KR20160143995A - Learning system and learning method using a high-magnification image generated by the wireless digital device - Google Patents

Abstract

According to the present invention, a learning system using a high magnification image generated by a wireless digital device comprises: a communication network; a digital microscope device which is connected to the communication network, and photographs a two dimensional image or a three dimensional image of a localized portion of a learning target at high magnification; a photographing information database which is connected to the communication network, and stores the high-magnification two dimensional image or three dimensional image of the localized portion of the learning target photographed at the high magnification; a learning application to magnify, demagnify, or edit the high-magnification two dimensional image or three dimensional image of the learning target from the photographing information database via the communication network to output an image to a two dimensional printer connected to the communication network; an editing information database to store data of the high-magnification two dimensional image or three dimensional image edited via the communication network; a teacher terminal which has the learning application installed therein, is possessed by a teacher, and is connected to the communication network; and a student terminal which has the learning application installed therein and is connected to the communication network to be registered as a student of the teacher terminal. Therefore, the present invention presents visual learning and tactile learning by a high-magnification two dimensional image of a localized portion of a learning target and three dimensional scan data obtained by a two dimensional or three dimensional digital microscope capable of communication and a three dimensional scanner capable of communication.

Description

[0001] The present invention relates to a learning system and a learning method using a high magnification image generated through a wireless digital device and a learning method using the same,

The present invention enables high-magnification images and scan data shot through a wireless digital device such as a communication type digital microscope and a communication type 3D scanner to be on-site or remote learning through a smart terminal, and outputs learning results to a 2D or 3D printer The present invention relates to a learning system and a learning method using a high magnification image generated by a wireless digital device capable of learning visual and tactile experience through a high magnification image and an actual model of a learning object.

Generally, audiovisual education using textbooks and videos is mostly used for learning methods of kindergarten, elementary, middle, and high school students, and it enhances the learning effect between educators and students through field experiential learning as needed.

In recent years, various types of tactile learning that can touch and experience real objects or objects are widely practiced.

In addition, in the natural science learning process of confirming the localization of a natural object or a specific learning object, a visual education through a TV or a PC screen is mainly performed by taking a subject of a learning object at a high magnification with a microscope.

However, it is impossible to learn tactile learning about the texture or appearance of the actual learning object although the effect of observation learning on the learning object can be expected through the image enlarged at high magnification.

Therefore, in the field of education, audiovisual education can be activated and actualized in addition to audiovisual education, and there is a desperate need for a new type of education that enables teachers to visit on - site or remote education.

Korean Patent Publication No. 10-2008-0078090 Korean Patent Publication No. 10-2002-0095824 Korean Patent Publication No. 10-2010-0079660

It is an object of the present invention to enable a high-magnification image and scan data shot through a wireless digital device such as a communication type 2D or 3D digital microscope and a communication type 3D scanner to be field or distance learning through a smart terminal, And to provide a learning system using the high magnification image generated by a wireless digital device capable of visual and tactile experience learning through a high magnification image and an actual model of an object to be output to a 3D printer and its learning method.

It is another object of the present invention to provide a wireless digital device capable of realistic visual learning and tactile learning through a local high-power 2D image and a 3D scan data of a learning object obtained from a communication type 2D or 3D digital microscope and a communication type 3D scanner And a learning system using the generated high magnification image and a learning method therefor.

It is another object of the present invention to provide a high-magnification image and scan data photographed through a wireless digital device, which can be provided through a smart terminal owned by an educator and an educator in a short distance or a long distance using a communication network, And a learning method using a high magnification image generated through a wireless digital device capable of both distance learning and distance learning.

In addition, since the learning result is stored in the output DB server through the communication network, it can be downloaded at any time through the integrated management server and output to a 2D or 3D printer to enable visual and tactile experience learning through high- And to provide a learning system and a learning method using a high-magnification image generated through a wireless digital device capable of performing high-magnification images.

In order to achieve the above objects, a learning system utilizing a high magnification image generated through a wireless digital device of the present invention includes a communication network; A digital microscope device connected to the communication network and capable of capturing a 2D image or a 3D image of a local part of the learning object at a high magnification; An imaging information DB connected to the communication network and storing a high magnification 2D image or a 3D image obtained by photographing a local portion of the learning object at a high magnification; A learning application for enlarging, reducing or editing a high magnification 2D image or a 3D image of the learning object from the photographing information DB via the communication network and outputting the enlarged, reduced or edited image to a 2D printer connected to the communication network; An editing information DB for storing the high magnification 2D image or 3D image data edited through the communication network; An educator terminal connected to the communication network of an educator installed with the learning application; An educator terminal installed with the learning application and being connected to the communication network and being registered as a student of the educator terminal; And < / RTI >

According to the present invention, a high-magnification 3D scanner connected to the communication network and storing the 3D scan data obtained by performing a close scan of the local contour of the learning object by tracking the position taken by the 2D or 3D microscope device, in the imaging information DB; As shown in FIG.

