WO2015076605A1 - Touch and near field communication-based electronic stamp and electronic seal authentication system using same - Google Patents

Abstract

Provided are a touch and near field communication-based electronic stamp and an electronic seal authentication system using the same. A method and the system, according to one embodiment of the present invention, authenticate the authenticity of an electronic stamp on the basis of a touch and near field communication, and issue/register the electronic stamp. Thus, it is possible to effectively uncover counterfeiting of the electronic stamp, and also to remarkably eradicate the counterfeiting of the electronic stamp since counterfeiting of the stamp is difficult. Furthermore, an increase of reliability of the electronic stamp can be expected.

Description

Electronic stamp based on touch and near field communication and electronic seal authentication system

The present invention relates to an electronic seal and an electronic seal authentication system using the same, and more particularly, to a system for authenticating the authenticity of the electronic seal and the electronic seal to be used for the electronic seal.

The dojo is used as a means to verify the identity of an individual or organization and to prove a transaction. The seal is widely used for financial transactions and real estate sales in financial institutions such as banks.

In addition, as a part of the gratitude event, the seal is also used for a service named visit painting, coupon painting, and the like. This is a service that provides a contracted product or service free of charge when the number of times of painting received according to the number of visits / uses or the use amount reaches a predetermined number.

Painting is easy to counterfeit, even more so now with advanced scan / copy techniques. This results in the use of forged stamps for the services mentioned later. In addition, the authenticity of the painting often occurs in the above-mentioned transactions and sales.

On the other hand, a countermeasure is required in that the authenticity problem of the painting will be the same as in the case of electronic painting, as well as the traditional painting which is filled with seal.

The present invention has been made to solve the above problems, an object of the present invention, to effectively eradicate the forgery of the electronic coating, an electronic coating that can authenticate authenticity based on touch and near field communication and using the same An electronic seal authentication system is provided.

In addition, another object of the present invention is to provide a method for issuing and registering the electronic seal and a system applying the same.

Electronic coating management server according to an embodiment of the present invention for achieving the above object, Communication unit for receiving the ID and authentication key of the electronic seal; DB (DataBase) that stores the ID and the authentication key of the electronic seal; And a management unit for matching and storing the ID and the authentication key of the electronic seal received through the communication unit with the DB.

And, the electronic coating management server according to an embodiment of the present invention, by using the 'ID and authentication key of the electronic stamp received through the communication unit' and 'ID and authentication key of the electronic stamp stored in the DB', It may further include an authentication unit for determining the authenticity of the electronic seal.

The authentication key may be generated based on a plurality of electronic stamp patterns formed on the electronic stamp.

The authentication key may be generated by an electronic device that recognizes a plurality of electronic stamp patterns formed on the electronic stamp at different times.

The electronic device may recognize one of the plurality of electronic stamp patterns when the electronic stamp is in contact, and recognize another one of the plurality of electronic stamp patterns when the electronic stamp is pressed.

Each of the plurality of electron marking patterns includes a plurality of points formed of an electrostatic induction material, and the electronic device detects the plurality of points by using a capacitive touch screen, and thus the plurality of electronic markings. Each pattern can be recognized.

On the other hand, electronic coating management method according to another embodiment of the present invention, the step of receiving the ID and authentication key of the electronic seal; And matching and storing an ID and an authentication key of the electronic seal in a DB.

On the other hand, according to another embodiment of the present invention, the electronic coating management server, the communication unit for receiving the ID and authentication key of the electronic seal; A DB (DataBase) in which an ID of the electronic seal and an authentication key are matched and stored; And an authenticator configured to determine the authenticity of the electronic seal by using the ID and authentication key of the electronic seal received through the communication unit and the ID and authentication key of the electronic seal stored in the DB. .

On the other hand, electronic stamp authentication method according to another embodiment of the present invention, the step of recognizing the electronic stamp pattern formed on the electronic stamp; Generating an authentication key using the electronic engraving pattern; Receiving an ID from the electronic stamp; And performing a procedure required for authenticating the electronic seal using the authentication key and the ID.

The receiving step may be performed after the electronic engraving pattern is recognized by the recognition step.

The recognition may include recognizing a plurality of electronic stamp patterns formed on the electronic seal, and the generating may generate the authentication key using the plurality of electronic stamp patterns.

In the recognition step, the plurality of electronic engraving patterns may be recognized at different time points.

The recognizing step may recognize one of the plurality of electronic stamp patterns when the electronic stamp is in contact, and recognize another one of the plurality of electronic stamp patterns when the electronic stamp is pressed.

Each of the plurality of electron marking patterns may include a plurality of points formed of an electrostatic induction material, and the recognizing step may recognize each of the plurality of electronic marking patterns using a capacitive touch screen. .

In the performing of the authentication procedure, the authentication key and the ID may be transmitted to a server, and an authentication result using the authentication key and the ID may be received from the server.

In the performing of the authentication procedure, the authenticity of the electronic seal may be determined by comparing the authentication key with an authentication key previously stored matching the ID.

