KR100839356B1 - Seal having electronic chip and system and method for certifying thereof seal - Google Patents

Abstract

Tensile with electronic chip and corresponding tensile certification system, which invalidates authorized seals being forged or tampered with, and ensures that only successful seals are validated to provide optimal safety for various contracts or transactions; and Tensile authentication methods are disclosed. The tensile authentication system according to the present invention records a unique tensile code on an electronic chip coupled to a seal upon receipt of registration approval information, and indicates that the unique tension code matches a pre-registered unique tension code upon receipt of use approval information. Seal registration and authentication terminal; It is connected to the seal registration and authentication terminal through a communication network, and when the registration requester's information is confirmed in response to the registration request, the registration approval information is generated, and in response to the approval request, the unique seal code of the approval requester is registered in the seal. A tensile certificate server for generating the use approval information when the original tensile code matches the stored time; It is connected to the seal authentication server is provided with a database for storing and storing all the information related to the registration and use of the seal.

Tensile, Coating, Electronic Chip, Tensile Certification System, Tensile Certification Method

Description

Seal having electronic chip and system and method for certifying abstract seal}

1 is a view showing the structure of the tension embedded electronic chip in accordance with an embodiment of the present invention

2 is a device configuration showing a system for issuing a seal and a seal authentication system according to an embodiment of the present invention;

3 is a diagram illustrating a detailed configuration of a registration and authentication terminal of FIG.

FIG. 4 is a diagram illustrating a table structure of personal information related to tension stored in a database of FIG. 2.

5A is a diagram showing the configuration of an RFID tag as an electronic chip to which the present invention is applied.

5B is a diagram showing the configuration of a smart card as an electronic chip applied to the present invention.

6 is an exemplary data format of a unique tension code stored in an electronic chip of the present invention.

7 is a tension registration control flow diagram of a terminal according to an embodiment of the present invention.

8 is a flow chart of the tensile authentication control terminal according to an embodiment of the present invention

9 is a control flow diagram showing a seal registration and authentication procedure of the authentication server according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of use of seals, such as seal coating, and the like, and more particularly, to tension with an electronic chip, a tensile authentication system, and a method for tensile authentication.

In general, a seal refers to an object or person whose name is engraved on the seal material, which is then stamped on all legally valid documents.

However, in the use of current tension, many problems such as loss, theft or forgery occur. In addition, the certification of the seal usually entails a cumbersome procedure of seal certification. In other words, after bringing seals to the relevant offices or registrars, they must be certified by visiting them, and when necessary, they must be re-visited to obtain a seal certificate. This can also be illegal, such as forgery, alteration, and theft.

Therefore, it is desirable to improve the solution to solve all problems of loss, theft and forgery of the seal.

Accordingly, it is an object of the present invention to provide a tensile and a tensile authentication system and a tensile authentication method according to the tension that can solve the above problems.

Another object of the present invention is to provide a tension with an electronic chip that can solve the problem of loss, theft, or forgery due to the use of a normal tension, and thus a tensile authentication system and a tensile authentication method.

It is still another object of the present invention to provide a seal with an electronic chip capable of reliably authenticating the use of a seal and to secure a transaction, and thus a seal authentication system and a seal authentication method.

Still another object of the present invention is to provide a seal with an electronic chip which enables authentication of a seal used when a unique tension code stored in an electronic chip of a seal and a user's pre-registered password match. The present invention provides a system and a tensile authentication method.

Another object of the present invention is to generate a contract unique number due to the seals of the parties involved in the contract for the purpose of securing the transaction at the time of the establishment of a contract such as real estate and the like to prevent tax evasion or evasion of various taxes. It is to provide a tension with an electronic chip, and thus a tensile authentication system and a tensile authentication method.

It is still another object of the present invention to provide a seal authentication system and seal authentication method for easily verifying the authenticity of seals when seals are presented in banks, broker offices, law firm offices, notary offices, government offices, and the like. Is in.

Still another object of the present invention is to provide a tensile authentication method which can easily perform tensile authentication through a portable terminal such as a mobile phone.

According to a first aspect of the present invention for achieving the above objects, a tension with an electronic chip comprises: a tension having a shape inherently imprinted on a stamped surface extending from a body of tension material; It is coupled to the body of the tension, characterized in that it comprises an electronic chip that stores a unique tension code to enable the external electronic device to recognize that the tension has a certified effect.

According to a second aspect of the present invention, a registration terminal for recording a unique tension code on an electronic chip in order to be able to recognize through an external electronic device that the tension to which the electronic chip is coupled is a seal having an authorized effect:

An ID reading unit for providing radio waves to the electronic chip and obtaining a tag ID from the electronic chip;

A registration information receiver for receiving registration requester information and a password inputted by the registration requester of the seal;

A registration information transmission unit for formatting the tag ID, registration requester information, and password and transmitting them to a communication network;

A registration approval check unit for checking whether registration approval information is received through the communication network;

And a code registration unit for recording the unique tensile code registered and approved in the electronic chip when the registration approval is checked in the registration approval check unit.

According to a third aspect of the present invention, there is provided an authentication terminal for checking whether a tension in which an electronic chip in which a registered unique tension code is stored is a seal having an authorized effect:

An information reading section for providing radio waves to the electronic chip and obtaining the inherent tensile code from the electronic chip;

An authentication information receiver for receiving a password inputted by the seal requestor of the seal;

An authentication information transmission unit for formatting the unique tension code and the password and transmitting them to a communication network;

An authentication checker which checks whether use authentication information is received through the communication network;

And a display unit for displaying the authentication pass information when the use approval is checked in the authentication check unit.

According to a fourth aspect of the invention, a tensile authentication system is

A tension registration and authentication terminal for recording a unique tensile code on an electronic chip coupled to the seal upon receipt of registration approval information and indicating that upon receipt of the usage approval information the unique tension code matches a pre-registered unique tension code;

It is connected to the seal registration and authentication terminal through a communication network, and when the registration requester's information is confirmed in response to the registration request, the registration approval information is generated, and in response to the approval request, the unique seal code of the approval requester is registered in the seal. A tensile certificate server for generating the use approval information when the original tensile code matches the stored time;

It is connected to the seal authentication server and has a database for storing the information related to the registration and use of the seal data.

According to a fifth aspect of the present invention, after registering a seal in which an electronic chip is coupled to a database, an inherent tension code is recorded on the electronic chip through a registration terminal, and the authentication terminal upon matching of information in response to a request for a seal approval. Tension registration and certification methods that indicate approval through:

Generating registration approval information and providing a unique seal code to the registration terminal when the registration requester's information is confirmed at the registration request of the seal;

Matching the unique tension code with information of the registration requester and storing the information in a database;

Checking whether the requestor's unique tension code matches the unique tension code stored at the time of registration upon requesting approval of the seal;

When the stored unique tension code and the unique tension code at the time of the request for approval coincide with each other, the use approval information is generated and authorized to the authentication terminal.

According to the present invention as described above, through the tension with the electronic chip to block the theft, forgery and tampering of the seal, the seal certification is quickly and easily handled by each required company or organization instead of the existing seal certificate can do.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a tension with an electronic chip and a tensile authentication system and a seal authentication method according to the present invention will be described with reference to the accompanying drawings. Although shown in different drawings, components that perform the same or similar functions are represented by the same reference numerals.

First, Figure 1 is a view showing the structure of the tension embedded electronic chip in accordance with an embodiment of the present invention. The tensile structure 1a shown on the left side of the drawing shows an example of a newly issued type with an electronic chip, and the tensile structure 1b shown on the right side is based on a tension already existing. An example of the tension that couples the electronic chip 2 is shown. On the other hand, reference numeral 3 in Fig. 1 shows a protective cover portion 3 provided to achieve the use efficiency.

In the present invention, as shown in Figure 1, when there is a tension (1) having a shape uniquely stamped on the surface (1-1) extending from the body of the tensile material, is coupled to the body of the tension (1) In order to achieve the objects of the present invention, an electronic chip (2) storing an inherent tension code, in order to be recognized by an external electronic device such as a reader of the electronic chip, is a seal having an authorized effect. It is provided.

As shown in the structure 1a of FIG. 1, a newly issued seal with an electronic chip may be used in the present invention as soon as the registration process is performed after stamping the seal. By omitting and performing electronic chip coupling through the tension issuing and registration terminal having an electronic chip coupling function, it is possible to use the registration process.

Here, the body of the tension (1) may be made of a tension material such as wood, stone, rubber, crystal, gold, horn, ivory, etc., the surface (1-1) which is a blade extending from the body of the tension material Letters, patterns, badges, and paintings are uniquely carved. When the seal is used, a stamping agent such as stamping is applied to the stamping surface 1-1, and the stamping is performed by pressing the pressing portion 1-2 of the seal against the user's stamping point. Accordingly, indigenous forms stamped on documents such as individuals, offices, organizations, and collections are displayed as marks or certificates. In particular, in Korea, there is a seal certification system for the security and identification of transactions. According to this system, each citizen registers a unique seal with the government office in advance. Upon use, a seal certificate will be issued and attached.

In the present invention, an electronic chip such as an RFID tag, a smart card, or the like is combined with a seal such as a seal seal as an identification chip, and a unique tensile code is stored in the electronic chip. Thus, an external recognizer leads a unique tension code to identify that the seal is a seal with a recognized effect. In this case, if the user of the seal allows the user to input the seal password that he / she remembered when registering the new / update, all problems of the loss, theft, and forgery of the seal can be solved.

The electronic chip may preferably be an RFID tag, in which case it is necessary for a recognition system to recognize the RFID tag to be provided as shown in FIG.

In general, RFID stands for Radio Frequency Identification and is a technology that recognizes a tag attached to an object or a person that is several centimeters to several tens of meters apart using radio frequency, and transmits and receives information from a tag. RFID technology consists of tags, antennas, readers, and middleware that receives information exchanged between tags and readers and delivers them to a server or network. The non-contact RFID technology, which operates on the basis that a tag temporarily absorbs a reader's launch radio waves and reflects the tag's unique information on the radio waves, is not sensitive to the surrounding environment and has a high recognition speed. It is used for short distance and low speed systems such as access control and long distance high speed systems such as highway toll automatic storage, but gradually, library ubiquitous, location based service (LBS), next generation distribution, logistics, trade system, electronic payment, inventory management, The trend is expanding and applied to security.

The RFID technology has different recognition performances and application ranges according to frequency bands, and is divided into active tags and passive tags according to the presence or absence of batteries in the tags. In addition, RFID technology has a slower tag recognition speed, larger tag size, and stronger environmental impact than high frequency. In addition, the higher the frequency, the better the tag recognition speed or batch recognition, and the tag size is smaller than the low frequency, while the environmental impact is more sensitive than the low frequency band. In March 1996, the international standardization organization ISO and the International Electrotechnical Commission IEC established SC31 for the standardization of AIDC technology, an automatic identification and data acquisition technology, within the Joint Technical Committee JTC1. Was launched. In terms of RFID technology, the ISO standardizes identification card standardization for agriculture and animal management in TC23, the container identification card standardization in TC104, the standardization of identification card for packaging management in TC122, and traffic information. The standardization of identification cards for management has been standardized for IC cards for each application area in TC204.

Recently, the standardization of RFID technology in ISO / IEC JTC1 SC31 has been divided into five working groups, and among them, the information on item management using RFID in WG4 is divided into five subgroups. Encode and decode the tag information from the reader and upload it to the application system in SG1, UID information in the RFID tag in SG2, wireless section of the reader and tag in SG3, RFID based The contents of various regulations on item management are defined in SG4 and the application of RFID technology in SG5, respectively. ISO / IEC JTC1 SC31 carries out international standardization of RFID technology. Currently, the standardization of RFID technology in item management is almost complete as international standard except for application system application guideline in SG5.

The International Standard Specification for Technology in ISO consists of the New Work Proposal, CD, FCD, FDIS, and finally IS, which define new work. It needs a year or so. Meanwhile, the international standardization standard for RFID technology performance and conformance test is being promoted by WG3, which is now defined as TR and will be converted to IS by June 2006.

The reader transmits / receives the tag to read the tag information and transmits the information collected from the tag to the middleware. In the reader technology, a frequency spreading method is used to reduce interference. Among them, a frequency hopping method is mainly used. A single reader can recognize RFID tags of various bands, a portable reader attached to a PDA, and various RFID products. It is expected that products with multiple functions, such as multiprotocol readers that can recognize them, will emerge. At present, the global trend of product development of RFID reader technology is fiercely competing with UHF and 2.45GHz which can recognize a lot of information from a long distance. Representative overseas vendors of leader development include Matrics, ntermac, Psion Teklogic, SAMSys, AWID and Symbol technology.

Middleware can be classified into RFID-based middleware and data stream processing software. Typical representative RFID-based middleware is SUN Savant, an event manager based on Sun Microsystems' Java platform. CatTech's TagWare also provides data interpretation and various standard interface functions. . ConnectTerra has also developed iMotion to support mobile environment services and to support business logic configuration and management. Ericsson has developed Savant-compliant RFID enterprise middleware. Representative overseas vendors of middleware development include IBCO, SUN Microsystems, IBM, and OATSystem. Representative overseas vendors of RFID-related software development include SAP and Provia software. Other major overseas vendors of RFID SI, including system integration, include IBM, Accenture, and Xterprise.

2 is a block diagram illustrating a system for issuing a seal and a seal authentication system according to an embodiment of the present invention. First, the system configuration of FIG. 2 basically includes a reader and middleware described in the above-described RFID technology. And, in addition to such a configuration, there is a need to be an authorized system including a reliable database that facilitates the issuance, registration, and use of seals. Therefore, the system configuration of FIG. 2 may be operated by an authorized institution such as a national institution or a bank.

Tensile authentication server 500 for receiving information and the database 600 is connected to a communication network 300, such as an intranet or the Internet. In addition, the communication network 300 is connected to computers (200,210,220,230.240) provided in various authentication and trading partners, for example, authorized agencies, authorized agents, lawyers, banks, notaries. A plurality of authentication terminals 100, 110, 120, 130, and 140 are connected to the computers 200, 210, 220, 230. 240 to issue, register, or authenticate a seal as shown in FIG. 1. The authentication terminals may be handheld phones, PDAs, PMPs, computers, and the like.

The authentication terminal reads the information stored in the RFID tag or smart card coupled to the seal and transmits to the computers (200,210,220,230.240) provided in the accredited agency, authorized broker, lawyer, bank, notary, or the authorized agency, authorized broker, lawyer It receives a variety of information related to the issuance, registration, and use of seals from computers 200, 210, 220, and 230.240 provided at banks and notaries.

The seal certification server 500 receives the information provided through the computers (200,210,220,230.240) or through the terminals provided in the authorized agency, authorized broker, lawyer, bank, notary, and issuing a seal, registration, use The process is performed in accordance with a preset program. When the tension authentication server 500 operates, data related to general information may be stored in an allocated storage area of the database 600. In this case, the database 600 stores individual or group-specific information related to issuance, registration, and use of a seal. As a result, the seal authentication server 500 receives the seal information requested to be registered in the seal terminal and the basic information of the individual or group input in the seal and stores it in the database, and when there is a seal authentication request, authentication information on the information. It will serve to send.

In the case of FIG. 2, a configuration in which a tension terminal is installed in an institution or a body requiring tensile authentication and a tension certificate server 500 is connected through a communication network 300 is shown. Of course, change and change are possible.

3 is a diagram illustrating a detailed configuration of the registration and authentication terminal 100 of FIG. 2. Referring to the drawings, the registration and authentication terminal 100 is a terminal further having a registration function as compared to the authentication terminal 110. That is, the registration and authentication terminal 100 is a terminal device for processing the registration and authentication of the seal, as well as a computer, various types of network connection equipment such as a mobile phone or a PDA can be used. As a result, an institution that requires both issuance, registration, and authentication may be provided with a device capable of performing all three, and an institution requiring only authentication may have a terminal for performing authentication only.

In FIG. 3, the registration and authentication terminal 100 leads to a unique tension code stored in an electronic chip such as an input unit 104, an RFID tag or a smart card that receives a registration or authentication request for use of a seal, or a memory area of the electronic chip. A reading unit and a recording unit 105 for writing a unique tensile code on the display unit, a display unit 106 for displaying a text or an image so as to communicate with an operator through a screen when the seal is issued, registered, and authenticated; , A storage unit 103 temporarily storing a variety of data necessary for performing registration and authentication, an output unit 102 for performing input / output interfacing, and various means for performing the issuance, registration, and authentication. In order to perform an operation according to a preset program, the controller 101 is connected to the various blocks. Meanwhile, the tension issuance unit 109 connected to the controller 101 through a dotted line serves to insert, attach, coat, mount, or mount the electronic chip on the body or the lid of the tension material to form a tension as shown in FIG. 1. Do it. For example, the tension issuing unit 109 may be provided with a drilling machine or a milling machine in order to insert the electronic chip into the existing seal coating without protruding to the outside of the body. can do.

When the component blocks of Fig. 3 function as a registration terminal for recording a unique tension code on the electronic chip in order to be able to recognize through the external electronic device that the tension to which the electronic chip is bonded is a seal having a recognized effect. Under the control of the control unit 101, the reading unit 105 serves as an ID reading unit that provides radio waves to the electronic chip and obtains a tag ID from the electronic chip. The input unit 104 also serves as a registration information receiving unit that receives registration requester information and password inputted by the registration requestor of the seal under the control of the control unit 101. Under the control of the controller 101, the output unit 102 functions as a registration information transmitter for formatting the tag ID, registration requester information, and password and transmitting them to a communication network. The output unit 102 also serves as a registration approval check unit that checks whether registration approval information is received through the communication network under the control of the control unit 101. Under the control of the control unit 101, the recording unit 105 functions as a code registration unit for recording the unique tensile code registered and approved in the electronic chip when the registration approval is checked in the registration approval check unit.

Similarly, when the building blocks of FIG. 3 serve as an authentication terminal for checking whether the tension in which the electronic chip storing the registered unique tension code is coupled is a seal having an authorized effect, the reading unit 105 Under the control of the control unit 101, serves as an information reading unit which provides radio waves to the electronic chip and obtains the inherent tensile code from the electronic chip. In addition, the input unit 104 serves as an authentication information receiving unit that receives a password input by the authentication requestor of the seal under the control of the control unit 101. The output unit 102 functions under the control of the control unit 101, and serves as an authentication information transmitter for formatting and transmitting the unique tension code and the password to a communication network. It also functions as an authentication checker that checks whether or not to operate. Under the control of the control unit 101, the display unit 106 functions as a display unit for displaying the authentication path information when the use approval is checked in the authentication check unit.

FIG. 4 is a diagram illustrating a table structure of personal information related to tension stored in a database of FIG. 2. When there is a registration request through the input unit 104 of FIG. 3, the name, citizen number, and address of the registration requester are passed through the output unit 102, and the computer 200, the communication network 300, and the seal of the authorized institution are sealed. After passing through the authentication server 500 may be stored in the database 600 of FIG. Here, the unique tension code is not determined arbitrarily by the registration requester, but may be automatically assigned according to a preset rule. For example, because the social security number is unique, you can use it and combine it with other address or registration information. The intrinsic tensile code is a code stored in the database 600, and also stored in a memory in the electronic chip of the tension. The tensile password shown in the table of FIG. 4 is not stored in the memory in the electronic chip of the seal, but is stored in the database 600. Since the seal password is derived from the seal owner at the time of registration, it can be stored in the head of the seal owner or in a separate memo medium.