According to the present invention, the 2D or 3D microscope apparatus includes a body having an operation button on an upper surface thereof, a high magnification lens unit provided on a side of the body opposite to the button, a short range wireless communication module embedded in the body, A charging battery and a charging terminal, and an LED illumination unit provided around the high magnification lens unit.

According to the present invention, the 2D or 3D microscope device may be composed of a smart terminal having a camera lens and a communication module, and the high magnification smart lens mounted on a camera lens of the smart terminal; The high magnification image photographed locally through the smart lens may be stored in a storage memory provided in the smart terminal or may be stored in a cloud server connected to the smart terminal and the communication network.

According to the present invention, the 3D scan data is stored in the photographing information DB, and the photographing information DB stores a high magnification 2D image or a 3D image obtained by photographing the local part of the learning object at a high magnification and 3D scanning data, The learning application receives the high magnification 2D image or the 3D image of the learning object from the photographing information DB via the communication network, enlarges and reduces the edited 3D image or 3D image, edits the 3D scintillator of the learning object, And output it to the printer.

According to the present invention, the 3D scanner may be a laser scanner capable of high-magnification local scan.

According to the present invention, the education terminal and the educator are registered as members by using the learning application, the registration is performed between the educated user terminal and the educator terminals as an educator or an educator, and at least between the educated user terminal and the educator terminals Learning registration and confirmation, a learning inquiry and confirmation, an answer registration and confirmation, a learning result registration and confirmation, a learning schedule registration and confirmation, and the pre-learning, learning process, the captured 2D image or 3D image Or an integrated management server for storing and managing 3D scanning data.

According to the present invention, the integrated management server can enable remote learning by sharing the learning history DB and the history of the trainee learning in cooperation with other educators authenticated through the communication network through the authentication procedure.

Wherein the integrated management server comprises: A communication unit connected to the educator terminal and the person to be trained through the communication network to provide mutual data communication; A storage unit for storing the learning application; A control unit for processing the learning application and controlling all operations of the integrated management server; And a database for storing educator information including at least a qualification code number of the educator terminal, student and guardian information for the educated person's terminal, and learning history information under the control of the control unit.

According to the present invention, the learning application is provided in the form of a mobile application; A version for an educator terminal installed in the educator terminal, and a version for an instructor terminal installed in and linked to a student and a guardian terminal.

According to another aspect of the present invention, there is provided a method of processing a learning system using a high magnification image generated by a wireless digital device, the method comprising: receiving a local part of a learning object using a digital 2D or 3D microscope device in a state of being connected to the communication network; Generating a high magnification 2D image or a 3D image by taking a close-up at a high magnification; Generating 3D scan data by performing a near scan of a local contour of the learning object by tracking a position taken by the digital microscope through a high magnification 3D scanner connected to the communication network; Matching the high magnification 2D image or the 3D image with the 3D scanning data and storing the same in an imaging information DB; A high magnification 2D image or a 3D image of the learning object and the 3D scintillator are received from the photographing information DB through the communication network, and the enlarged, reduced and edited using the learning application are selected from a 2D printer and a 3D printer connected to the communication network Outputting; . ≪ / RTI >

(New trainees and educators)

According to the present invention, the user of the student to whom the education is enrolled joins the integrated management server as a new member and processes a new registration process of newly registering the educator; The new registration process comprising: Accessing the integrated management server through the communication network, downloading the learning management application from the integrated management server, and installing the learning management application in the student trainee terminal; Allowing the student terminal to log in using the learning management application and to register as a member of the integrated management server; Receiving a code number corresponding to the education qualification from the educator terminal to which the educator terminal is assigned when the educator terminal allocates one educator to the educator terminal; Allowing the educator terminal to input a customer telephone number of the person to be trained to register a trainee; The educator terminal sending the education eligibility code number to the education provider terminal so that the education provider terminal enters the education provider owner code number transmitted; And registering the educator's eligibility code number inputted by the student-to-be-educated terminal as an educator assigned to the student and the guardian.

(Additional registration of educator)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing an additional registration process in which the student and the guardian of the student terminal are enrolled as members and further register the educator; Said additional registration process comprising: Inputting a telephone number of the education-center terminal to which the education-center terminal is assigned, and transmitting the education-state-code number to the education-center terminal; Inputting the education qualification code number transmitted from the educator terminal; And registering the education qualification code number inputted by the student terminal to the educator who is assigned to the student participant himself / herself.

(Learning reservation process)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing a learning reservation process for processing a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data to an educator assigned to an educator himself / herself; Wherein the learning reservation process comprises: Requesting an educator assigned by the student to a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data; When the educator terminal is requested to make a learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data from the pupil's terminal, Confirming the reservation information when the educator terminal generates the reservation push notification, changing the predicted state from the reservation waiting state to the reservation completion state; And informing the student of the completion of the reservation and confirming the result of the learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data.