The authentication may include transmitting the authentication key to the electronic seal and receiving an authentication result using the authentication key from the electronic seal.

And, the electronic seal authentication method according to an embodiment of the present invention, if the electronic seal is in the unissued state, transmitting the authentication key to the electronic seal so that the authentication key is stored in the electronic seal; Can be.

On the other hand, according to another embodiment of the present invention, an electronic device, the sensing unit for detecting the electronic engraving pattern formed on the electronic coating; A communication unit for receiving an ID from the electronic seal; And a processor configured to generate an authentication key using the electronic stamp pattern, and to perform a procedure required for authenticating the electronic seal using the authentication key and the ID.

On the other hand, according to another embodiment of the present invention, the electronic coating, the electronic stamping portion is formed an electronic stamping pattern that can be recognized by the electronic device; And a chip for transmitting an ID to the electronic device, wherein the electronic device performs a procedure required for authenticating the electronic seal using at least one of the electronic stamp pattern and the ID.

The electronic engraving unit may include: a first electronic engraving unit in which a first electronic engraving pattern is formed; And a second electronic stamping part having a second electronic stamping pattern formed thereon, wherein the electronic device uses the authentication key and the ID generated from the first electronic stamping pattern and the second electronic stamping pattern to form the electronic signature. The procedures necessary for the certification of the painting may be carried out.

Also, the first electronic engraving pattern and the second electronic engraving pattern may be distinguished and recognized at different time points by the electronic device.

And, when the first electronic engraving pattern is in contact with the touch screen, the first electronic stamping pattern is recognized by the electronic device, when the electronic stamp is pressed and the second electronic engraving is adjacent to the touch screen, It can be recognized by the electronic device.

The first electron marking pattern may include a plurality of points formed of an electrostatic inducing material, and may be detected by a capacitive touch screen provided in the electronic device. It includes a plurality of points implemented as, can be detected by the touch screen of the electronic device.

The electronic device may generate an authentication key using the electronic engraving pattern, and the chip may receive and store the authentication key from the electronic device when the electronic stamp is not issued.

The chip may receive an authentication key generated by the electronic device by using the electronic engraving pattern, and determine the authenticity of the electronic coating by comparing with the previously stored authentication key.

On the other hand, according to another embodiment of the present invention, the electronic seal stamp method, receiving an ID in the near field communication from the touched electronic seal; Performing a procedure necessary for authenticating the electronic seal using the ID; Identifying an area where the electronic seal is touched, when the electronic seal is authenticated; And displaying an image related to the electronic seal in the identified area.

And, according to another embodiment of the present invention, the electronic stamping method, the step of recognizing the electronic stamping pattern formed on the electronic coating; And generating an authentication key using the electronic stamp pattern. The authentication performing procedure may be performed using the authentication key and the ID.

In addition, the image related to the electronic seal, may be obtained from a server that performs the authentication of the electronic seal, received from the electronic seal or stored in match with the ID.

On the other hand, according to another embodiment of the present invention, an electronic device, the touch screen is touched electronic coating; A communication unit for short-range communication with the electronic seal; And receiving an ID from the electronic stamp that is touched on the touch screen through the communication unit, performing a procedure required for authenticating the electronic stamp using the ID, and when the electronic stamp is authenticated, touches the area where the electronic stamp is touched. And a processor that displays an image associated with the electronic seal.

As described above, according to the embodiments of the present invention, since authenticity of the electronic seal is authenticated on the basis of touch and near field communication, it is possible to effectively detect the forgery of the electronic seal, and it becomes difficult to forge the electronic seal. It can dramatically eradicate the forgery of the painting. In addition, the reliability of the electronic coating can be increased.

In addition, since the ID and authentication key of the electronic seal are registered in the electronic seal management server and the life cycle is managed, the public authority of the authenticity of the electronic seal can be ensured, and the flexible countermeasures can be dealt with in case of renewal or loss.

In addition, since the electronic authenticity authentication can be performed in a variety of ways by a variety of subjects, it is possible to adaptively apply the optimal authentication scheme according to the situation and needs.

1 is a diagram showing an electronic seal authentication system to which the present invention is applicable;

2 is an external perspective view of the electronic coating shown in FIG. 1;

3 is a cross-sectional view of the center of the electronic coating shown in FIG.

4 is a diagram illustrating an electronic engraving pattern formed on the electronic engraving unit-1;

5 is a diagram illustrating an electron engraving pattern formed on the electronic engraving unit-2;

6 is a cross-sectional view of the electronic coating in which the pressing plate is pressed by an electronic seal act;

7 is a detailed block diagram of the mobile terminal shown in FIG. 1;

8 is a detailed block diagram of the electronic painting management server shown in FIG. 1;

FIG. 9 is a flowchart provided to explain an electronic seal issuance / registration process by the electronic stamp authentication system shown in FIG. 1;

10 is a flowchart provided to explain the online electronic stamp authentication process by the electronic stamp management server,

11 is a flowchart provided to explain the offline electronic stamp authentication process by the mobile terminal,

12 is a flowchart provided to explain an offline electronic seal authentication process by electronic seal;

FIG. 13 is a diagram illustrating a situation in which an electronic seal is used in a mobile stamp provided in a customer service dimension, and

14 is a diagram illustrating a situation in which an electronic seal is used in an electronic contract.

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

1. Electronic seal authentication system

1 is a diagram illustrating an electronic seal authentication system to which the present invention is applicable. The electronic seal authentication system to which the present invention is applicable includes an electronic seal 100, a mobile terminal 200, and an electronic seal management server 300.

The illustrated electronic stamp authentication system is a system for electronic stamping the electronic stamp 100 on the mobile terminal 200 and authenticating the authenticity of the electronic stamp 100. The electronic stamping operation is performed by touching the electronic stamping parts 110 and 120 of the electronic stamp 100 on the touch screen 210 of the mobile terminal 200.

The authenticity determination of the electronic painting 100 may be performed by the mobile terminal 200 or the electronic painting 100 as well as the electronic painting management server 300. Specifically, in the case of online authentication, the authenticity determination is performed by the electronic painting management server 300, but in the case of offline authentication, the authenticity determination is performed by the mobile terminal 200 or the electronic painting 100.

In order to determine the authenticity, the electronic stamping patterns formed on the electronic stamping parts 110 and 120 provided in the electronic stamp 100 are required, and an NFC chip (NFC chip) capable of communicating with the NFC (Near Field Communication) module 220 of the mobile terminal 200 ( An electronic seal ID or an authentication key stored at 130 is also required.

Hereinafter, after detailed description of the detailed configuration of the electronic seal 100, the mobile terminal 200 and the electronic seal management server 300 constituting the electronic seal authentication system shown in Figure 1, the electronic using the electronic seal authentication system The process of issuing / registering a painting and the process of authenticating a digital painting (authentication) will be explained in detail.

2. System Configuration

2.1 Electronic Seal

FIG. 2 is an external perspective view of the electronic paint 100 shown in FIG. 1, and FIG. 3 is a cross-sectional view of the electronic paint 100 shown in FIG. As shown in FIG. 2 and FIG. 3, the electronic stamp 100 includes an electronic stamping unit-1 (110), an electronic marking unit-2 (120), an NFC chip 130, a body 140, and a spring 150. ), The pressing plate support 160, the imprinting portion support 170 and the pressing plate 180.

Body 140 is a tubular frame forming the appearance of the electronic painting 100, the empty space in the center of the electronic stamping unit-1 (110), electronic stamping unit-2 (120), NFC chip 130 and Engraving support 170 is located. In addition, the spring 140 and the pressing plate support 160 are accommodated in the body 140.

One surface of the pressing plate support 160 is fixed to the pressing plate 180 and the opposite surface is supported by the spring 150. The marking unit support 170 fixes the electronic marking unit-2 120 to the pressing plate 180 so that the pressing plate 180 and the electronic marking unit-2 120 are moved together (move).

An electronic engraving pattern is formed on the surface (or inside) of the electronic engraving unit-1110 and the electronic marking unit-2120. The electron engraving pattern formed on the electron engraving unit-1110 and the electron engraving pattern formed on the electronic engraving unit-2120 are different from each other as illustrated in FIGS. 4 and 5.

In FIG. 4, an electron marking pattern formed on the electronic marking unit-1110 is illustrated, and FIG. 5 illustrates an electron marking pattern formed on the electronic marking unit-2 (120).

As shown in FIG. 4, the electronic engraving pattern of the electronic engraving unit-1110 is composed of three points 111, 112, and 113. These points 111, 112 and 113 are implemented with an electrostatic inducing material. As a result, when there is an electronic stamping operation, a touch input may be generated at points touched by the points 111, 112, and 113 of the electronic engraving unit-1110 on the touch screen 210 of the mobile terminal 200. do. In this regard, the touch screen 210 functions as an electronic engraving pattern sensing means.

Meanwhile, as shown in FIG. 5, the electron engraving pattern formed on the surface (or inside) of the electronic engraving unit-2 120 is also composed of three points 121, 122, and 123, but the positions thereof are electronic engraving. Different from part-1110. Points 121, 122, and 123 of the electronic imprinter-2 120 are also implemented with an electrostatic inducing material.

As shown in FIG. 2, the electronic engraving unit-2 120 is positioned above the electronic engraving unit-1110. However, as shown in FIG. 6, when the pressing plate 180 is pressed by the electronic stamping operation, the electronic marking unit-2 120 moves downward to be in close contact with the electronic marking unit-1110. As a result, a touch input is generated at points facing the points 121, 122, and 123 of the electronic engraving unit-2 120 adjacent to the touch screen 210 of the mobile terminal 200.