5A is a diagram showing the configuration of an RFID tag as an electronic chip to which the present invention is applied. In FIG. 5A, the RFID tag configuration includes an integrated circuit chip 2-1, an antenna 2-2, and a package 2-3. In the integrated circuit chip 2-1, an identification code of the seal, that is, a unique seal code, is stored, and the antenna 2-2 transmits and receives its own information to the outside at the request of a reader or depending on a situation. It plays a role. As antenna technology, antenna array technology and beamforming antenna technology are known to reduce interference, and Fractal and Meander Line antenna technologies are being developed. The package 2-3 may be made of various shapes and materials. Applicable packaging technologies include Alien's thick film of polymer adhesive chip strap technology and FSA technology, Philips' I-connect package, vibratory assembly technology, and Matrix PICA technology of the company is known. Representative overseas vendors of tag and chip development include Alien, Intermac, Matrics, TI, Philips, and Savi.

The miniaturization of the RFID tag technology is possible by developing a semiconductor chip by nano technology, and can be realized to a size of about 1 × 1 mm by putting a sensor, a CPU, a memory, and an RF circuit in one chip. Currently available tag types are ultra-low cost tagging technologies such as plastic transistors made by polymer semiconductors developed by Infineon, muchip tags using metal fibers of Inkode, USA, and a combination of wireless sensors and RFID using surface acoustic waves. Tag and so on. In addition, Hitachi, Japan, has developed a 0.3 × 0.3mm2 muchip, and Alien has developed a 0.35 × .3mm2 nanoball chip. It is developing. For active tags, the University of Pittsburgh has developed a tiny PENI tag that can be integrated with sensors and has an antenna built into the chip.

5B is a view showing the external configuration of a smart card as an electronic chip applied to the present invention. The smart card is also applicable as the tensile coupling electronic chip in this embodiment, so that the system of FIG. 2 needs to have an interface for recognizing the smart card instead of the RFID.

6 is an exemplary data format of a unique tension code stored in an electronic chip of the present invention. The start area b1, which is largely divided into a start area b1, an ID data area b2, and a tail area b3, indicates the start information of the ID by the HEX value. The place, "0x", is entered. The ID data area b2 representing the unique ID information contains 26 digits among the unique tension codes of FIG. 4, that is, "6666555544443333222277771", and the tail area b3 indicating the error correction check value is included in the unique tension code of FIG. The last four digits, "132A", are entered. As a result, the data format of FIG. 6 is an example of formatting 32-bit data, and can be changed to 16-bit or 64-bit.

7 shows a tension registration control flow of a terminal according to an embodiment of the present invention. The control flow of FIG. 7 and FIG. 8 is performed by the controller 101 of FIG. 3. First, even if the electronic chip is coupled to the tension as shown in FIG. This is to ensure that the seal information is registered in the database 600 managed by the seal authentication server 500 of FIG.

At the time of registration of the seal information, if the seal already containing the electronic chip is imported, the device immediately enters the registration mode. However, if the seal is already used, the implantation of the electronic chip is performed first and then the registration mode is entered. .

When a user comes to a public office or a bank with a seal used in the past, the RFID tag or smart card must first be coupled to the tension body, so that the seal issuing unit 109 passes first. In the case of registering the seal in which the electronic chip is coupled, registration is performed by inputting the information of the registration requester and the password presented by the registration requester through the input unit 104 in the vicinity of the reading unit 105. .

An initialization operation is performed in step 70, and the reading unit 105 as a reader reads the unique tag ID of the electronic chip, which becomes step 71. When the read is completed in step 72, the information request operation of the registration requester in step 73 is performed. Here, the information of the registration requester may be a name, social security number, address. When the password of the registration requester is received in step 74, the control unit 101 of FIG. 3 sets a combination ID of a tag ID read from the electronic chip and information and password of the registration requester provided through the input unit 104. It is formatted as a number and output through the output unit 102. This is the 75th step, and an operation of transmitting information in a set format is performed. Then, the control unit 101 waits for registration approval from the tensile authentication server 500 connected to the communication network 300 of FIG. 2. On the other hand, the tensile authentication server 500 receives the registration requester information and password provided from the authentication terminal to configure a table as shown in Figure 4 in the database 600. When the registration approval is made in step 76, the unique tension code is written on the electronic chip of the tension through the recording unit 105 of FIG. 3. In this case, the password can also be recorded, but in the normal case, the tension holder should remember it.