(Process of learning progress inquiry)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing a learning progress inquiry process for processing the learning related inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data, Wherein the learning inquiry process comprises: Applying the learning inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data; When the learning inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data is requested from the student to be educated, the educator terminal informs that the learning inquiry has been applied and the learning using the digital high magnification 2D image or the 3D image of the trainee and the 3D scan data Method inquiry information and learning history; confirming 2D and 3D data; Creating and registering a response to the learning inquiry information using the digital high magnification 2D image or the 3D image and the 3D scan data by the educator terminal; When the pupil's terminal notifies the digital high-power 2D image or the 3D image and the answer of the learning inquiry using the 3D scan data are registered from the educator terminal, And confirming the result of the inquiry.

(Learning result registration process)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing a registration process for the registration of the learning result using the digital high magnification 2D image or 3D image of the trainee and the 3D scan data; The learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data includes: When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and receives the student's consent, the educator terminal performs the learning using the plurality of digital high magnification 2D images or the 3D image and the 3D scan data Dimensional high-magnification 2D image or 3D image and a 3D high-magnification 2D image or a 3D high-magnification 2D image or a 3D high-magnification 2D image or 3D image are displayed on a learning list using the digital high magnification 2D image or 3D image and 3D scan data, Registering the 3D scan data information in the shooting information DB and the integrated management server; Related information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal and the learning related information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered And letting the registered learning result be confirmed.

(Learning completed information registration process)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing a learning result registration process in which the educator terminal processes a learning result registration using a digital high magnification 2D image or a 3D image of a trainee and 3D scan data; The learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data includes: When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and the student's consent is received, the educational status is changed from the reservation completion state to the learning completion state and the learned digital high magnification 2D image or 3D image And registering learning information using 3D scan data; When the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal, the pupil terminal notifies that the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered, And confirming the learning result using the registered digital high magnification 2D image or the 3D image and the 3D scan data.

(Learning schedule registration and confirmation process)

According to the present invention, the learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes: Further processing a digital high magnification 2D image or a 3D image for processing the student schedule registration and confirmation of the student's terminal and a learning schedule registration and confirmation process using 3D scan data; The learning schedule registration and confirmation process using the digital high magnification 2D image or the 3D image and the 3D scan data includes: The educator terminal displays a list of trainees and selects one participant information for registering a learning schedule using the digital high magnification 2D image or the 3D image and the 3D scan data in the trainee list and displays a digital high magnification 2D image or a 3D image Registering a learning schedule using 3D scan data; Confirming a learning schedule using the digital high magnification 2D image or the 3D image of the trainee's own 3D scan data; If the student terminal registers the learning schedule using the digital high magnification 2D imaging image and the 3D scan data in the month or date, the learning schedule is registered; Confirming the learning schedule and subscribing for a procedure reservation according to the learning schedule when the facsimile terminal generates the learning schedule push notification; And informing that the reservation is requested when the educator terminal is requested to make a learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data in the student's terminal.

As described above, the present invention can obtain the visual learning and tactile learning effects through the local high-power 2D image and the 3D scan data of the learning object obtained from the communication type 2D or 3D digital microscope and the communication type 3D scanner.

In addition, high-magnification images and scan data captured through wireless digital devices can be provided via a communication network to a near or remote location through smart terminals owned by educators and educators, enabling both on-site learning and distance learning There are advantages.

In addition, since the learning result is stored in the output DB server through the communication network, it can be downloaded at any time through the integrated management server and output to a 2D or 3D printer to enable visual and tactile experience learning through high- .

In addition, since learning contents can be efficiently managed through learning applications installed on smart terminals of educators and educators, it is possible to activate and actualize tactile education in addition to audiovisual education in the field of education.

1 is a diagram for explaining a learning system utilizing a high magnification image generated through a wireless digital device according to the present invention.
2 is a view illustrating a process of generating a high magnification 2D image through a 2D microscope according to the present invention.
3 is a diagram illustrating a process of generating a high magnification 2D image through a 2D brown rice mounted on a smart terminal according to the present invention.
4 is a block diagram showing the configuration of the integrated management server shown in FIG. 1;
5 and 6 are flowcharts showing a procedure for newly registering an educator according to an embodiment of the present invention;
7 and 8 are flowcharts showing procedures for additionally registering an educator according to an embodiment of the present invention;
9 is a flowchart showing a learning reservation procedure according to an embodiment of the present invention;
10 is a flowchart showing a procedure of a learning inquiry according to an embodiment of the present invention;
11 is a flowchart showing learning completion information registration procedure of an instructor according to an embodiment of the present invention;
FIG. 12 is a flowchart illustrating a procedure for changing a learning reserved state of an instructor according to an embodiment of the present invention; FIG.
FIG. 13 is a flowchart showing stamp registration and confirmation procedures of a trainee according to an embodiment of the present invention; FIG.

The embodiments of the present invention can be modified into various forms and the scope of the present invention should not be interpreted as being limited by the embodiments described below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the components in the drawings are exaggerated in order to emphasize a clearer explanation.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4 attached hereto.

FIG. 1 is a view for explaining a learning system utilizing a high magnification image generated through a wireless digital device according to the present invention, FIG. 2 is a diagram illustrating a process of generating a high magnification 2D image through a 2D microscope according to the present invention, 3 is a diagram illustrating a process of generating a high magnification 2D image through a 2D brown rice mounted on a smart terminal according to the present invention, and FIG. 4 is a block diagram illustrating the configuration of the integrated management server shown in FIG.