On the other hand, when the pressing on the pressing plate 180 is released, due to the elastic force by the spring 150, the pressing plate 180 is restored to its original position, which is interlocked with the pressing plate 180 by the imprinter support 170. Electronic engraving unit-2 (120) is also restored to its original position.

NFC chip 130, 1) the electronic stamp ID, the authentication key and other information is stored, 2) the communication module to communicate with the NFC module 220 of the mobile terminal 200 and 3) through the communication module It is a communication chip including a processor for recording the received authentication key in the memory, and reads the electronic stamp ID, authentication key and other information from the memory to the mobile terminal 200 through the communication module.

Since the communication between the communication module of the NFC chip 130 and the NFC module 220 of the mobile terminal 200 is a short-range communication, NFC only when the electronic seal 100 and the mobile terminal 200 are adjacent by an electronic seal act. Communication between the chip 130 and the NFC module 220 is possible.

2.2 Mobile Terminal

FIG. 7 is a detailed block diagram of the mobile terminal 200 shown in FIG. 1. As shown in FIG. 7, the mobile terminal 200 includes a touch screen 210, an NFC module 220, a processor 230, a communication unit 250, and a storage unit 260.

The touch screen 210 functions as a display for displaying visual information, and is implemented as a capacitive method and functions as a user input means for receiving a command through a touch by a finger inducing static electricity. In addition, the touch screen 210 detects an electronic stamp pattern of the electronic seal 100.

Electronic stamping pattern detection takes place twice. Specifically, the touch screen 210, 1) by the electrostatic induction by the three points (111, 112 and 113) constituting the electronic stamping pattern-1 of the electronic stamping unit-1 (110) of the location thereof. Detects the electronic stamp pattern-1, and 2) their positions through electrostatic induction by the three points 121, 122, and 123 constituting the electronic stamp pattern-2 of the electronic stamp unit-2 (120). Detect the electronic stamp pattern-2.

NFC module 220 communicates with the NFC chip 130 of the electronic seal (100). By the communication between them, an electronic seal ID, an authentication key, and other data are transmitted.

The communication unit 250 is a means for mobile communication (3G, LTE, OTA (Over The Air), etc.) and the wireless Internet (WiFi, WiBro, HSDPA, etc.), the mobile terminal 200 and the electronic stamp management server 300 Set up and maintain a communication connection. The storage unit 260 is a storage medium that stores information and data necessary for the mobile terminal 200.

The processor 230 controls the overall operation of the mobile terminal 200. In particular, the processor 230 executes the electronic painting application 240 to provide an electronic painting service to the user.

The electronic painting application 240 is an application programmed to perform an electronic painting service such as an electronic painting issuance / registration and authentication.

The electronic painting application 240 recognizes the electronic stamp patterns detected by the touch screen 210 for issuing / registering and authenticating the electronic stamp, and generates an authentication key from the recognized electronic stamp patterns.

In addition, the electronic painting application 240 interacts with the NFC chip 130 of the electronic painting 100 or the communication unit 250 through the NFC module 220 to perform other procedures involved in the electronic stamp issuance / registration and authentication Interact with the electronic stamp management server 300 through).

2.3 Electronic Stamp Management Server

8 is a detailed block diagram of the electronic painting management server 300 shown in FIG. As shown in FIG. 8, the electronic painting management server 300 includes a communication unit 310, a management unit 320, a DB (DataBase) 330, and an authentication unit 340.

The communication unit 310 is a means for communication connection with the mobile terminal 200. An electronic seal ID and an authentication key are received from the mobile terminal 200 through the communication unit 310.

When the electronic stamp ID and the authentication key received through the communication unit 310 is for registration, the management unit 320 matches the electronic stamp ID and the authentication key in the DB 330 and stores the new electronic stamp 100 by storing. Register. In addition, the management unit 320 manages the life cycle (update, lock, discard, etc.) of the electronic coating (100).

On the other hand, if the electronic stamp ID and the authentication key received through the communication unit 310 for authenticity authentication, the authentication unit 340 performs authentication by comparing with the authentication key stored in the DB 330 and the authentication result Returns.

3. Issuance / Registration of Electronic Seal

FIG. 9 is a flowchart provided to explain an electronic seal issuance / registration process by the electronic seal authentication system shown in FIG. 1.

As shown in FIG. 9, first, after the electronic painting application 240 is executed by the processor 230 of the mobile terminal 200 (S405), the electronic painting 100 is performed by the first operation of the electronic stamping operation. The electronic stamping unit-1 110 of the contact with the touch screen 210 of the mobile terminal 200, a touch input is generated (S410).

Then, the electronic painting application 240 recognizes the electronic stamp pattern-1 of the electronic stamping unit-1 (110) detected by the touch screen 210 (S415). Recognizing the electronic stamping pattern-1 in step S415 may be regarded as recognizing the positions of the three points 111, 112, and 113 formed in the electronic stamping unit-1110.

Subsequently, the pressing plate 180 of the electronic coating 100 is pressed by the secondary operation of the electronic stamping operation, and the electronic stamping unit-2 120 of the electronic painting 100 comes into close contact with the electronic marking unit-1110. As a result, a touch input is generated on the touch screen 210 of the mobile terminal 200 (S420).

Then, the electronic painting application 240 recognizes the electronic stamping pattern-2 of the electronic stamping unit-2 (120) detected by the touch screen 210 (S425). Recognizing the electronic stamping pattern-2 in step S425 may be regarded as recognizing the positions of the three points 121, 122, and 123 formed in the electronic stamping unit-2 120.

Meanwhile, when the electronic stamp patterns are recognized, the electronic painting application 240 receives the electronic painting ID from the NFC chip 130 of the electronic painting 100 through the NFC module 220 (S430). Electronic stamp ID is the only ID that can identify the electronic stamp 100 stored in the NFC chip 130 from the beginning.

In addition, the electronic painting application 240 generates an authentication key based on the electronic stamp pattern-1 recognized in step S415 and the electronic stamp pattern-2 recognized in step S425 (S435).

For example, the 'area, side length (3), height (3), and cabinet (3) of a triangle generated by the three points 111, 112, and 113 constituting the electronic stamping pattern-1 'The area, side length (3) and height (3) of the triangle generated by at least one of the [ten elements in total] and the three points 121, 122 and 123 constituting the electronic imprint pattern-2 Can be generated by substituting the authentication key generation algorithm for at least one of "

On the other hand, it is of course possible to identify other factors than the above elements and assign them to the authentication key generation algorithm. In addition, authentication key generation algorithm may be applied to anything from a simple modular function to a complex hash algorithm.

Next, the electronic painting application 240 transmits the authentication key generated in step S435 to the NFC chip 130 of the electronic painting 100 through the NFC module 220 (S440), NFC chip of the electronic painting 100 130 stores the authentication key received in step S440 (S445).

In operation S445, the authentication key is stored in a predetermined sector designated by a write once read many (WORM) method among the sectors of the memory provided in the NFC chip 130. As a result, the procedure for issuing the electronic seal 100 is completed, and a meaningful electronic seal using the electronic seal 100 is possible.

On the other hand, the electronic painting application 240 stores the electronic painting ID received in step S430 and the authentication key generated in step S435 in the storage unit 260 (S450).

In addition, the electronic coating application 240 transmits the electronic coating ID received in step S430 and the authentication key generated in step S435 to the electronic coating management server 300 through the communication unit 250 (S455).

Then, the management unit 320 of the electronic painting management server 300 matches the digital painting ID received in step S455 with the authentication key and stores it in the DB 330 (S460).

Steps S450 to S460 correspond to a registration procedure of the electronic seal 100.

On the other hand, step S440 and step S445 is a procedure required for the offline electronic stamp authentication by the electronic stamp 100 to be described later, step S450 is a procedure required for the offline electronic stamp authentication by the mobile terminal 200 to be described later, S455 Step and step S460 is a procedure required for the online electronic stamp authentication by the electronic coating management server 300 to be described later.

Therefore, step S450 may be omitted when the offline electronic stamp authentication is not required by the mobile terminal 200, and steps S455 and S460 may be omitted when the online electronic stamp authentication is not required by the electronic coating management server 300. It is possible.

4. Electronic seal certification

4.1 Online Electronic Seal Authentication by Electronic Stamp Management Server

10 is a flowchart provided to explain an online electronic seal authentication process by the electronic seal management server 300.

As shown in FIG. 10, first, after the electronic painting application 240 is executed by the processor 230 of the mobile terminal 200 (S505), the electronic painting 100 is performed by the first operation of the electronic stamping operation. When the electronic stamping unit-1 (110) of the mobile terminal 200 touches the touch screen 210 and a touch input is generated (S510), the electronic painting application 240 is detected on the touch screen 210 The electronic engraving pattern-1 of the engraving unit-1110 is recognized (S515).

Subsequently, the pressing plate 180 of the electronic coating 100 is pressed by the secondary operation of the electronic stamping operation, and the electronic stamping unit-2 120 of the electronic painting 100 comes into close contact with the electronic marking unit-1110. As a result, when a touch input is generated on the touch screen 210 of the mobile terminal 200 (S520), the electronic stamp application 240 is electronically imprinted on the electronic stamping unit-2 120 detected by the touch screen 210. The pattern-2 is recognized (S525).

Meanwhile, when the electronic stamp patterns are recognized, the electronic painting application 240 receives the electronic painting ID from the NFC chip 130 of the electronic painting 100 through the NFC module 220 (S530).

In addition, the electronic painting application 240 generates an authentication key based on the electronic stamp pattern-1 recognized in step S515 and the electronic stamp pattern-2 recognized in step S525 (S535). The authentication key generation method in step S535 should be the same as the authentication key generation method in step S435 of FIG. 9.

Next, the electronic coating application 240 transmits the electronic coating ID received in step S530 and the authentication key generated in step S535 to the electronic coating management server 300 through the communication unit 160 (S540).

