KR100774843B1 - Mutual certification method for safe rfid service and system therefor - Google Patents

Abstract

A mutual certification method for a safe RFID service and a system thereof are provided to prevent fraud of private information according to indiscreet recognition of RFID tags. A mutual certification system for a safe RFID service includes a plurality of objects(110,130) having RFID readers(111,131) and RFID tags(113,133), a gateway(150), an object search server(160), an object information server(170) and an authentication server(190). The RFID reader recognizes the RFID tags attached to other objects and receives codes stored in the RFID tags. The gateway supports an interlocking operation between the objects and the object search server. The object search server informs of a position of the object information server storing information related to the RFID tags. The object information server stores information on the objects by mapping the RFID code and the object information.

Description

Mutual authentication method for secure RFID service and system therefor {MUTUAL CERTIFICATION METHOD FOR SAFE RFID SERVICE AND SYSTEM THEREFOR}

1 is a diagram illustrating a network configuration of an RFID system for mutual authentication according to an embodiment of the present invention.

2 is a flowchart illustrating a mutual authentication method according to an embodiment of the present invention.

3 is a diagram illustrating an example in which an RFID system for mutual authentication according to the present invention is applied to subway fare collection.

4 is a functional configuration diagram of an authentication server for mutual authentication according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

111, 131: RFID Reader 113, 133: RFID Tag

110, 130: Object 150: Gateway

160: object search server 170: object information server

190: authentication server

The present invention relates to radio frequency identification (RFID), and more particularly, to mutual authentication in an RFID system.

Radio Frequency Identification (RFID) systems have been developed to overcome the shortcomings of barcodes and magnetic cards, which RFID tags, RFID readers, and RFID readers read from RFID tags. It is composed of a data processing apparatus capable of processing data. The operation method of the RFID system continuously radiates radio waves from the antenna inside the RFID reader, and transmits the stored unique information data to the RFID reader through the built-in antenna when the RFID tag falls within the radio range. The unique information data is transmitted to the data processing apparatus.

Currently, various services using the RFID system have been developed and provided. For example, an advertising company recognizes an RFID tag attached to an individual's mobile item such as a mobile phone through an RFID reader, and provides advertisement information to the individual's mobile phone, or an RFID reader installed in a specific place such as a toll gate An example is a service that recognizes a vehicle with an RFID tag passing through and charges a vehicle owner. Most RFID readers are fixed in these RFID services, and a plurality of RFID tags pass through the RFID reader.

Recently, mobile RFID technology combining mobile communication technology and RFID technology has been actively researched and developed. In other words, it is a technology that uses RFID technology in a mobile communication network, recognizes information from an RFID tag attached to an object with a mobile phone with an embedded RFID reader, and obtains related information on the network or utilizes the information. Mobile RFID technology is expected to be a core service of ubiquitous society considering that mobile communication business has nationwide service subscribers and that RFID tag will be attached to all things in ubiquitous society. In such a mobile RFID service, since the RFID reader is embedded in each mobile phone, the existence probability of the reader accessing the same RFID tag varies variably, while the RFID tag is fixed at a position to provide information (for example, an art gallery or a bus). Stops, cinemas, etc.) are common.

However, all of the above-described RFID technologies are one of which the RFID reader unilaterally recognizes the other RFID tag and provides the corresponding information or processes the cost. In the future ubiquitous society, the RFID reader and the RFID may be applied to one device or object. If the tags are mounted at the same time, there is a problem that indiscriminate RFID tag recognition occurs to obtain unwanted information or steal personal information.

The present invention has been proposed to solve the above problems, and a mutual authentication method and an RFID system for providing an RFID service such as secure payment and mutual information provision in an environment in which an RFID reader and an RFID tag are simultaneously mounted on one device or object. The purpose is to provide.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

An embodiment of the present invention for achieving the above object is a mutual authentication method between a plurality of objects in an RFID environment in which an individual object is equipped with an RFID reader and an RFID tag at the same time, (a) the plurality of objects are adjacent to each other Mutually recognizing identification codes of RFID tags of objects; (b) receiving, by the object retrieval server, an inquiry about the location (URL) information of the object information server, which holds the information of the RFID identification code of the counterpart object, from the plurality of objects and responding thereto; (c) receiving, by the object information server, an inquiry about the RFID identification code of the counterpart object from the plurality of objects connected by using the returned location (URL) information, and returning the query; (d) receiving, by the authentication server, an authentication request message including information of a self object and information of a counterpart object from the plurality of objects; And (e) comparing the information included in the received authentication request message with the authentication server and returning an authentication result to each of the plurality of objects.

In this case, the step (b) of the present invention may include: receiving, by the gateway, a query message for location (URL) information of the object information server holding information on the RFID identification code of the counterpart object from the plurality of objects; And obtaining, by the gateway, location information of an object information server by repeatedly performing location information query / response with an object search server according to a hierarchical code delegation management system, and returning the obtained location information to the plurality of objects. It is preferable to include.

The step (b) may further include: determining, by the gateway, whether the RFID readers of the plurality of objects have the authority to recognize the RFID tags of the counterpart object using internal profile information. It is preferable to include.

In addition, the step (b) of the present invention preferably performs a location information query / response process according to a DNS (Domain Name Service) protocol.

In addition, the mutual authentication of the present invention is mutual authentication for payment, and (f) a payment request including the plurality of object information and payment amount information when the information included in the authentication request message is matched. The method may further include transmitting a message to the payment server.

In addition, the mutual authentication of the present invention is authentication for providing mutual information, and in the step (e), when the information included in the authentication request message is matched, each of the plurality of objects corresponds to each other. It is characterized by transmitting the information.

On the other hand, the present invention is an RFID system for mutual authentication between a plurality of objects that mutually recognized the RFID tag of the other object adjacent to each other in an RFID environment in which an individual object is equipped with an RFID reader and an RFID tag at the same time. An object retrieval server for receiving a query for location (URL) information of an object information server that holds an identification code of an RFID tag of a counterpart object from the object and returning location information thereto; The object information server that receives a query for an RFID identification code of a counterpart object from the plurality of connected objects by using the returned location (URL) information and returns a reply; And an authentication server for receiving an authentication request message including information of an own object and information of a counterpart object from the plurality of objects, and comparing the information included in the authentication request message and returning an authentication result. It is characterized by.

In this case, the present invention may further include a gateway located between the plurality of objects and the object search server and performing a location information query / response process according to a DNS (Domain Name Service) protocol.

In addition, the mutual authentication of the present invention is mutual authentication for payment, and when the information included in the authentication request message is matched, a payment request message including the plurality of object information and payment amount information is received from the authentication server. It is preferable to further include a; payment server to process.

Preferably, the object is a mobile device such as PDA (Personal Digital Assistants), a mobile phone, a notebook.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a network configuration of an RFID system for mutual authentication according to an embodiment of the present invention. As shown in FIG. 1, an RFID system for mutual authentication according to an embodiment of the present invention is an RFID reader ( 111, 131 and a plurality of objects (110, 130) embedded with RFID tags 113, 133, gateway 150, object search server 160, object information server 170 and authentication server 190 do. The gateway 150, the object search server 160, and the object information server 170 may be configured differently for each of the objects 110 and 130, but are described herein as one for convenience of description.

The objects 110 and 130 may include the RFID readers 111 and 131 and the RFID tags 113 and 133, respectively, and the RFID readers 111 and 131 embedded in the objects 110 and 130 may have other objects 110 and 130, respectively. The RFID tags 113 and 133 attached to the 130 are recognized to receive a code stored in the RFID tag. The RFID tags 113 and 133 attached to the objects 110 and 130 are passive RFID tags without their own power sources, semi-passive RFID tags equipped with their own small batteries and powered from the outside, and operate only by their own power. Any type such as active RFID may be used.

In this case, the objects 110 and 130 may be mobile devices such as mobile phones, PDAs, or general products such as automobiles. When the objects 110 and 130 are mobile devices such as mobile phones, PDA phones, WiBro terminals, and notebook computers, the objects 110 and 130 may use their own communication means (eg, WAP browsers) to search for the object search server 160. In addition, the object information server 170 and the authentication server 190 are connected to a mobile communication network (CDMA, HSDPA, etc.) or TCP / IP-based to transmit and receive data.

On the other hand, when the object (110, 130) is a general product, the communication means is built in the RFID reader (111, 131) installed in the object (110, 130) itself, the object search server 160 through a leased line, LAN, WiFi, etc. ), Data may be transmitted / received with the object information server 170 and the authentication server 190. Alternatively, data received from the RFID readers 111 and 131 of the objects 110 and 130 may be processed by separate data processing devices interworking with the object search server 160, the object information server 170, and the authentication server 190. Can be. Of course, as with a mobile device, it is obvious that data can be transmitted and received in connection with a mobile communication network.