The learning system using the high magnification image generated through the wireless digital device of the present invention includes a communication network.

The communication network means a wired communication network such as a USB or a LAN, or a short-range wireless communication and a mobile communication network such as WIFI and Bluetooth.

In the embodiment of the present invention, various communication can be performed between the 2D and 3D digital microscopes capable of wireless communication, a high-magnification 3D scanner, smart terminals owned by educators, educators, and integrated management servers, which will be described later, by using the communication network.

In addition, when the communication network is provided as a wired network, a wireless communication network, or a mobile communication network as described above, the communication network may be provided as a single or a composite communication network capable of communicating data between the educator owner terminal, the trainee terminal, have.

Each of the educator terminal, the pedestrian terminal, and the protector terminal may be provided with a smart phone, a tablet computer, a notebook computer, a personal computer, or the like. A detailed description thereof will be given later.

Meanwhile, the digital microscope apparatus may be constructed of a known wireless digital device connected to the communication network and capable of capturing a 2D image or a 3D image of a local portion of a learning object at a high magnification.

For example, as shown in FIGS. 1 to 3, it can be configured as a known 2D and 3D digital microscope for capturing an image of a local part of a learning object, that is, a region for learning observation at a high magnification.

In addition, the 2D and 3D digital microscope can be connected to a smart terminal, a PC, or a TV through a wired connection as a USB, and the WIFI and the Bluetooth wireless communication module can be installed therein to allow movement learning.

The present invention also includes an imaging information DB connected to the communication network and storing a high magnification 2D image or a 3D image obtained by photographing the local part of the learning object at a high magnification.

And a learning application for enlarging, reducing or editing a high magnification 2D image or a 3D image of the learning object from the photographing information DB through the communication network and outputting the enlarged, reduced or edited image to a 2D printer connected to the communication network.

And an editing information DB for storing the high magnification 2D image or 3D image data edited through the communication network, the educational terminal being connected to the communication network of the educator installed with the learning application; An educator terminal installed with the learning application and being connected to the communication network and being registered as a student of the educator terminal; And < / RTI >

According to such a configuration, when a trainee takes a close-up picture of a local object of a learning object using a digital microscope, 2D and 3D images can be obtained. Such images can be displayed on a smart terminal or a PC monitor screen and a TV through a communication network, This is possible.

Accordingly, the educator and the student can visually learn the learning object while zooming in and out through the learning application while viewing the image displayed on the smart terminal of the user. In addition, high-magnification 2D and 3D images can be color-printed by a 2D printer, and can be mutually confirmed as learning results.

As shown in FIG. 2, the 2D or 3D microscope of the present invention includes a body having an operation button on an upper surface thereof, a high magnification lens unit provided on a side of the body opposite to the button, A charging battery and a charging terminal embedded in the body, and an LED illumination unit provided around the high magnification lens unit.

According to the present invention, the 2D or 3D microscope comprises a smart terminal having a camera lens and a communication module as shown in FIG. 2. The smart microscope includes a high magnification smart lens mounted on a camera lens of the smart terminal Lt; / RTI > The high magnification image photographed locally through the smart lens may be stored in a storage memory provided in the smart terminal or may be stored in a cloud server connected to the smart terminal and the communication network.

In the meantime, the present invention provides a high-magnification 3D camera which is connected to the communication network and stores the 3D scan data obtained by performing a close scan of a local contour of the learning object by tracking the position taken by the 2D or 3D digital microscope, And a scanner.

That is, the 3D scanner scans and collects external data of the learning object for the same position where the learning object is locally photographed at a high magnification, and outputs a three-dimensional model in a monochrome or color hue to the 3D printer.

Accordingly, the trainee can learn the visual learning through the 2D and 3D images, and at the same time, the tactile learning can be performed by directly touching the 3D output model while scanning the same part, and the three-dimensional learning is performed.

For example, wings of leaves and insects can not be seen with the naked eye, so they are photographed with a microscope at a high magnification and visually recognize the shape, pattern, structure, and color texture.

The 3D output is directly touched, and the stem and the bend of the tissue are directly experienced. In the case of the insect wing, the shape and the pattern of the wing can be actually felt and experienced by the hand.

According to the present invention, the 3D scan data is stored in the photographing information DB, and the photographing information DB stores the high magnification 2D image or the 3D image and the 3D scanning data obtained by photographing the local part of the learning object at a high magnification, .

Therefore, the educator and the trainee can receive the data of the shooting information DB through the integrated management server, and can manage the learning result together.

And; The learning application receives the high magnification 2D image or the 3D image of the learning object from the photographing information DB via the communication network, enlarges and reduces the edited 3D image or 3D image, edits the 3D scintillator of the learning object, And output it to the printer.

According to the present invention, the 3D scanner is preferably composed of a laser scanner capable of high-magnification local scan, and may be integrally or separately constructed with a 2D and 3D digital microscope.

