KR20050072184A - System and method for authenticating rfid reader and information storing medium and recording medium - Google Patents

Abstract

The present invention relates to a method and a system for authenticating an RFID reader, comprising information on a unique network address (eg, an IP address) provided in the RFID reader in an authentication server for authenticating a predetermined RFID reader, and the RFID reader. Linking at least one or more RFID tag information that is allowed to use the information stored in a predetermined database, and the RFID reader device stores the RFID tag information extracted from a predetermined RFID tag and the reader device unique network address information In this case, by comparing the pre-stored unique network address information and the RFID tag information corresponding to the unique network address information to authenticate the use authority of the RFID reading device for the RFID tag information.

Description

Authenticating RFID Reader and Information Storing Medium and Recording Medium}

The present invention relates to a method and system for authenticating a radio frequency identification (RFID) reading device, wherein an authentication server includes at least one RFID tag information for which a unique network address of a predetermined RFID reading device and permission for the RFID reading device are allowed. And an RFID reading device authentication information database for storing in association with each other, and based on the information stored in the database, authentication authority for the corresponding RFID reading device is authenticated from a predetermined RFID tag.

The RFID tag is an IC (Integrated Circuit) chip capable of transmitting and receiving wireless data without contact, and attaches information on the entire process of the production, distribution, storage, and consumption of the product to the corresponding product as a tag, and attaches the RFID reading device ( It is a technology that enables a transceiver to read the RFID information through an antenna and provide various additional services by linking the RFID information with an information processing system through at least one or more communication means.

Existing RFID system using the RFID tag as described above is a transponder (Transponder: a generic term for a wireless transceiver that automatically returns a specific signal in response to an external signal) and the RFID tag and the radio frequency signal And an RFID reader for reading RFID information received from the RFID tag, and the like, wherein the RFID reader is equipped with at least one information processing system (eg, a database) according to an application method of an RFID system. Server).

In an existing RFID system, an RFID reading device is provided as an independent reading device (e.g., a fixed RFID reading device or a handheld RFID reading device), or another device (e.g., a mobile phone, a personal digital assistant (PDA), etc.). Such as a portable communication device or an RFID reading module of an electronic product such as a washing machine, a microwave oven, a refrigerator, a television, or the like.

The characteristic of the RFID reading device provided in the RFID system includes the advantage of providing an automated service based on the RFID tag anytime and anywhere with respect to the goods purchased and / or owned by the customer. When used indiscriminately, there is a serious problem that can indiscriminately read RFID tags, such as credit cards or identification cards, or leak personal information.

An object of the present invention to solve the above problems is to have a radio frequency identification (RFID) tag that stores predetermined information, a predetermined unique network address, and extracts predetermined information from the RFID tag to an authentication server. The present invention provides an RFID reading device authentication method and system including an RFID reading device and an authentication server for authenticating the RFID reading device.

A second object of the present invention to solve the above problems is to provide an information storage medium having a unique network address information data file and an RFID tag information data file stored in association with each other.

A third object of the present invention to solve the above problems is to provide a recording medium recording an electronic information management program for realizing predetermined functions for the RFID reading device authentication method and system.

In order to achieve the above object, the RFID reader authentication system according to the present invention includes an RFID (Radio Frequency Identification) tag for storing predetermined information, a predetermined unique network address, and extracts predetermined information from the RFID tag. In an RFID reader apparatus authentication system comprising a radio frequency identification (RFID) reading device provided as an authentication server and an authentication server for authenticating the RFID reading device, the authentication server is uniquely provided in at least one RFID reading device. An RFID reading device authentication information database (Data Base) for storing network address information and at least one RFID tag information for which access is permitted to the at least one RFID reading device so as to correspond to the network address information; The predetermined RFID tag information provided and the reading apparatus A unique network in which the unique network address information and the RFID tag information of the reading device received through the RFID tag information receiving unit receiving the unique network address information and the RFID tag information receiving unit are pre-stored in the RFID reading device authentication information database. And an RFID reader apparatus authentication unit configured to compare address information with corresponding RFID tag information and to authenticate use authority of the RFID reader with respect to the RFID tag information based on the comparison result.

Preferably, the RFID tag information receiving unit is configured to receive predetermined RFID tag information provided from the RFID reading device and unique network address information of the reading device based on a Transmission Control Protocol / Internet Protocol (TCP / IP) stack. It features.

In order to achieve the above object, the RFID reader authentication method according to the present invention includes a radio frequency identification (RFID) tag storing predetermined information, a predetermined network address, and extracts predetermined information from the RFID tag. An RFID reading device authentication method comprising a RFID (Radio Frequency Identification) reading device provided as an authentication server and an authentication server for authenticating the RFID reading device, the unique network provided in at least one RFID reading device in the authentication server. Storing address information and at least one RFID tag information for which the at least one RFID reading device is allowed to use in a predetermined database in association with each other, and storing the predetermined information from the RFID tag by the RFID reading device. In the case of extracting RFID tag information, the reading device Transmitting the extracted RFID tag information and the unique network address information of the reading device to the authentication server, receiving the RFID tag information and the unique network address information transmitted from the reading device from the authentication server; Comparing the received RFID tag information and unique network address information in an authentication server with the unique network address information previously stored in the database and the RFID tag information corresponding to the unique network address information, and comparing the result of the comparison in the authentication server. Based on the above, authenticating a use right of the RFID reading device with respect to the RFID tag information.

Preferably, the RFID reading device authentication method, characterized in that further comprising the step of transmitting the authentication result from the authentication server to the RFID reading device.

The RFID reading apparatus authentication method may further include transmitting the authentication result from the authentication server to the RFID reading apparatus and acquiring a use right for the RFID information based on the authentication result from the RFID reading apparatus. It is characterized in that it further comprises.

Preferably, in the RFID reading device, acquiring the use right for the RFID information based on the authentication result, the RFID reading device uses or outputs the RFID information or outputs a communication network based on the authentication result. And transmitting to the third server or the device through.

In addition, the unique network address is characterized by including an IP (Internet Protocol) address.

In order to achieve the second object, an information storage medium according to the present invention includes a unique network address information data file for storing unique network address information included in a plurality of RFID reading devices for each RFID reading device and the unique network address. And a plurality of RFID tag information data files for storing the RFID tag information, each of which can be used by a plurality of RFID reading devices, and storing the unique network address information data file and the RFID tag information data file in association so as to correspond to each other. It is characterized by.

Preferably, the unique network address information data file is characterized by storing IP (Internet Protocol) address information.

In order to achieve the third object, a recording medium according to the present invention corresponds to unique network address information provided in at least one RFID reading device and at least one RFID tag information for which permission is granted to the at least one RFID reading device. The RFID tag information and the unique network address information of the reading device when the RFID reading device extracts predetermined RFID tag information from the RFID tag. And a function of comparing the received RFID tag information and the unique network address information with the unique network address information previously stored in the database and the RFID tag information corresponding to the unique network address information, and the comparison result. By, the RFID tag Characterized in that recorded the electronic information management program for realizing; function for authenticating the authority of using the RFID reading device for the beam.

Preferably, the recording medium further includes a function of transmitting the authentication result to the RFID reader.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be based on the contents throughout the present title.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings and the following description in the embodiments of the present invention first describe preferred embodiments of the present invention and the accompanying technical features in order to effectively explain the features of the present invention, and then extend from the preferred embodiments of the present invention. An embodiment will be described. However, this is only for efficiently explaining the preferred embodiment of the present invention and various implementation methods extending therefrom, and those skilled in the art to which the present invention pertains, It will be clearly understood how to apply the technical spirit of the present invention.

Embodiments of the present invention described below are for the purpose of clarifying the present invention, for example, in the case where the unique network address is an IP address, and the embodiment may include an IP address provided in at least one RFID reading device. And RFID reader device authentication information D / B having IP-based RFID reader device authentication information including RFID tag information available to the RFID reader device corresponding to the IP address, and TCP / IP (Transmission Control Protocol / Internet Protocol). ) An IP based RFID tag information receiver for receiving and reading RFID tag information provided from an RFID reader based on a stack, and RFID reader device IP address information and RFID tag information received and read through the IP based RFID tag information receiver. IP based RFID reading device authentication information stored in the RFID reading device authentication information D / B (= at least one or more IPs provided in the RFID reading device). RFID tag device having an IP-based RFID reader device authentication unit for comparing the information with the IP address and the RFID tag information for which the IP address is available, and authenticating the use authority of the RFID reader device with respect to the RFID tag information. An authentication server and an IP address based on Internet Protocol ver. 4 (IPv4) and / or Internet Protocol ver. 6 (IPv6) are provided, and the RFID tag information is extracted from at least one RFID tag based on the TCP / IP stack. An IP based RFID reading device authentication system comprising an RFID reading device provided to an RFID reading device authentication server, the RFID reading device authentication information D / B storing at least one RFID reading device authentication information in the RFID reading device authentication server. And the RFID reading apparatus having the IP address extracts RFID tag information from at least one RFID tag based on the TCP / IP stack. Transmitting the RFID tag information to an RFID reading device authentication server, and extracting the RFID tag information received by the IP-based RFID tag information receiving unit based on the TCP / IP stack to extract an IP address provided in the RFID reading device. And comparing the RFID tag information received and read through the IP-based RFID tag information receiving unit with the RFID reading device authentication information stored in the RFID reading device authentication information D / B, based on the comparison result. Authenticating the permission of the RFID reader to the RFID tag information; transmitting, by an IP-based RFID reader device authentication unit, the IP-based RFID reader device authentication result to an RFID reader device; Processing the authentication result based on the RFID reader, and the like.

According to an embodiment of the present invention, an RFID reading device authentication server is provided on an IPv4 and / or IPv6 based ALL-IP based network, connected to an RFID reading device based on a TCP / IP stack, or at least one relay. It is characterized in that it is connected to the RFID reading device through the server.

According to a preferred embodiment of the present invention, the IP address provided in the RFID reading device is preferably provided to the RFID reading device authentication server through the transmitting host IP address included in the IP datagram on the TCP / IP stack. .

According to another exemplary embodiment of the present invention, the IP address included in the RFID reading apparatus may be allocated to the data region of the IP datagram on the TCP / IP stack so as to be interlocked with the RFID tag information and provided to the RFID reading apparatus authentication server.

According to the present invention, the RFID reading device may be provided in the form of an independent reading device and / or an RFID reading module included in another device, and the RFID reading device is an RFID reading device authentication server based on a TCP / IP stack. It is characterized in that connected with.

According to a preferred embodiment of the present invention, it is preferable that an IP address for connecting to an RFID reading device authentication server based on a TCP / IP stack is provided inside the RFID reading device.

According to another embodiment of the present invention, an IP for connecting to an RFID reading device authentication server based on a TCP / IP stack outside the RFID reading device (for example, a device having the RFID reading module in the case of an RFID reading module). It is possible that an address is provided.

1 is a simplified diagram of an IP based RFID reading device authentication system and a method of authenticating an RFID based reading device according to a preferred embodiment of the present invention.

Referring to FIG. 1, an IP-based RFID reading device authentication system according to a preferred embodiment of the present invention includes an RFID tag 150, an RFID reading device 120, an RFID reading device authentication server 100, and the like.

Referring to FIG. 1 according to a preferred embodiment of the present invention, the RFID tag 150 is a transponder having a memory unit for storing product information and a radio frequency communication function and the like attached to a product to perform a tag function. The memory unit of the RFID tag 150 is characterized in that at least one or more information for identifying the product is included.

The memory unit included in the RFID tag 150 includes a header, a service identifier, an execution data, an error detection code, and the like. It is common to have a size of 6 bits and the error detection code has a size of 24 bits, and the service identifier and execution data can be variously applied according to the total capacity of the memory unit. The capacity of memory units commercialized so far varies from 25 bits to 512 Kbytes.

For example, in the RFID tag 150 having a total capacity of 128 bits, the header has a size of 6 bits, the service identifier has a size of 10 to 36 bits, the execution data has a size of 62 to 88 bits, and the error detection code is 24 bits. For example, if the service identifier has a size of 32 bits and corresponds to a decimal number, the number of cases where the service identifier can be represented corresponds to about 2 ^ 32.

According to a preferred embodiment of the present invention, a 32-bit service identifier is used as RFID tag information for authenticating the RFID reader 120 in the IP-based RFID reader authentication system according to the present invention. It is easy to authenticate the RFID reader 120 to the RFID tag 150 attached to the product by including the identifier, and the size of 32bits describes the technical features of the present invention through a TCP / IP stack based IP datagram. Because it is efficient.

However, this corresponds to an embodiment for effectively explaining the preferred method of the present invention, and the RFID tag information usable in the present invention selects all information except header and error detection code from information stored in the RFID memory unit. It is possible to use, wherein the size of the RFID tag information depends on the size of the selected information.

Referring to FIG. 1 according to a preferred embodiment of the present invention, the RFID reading apparatus 120 includes an RFID tag reading unit 125, an IP-based communication unit 130, an IP address and an RFID reading apparatus authentication result processing unit 135, and the like. It is composed.

The RFID tag reader 125 provided in the RFID reader 120 is connected to an antenna that performs radio frequency communication with the RFID tag 150 (although the external antenna is illustrated in FIG. 1, the RFID reader may include an internal antenna). The RFID tag 150 attached to the product is activated by inputting a radio frequency signal to the antenna, and from the at least one RFID tag 150 activated through the antenna to RFID tag information (eg, to the RFID tag). And 32 bits of service identifier stored in the provided memory unit, and read out the extracted RFID tag information.

The IP-based communication unit 130 provided in the RFID reading device 120 authenticates the RFID tag reading device extracted and read from the RFID tag 125 by the RFID tag reading unit 125 based on the TCP / IP stack. It transmits to the server 100, and receives the RFID reading device authentication result from the RFID reading device authentication server 100.

The IP address provided in the RFID reading device 120 is a unique address assigned to the RFID reading device 120 on a TCP / IP-based network. The IP address includes a 32-bit address system of IPv4 and / or a 128-bit address system of IPv6. It is characterized by complying with each standard.

The RFID reading device authentication result processing unit 135 included in the RFID reading device 120 authenticates an IP-based RFID reading device generated by the RFID reading device authentication server 100 using an IP address provided in the RFID reading device 120. Outputting the result (for example, to a screen output unit provided in the RFID reading device) or processing performed by the RFID reading device 120 to perform a specific control function based on the IP-based RFID reading device authentication result. It is done.

