KR20060068478A - Method and apparatus for generating epc-mapped internet address - Google Patents

Abstract

The present invention relates to a method and apparatus for generating an Internet address to which an Electronic Product Code (EPC) is to be mapped. More particularly, the present invention relates to a product identification code system used in a Radio Frequency Identification Systems (RFID) system. A method and apparatus for generating an internet address of an object based on an electronic product code (EPC).

According to one aspect of the invention, a method is provided for generating an internet address to be mapped to an EPC code embedded in an electronic tag. The method includes reading the EPC code from the electronic tag and combining the read EPC code with a network prefix address to generate an internet address to be mapped to the EPC code. In one embodiment, the EPC code is 64 bits, the network prefix address is 64 bits, and the Internet address generated by combining them is an Internet Protocol version 6 (IPv6) address consisting of 128 bits.

Electronic Product Code (EPC), Internet Protocol version 6 (IPv6) address mapping

Description

Method and apparatus for generating EPC-mapped Internet address}

1 is a diagram schematically showing an EPC network structure to which the present invention is applied.

2 is a flowchart illustrating a process of generating and using an internet address of an electronic tag according to a preferred embodiment of the present invention.

3 is a diagram illustrating the format of an IPv6 address generated according to a preferred embodiment of the present invention.

4 is a diagram illustrating an example of using the EPC IPv6 code mapping mechanism according to the present invention.

The present invention relates to a method and apparatus for generating an Internet address to which an Electronic Product Code (EPC) is to be mapped. More particularly, the present invention relates to a product identification code system used in a Radio Frequency Identification Systems (RFID) system. The present invention relates to a method and apparatus for generating an internet address of an object based on an electronic product code (EPC).

Recently, RFID-related technologies, which are a core technology that can expand the information horizon from the current person-centered to the object-oriented network intelligence and the network intelligence of distribution / logistics, are rapidly developing. RFID technology is a technology for automatically recognizing the location and information content of various objects using a wireless recognition technology in the ubiquitous sensor network environment. The RFID system is attached to an object to provide identification information of the related object, and in some cases, performs tag function through an RF tag (hereinafter referred to as an electronic tag) and an RF tag and wireless communication that performs a sensor function for identifying the situation of the object. It refers collectively to a wireless communication system consisting of a reader for reading.

EPC embedded in electronic tag for identification of things in RFID system is a code developed by MIT autoID center. It was developed to replace bar codes to recognize logistics-based product information. . A quick look at the EPC network architecture described in the EPC specification shows that the reader reads the EPC code contained in the electronic tag of the object and sends it to the Object Name System (ONS) server, which uses the EPC code to send the EPC- By querying an EPC Information Service server, detailed information (eg, manufacturing date, distribution path, status information, etc.) about the thing may be obtained. The EPC-IS server can indirectly track the location of the thing by recording the reader's information to the server whenever a request for the thing is made from the reader, but it is difficult to obtain real-time information with the thing.

Therefore, in order to obtain real-time information of things, it is necessary to perform communication through things and the Internet, and for this, an interconnection scheme between the EPC code system and IPv6 is required. While EPC codes are based on manufacturer-based 64-bit, 96-bit, or 256-bit product numbering schemes, the next generation Internet address standard, Service Provider (ISP) -oriented IPv6, is a 128-bit-based IPv6 addressing scheme. Because of the different schemes for use and usage, the mapping mechanism between EPC code and IPv6 is required.

Accordingly, the present invention is designed to solve this problem, and an object of the present invention is to provide a mapping mechanism for mapping an EPC code embedded in an electronic tag of an object to an IPv6 address for accessing the Internet.

It is another object of the present invention to provide a mapping mechanism for mapping an EPC code embedded in an electronic tag of an object to an IPv6 address for accessing the Internet, thereby identifying real-time information of the object through the Internet.

According to one aspect of the invention, a method is provided for generating an internet address to be mapped to an EPC code embedded in an electronic tag. The method includes reading the EPC code from the electronic tag and combining the read EPC code with a network prefix address to generate an internet address to be mapped to the EPC code.

In one embodiment, the EPC code is 64 bits, the network prefix address is 64 bits, and the Internet address generated by combining them is an Internet Protocol version 6 (IPv6) address consisting of 128 bits.

In one embodiment, the network prefix address may be a network prefix of an IPv6 address set according to a stateless autoconfiguration scheme in an IPv6 network environment.

According to another aspect of the present invention, a method for obtaining information of an electronic tag embedded with an EPC code in real time through the Internet is provided. The method includes reading an EPC code from the electronic tag, combining the read EPC code and a network prefix address to generate and storing an Internet address to be mapped to the EPC code, and from the other node on the Internet. