 130 may provide a color puzzle and an obstruction puzzle 650 together, and the user performs a process of rearranging to be similar to the basic image using only the normal color puzzle, not the obstruction puzzle 650, as a test. I can. In this case, the online diagnosis device 130 may provide the user by overlapping the disturbing puzzle 650 with the normal puzzle, and the user may initially recognize only the disturbing puzzle 650, but by the user, the disturbing puzzle 650 The moment the position of) is changed, you can check the color puzzle overlapped and hidden on the corresponding obstruction puzzle 650 (Fig. (b)).

7 is an exemplary diagram illustrating an online diagnosis process performed by the online diagnosis apparatus according to an embodiment of the present invention.

Referring to FIG. 7, the online diagnosis apparatus 130 may provide a basic image and a color puzzle to a user. In this case, each color puzzle may be stored in association with the location of the correct answer in the generation step, and the online diagnosis device 130 is a result of being rearranged from the user terminal 110 through the user diagnosis receiving unit 330 for a specific time limit. Receive a diagnosis.

The online diagnosis apparatus 130 may generate a diagnosis result through the online diagnosis execution unit 340. In one embodiment, the online diagnosis performing unit 340 classifies the level of the image expression power and the observation power based on a ratio in which the positions of each of the plurality of color puzzles according to the user diagnosis match the corresponding correct answer position, as a result of the online diagnosis. Can provide.

In FIG. 7, the online diagnosis performing unit 340 may compare each position of color puzzles according to the user diagnosis with the correct answer position, and may assign 1 when they match and -1 when they do not match. When the comparison result is given to all color blocks, the online diagnosis performing unit 340 may integrate the result of comparison, and may determine the diagnosis result as a ratio of the number of correct answer position matches to the total number of color blocks. The online diagnosis performing unit 340 may classify a user diagnosis having a matching rate of 50% into a'lower' level according to a preset level criterion.

8 is a flowchart illustrating an online diagnosis process using a disturbance puzzle and a color puzzle.

The online diagnosis apparatus 130 may receive a selection for any one of a plurality of candidate images from the user terminal 110 through the image selection receiver 310 (step S810). The online diagnosis apparatus 130 generates a plurality of color puzzles and at least one disturbance puzzle for online diagnosis based on the candidate image selected through the color puzzle providing unit 320 and provides it to the user terminal 110. Can (step S830).

In addition, the online diagnosis apparatus 130 may receive a relocation result of a plurality of color puzzles for a preset time limit through the user diagnosis receiving unit 330 as a user diagnosis (step S850). The online diagnosis apparatus 130 may perform an online diagnosis on the image expression power and observation power of the user diagnosis based on the position change of the plurality of color puzzles according to the relocation result through the online diagnosis execution unit 340 (step S870).

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. You will understand that you can do it.

100: online diagnostic system
110: user terminal 130: online diagnostic device
150: database
210: processor 230: memory
250: user input/output unit 270: network input/output unit
310: image selection receiving unit 320: color puzzle providing unit
330: user diagnosis receiving unit 340: online diagnosis performing unit
350: learning method guide unit 360: control unit
510: disturbing puzzle
610: darkest color puzzle 630: lightest color puzzle
650: disturbing puzzle

Claims (8)

An image selection receiver for receiving a selection for any one of a plurality of candidate images from a user terminal;
A color puzzle providing unit generating a plurality of color puzzles for online diagnosis based on the candidate image according to the selection and providing them to the user terminal;
A user diagnosis receiver configured to receive a rearrangement result of the plurality of color puzzles as a user diagnosis during a preset time limit; And
Based on color puzzle visualization for observing power and expressive power diagnosis including an online diagnosis performing unit that performs the online diagnosis on the image expression power and observation power of the user diagnosis based on the position change of the plurality of color puzzles according to the rearrangement result Online system.
The method of claim 1, wherein the image selection receiver
Color puzzle visualization for diagnosis of observation and expressive power, characterized in that the image recommended by an image recommendation algorithm is received as the selection based on the user's personal information including gender, age, major, and occupation received from the user terminal. Based online system.
The method of claim 1, wherein the color puzzle providing unit
Dividing the candidate image into a plurality of partial images having the same size;
Determining, for each of the plurality of partial images, a color having the highest appearance frequency among the colors for each pixel as a representative color of the corresponding partial image;
Assigning a unique identifier to each of the plurality of partial images, and storing the corresponding unique identifier by associating a correct answer location and a representative color; And
Diagnosis of observation and expressive power, characterized in that performing the step of providing the plurality of color puzzles by giving a representative color to each of the plurality of partial images, randomizing the position of each color puzzle, and providing it to the user terminal. Online system based on color puzzle visualization for.
The method of claim 1, wherein the color puzzle providing unit
An online system based on color puzzle visualization for diagnosing observation and expressive power, characterized in that the interference puzzle is superimposed on at least one of the plurality of color puzzles and provided to the user terminal.
The method of claim 4, wherein the color puzzle providing unit
An online system based on color puzzle visualization for diagnosing observation and expressive power, characterized in that an intermediate color between the lightest color and the darkest color among the representative colors of each of the plurality of color puzzles is assigned as a representative color of the disturbing puzzle.
The method of claim 1, wherein the online diagnosis performing unit
Observation power and expressive power, characterized in that the level of image expression and observation power is classified based on a ratio of the position of each of the plurality of color puzzles according to the user diagnosis and the corresponding correct answer position and provided as a result of the online diagnosis. Online system based on color puzzle visualization for diagnosis.
The method of claim 1, wherein the online diagnosis performing unit
The result of the online diagnosis by calculating the distance between the position of each of the plurality of color puzzles according to the user diagnosis and the position of the correct answer, and classifying the level of the image expression power and observation power based on the sum of the distances for all color puzzles Online system based on color puzzle visualization for diagnosing observation and expressive power, characterized in that provided as.
The method of claim 1,
Diagnosis of observation power and expression power, characterized in that it further comprises a learning method guide unit for guiding a learning method for the image expression power and observation power according to the result of the online diagnosis reflecting at least one of sex, age, major and occupation. Online system based on color puzzle visualization for.

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