For example, in the case of the RFID reading module provided in the specific home appliance, the RFID reading device 120 may process to control the specific function of the home appliance based on the IP-based RFID reading device authentication result.

Referring to FIG. 1 according to a preferred embodiment of the present invention, the RFID reading device 120 is connected to the RFID reading device authentication server 100 through a TCP / IP-based network, and the TCP / IP-based network is ALL-IP. It features an underlying network.

According to the latest technology under discussion recently, all kinds of networks commercialized to date are integrated into an ALL-IP network based on IPv6 (eg, Next Generation Network (NGN)).

Referring to FIG. 1 according to a preferred embodiment of the present invention, the RFID reading device authentication server 100 connected to the RFID reading device 120 and the TCP / IP based network as described above may include an IP-based RFID tag information receiving unit 110. And RFID reading device authentication information including RFID reading device authentication information including an IP address provided in the RFID reading device 120 and RFID tag information available to the RFID reading device 120 corresponding to the IP address. D / B 115, IP-based RFID reader authentication unit 105 and the like.

The IP-based RFID tag information receiving unit 110 included in the RFID reading device authentication server 100 may receive and read RFID tag information provided from the RFID reading device 120 based on the TCP / IP stack.

According to a preferred embodiment of the present invention, the IP-based communication unit 130 included in the RFID reading apparatus 120 uses at least one RFID tag information extracted and read by the RFID tag reading unit 125 based on the TCP / IP stack. The IP datagram is transmitted to the RFID reader authentication server 100 through the processed IP datagram. The header of the IP datagram includes the IP address provided in the RFID reader 120.

Accordingly, the IP-based RFID tag information receiving unit 110 reads the header of the IP datagram received through the TCP / IP-based network including the RFID tag information from the RFID reading device 120 and is provided in the RFID reading device 120. Extracting the received IP address and extracting at least one RFID tag information from the data area by reading the data area of the IP datagram.

According to another exemplary embodiment of the present invention, the IP address provided in the RFID reader 120 may be included in the data area of the IP datagram. In this case, the IP-based RFID tag information receiver 110 may be an RFID reader. By reading the data area of the IP datagram received from the 120, it is possible to extract the IP address and at least one or more RFID tag information provided in the RFID reading apparatus 120.

According to a preferred embodiment of the present invention, the IP-based RFID tag information receiving unit 110 is the IP address of the RFID reading device 120 extracted from the IP datagram received by the RFID reading device 120 and the RFID reading device ( 120 provides at least one RFID tag information extracted and read from the RFID tag 150 to the IP-based RFID reader authenticator 105.

The RFID reading device authentication information D / B 115 provided in the RFID reading device authentication server 100 is an IP address provided in at least one RFID reading device 120 assigned a unique IP address on a TCP / IP based network. A D / B storing RFID reading device authentication information including information and at least one RFID tag information available to the RFID reading device 120 to which the IP address is assigned, and the IP address information of the RFID reading device authentication information. Is added and updated by the RFID reader manufacturer, and the RFID tag information of the RFID reader authentication information is added and updated by an RFID tag manufacturer and / or a product manufacturer to which the RFID tag is attached.

The IP-based RFID reading device authenticator 105 provided in the RFID reading device authentication server 100 may include an IP address and at least one RFID tag provided in the RFID reading device 120 extracted by the IP-based RFID tag information receiving unit 110. Comparing the information with the IP-based RFID reading device authentication information stored in the RFID reading device authentication information D / B 115, and comparing the comparison result with the authentication authority of the RFID reading device 120 with respect to the RFID tag information. It features.

According to a preferred embodiment of the present invention, the IP-based RFID reader authentication unit 105 is an IP address of the RFID reader 120 and at least one or more RFID tag information extracted and read by the RFID reader 120 Is compared with the RFID reading device authentication information and transmits the RFID reading device authentication result (for example, the use authority of the RFID reading device for specific RFID tag information) to the RFID reading device 120 through the TCP / IP stack based network.

In the IP-based RFID reader authentication system as described above, the IP-based RFID reader authentication process is as follows.

At least one RFID reader device manufacturer authenticates an RFID reader device with an IP address provided to the RFID reader device 120 in the process of the new RFID reader device 120 being shipped (or the IP address assigned to the RFID reader device). Add and update the IP address information of the RFID reading device authentication information provided in the server 100, and the information may be the RFID tag manufacturer and / or the product manufacturer (or product retailer) to which the RFID tag 150 is attached. Process of adding and updating RFID tag information of RFID reader device authentication information included in the RFID reader device authentication server 100 on the RFID tag information attached to the corresponding product while the RFID tag 150 is released and / or sold. Do this.

When the RFID reader device authentication information of the RFID reader device authentication information D / B 115 provided in the RFID reader device authentication server 100 is provided through the above process, the RFID reader device authentication server 100 may perform the RFID. It is possible to perform an IP-based RFID reader authentication process on the RFID reader 120 for tag information.