The RFID codes recognized by the RFID readers 111 and 131 of the objects 110 and 130 are generally a series of binary numeric strings. Therefore, the objects 110 and 130 can find out what kind of system codes such binary strings are EPC, ucode, mCode, etc., and uniquely identify the interpreted numeric code in the form of 'name'. Converts to Uniform Resource Name (URN) format. That is, multiple code recognition is performed. For example, convert a string of binary numbers like "0100110110 ..." into a form like urn: mcode: type-a: 1.20.300.9876. The objects 110 and 130 request an RFID code interpretation from the object search server 160. That is, the URL information of the object information server 170 corresponding to the RFID code is requested.

The gateway 150 supports interworking between the objects 110 and 130 and the object search server 160. That is, the code analysis process is performed using the RFID codes transmitted from the objects 110 and 130. When the code interpretation request is received from the objects 110 and 130, the object search server 160 and the repeated query / response are processed by using the DNS (Domain Name Service) protocol according to the hierarchical code delegation management system. The location information (URL) of the server 170 is transmitted to the objects 110 and 130.

On the other hand, when the RFID reader and the RFID tag is mounted at the same time in one product as in the present invention, there is a possibility that the RFID reader indiscriminately recognizes the surrounding RFID tag to put a load on the system. To prevent this, an RFID user may set the authority of his RFID reader through the wired or wireless Internet. For example, a user using a mobile phone terminal equipped with an RFID reader and an RFID tag can access the RFID related server of a mobile communication company through the wired / wireless Internet using the portable terminal, that is, an object that his or her RFID reader can recognize. Set permissions. In this case, the rights profile of the user may be set in the gateway 150 or in the objects 110 and 130 in which the RFID readers 111 and 131 are installed, and the gateway 150 may be set from the portable terminal. Code interpretation is performed only when the right authority is set by searching the rights profile for the code interpretation request.

The object retrieval server 160 is a server that informs the location (URL: Uniform Resource Location) of the object information server 170 that stores the information related to the RFID tags 113 and 133 and passes through the gateway 150. When the query message for the code of the RFID tag is received from the objects 110 and 130, the location (URL) of the object information server 170 holding the information about the code of the RFID tag included in the query message is returned. . For example, when the object A 110 and the object B 130 are close to each other, the RFID reader 111 of the object A 110 recognizes the RFID tag 133 of the object B 130, and the object B The RFID reader 131 of 130 recognizes the RFID tag 111 of the object A 110. Then, the object A 110 transmits a location (URL) request query message including the code recognized by the RFID tag 133 of the object B 130 to the object search server 160, and the object B 130 The location (URL) request query message including the code recognized by the RFID tag 113 of the object A 110 is transmitted to the object search server 160. The object search server 160 responds to a location (URL) request query message from the object A 110 and the object B 130. The object search server 160 has a function similar to that of an existing domain name server receiving a domain name as an input value and informing an IP address corresponding to the domain name.

The object information server 170 is a server that stores information about an object. The object information server 170 maps and stores an RFID code and object information. In this case, the object information server 170 may be separately constructed for each object type and may collectively store information of all objects. For convenience of explanation, the information of all objects is collectively stored here. When the object information server 170 approaches and transmits an object information query message for requesting information of a specific object, that is, information about an RFID tag, the object information server 170 returns a response to the object information query message. 110, 130). Accordingly, the object information query message transmitted from the objects 110 and 130 preferably includes an identification code of the RFID tag. In the above example, each of the objects A 110 and B 130 having received location (URL) information from the object search server 160 connects to the object information server 170 based on the received location (URL) information. Then, the object information server 170 requests information about the RFID tag of the counterpart object. The object information server 170 retrieves information about a relative object requested by each object, that is, an RFID tag from an internal database, and returns the information to each object. Information retrieval for the RFID tag is performed by using the identification code of the RFID tag received from each object (110, 130) as a key value.

When the authentication server 190 receives an authentication request message including information about the object and information about other objects recognized by the object from the two objects 110 and 130, the authentication server 190 compares the authentication request message with the two objects 110. , 130). In the above example, the object A 110 receives an authentication request message including the information of the object A 110 and the information of the other object B 130 obtained from the object information server 170, and receives the object B ( When receiving the authentication request message including the information of the object B (130) and the information of the other object A (110) obtained from the object information server (170), the authentication server 190 is the object A (110) The authentication request message received from and the authentication request message received from the object B 130 are compared with each other, and the resulting response is returned to the objects A 110 and B 130, respectively.