Meanwhile, the present invention registers the educator terminal and the educated person as a member using the learning application, and registers the educator terminal and the educator as registration between the educated user terminal and the educator terminals, Learning registration and confirmation, a learning inquiry and confirmation, an answer registration and confirmation, a learning result registration and confirmation, a learning schedule registration and confirmation, and the pre-learning, the learning process, the captured 2D image or 3D And an integrated management server for storing and managing images or 3D scanning data.

For example, the integrated management server can enable remote learning by sharing the learning history DB and the history of the trainee learning by linking with other educators authenticated through the communication network through the authentication procedure.

Therefore, it can provide more efficient and professional learning because it enables the educator to select the educator by the target field and provides the advantages that the trainee chooses the appropriate learning for him / her variously.

The integrated management server includes: A communication unit connected to the educator terminal and the person to be trained through the communication network to provide mutual data communication; A storage unit for storing the learning application; A control unit for processing the learning application and controlling all operations of the integrated management server; And a database for storing educator information including at least a qualification code number of the educator terminal, student and guardian information for the educated person's terminal, and learning history information under the control of the control unit.

Although not shown in the figure, the integrated management server includes components of a typical computer system, such as a central processing unit, a memory unit, an input / output unit, and a storage unit.

The communication unit is connected to the educator terminal, the student terminal, the guardian terminal, and the integrated management server through a communication network, and is provided to enable mutual data communication.

The control unit controls and processes all operations of the integrated management server. The control unit may include software such as an operating system program, a control program, etc., as well as hardware such as a central processing unit, a memory or a web server, etc., although it is not shown in the drawings.

The control unit performs processing for registering members from each of the educator terminal, the pedestrian terminal, and the guardian terminal by using the learning application, and performs control such as registration of certification related to the customer or the educator, learning reservation, registration of learning inquiry or inquiry answer, do. The control unit controls the processes of the learning application, and details of the processes will be described in detail with reference to FIG. 4 to FIG.

Meanwhile, according to the present invention, the learning application is stored in a storage unit (not shown) of the integrated management server, is processed under the control of the control unit, reads various information from the database, .

Such a learning application may be provided in the form of a mobile application in this embodiment and may include a version for an educator terminal installed in the educator terminal and a version for an educated user terminal installed in and linked to a student and a guardian terminal.

The learning application may be provided in the form of a web browser. Here, an app for an educator terminal can be provided in a form of a fee for an educator or an instructor for a certain period of time, and an app for an instructor terminal can be provided in a free form.

The database stores various information according to the process of the learning application under the control of the control unit. In this embodiment, the database is provided inside the integrated management server, but may be provided as a separate database server.

The database of this embodiment stores educator and participant information, educator's certification information, learning history information, history information edited in 2D, 3D image and 3D scan data, and parental information together.

Educator and tutor information includes name, telephone number, list of qualifications fields of educators registered with the trainee, learning details, study reservation information, and stamps accumulated. Educational credential information should include at least an education qualification code number.

Educator information may further include personal information (eg, name, phone number, member information, etc.) of the educational credential holder.

In order to achieve the above objects, a method of processing a learning system using a high magnification image generated through a wireless digital device of the present invention will be described in detail.

(High magnification 2D, 3D image shooting and 3D scanning data generation step)

Generating a high magnification 2D image or a 3D image by photographing a local part of the learning object at a high magnification using a digital 2D or 3D microscope device while being connected to the communication network;

Generating 3D scan data by performing a near scan of a local contour of the learning object by tracking a position taken by the digital microscope through a high magnification 3D scanner connected to the communication network;

Matching the high magnification 2D image or the 3D image with the 3D scanning data and storing the same in an imaging information DB; A high magnification 2D image or a 3D image of the learning object and the 3D scintillator are received from the photographing information DB through the communication network, and the enlarged, reduced and edited using the learning application are selected from a 2D printer and a 3D printer connected to the communication network Outputting; .

These processes are processed by the learning application, and the educator terminal, the trainee terminal, the guardian terminal, and / or the integrated management servers are linked through the communication network.

(New trainees and educators)

5 and 6 are flowcharts showing procedures for newly registering an educator according to an embodiment of the present invention.

Referring to this, the user of the student at the education station joins the integrated management server as a new member and processes a new registration process of newly registering the educator.

At this time, in the new registration process, the student terminal accesses the integrated management server through the communication network.

Next, the learning management application is downloaded from the integrated management server and installed in the student trainee terminal.

The student terminal logs in using the learning management application and registers as a member of the integrated management server.

Next, when the educator terminal assigns one educator to the educator terminal, the educator terminal receives the code number corresponding to the education qualification from the educator terminal assigned to the educator terminal.

The educator terminal inputs the customer telephone number of the person to be trained and registers the trainee.

At this time, the educator terminal transmits the education license code number to the education provider terminal, and the education provider terminal inputs the education license owner code number transmitted thereto.

Therefore, the educator's code number inputted by the student's terminal is newly registered as an educator assigned to the student and the guardian.

(Additional registration of educator)

7 and 8 are flowcharts showing procedures for additionally registering an educator according to an embodiment of the present invention.