The IP-based authentication of the RFID reading apparatus 120 for the RFID tag information starts from the process of extracting and reading the RFID tag information from the at least one RFID tag 150 by the RFID reading apparatus 120.

The RFID reading apparatus 120 extracts and reads RFID tag information from the RFID tag 150 attached to at least one product within a radio frequency communication range, and reads the RFID tag information as described above based on the TCP / IP stack. To the RFID reader authentication server 100.

When the RFID tag information is received from the RFID reader device 120 based on the TCP / IP stack through the above process, the IP-based RFID tag information receiver 110 included in the RFID reader device authentication server 100 receives the RFID tag information. Read the to extract the IP address and at least one RFID tag information provided in the RFID reading device 120.

The IP address of the RFID reader 120 extracted by the IP-based RFID tag information receiver 110 and at least one or more RFID tag information are provided to the IP-based RFID reader authentication unit 105. The IP-based RFID reader authentication unit 105 is an IP address of the RFID reading device 120 provided by the IP-based RFID tag information receiving unit 110 and at least one RFID tag information and RFID reading device provided in the RFID reading device authentication information D / B 115. By comparing the device authentication information, the authority to use the RIFD reading device 120 with respect to the RFID tag information is authenticated.

In the preferred RFID reading device authentication process of the IP-based RFID reading device authentication unit 105, first, the IP-based RFID reading device authentication unit 105 sends the RFID reading device 120 to the RFID reading device authentication information D / B 115. The process of searching whether the IP address information corresponding to the IP address is provided is performed.

If the IP address information corresponding to the IP address of the RFID reading device 120 is not retrieved, the RFID reading device 120 is not registered and thus authenticates the authority to use the RFID reading device 120 with respect to the RFID tag information. Can not. Therefore, an authentication error is determined as the IP-based RFID reading device authentication result.

On the other hand, if the IP address information corresponding to the IP address of the RFID reader 120 is retrieved, the IP-based RFID reader authentication unit 105 next the corresponding RFID tag information for at least one or more RFID tag information to the IP address. It searches for whether the corresponding RFID reading device 120 is registered to be available.

If the RFID tag information available for the RFID reader 120 corresponding to the IP address of the RFID reader 120 is retrieved, the IP-based RFID reader authentication unit 105 determines the RFID reader for the RFID tag information. The use authority of 120 is determined as the authentication approval.

On the other hand, if the RFID tag information available to the RFID reader 120 corresponding to the IP address of the RFID reader 120 is not retrieved, the IP-based RFID reader authentication unit 105 reads the RFID tag information. The use right of the device 120 is determined to be an authentication error.

According to a preferred embodiment of the present invention, the IP-based RFID reader authentication process as described above is performed on all RFID tag information extracted and read from the RFID reader device 120 and provided to the RFID reader device authentication server 100. .

When the authentication result of the use authority of the RFID reading device 120 with respect to the RFID tag information is determined through the above process, the IP-based RFID reading device authentication unit 105 determines the TCP / IP-based authentication result of the RFID reading device. It transmits to the RFID reading device 120 through the network.

When an RFID reading device authentication result for at least one or more RFID tag information is received from the IP-based RFID reading device authentication unit 105 included in the RFID reading device authentication server 100, the RFID reading device authentication result processing unit 135 is configured to execute the above. Output an authentication result or process at least one or more control functions for the RFID reading device 120 based on the authentication result.

2 is a simple diagram of processing RFID tag information based on a TCP / IP stack according to a preferred embodiment of the present invention.

According to a preferred embodiment of the present invention, the RFID reading device 120 and the RFID reading device authentication server 100 are connected to a TCP / IP-based network, and the IP-based communication unit 130 provided in the RFID reading device 120 is provided. ) Processes the RFID tag information extracted and read by the RFID tag reader 125 from at least one RFID tag 150 based on the TCP / IP stack.

Referring to FIG. 2, the IP-based communication unit 130 adds an application header to the RFID tag information extracted and read by the RFID tag reader 125 to generate application data, and transmits the TCP to the application data. Add a TCP header for the TCP function (e.g., Transfer Control function) of the / IP stack to create a TCP segment, and at the front end of the TCP header, the IP function of the TCP / IP stack (e.g., The process of generating an IP datagram by adding an IP header for an IP address provided in the RFID reader.

When the application header, the TCP header, the IP header, and the like are added to the RFID tag information as described above, the RFID tag information is added to the Ethernet header by a communication device (for example, a LAN card) to add a TCP / IP-based network. It is transmitted to the RFID reading device authentication server 100 through.

As described above, the process of receiving the RFID tag information processed into the TCP / IP stack by the IP-based communication unit 130 and transmitted through the TCP / IP-based network to the RFID reader device authentication server 100 is guaranteed by TCP / IP. do.