More specifically, the operation of the RFID system for mutual authentication will be described with reference to FIG. 2.

As shown in FIG. 2, when the object A 110 and the object B 130 are adjacent to each other, the RFID reader 111 embedded in the object A 110 is connected to the RFID tag 133 of the object B 130. The RFID reader 131 embedded in the object B 130 recognizes the RFID tag 113 of the object A 110 (S203). In this case, the RFID codes recognized by the RFID tags 113 and 133 of the objects 110 and 130 are a series of binary numeric strings. Therefore, each object (110, 130) knows what kind of system codes such binary strings are EPC, ucode, mCode, etc., and can uniquely identify the interpreted numeric code in the form of 'name'. In order to ensure that it is converted to a Uniform Resource Name (URN) format. That is, multiple code recognition is performed (S205 and S207). For example, convert a string of binary numbers like "0100110110 ..." into a form like urn: mcode: type-a: 1.20.300.9876.

Next, each object (110, 130) makes a location information request to the gateway 150 to obtain information about the code recognized from the RFID tag 113, 133 of the counterpart object (110, 130) (S209, S211). ). At this time, in the location information request message transmitted from each object (110, 130) to the gateway 150, the code information recognized by the RFID tag (113, 133) of each of the object (110, 130) Included.

The gateway 150 performs a code interpretation process according to the request for location information from each of the objects 110 and 130. That is, the object search server 160 queries the location (URL: Uniform Resource Location) of the object information server 170 having the information of the RFID code recognized by each object 110 and 130 according to a hierarchical code delegation management scheme. And, it receives a response (S213). In this case, the code interpretation process is preferably using the DNS (Domain Name Service) protocol. In addition, the gateway 150 searches for the rights profile of each object 110 and 130 before performing the location query / response so that the RFID readers 111 and 131 of each object 110 and 130 are RFID tags of the counterpart object. It is desirable to determine whether or not there is a right to recognize (113, 133). To this end, the user of each object (110, 130) establishes the authority of its own RFID reader (111, 131) by connecting to the RFID-related server through the wired or wireless Internet. The set rights profile is stored in the gateway 150. Alternatively, a rights profile may be stored in the objects 110 and 130 itself to control RFID tag recognition of the RFID readers 111 and 131 of the objects 110 and 130.

On the other hand, the gateway 150 receiving the location (URL) of the object information server 170 that holds the information of the RFID code recognized by each object (110, 130) from the object search server 160, the received location (URL ) Are returned to the objects 110 and 130 (S215 and S217).

Then, after receiving the location (URL) of the object information server 170, each object (110, 130) is connected to the object information server 170 using the location (URL), the relative object (110, 130) Information about the RFID code recognized by the RFID tags 113 and 133 is queried, and a response thereto is received (S219 and S221). The object information server 170 is a server that stores information on an RFID tag code. The object information server 170 maps and stores information about an RFID tag code and information on an object to which the RFID tag is attached. Therefore, in the present embodiment, the object information server 170 returns the information of the object B 130 to the object A 110, and returns the information of the object A 110 to the object B 130.

Each object (110, 130) receiving the information of the counterpart object (110, 130) transmits an authentication request message including its information and the information of the counterpart object (110, 130) to the authentication server 190 (S223). , S225). That is, the object A 110 transmits an authentication request message including its information and information of the object B 130 to the authentication server 190, and the object B 130 transmits its information and the object A 110. The authentication request message including the information of the transfer to the authentication server 190 to request authentication.

The authentication server 190 receiving the authentication request message from each of the objects 110 and 130 compares the object information included in the authentication request message received from each of the objects 110 and 130 to each other (S227), and authenticates the same. The results are returned to the objects 110 and 130 (S229 and S231). That is, if the object information included in the authentication request message received from each object (110, 130) is the same as each other, the authentication server 190 returns the approval authentication result to each object (110, 130).

3 is a diagram illustrating an example in which an RFID system for mutual authentication according to the present invention is applied to subway fare collection.

As illustrated in FIG. 3, when a user carrying the portable communication terminal 310 approaches the subway gate 320 to use the subway, the RFID reader embedded in the portable communication terminal 310 of the user may use the subway gate ( The RFID tag embedded in 320 is recognized (①). In addition, the RFID reader embedded in the subway gate 320 recognizes the RFID tag embedded in the user's portable communication terminal 310 (①).