Referring to this, the step of further processing the additional registration process in which the student and the protector of the student of the student are registered as members and additionally registers the educator;

In the additional registration process, the educator terminal inputs the telephone number of the education-center terminal to which the education-center terminal is assigned, and transmits the education-education-code number to the education-center terminal.

Next, when the education-provider terminal inputs the education-qualification code number transmitted from the education-center terminal, the education-qualification code number input by the education-center terminal is additionally registered with the educator assigned to the education-person's own.

(Learning reservation process)

9 is a flowchart showing a learning reservation procedure according to an embodiment of the present invention.

The present invention further relates to a learning reservation process for processing a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data to an educator assigned to an educator himself / herself;

In the learning reservation process, the student terminal requests application of a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data to an educator assigned to the student.

At this time, when the educator terminal requests application of the learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data from the person to be educated, the educator terminal informs the educator terminal of the reservation.

When the educator terminal generates the reservation push notification, the educator terminal can check the reservation information and change the predicted state from the reservation waiting state to the reservation completion state.

At this time, the person to be educated informs that the reservation is completed, and the trainee confirms the result of the learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data.

(Process of learning progress inquiry)

10 is a flowchart showing a procedure of a learning inquiry according to an embodiment of the present invention. The present invention further relates to a learning progress inquiry process for processing a learning related inquiry using a digital high magnification 2D image or 3D image and 3D scan data, In the learning inquiry process, the student terminal requests a learning inquiry using a digital high magnification 2D image or a 3D image and 3D scan data.

Next, when the learning inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data is requested from the student to be educated, the educator terminal informs that the learning inquiry has been applied, and the digital high magnification 2D image or the 3D image and 3D scan data of the trainee Used learning method inquiry information and learning history Check 2D and 3D data.

Next, the educator terminal creates and registers answers to the learning inquiry information using the digital high magnification 2D image or the 3D image and the 3D scan data.

When the pupil's terminal notifies the digital high-power 2D image or the 3D image and the answer of the learning inquiry using the 3D scan data are registered from the educator terminal, Check the result of inquiry.

(Learning completed information registration process)

11 is a flowchart showing learning information registration procedure of an instructor according to an embodiment of the present invention.

Processing the registration process of registering the learning completion information using the digital high magnification 2D image or 3D image of the trainee and the 3D scan data by the educator terminal;

In the learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data;

When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and receives the student's consent, the educator terminal performs the learning using the plurality of digital high magnification 2D images or the 3D image and the 3D scan data Dimensional high-magnification 2D image or 3D image and a 3D high-magnification 2D image or a 3D high-magnification 2D image or a 3D high-magnification 2D image or 3D image are displayed on a learning list using the digital high magnification 2D image or 3D image and 3D scan data, And registers the 3D scan data information in the shooting information DB and the integrated management server.

Next, when the learning related information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal, the pupil's terminal obtains learning related information using the digital high magnification 2D image or 3D image and 3D scan data Let them know that they are registered, and check the results of the registered study.

(Learning reservation state change process)

FIG. 12 is a flowchart showing a procedure for changing a learning reservation state of an instructor according to an embodiment of the present invention.

Referring to this, in the learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data

When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and the student's consent is received, the educational status is changed from the reservation completion state to the learning completion state and the learned digital high magnification 2D image or 3D image And learning information using 3D scan data.

When the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal, the pupil terminal notifies that the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered, Check the learning result using the registered high-magnification 2D image or 3D image and 3D scan data.

(Learning schedule registration and confirmation process)

FIG. 13 is a flowchart showing a stamp registration and confirmation procedure of a trainee according to an embodiment of the present invention.

Processing the registration and confirmation of the learning schedule using the digital high magnification 2D image or the 3D image and the 3D scan data for processing the registration and confirmation of the student schedule of the person to be trained of the terminal; In a learning schedule registration and confirmation process using the digital high magnification 2D image or 3D image and 3D scan data;

The educator terminal displays a list of trainees and selects one participant information for registering a learning schedule using the digital high magnification 2D image or the 3D image and the 3D scan data in the trainee list and displays a digital high magnification 2D image or a 3D image Register the learning schedule using the 3D scan data.

And the student's terminal confirms the learning schedule using the digital high magnification 2D image or 3D image of the trainee's own 3D scan data.

If the student terminal registers the learning schedule using the digital high magnification 2D imaging image and the 3D scan data at the month or date, it indicates that the learning schedule is registered.

Confirming the learning schedule and subscribing for a procedure reservation according to the learning schedule when the facsimile terminal generates the learning schedule push notification; When the educator terminal requests the learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data at the person to be educated, it informs that the reservation is requested.

As described above, the learning system of the present invention is a system in which a learning application is used to register members of an educator terminal and an instructor, to mutually register between an educator terminal, an instructor terminal, and a guardian terminal, And stores and manages information on the tactile learning history.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And various changes and modifications may be made without departing from the spirit of the invention.