3 is a diagram of an IP datagram including RFID tag information based on a TCP / IP stack according to a preferred embodiment of the present invention.

According to a preferred embodiment of the present invention, the IP-based communication unit 130 according to the type of IP address (for example, IPv4-based IP address, or IPv6-based IP address) provided in the RFID reader 120 is a corresponding IP Create an IP datagram corresponding to the address.

3A is a diagram of an IP datagram generated based on IPv4 including RFID tag information.

Referring to (a) of FIG. 3, a header of an IPv4-based IP datagram includes a version, a header length, a type of service, a total length, and an identifier. Flag, Fragment Offset, Time To Live (TTL), Protocol, Header Checksum, Source Host IP Address, Receiver Host IP Address (Destination IP Address), and / or (Option).

The version is a field indicating the version of the IP protocol and is assigned '4' for IPv4 (for example, '6' for IPv6). The header length is a field indicating the length of the header portion of the IP datagram, and the service type is a field that determines how to process the datagram, and is composed of five sub-fields according to the processing method. The total length is a diagram showing the total length including the header of the IP datagram and the data area, which can be displayed up to 64 Mbytes.

IP datagrams are encapsulated and transmitted in physical network frames. The maximum length of a frame that can actually be transmitted on a physical network is called the maximum transmission unit or MTU of the network. Since each physical network has a different MTU, large datagrams need to be sent in separate segments for the smallest MTU network. This divided datagram is called a fragment, and processing this fragment is called fragmentation. Each of the fragments has a fragment header, which includes a flag field and a fragment offset, and as a flag field and a fragment offset field of the header, indicate that the datagram is a fragment and an offset address. The identifier indicates that the fragments divided as above are one datagram and are used later to reassemble the fragments.

Survival time is a field that indicates how long an IP datagram can remain on a TCP / IP network, protocol is a field indicating which higher level protocol was used, and header checksum is a field that guarantees header integrity. to be.

Next, a 32-bit sender host IP address field is present in the header of the IP datagram, and the sender host IP address field includes an IPv4-based IP address provided in the RFID reader.

According to a preferred embodiment of the present invention, the IP address of the RFID reading apparatus 120 included in the sender host IP address field of the header of the IP datagram is an IP-based RFID tag provided in the RFID reading apparatus authentication server 100. It is extracted by the information receiving unit 110 as an IP address provided in the RFID reading device 120.

In addition, there is a 32-bit receiving host IP address field in the header of the IP datagram. The transmitting host IP address field includes an IP address of the RFID reader authentication server 100. The RFID tag information is transmitted to the RFID reading apparatus 120 based on the receiving host IP address.

According to a preferred embodiment of the present invention, the data area of the IP datagram as described above includes at least one 32-bit size RFID tag information extracted and read from the RFID tag 150 by the RFID tag reader 125. The RFID tag information is read and extracted by the RFID tag information receiving unit 110 included in the RFID reading device authentication server 100.

3 (b) is a diagram of an IP datagram generated based on IPv6 including RFID tag information.

Referring to (b) of FIG. 3, the header of an IPv6-based IP datagram includes a Version, Priority, Flow Label, Payload Length, Next Header, It is composed of a hop limit, a source IP address of the sender, a destination IP address of the destination, and / or an option.

The version is a field indicating the version of the IP protocol and is assigned '6' for IPv6 (for example, '4' for IPv4). Priority is a field that specifies the priority when a particular packet from the same sender host is sent with a relatively different packet, and a flow label is a field that specifies the type of information (eg, streaming data) in the data area. The data length is a field indicating the length of the data after the header. The next header is a field indicating the next header when the IP datagram consists of at least one header. The survival time is the length of the IP datagram on the TCP / IP network for some time. This field indicates if the user can stay at.

Next, a 128-bit sender host IP address field is present in the header of the IP datagram, and the sender host IP address field includes an IPv6-based IP address provided in the RFID reader.

According to a preferred embodiment of the present invention, the IP address of the RFID reading apparatus 120 included in the sender host IP address field of the header of the IP datagram is an IP-based RFID tag provided in the RFID reading apparatus authentication server 100. It is extracted by the information receiving unit 110 as an IP address provided in the RFID reading device 120.

In addition, a header of an IP datagram includes a receiving host IP address field having a size of 128 bits. The transmitting host IP address field includes an IP address of the RFID reader authentication server 120. The RFID tag information is transmitted to the RFID reading apparatus 120 based on the receiving host IP address.

According to a preferred embodiment of the present invention, the data area of the IP datagram as described above includes at least one 32-bit size RFID tag information extracted and read from the RFID tag 150 by the RFID tag reader 125. The RFID tag information is read and extracted by the RFID tag information receiving unit 110 included in the RFID reading device authentication server 100.

4 is a simple embodiment of an IP-based RFID reader authentication system that extends from the present invention.

FIG. 4 illustrates the use of an RFID-based laundry apparatus as the RFID reading apparatus 120 according to the present invention, extracts and reads RFID tag information of a laundry put into a laundry tub of the laundry apparatus, and provides laundry information to the RFID tag information. According to an embodiment of the present invention, an IP-based RFID reading device authentication system according to the present invention is applied to an RFID system, characterized in that the laundry information is provided to the server 435 to receive laundry information suitable for the laundry from the laundry information providing server 435. .

Referring to FIG. 4, the RFID-based laundry device 120 includes an RFID tag reader 125, an IP address 140, and an IP-based communication 130 provided in an IP-based RFID reader authentication system. A laundry processing unit 400 is provided as an RFID reading device authentication result processing unit 135. The laundry processing unit 400 includes a motor driving unit 410, a memory unit 415, and an output unit 420 (eg, a screen). Output unit), an input unit 425 (for example, a button input unit), a power supply 430 unit, and the like.

In addition, referring to FIG. 4, the RFID-based laundry device 120 is connected to the laundry information providing server 435 through a TCP / IP-based network, and the laundry information providing server 435 is connected to the RFID-based laundry device 120. The RFID tag information relay 450 is added to relay the IP datagram transmitted from the server to the RFID reader authentication server 100. As a result, the laundry information providing server 435 reads the RFID reader 120 and the RFID reader. It performs a role such as a node or a relay server between the device authentication server 100.

5 is a simplified flowchart of an IP-based RFID reader authentication process that is extended from the present invention.

The RFID tag reader 125 provided in the RFID-based laundry device 120 extracts and reads the RFID tag information included in the laundry put into the laundry container through an antenna (500), and the IP communication unit 130 performs the RFID tag information. Is transmitted to the laundry information providing server 435 through the TCP / IP-based network, and when the laundry information corresponding thereto is requested (505), the laundry information providing server 435 receives the RFID received from the RFID-based laundry device 120. The tag information checks whether there is a right to wash the RFID-based laundry device 120 with respect to the laundry put into the laundry container through the IP-based RFID reader authentication system proposed by the present invention.

Therefore, the laundry information providing server 435 relays and transmits the RFID tag information packet received from the RFID based laundry apparatus 120 to the IP based tag information receiving unit 110 provided in the RFID reading apparatus authentication server 100 (510). ), The IP-based tag information receiving unit 110 reads the RFID tag information and extracts the IP address provided in the RFID reading apparatus 120 and the RFID tag information of the RFID tag 150 attached to the laundry put into the laundry tub ( 515).

As described above, when the IP-based tag information receiving unit 110 extracts the IP address provided in the RFID reader and the RFID tag information of the RFID tag 150 attached to the laundry put in the laundry tub, the IP-based RFID reader authentication unit 105 ) Compares the IP address and the RFID tag information with the RFID reading device authentication information provided in the RFID reading device authentication information D / B 115 (520), and as a result of the comparison, the RFID tag attached to the laundry put into the washing container. Authorize the use of the RFID-based laundry device 120 for the information.

If the IP-based RFID reader authentication unit 105 authenticates the use authority of the RFID-based laundry device 120 for the RFID tag information attached to the laundry (eg, pants or underwear, etc.) put in the laundry container (525), the The IP-based RFID reader authentication unit 105 provides the RFID reading device authentication approval result to the laundry information providing server 435 (530), the laundry information providing server 435 to the laundry based on the authentication approval result. The laundry information is extracted (535) and transmitted to the RFID-based laundry device 120 through the TCP / IP network (540). The laundry processor 400 provided in the RFID-based laundry device 120 provides the laundry information. On the basis of the laundry to be put into the laundry bin is executed (545).

On the other hand, if the IP-based RFID reader authentication unit 105 does not authenticate the authority to use the RFID-based laundry device 120 with respect to the RFID tag information attached to the laundry (eg, a mobile phone loaded with pants) placed in the laundry container (550). ), The IP-based RFID reading device authentication unit 105 provides the RFID reading device authentication error result to the laundry information providing server 435 (555), the laundry information providing server 435 based on the authentication error result Error information on the RFID tag information attached to the laundry is generated (560) and transmitted to the RFID-based laundry device 120 through a TCP / IP network, the laundry processing unit 400 provided in the RFID-based laundry device 120 ) Outputs the error information about the RFID tag information through the output unit 420 (565).

According to the present invention, a predetermined database is associated with a unique network address (for example, an IP address) information provided in an RFID reading apparatus in a server and at least one RFID tag information in which access rights to the RFID reading apparatus are allowed. Storing and comparing the pre-stored unique network address information with the RFID tag information corresponding to the unique network address information to authenticate the use authority of the RFID reading apparatus with respect to the RFID tag information, such as a personal credit card or ID card. It is possible to prevent indiscriminate reading of an RFID tag including personal privacy information, thereby preventing unauthorized leakage of personal information.

1 is a simplified diagram of an IP based RFID reading device authentication system and a method of authenticating an RFID based reading device according to a preferred embodiment of the present invention.