Thereafter, the portable communication terminal 310 of the user who recognizes the RFID tag of the subway gate 320 transmits the RFID tag recognition information of the subway gate 320, that is, the code information of the RFID tag, to the object search server 330. It queries the location (URL) of the object information server 340 that holds the information about the code of the RFID tag and receives a response (②). In addition, the subway gate 320 that recognizes the RFID tag of the user's portable communication terminal 310, the RFID tag recognition information of the portable communication terminal 310, that is, the code information of the RFID tag to the object search server 330 It transmits to query the location (URL) of the object information server 340 that holds the information about the code of the RFID tag and receives a response (②).

The portable communication terminal 310 and the subway gate 320 of the user who received the location (URL) of the object information server 340 from the object search server 330 receive the received location (URL), that is, the object information server 340. After accessing the query information about the RFID tag recognized by the self receives a response (③). That is, the portable communication terminal 310 queries the information about the RFID tag of the subway gate 320, and the subway gate 320 queries the information about the RFID tag of the portable communication terminal 310 and responds to the information. Receive. The portable communication terminal 310 receives information about the subway gate 320 from the object information server 340, and the subway gate 320 receives information (eg, subscriber information) of the portable communication terminal 310. do.

As described above, the portable communication terminal 310 and the subway gate 320 which have received the opponent's information from the object information server 340 respectively transmit an authentication request message including their own information, the opponent's information, and the price information. 350) (④). In the case of the portable communication terminal 310, the subscriber's information and information on the subway gate 320 and the subscriber's money range are transmitted. In the case of the subway gate 320, the gate information such as the subway station name / gate number and the portable communication terminal ( The subscriber information of 310 and the billed amount are transmitted.

The authentication server 350 receiving the authentication request message from the portable communication terminal 310 and the subway gate 320 mutually exchanges information included in the authentication request message received from the portable communication terminal 310 and the subway gate 320. Compare and return the result (④). In this embodiment, since the subscriber information received from the portable communication terminal 310 and the subway gate 320 and the information of the subway gate 320 coincide with each other, the authentication server 350 is the portable communication terminal 310 and the subway gate 320. Return the 'OK' authentication result.

On the other hand, in the present embodiment, the subway gate 320 transmits the subway fee information to be billed to the user of the portable communication terminal 310 to the authentication server 350. In this case, after the mutual authentication is completed, the authentication server 350 transmits the authentication result to the portable communication terminal 310 and the subway gate 320, and at the same time, the subscriber information of the portable communication terminal 310 and the corresponding subscriber should be charged. The billing information may be transmitted to the payment server 360 (⑤). The payment server 360 charges the subway fee based on the user information and the fee information collected from the subway gate 320. The payment server 360 may be a payment server such as a credit card company, a mobile carrier, or a bank.

4 is a functional configuration diagram of an authentication server for mutual authentication according to an embodiment of the present invention. As shown in FIG. 4, an authentication server for mutual authentication according to the present invention is an authentication request receiving unit 410. The determination unit 430 and the authentication result notification unit 450 are included.

The authentication request receiving unit 410 receives an authentication request message including information of the object and information of another object recognized by the RFID reader of the object from the RFID reader and the object in which the RFID tag is embedded. The two objects embedded with the RFID reader and the RFID tag recognize the RFID tag of the other object in proximity to each other, and query the object information server for information on the recognized RFID tag and receive a response thereto. As such, the object that receives the information of the counterpart object generates an authentication request message including the information of the counterpart and the information of the counterpart object and requests authentication, and the authentication request receiver 410 receives the authentication request message.

The comparison determiner 430 compares the information included in the authentication request message received from the two mutually recognized objects and determines whether they match. That is, it compares and compares the object information included in the authentication request message to determine whether they match, and transmits the result value to the authentication result notification unit 450. The authentication result notification unit 450 creates an authentication result message based on the authentication result value transmitted from the comparison determination unit 430, and transmits the authentication result message to the two mutually recognized objects.

Although not shown in FIG. 4, when the mutual authentication RFID system according to the present invention is applied to a service involving payment processing, advance reservation, and the like, the authentication server may further include a payment request unit. In this case, the authentication request message received from the authentication request receiving unit 410 includes cost information, and the payment requesting unit transmits the object information received from the object and the cost information to the payment server after mutual authentication is completed, thereby incurring charges. To be done. Alternatively, since mutual authentication between the two objects is already completed by the authentication server, any one of the two objects other than the authentication server may transmit the cost information to the payment server and request the cost processing. In this case, the authentication server may not include the payment request unit.