Then, the authentication unit 340 of the electronic painting management server 300 determines the authenticity of the electronic painting 100 on the basis of the electronic painting ID and the authentication key received in step S540, and authenticates the electronic painting 100. (S545).

The authenticity determination of the electronic seal 100 in step S545, a method of comparing whether the 'authentication key received in step S540' and the 'authentication key of the DB 330 matched to the electronic seal ID received in step S540' are the same. Is performed.

Thereafter, the authentication unit 340 of the electronic painting management server 300 transmits the authentication result to the electronic painting application 240 (S550), and the electronic painting application 240 transmits the received authentication result to the touch screen 210. It is displayed (S555).

4.2. Offline electronic seal authentication by mobile terminal

11 is a flowchart provided to explain the offline electronic seal authentication process by the mobile terminal 200. Detailed descriptions of steps S605 to S635 of FIG. 11 are the same as the detailed descriptions of steps S505 to S535 of FIG.

After step S635, the electronic coating application 240 determines the authenticity of the electronic coating 100 based on the electronic coating ID received in step S630 and the authentication key generated in step S635, and authenticates the electronic coating 100. (S640).

The authenticity of the electronic seal 100 in step S640 is to compare whether the 'authentication key generated in step S635' and the 'authentication key of the storage unit 260 matched to the electronic seal ID received in step S630' are the same. Is done in a manner.

Thereafter, the electronic painting application 240 displays the authentication result on the touch screen 210 (S645).

4.3 Off-line electronic seal certification by electronic stamp

12 is a flowchart provided to explain the offline electronic seal authentication process by the electronic seal (100). Detailed descriptions of the steps S705 to S735 of FIG. 12 are the same as the detailed descriptions of the steps S505 to S535 of FIG. 10, and will be omitted.

After step S735, the electronic painting application 240 transmits the electronic coating ID received in step S730 and the authentication key generated in step S735 to the NFC chip 130 of the electronic coating 100 through the NFC module 220 ( S740).

Then, the NFC chip 130 determines the authenticity of its own using the authentication key received in step S740 (S745). The authenticity determination in step S745, the NFC chip 130 compares the 'electronic stamp ID and authentication key' received in step S740 is the same as the 'electronic stamp ID and authentication key' stored in its memory Is performed.

Thereafter, the NFC chip 130 transmits an authentication result to the electronic painting application 240 (S750), and the electronic painting application 240 displays the received authentication result on the touch screen 210 (S755).

5. Electronic seal based service

Up to now, it has been described in detail with reference to the preferred embodiments for the issuance / registration process of the electronic seal 100 and the electronic seal 100 and the electronic seal authentication (determination of the authenticity of the electronic seal 100).

The electronic seal 100 presented through the above embodiments may be utilized for various services. Simply available for mobile stamps provided for customer service purposes (e.g., if you have 10 electronic stamps, offer a promised product / service) and secure electronic wallet services (electronic payments, membership points, etc.) ), Electronic financial services (electronic payments, transfers, etc.), electronic transaction services (commodity sales, real estate sales, etc.), electronic documents creation (public documents, private documents, etc.).

However, in order to do this, all of the functions of the electronic painting-based application 240 may be included or may be linked thereto, and an application programmed to provide a related service should be installed in the mobile terminal 200, and required to provide a related service. More servers of service providers may be needed.

In addition, in addition to the electronic stamp ID and authentication key in the NFC chip 130, it may be necessary to further store other information necessary for providing a service, and to transmit the information to the mobile terminal 200 with NFC when the electronic stamp ID is transmitted. .

FIG. 13 illustrates a situation in which the electronic seal 100 is utilized in a mobile stamp provided in a customer service dimension. As shown on the left side of FIG. 13, when the electronic seal 100 is touched on the touch screen 210 of the mobile terminal 200 on which the mobile stamp is displayed, and the electronic seal 100 is authenticated as true without being forged, Instead of displaying the authentication result, as shown on the right side of FIG. 13, an image related to the electronic seal 100 (eg, a seal image of the electronic seal) may be displayed.

14 illustrates a situation in which the electronic seal 100 is utilized in the electronic contract. As shown on the left side of FIG. 14, when the electronic seal 100 is touched on the touch screen 210 of the mobile terminal 200 in which the electronic contract is displayed, and the electronic seal 100 is authenticated as true without being forged, Instead of displaying the authentication result, as shown in the right side of FIG. 14, it is possible to display the stamp of the electronic seal 100.

In order to perform FIGS. 13 and 14, the electronic painting application 240 of the mobile terminal 200 determines an area where the electronic painting 100 is touched, and an image (for example, electronic A seal image of the seal) should be obtained and the acquired seal image should be displayed on the identified area.