8 shows a tensile authentication control flow of a terminal according to an embodiment of the present invention. The control flow of FIG. 8 is performed by the control unit 101 of the authentication terminal as shown in FIG. 3 and starts when the registered seal is approached to the reading unit 105 for public authentication. In this case, the authentication requestor may close the seal to the reading unit 105, and then input the seal password together through the input unit 104. The initialization step of step 80 refers to an operation step in which the control unit 101 initializes various registers and flags and controls each function block in a standby state. After the initializing step, when the tensile force approaches the readout 105 in step 81, the unique tension code stored in the electronic chip is read. If the read succeeds in step 82 and the password is received in step 83, the controller 101 performs the operation of step 84. Step 84 is a processing step of transmitting the tag information, that is, the unique tensile code and password to the tensile authentication server 500 of FIG. When the transmission step is completed, the control unit 101 waits for the presence or absence of use authentication of the tensile authentication server. If the use authentication is passed in step 85, the control unit 101 performs the use authentication success sign indicating the approval of the use of the tension through the display unit 106 of FIG. This is the 86th step. When the ok information is displayed in step 86, a dedicated employee who works in a public office, an authorized broker's office, a lawyer's office, or other offices may be recognized through a monitor screen.

9 is a control flow showing a seal registration and authentication procedure of the authentication server according to an embodiment of the present invention. The execution subject of FIG. 9 is the tensile certificate server 500 of FIG. After the initialization operation of step 90 is performed, when information is received in step 91, the received information is branched according to whether the registration information is for registration of seals or for authentication of seals. First, step 92 to step 95 are step-by-step operation to perform the processing flow for registration of the seal, step 96 to step 98 is a step-by-step operation for performing the processing flow for authentication of the seal.

In step 92, the seal authenticator 500 temporarily stores the received transmission information, and in step 93, the seal authentication server 500 confirms whether the request is a valid registration requestor. Confirmation of the legitimate registration requestor is made if the name of the resident registration number matches the name and other information such as the address is the same as the information previously registered in the public office. In operation 93, in operation 94, the tensile registration information is stored in the database. The table structure of FIG. 4 is created in the storage area of the database by performing step 94 above. Simultaneously with or immediately after performing step 94, the seal authenticator 500 performs step 95 of transmitting registration approval information. Step 76 of FIG. 7 passes by performing step 95. The processing relating to the registration of the seal can be registered by one owner of the seal.

The following will describe the processing operation of the seal authentication that can be performed when one seal owner or two or more persons including the seal owner make a transaction. After temporarily storing the transmission information received in step 96, step 97 of comparing the DB information with the DB information to determine whether the match is performed is performed. At this time, the temporarily stored transmission information, that is, the unique tensile code and the tensile password are compared with the unique tensile code and the tensile password previously stored in FIG. 4, respectively, to determine whether there is a match. In this case, the requestor of the certificate accesses the seal to the reader and, of course, enters the password "0987" stored in the head or presents it to the counter. Therefore, if the match in step 97, the authentication success information is sent in step 98. Accordingly, the authentication terminal receives the authentication pass information. Therefore, all problems of loss, theft, and forgery of seals are solved, and the authenticity of seals and the safety of trade can be made at the site of use of seals.

On the other hand, in the embodiment of the present invention has been described with respect to the basic registration and authentication, every transaction that has two or more traders will be given a unique number of the contract to the transaction and the transaction authentication accordingly. When requesting transaction authentication, input the transaction number to the tension terminal input unit, send the information to the authentication server, send the transaction authentication information from the authentication server to the authentication terminal, and output the received authentication information to the output of the authentication terminal. have. This may apply to any document which is stamped with legal force. As a result, two or more traders can combine the unique numbers of the relevant seals in all transactions that have a legal effect to generate a unique number of the transaction to enable authentication.

In the above description, the embodiments of the present invention have been described with reference to the drawings, for example. However, it will be apparent to those skilled in the art that the present invention may be variously modified or changed within the scope of the technical idea of the present invention. . For example, in the case of different matters, the type and form of the electronic chip coupled to the seal and the method of issuing, registering, and authenticating may be variously changed. Also, in order to provide a variety of authentication, the recognition terminal function can be performed through all devices equipped with an input / output device such as a mobile phone, a PDA, a wireless communication device, and an RF recognition device, without using the keyboard of the keyboard when requesting authentication. Can be.

As described above, according to the present invention, it is effective to prevent theft, forgery, and tampering of the seal by making the seal with the electronic chip available, and to authenticate the seal in each required company or organization instead of the existing seal certificate. It has the effect of quick and easy processing.

In addition, there is an effect that can be authenticated by giving a transaction unique number to all legally valid documents that seal the seal when a transaction involving two or more people.

Claims (15)

delete delete delete delete delete A registration terminal for recording a unique tension code on an electronic chip in order to be able to recognize through an external electronic device that the seal with which the electronic chip is bonded is a seal having a recognized effect: An ID reading unit for providing radio waves to the electronic chip and obtaining a tag ID from the electronic chip; A registration information receiver for receiving registration requester information and a password inputted by the registration requester of the seal; A registration information transmission unit for formatting the tag ID, registration requester information, and password and transmitting them to a communication network; A registration approval check unit for checking whether registration approval information is received through the communication network; And a code registration unit for recording a unique tensile code registered and approved in the electronic chip when the registration approval is checked by the registration approval check unit. The terminal of claim 6, wherein the electronic chip is an RFID tag. 7. The registration terminal of claim 6, wherein the code registration unit additionally records the password on the electronic chip. 8. The registration terminal of claim 7, wherein the registration terminal further comprises a tension issuing unit for mechanically coupling an electronic chip to the tension. In an authentication terminal for checking whether a seal to which an electronic chip containing a registered unique tension code is bonded is a seal having a recognized effect: An information reading section for providing radio waves to the electronic chip and obtaining the inherent tensile code from the electronic chip; An authentication information receiver for receiving a password inputted by the seal requestor of the seal; An authentication information transmission unit for formatting the unique tension code and the password and transmitting them to a communication network; An authentication checker which checks whether use authentication information is received through the communication network; And a display unit for displaying the authentication pass information when the use approval is checked in the authentication check unit. A tension registration and authentication terminal for recording a unique tensile code on an electronic chip coupled to the seal upon receipt of registration approval information and indicating that upon receipt of the usage approval information the unique tension code matches a pre-registered unique tension code; It is connected to the seal registration and authentication terminal through a communication network, and when the registration requester's information is confirmed in response to the registration request, the registration approval information is generated, and in response to the approval request, the unique seal code of the approval requester is registered in the seal. A tensile certificate server for generating the use approval information when the original tensile code matches the stored time; And a database that is connected to the seal authentication server and stores a database storing data related to registration and use of the seal. The method of claim 11 wherein: The tension is, A tension having a shape inherently stamped on the surface of the blade extending from the body of tension material; An electronic chip coupled to the body of the seal, the electronic chip storing a unique tension code to enable the seal registration and authentication terminal to recognize that the seal has a certified effect. Tensile authentication system characterized by having. 12. The system of claim 11, wherein said seal authentication server further operates a password in addition to said unique seal code to enhance authentication security. 12. The system of claim 11, wherein said seal authentication server further generates a transaction unique code from a combination of unique tension codes for a plurality of seals in a transaction authentication mode so that it is operated. Register the seal with the electronic chip in the database, register the unique seal code on the electronic chip through the registration terminal, and register and authenticate the seal through the authentication terminal when the information is matched in response to the request for the seal approval. In the way: Generating registration approval information and providing a unique seal code to the registration terminal when the registration requester's information is confirmed at the registration request of the seal; Matching the unique tension code with information of the registration requester and storing the information in a database; Checking whether the requestor's unique tension code matches the unique tension code stored at the time of registration upon requesting approval of the seal; When the stored unique tensile code and the unique tensile code at the time of the request for approval, the tensile registration and authentication method characterized in that it has a step of generating use approval information and authorizing to the authentication terminal.

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