The present invention can be applied to an implied communication service through providing mutual information between objects in addition to the above payment. For example, when two people joining separate communities are located within a predetermined distance, mutual authentication of the user may be performed through the above procedure, and a service for providing counterpart information to each user may be possible.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, in the RFID environment in which an RFID reader and an RFID tag are simultaneously mounted on a device or a product, personal information theft according to indiscriminate RFID tag recognition is performed by performing mutual authentication on a relative object mutually recognized by two objects. There is an effect that can be prevented. In addition, there is an effect that can increase the reliability of the RFID service by performing the process of providing information, payment, etc. according to mutual authentication.

Claims (13)

A mutual authentication method between a plurality of objects in an RFID environment in which an individual object simultaneously mounts an RFID reader and an RFID tag, (a) mutually recognizing an identification code of an RFID tag of a counterpart object adjacent to each other; (b) receiving, by the object retrieval server, an inquiry about the location (URL) information of the object information server, which holds the information of the RFID identification code of the counterpart object, from the plurality of objects and responding thereto; (c) receiving, by the object information server, an inquiry about the RFID identification code of the counterpart object from the plurality of objects connected by using the returned location (URL) information, and returning the query; (d) receiving, by the authentication server, an authentication request message including information of a self object and information of a counterpart object from the plurality of objects; And (e) comparing, by the authentication server, the information included in the received authentication request message and returning an authentication result to each of the plurality of objects. The method of claim 1, In step (b), Receiving, by the gateway, a query message for location (URL) information of the object information server, which holds information on the RFID identification code of the counterpart object from the plurality of objects; And Acquiring the location information of the object information server by repeatedly performing location information query / response with the object search server according to the hierarchical code delegation management system, and returning the obtained location information to the object; Mutual authentication method in an RFID system, characterized in that. The method of claim 2, In step (b), Determining, by the gateway, whether internal RFID information of the plurality of objects is authorized to recognize an RFID tag of a counterpart object by using internal profile information. Mutual authentication method. The method of claim 2, Step (b) is a mutual authentication method in the RFID system, characterized in that the location information query / response process is performed according to the DNS (Domain Name Service) protocol. The method of claim 2, The mutual authentication is authentication for providing mutual information, In the step (e), when the information included in the authentication request message is matched, mutual authentication method in the RFID system, characterized in that for transmitting the information of the counterpart object to each of the plurality of objects. The method of claim 2, The mutual authentication is authentication for payment, (f) if the information included in the authentication request message matches, transmitting, by the authentication server, a payment request message including the plurality of object information and payment amount information to a payment server; Mutual authentication method in the RFID system. The method of claim 2, The object retrieval server, the object information server and the gateway is mutual authentication method in the RFID system, characterized in that configured separately for each object type. The method according to any one of claims 3 to 7, At least one of the plurality of objects is a mobile device such as a personal digital assistant (PDA), a mobile phone, a notebook, and the like. An RFID system for mutual authentication between a plurality of objects that mutually recognizes RFID tags of a counterpart object adjacent to each other in an RFID environment in which an individual object simultaneously mounts an RFID reader and an RFID tag. An object retrieval server for receiving a query for the location (URL) information of the object information server that holds the identification code information of the RFID tag of the counterpart object from the plurality of objects and returning the location thereof; The object information server that receives a query for an RFID identification code of a counterpart object from the plurality of connected objects by using the returned location (URL) information and returns a reply; And An authentication server for receiving an authentication request message including information of an own object and information of a counterpart object from each of the plurality of objects, and comparing the information included in the authentication request message and returning an authentication result; RFID system for mutual authentication. The method of claim 9, And a gateway that is located between the plurality of objects and the object search server and performs a location information query / response process according to a DNS (Domain Name Service) protocol. The method of claim 10, The gateway, Determining whether the RFID reader of the plurality of objects has the right to recognize the RFID tag of the counterpart object by using internal profile information, and performing the location information query / response process when there is a legitimate right. RFID system for mutual authentication. The method according to any one of claims 9 to 11, The mutual authentication is mutual authentication for payment, And a payment server configured to receive and process a payment request message including the plurality of object information and payment amount information from the authentication server when the information included in the authentication request message is identical. RFID system for business. The method of claim 12, At least one of the plurality of objects, RFID (Personal Digital Assistants), RFID system for mutual authentication, characterized in that the mobile device, such as a mobile phone.

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