Images related to the electronic painting 100 are obtained from 1) the DB 330 of the electronic painting management server 300 when authentication of the electronic painting 100 is performed according to the procedure shown in FIG. When the authentication of the electronic seal 100 is performed according to the procedure illustrated in FIG. 11, the authentication is obtained from the storage unit 260. 3) When the authentication of the electronic seal 100 is performed according to the procedure illustrated in FIG. 12. May be implemented to be obtained from the NFC chip 130 of the electronic seal 100, but it is not necessary to comply with this, of course, can be modified.

In addition, for this purpose, the image related to the electronic seal 100 is required to be stored in the DB 330 and the storage unit 260 matched with the ID of the electronic seal 100.

6. Modifications

In the above embodiment, the NFC chip 130 is shown as being attached to the electronic stamping unit-2 (120), but this is an example, the position of the NFC chip 130 is other than the electronic marking unit-2 (120) It doesn't matter where you are.

In addition, in the above embodiment, it is assumed that the number of the electronic stamping pattern (that is, the number of the electronic stamping part) is two, but may be implemented as three or more, but may be implemented as one. In other words, the number of electron engraving patterns does not matter. In addition, the number of points constituting the electronic engraving pattern may be implemented as a number other than three.

Meanwhile, in the above embodiments, the authentication key is assumed to be generated by the electronic painting application 240 of the mobile terminal 200, but it is merely exemplary. In the case of online electronic stamp authentication, when the mobile terminal 200 transmits the electronic stamp patterns to the electronic stamp management server 300, the electronic stamp management server 300 generates an authentication key using the electronic stamp patterns, the electronic stamp It is possible to implement to determine the authenticity of (100).

In addition, when authenticating the offline electronic seal by the electronic seal 100 shown in FIG. 12, the electronic seal ID comparison may be omitted, and authenticity determination may be performed only by comparing the authentication keys.

In addition, when the offline electronic stamp authentication by the mobile device 200 shown in FIG. 11, the mobile device 200 compares the generated authentication key and the stored authentication key to determine the authenticity of the electronic seal 100. It is merely illustrative. The mobile device 200 does not store the authentication key, and receives the authentication key stored in the electronic seal 100 together with the electronic seal ID from the electronic seal 100 to the NFC, and compares it with the generated authentication key. The authenticity of 100) is also included in the scope of the present invention.

In addition, the mobile device 200 may be replaced with another kind of electronic device having a touch screen, which may be a stationary device rather than a mobile device.

On the other hand, the technical idea of the present invention can be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical idea according to various embodiments of the present disclosure may be implemented in the form of computer readable codes recorded on a computer readable recording medium. The computer-readable recording medium can be any data storage device that can be read by a computer and can store data. For example, the computer-readable recording medium may be a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical disk, a hard disk drive, or the like. In addition, the computer-readable code or program stored in the computer-readable recording medium may be transmitted through a network connected between the computers.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (30)

1. Communication unit for receiving the ID and authentication key of the electronic seal;

   DB (DataBase) that stores the ID and the authentication key of the electronic seal; And

   And a management unit for matching and storing the ID and the authentication key of the electronic seal received through the communication unit with the DB.
2. The method of claim 1,

   Further comprising: an authentication unit for determining the authenticity of the electronic seal using the 'ID and authentication key of the electronic seal received through the communication unit' and 'the ID and authentication key of the electronic seal stored in the DB'; Electronic stamp management server, characterized in that.
3. The method of claim 1,

   The authentication key,

   The electronic coating management server, characterized in that generated on the basis of a plurality of electronic stamping patterns formed on the electronic coating.
4. The method of claim 3, wherein

   The authentication key,

   The electronic coating management server, characterized in that it is generated by an electronic device for recognizing a plurality of electronic stamping patterns formed on the electronic coating at different times.
5. The method of claim 4, wherein

   The electronic device,

   Recognizing one of the plurality of electronic stamping patterns when the electronic stamp is in contact, and the electronic stamp management server characterized in that the other of the plurality of electronic stamping pattern is recognized when the electronic stamp is pressed.
6. The method of claim 3, wherein

   Each of the plurality of electron engraving patterns,

   Includes a plurality of points implemented with an electrostatic inducing material,

   The electronic device,

   The electronic coating management server, characterized in that for detecting the plurality of points by sensing the plurality of points using a capacitive touch screen.
7. Receiving an ID and an authentication key of the electronic seal; And

   And matching and storing an ID and an authentication key of the electronic seal in a DB (DataBase).
8. Communication unit for receiving the ID and authentication key of the electronic seal;

   A DB (DataBase) in which an ID of the electronic seal and an authentication key are matched and stored; And

   Includes an authentication unit for determining the authenticity of the electronic seal using the 'ID and authentication key of the electronic stamp received through the communication unit' and 'ID and authentication key of the electronic seal stored in the DB'; An electronic seal management server characterized by the above-mentioned.
9. Recognizing an electronic engraving pattern formed on the electronic coating;

   Generating an authentication key using the electronic engraving pattern;

   Receiving an ID from the electronic stamp; And

   Using the authentication key and the ID, performing a procedure necessary for authenticating the electronic seal.
10. The method of claim 9,