10: communication network 20: integrated management server
30: 2D, 3D digital microscope device 40: High magnification 3D scanner
40: The person to be trained 50: The trainer

Claims (18)

A communication network;
A digital microscope device connected to the communication network and capable of capturing a 2D image or a 3D image of a local part of the learning object at a high magnification;
An imaging information DB connected to the communication network and storing a high magnification 2D image or a 3D image obtained by photographing a local portion of the learning object at a high magnification;
A learning application for enlarging, reducing or editing a high magnification 2D image or a 3D image of the learning object from the photographing information DB via the communication network and outputting the enlarged, reduced or edited image to a 2D printer connected to the communication network;
An editing information DB for storing the high magnification 2D image or 3D image data edited through the communication network;
An educator terminal connected to the communication network of an educator installed with the learning application;
An educator terminal installed with the learning application and being connected to the communication network and being registered as a student of the educator terminal; And
And a learning unit configured to generate a learning image based on the high magnification image generated by the wireless digital device.
The method according to claim 1,
And a high magnification 3D scanner connected to the communication network for tracking the position taken by the 2D or 3D microscope device and storing the 3D scan data obtained by the near scan of the local contour of the learning object in the photographing information DB A learning system utilizing a high magnification image generated through a wireless digital device.
The apparatus of claim 1, wherein the 2D or 3D microscope apparatus comprises:
A body having an operation button on its upper surface,
A high magnification lens unit provided at an end of the body opposite to the button,
A short range wireless communication module embedded in the body,
A charging battery and a charging terminal built in the body,
And an LED illumination unit provided around the high magnification lens unit. The system of claim 1, wherein the high magnification image is generated through a wireless digital device.
The apparatus of claim 1, wherein the 2D or 3D microscope apparatus comprises:
Wherein the educator terminal or the trainee terminal comprises a smart terminal having a camera lens and a communication module,
And a high magnification smart lens mounted on a camera lens of the smart terminal;
Wherein the high magnification image photographed locally through the smart lens is stored in a storage memory provided in the smart terminal or is stored in a cloud server connected to the smart terminal and the communication network. Learning system.
3. The method of claim 2,
The 3D scan data is stored in the photographing information DB,
Wherein the photographing information DB stores a high magnification 2D image or a 3D image obtained by photographing the local part of the learning object at a high magnification and 3D scanning data,
The learning application receives the high magnification 2D image or the 3D image of the learning object from the photographing information DB via the communication network, enlarges and reduces the edited 3D image or 3D image, edits the 3D scintillator of the learning object, And outputting the resultant image to a printer. The learning system utilizes a high magnification image generated through a wireless digital device.
3. The method of claim 2,
Wherein the 3D scanner comprises a laser scanner capable of high-magnification local scans. The method according to claim 1,
Registering the educator terminal and the trainee as members using the learning application,
An enrollee or an educator between the educator terminal and the educator terminal,
A learning inquiry and confirmation, an answer registration and confirmation, a learning result registration and confirmation, a learning schedule registration, and a confirmation between at least the above-mentioned educator terminal and the educator terminals,
And an integrated management server for storing and managing the pre-learning, the learning process, the photographed 2D image, the 3D image, or the 3D scanning data of the person to be trained using the high magnification image generated through the wireless digital device Learning system.
8. The method of claim 7,
Wherein the integrated management server communicates with other educators authenticated through the communication network through an authentication procedure to share a learning history DB with a learning history of an educator so that remote learning is possible. Learning system utilized.
8. The method of claim 7,
Wherein the integrated management server comprises:
A communication unit connected to the educator terminal and the person to be trained through the communication network to provide mutual data communication;
A storage unit for storing the learning application;
A control unit for processing the learning application and controlling all operations of the integrated management server;
And a database for storing educator information including at least the qualification code number of the educator terminal, student and guardian information for the educated person's terminal, and learning history information under the control of the control unit. A learning system that utilizes high magnification images generated through the device.
The method according to claim 1,
The learning application being provided in the form of a mobile application;
And a version for an educator terminal installed in the educator terminal and a version for an instructor terminal installed in a student and a guardian terminal respectively and interlocked with each other.
10. A processing method of the learning system according to any one of claims 1 to 9,
Generating a high magnification 2D image or a 3D image by photographing a local part of the learning object at a high magnification using a digital 2D or 3D microscope device while being connected to the communication network;
Generating 3D scan data by performing a near scan of a local contour of the learning object by tracking a position taken by the digital microscope through a high magnification 3D scanner connected to the communication network;
Matching the high magnification 2D image or the 3D image with the 3D scanning data and storing the same in an imaging information DB;
A high magnification 2D image or a 3D image of the learning object and the 3D scintillator are received from the photographing information DB through the communication network, and the enlarged, reduced and edited using the learning application are selected from a 2D printer and a 3D printer connected to the communication network Outputting;
And generating a high-magnification image based on the generated high-magnification image.
12. The method of claim 11,
Processing the new registration process in which the user of the student at the education station joins the integrated management server as a new member and newly registers the educator;
The new registration process comprising:
Accessing the integrated management server through the communication network, downloading the learning management application from the integrated management server, and installing the learning management application in the student trainee terminal;
Allowing the student terminal to log in using the learning management application and to register as a member of the integrated management server;
Receiving a code number corresponding to the education qualification from the educator terminal to which the educator terminal is assigned when the educator terminal allocates one educator to the educator terminal;
Allowing the educator terminal to input a customer telephone number of the person to be trained to register a trainee;
The educator terminal sending the education eligibility code number to the education provider terminal so that the education provider terminal enters the education provider owner code number transmitted;
And registering the educator's eligibility code number input by the student's terminal as an educator assigned to the student and the guardian. 13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing an additional registration process in which the student and the guardian of the student terminal are enrolled as members and further register the educator;
Said additional registration process comprising:
Inputting a telephone number of the education-center terminal to which the education-center terminal is assigned, and transmitting the education-state-code number to the education-center terminal;
Inputting the education qualification code number transmitted from the educator terminal;
And registering an educator assigned to the trainee by himself / herself with the education qualification code number inputted by the trainee terminal. [3] The learning method using a high magnification image generated through a wireless digital device.
13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing a learning reservation process for processing a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data to an educator assigned to an educator himself / herself;
Wherein the learning reservation process comprises:
Requesting an educator assigned by the student to a learning reservation using a digital high magnification 2D image or a 3D image and 3D scan data;
When the educator terminal is requested to make a learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data from the pupil's terminal,
Confirming the reservation information when the educator terminal generates the reservation push notification, changing the predicted state from the reservation waiting state to the reservation completion state;
And a step of informing that the student's terminal has completed the reservation and confirming a learning reservation result using the digital high magnification 2D image or the 3D image and the 3D scan data using the high magnification image generated through the wireless digital device One learning method.
13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing a learning progress inquiry process for processing the learning related inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data,
Wherein the learning inquiry process comprises:
Applying the learning inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data;
When the learning inquiry using the digital high magnification 2D image or the 3D image and the 3D scan data is requested from the student to be educated, the educator terminal informs that the learning inquiry has been applied and the learning using the digital high magnification 2D image or the 3D image of the trainee and the 3D scan data Method inquiry information and learning history; confirming 2D and 3D data;
Creating and registering a response to the learning inquiry information using the digital high magnification 2D image or the 3D image and the 3D scan data by the educator terminal;
When the pupil's terminal notifies the digital high-power 2D image or the 3D image and the answer of the learning inquiry using the 3D scan data are registered from the educator terminal, And checking the result of the inquiry. The learning method using the high magnification image generated through the wireless digital device.
13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing a registration process for the registration of the learning result using the digital high magnification 2D image or 3D image of the trainee and the 3D scan data;
The learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and receives the student's consent, the educator terminal performs the learning using the plurality of digital high magnification 2D images or the 3D image and the 3D scan data Dimensional high-magnification 2D image or 3D image and a 3D high-magnification 2D image or a 3D high-magnification 2D image or a 3D high-magnification 2D image or 3D image are displayed on a learning list using the digital high magnification 2D image or 3D image and 3D scan data, Registering the 3D scan data information in the shooting information DB and the integrated management server;
Related information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal and the learning related information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered And a step of informing the user of the learning result and confirming the registered learning result. The learning method using the high magnification image generated through the wireless digital device. 13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing a learning result registration process in which the educator terminal processes a learning result registration using a digital high magnification 2D image or a 3D image of a trainee and 3D scan data;
The learning result registration process using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
When the educator terminal has completed the learning using the digital high magnification 2D image or the 3D image and the 3D scan data and the student's consent is received, the educational status is changed from the reservation completion state to the learning completion state and the learned digital high magnification 2D image or 3D image And registering learning information using 3D scan data;
When the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered from the educator terminal, the pupil terminal notifies that the learning information using the digital high magnification 2D image or the 3D image and the 3D scan data is registered, And checking the learning result using the digital high-magnification 2D image or the 3D image and the 3D scan data by using the high-magnification image generated through the wireless digital device.
13. The method of claim 12,
The learning method using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
Further processing a digital high magnification 2D image or a 3D image for processing the student schedule registration and confirmation of the student's terminal and a learning schedule registration and confirmation process using 3D scan data;
The learning schedule registration and confirmation process using the digital high magnification 2D image or the 3D image and the 3D scan data includes:
The educator terminal displays a list of trainees and selects one participant information for registering a learning schedule using the digital high magnification 2D image or the 3D image and the 3D scan data in the trainee list and displays a digital high magnification 2D image or a 3D image Registering a learning schedule using 3D scan data;
Confirming a learning schedule using the digital high magnification 2D image or the 3D image of the trainee's own 3D scan data;
If the student terminal registers the learning schedule using the digital high magnification 2D imaging image and the 3D scan data in the month or date, the learning schedule is registered;
Confirming the learning schedule and subscribing for a procedure reservation according to the learning schedule when the facsimile terminal generates the learning schedule push notification;
And a step of informing that the reservation is requested when the educator terminal is requested to make a learning reservation using the digital high magnification 2D image or the 3D image and the 3D scan data at the person to be educated Learning method.

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