2 is a simple diagram of processing RFID tag information based on a TCP / IP stack according to a preferred embodiment of the present invention.

3 is a diagram of an IP datagram including RFID tag information based on a TCP / IP stack in accordance with a preferred embodiment of the present invention.

4 is a simple embodiment of an IP-based RFID reader authentication system that extends from the present invention.

Fig. 5 is a simple flowchart of the IP-based RFID reader authentication process, which is extended from the present invention.

<Description of main parts of drawing>

100: authentication server 105: reader authentication unit

110: RFID tag information receiving unit 115: authentication information DB

120: RFID reader device 125: RFID tag reader

130: communication unit 135: authentication result processing unit

140: unique network (IP address) DB 145: antenna

150: RFID Tag

Claims (12)

A radio frequency identification (RFID) tag for storing predetermined information, a radio frequency identification (RFID) reading device having a predetermined unique network address, and extracting predetermined information from the RFID tag and providing it to an authentication server and the RFID An RFID reading device authentication system comprising an authentication server for authenticating a reading device, The authentication server, RFID reading device authentication information database for storing the unique network address information provided in at least one RFID reading device and at least one RFID tag information for which the at least one RFID reading device is allowed to be used correspondingly. Data Base); An RFID tag information receiver configured to receive predetermined RFID tag information provided from the RFID reader and unique network address information of the reader; And Compare the unique network address information and the RFID tag information of the reading device received through the RFID tag information receiving unit with the unique network address information previously stored in the RFID reading device authentication information database and corresponding RFID tag information. And an RFID reading device authenticating unit for authenticating a use right of the RFID reading device with respect to the RFID tag information, based on the comparison result. The method of claim 1, wherein the unique network address, RFID (Radio Frequency Identification) reader authentication system comprising an Internet Protocol (IP) address. The method of claim 1, wherein the RFID tag information receiving unit, Radio Frequency Identification (RFID) reading, characterized in that it receives predetermined RFID tag information provided from the RFID reading device and unique network address information of the reading device based on a Transmission Control Protocol / Internet Protocol (TCP / IP) stack. Device authentication system. A radio frequency identification (RFID) tag for storing predetermined information, a radio frequency identification (RFID) reading device having a predetermined unique network address, and extracting predetermined information from the RFID tag and providing it to an authentication server and the RFID An RFID reading device authentication method comprising an authentication server for authenticating a reading device, In the authentication server, the unique network address information provided in at least one RFID reading device and at least one RFID tag information in which at least one RFID reading device is allowed to be used are stored in a predetermined database in association with each other. Making; When the RFID reading device extracts predetermined RFID tag information from the RFID tag, transmitting the extracted RFID tag information and unique network address information of the reading device from the reading device to the authentication server; Receiving RFID tag information and unique network address information transmitted from the reading device in the authentication server; Comparing the received RFID tag information and unique network address information in the authentication server with unique network address information previously stored in the database and RFID tag information corresponding to the unique network address information; And And authenticating, by the authentication server, a right to use the RFID reading device with respect to the RFID tag information, based on the comparison result. The method of claim 4, wherein And transmitting the authentication result from the authentication server to the RFID reading device. The method of claim 4, wherein Transmitting the authentication result from the authentication server to the RFID reading device; And And acquiring a use right for the RFID information on the basis of the authentication result in the RFID reading apparatus. The method of claim 6, wherein the obtaining of the right to use the RFID information on the basis of the authentication result in the RFID reading apparatus comprises: And reading or using the RFID information in the RFID reading device on the basis of the authentication result or transmitting the RFID information to a third server or device through a communication network. Device authentication method. The method of claim 4, wherein the unique network address, RFID (Radio Frequency Identification) reader authentication method comprising an Internet Protocol (IP) address. A unique network address information data file configured to separately store unique network address information included in the plurality of RFID reading apparatuses for each RFID reading apparatus; And And an RFID tag information data file configured to separately store and store RFID tag information available to a plurality of RFID reading devices having the unique network address, and correspond to the unique network address information data file and the RFID tag information data file. Information storage medium, characterized in that for storing in association with. The method of claim 9, wherein the unique network address information data file, An information storage medium, characterized in that for storing IP (Internet Protocol) address information. Storing in a predetermined database in association with unique network address information provided in at least one RFID reader and at least one RFID tag information for which the at least one RFID reader is allowed to use; A function of receiving the extracted RFID tag information and the unique network address information of the reading device from the reading device when the RFID reading device extracts predetermined RFID tag information from the RFID tag; Comparing the received RFID tag information with unique network address information with unique network address information previously stored in the database and RFID tag information corresponding to the unique network address information; And And an electronic information management program for realizing, based on the comparison result, a function of authenticating a use right of the RFID reading apparatus with respect to the RFID tag information. The method of claim 11, wherein the recording medium, And an electronic information management program for realizing the function of transmitting the authentication result to the RFID reader.