    The receiving step,

    The electronic stamp authentication method is performed after the electronic stamp pattern is recognized by the recognition step.
11. The method of claim 9,

    The recognition step,

    Recognize the plurality of electronic stamp patterns formed on the electronic coating,

    The generating step,

    Electronic stamp authentication method characterized in that for generating the authentication key using the plurality of electronic stamping pattern.
12. The method of claim 11,

    The recognition step,

    Electronic stamp authentication method characterized in that for recognizing the plurality of electronic stamp patterns at different times.
13. The method of claim 12,

    The recognition step,

    Recognizing one of the plurality of electronic stamping patterns when the electronic seal is in contact, and the other of the plurality of electronic stamping pattern is recognized when the electronic stamp is pressed.
14. The method of claim 11,

    Each of the plurality of electron engraving patterns,

    Includes a plurality of points implemented with an electrostatic inducing material,

    The recognition step,

    Electronic coating authentication method characterized in that for recognizing each of the plurality of electronic stamping pattern using a capacitive touch screen.
15. The method of claim 9,

    The step of performing the authentication process,

    And transmitting the authentication key and the ID to a server, and receiving an authentication result using the authentication key and the ID from the server.
16. The method of claim 9,

    The step of performing the authentication process,

    The electronic seal authentication method of claim 1, wherein the authenticity of the electronic seal is determined by comparing the authentication key with an authentication key previously stored matching the ID.
17. The method of claim 9,

    The authentication step is,

    And transmitting the authentication key to the electronic seal, and receiving an authentication result using the authentication key from the electronic seal.
18. The method of claim 9,

    And transmitting the authentication key to the electronic seal so that the authentication key is stored in the electronic seal when the electronic seal is in an unissued state.
19. A detector configured to detect an electronic engraving pattern formed on the electronic coating;

    A communication unit for receiving an ID from the electronic seal; And

    And a processor configured to generate an authentication key using the electronic stamp pattern, and to perform a procedure required for authenticating the electronic seal using the authentication key and the ID.
20. An electronic marking unit on which an electronic engraving pattern that the electronic device can recognize is formed; And

    A chip for transmitting an ID to the electronic device;

    The electronic device,

    The electronic stamp is performed using at least one of the electronic stamp pattern and the ID to perform a procedure required for authenticating the electronic stamp.
21. The method of claim 20,

    The electronic engraving unit,

    A first electron engraving unit on which a first electron engraving pattern is formed; And

    It includes; a second electron carved portion formed with a second electron carved pattern,

    The electronic device,

    The electronic stamp of claim 1, using the authentication key and the ID generated from the first electronic stamping pattern and the second electronic stamping pattern, the electronic stamp is performed for the authentication of the electronic seal.
22. The method of claim 21,

    The first electron engraving pattern and the second electron engraving pattern,

    The electronic coating, characterized in that the electronic device is distinguished and recognized at different times.
23. The method of claim 22,

    The first electronic engraving pattern,

    When the first electronic engraving portion is in contact with the touch screen, it is recognized by the electronic device,

    And when the second electronic stamp is adjacent to the touch screen, the electronic stamp is recognized by the electronic device.
24. The method of claim 21,

    The first electronic engraving pattern,

    It includes a plurality of points made of electrostatic induction material, is sensed by the capacitive touch screen provided in the electronic device,

    The second electron engraving pattern,

    And a plurality of points embodied in an electrostatic induction material, characterized in that detected by the touch screen of the electronic device.
25. The method of claim 20,

    The electronic device,

    Generating an authentication key using the electronic engraving pattern,

    The chip,

    And when the electronic coating is in an unissued state, receiving and storing the authentication key from the electronic device.
26. The method of claim 20,

    The chip,

    And the electronic device receives an authentication key generated using the electronic stamp pattern, and determines the authenticity of the electronic coating by comparing with an authentication key previously stored.
27. Receiving an ID in short-range communication from the touched electronic stamp;

    Performing a procedure necessary for authenticating the electronic seal using the ID;

    Identifying an area where the electronic seal is touched, when the electronic seal is authenticated; And

    And displaying an image related to the electronic stamp in the identified area.
28. The method of claim 27,

    Recognizing an electronic engraving pattern formed on the electronic coating; And

    Generating an authentication key using the electronic engraving pattern;

    The authentication procedure is

    Electronic stamping method characterized in that performed using the authentication key and the ID.
29. The method of claim 27,

    The image related to the electronic seal,

    The electronic seal stamp method, characterized in that obtained from the server for performing the authentication of the electronic seal, received from the electronic seal or stored in accordance with the ID.
30. A touch screen on which an electronic seal is touched;

    A communication unit for short-range communication with the electronic seal; And

    Receives an ID from the electronic stamp touched on the touch screen through the communication unit, performs a procedure required for the authentication of the electronic stamp using the ID, and if the electronic stamp is authenticated in the area where the electronic stamp is touched And a processor that displays an image associated with the electronic seal.

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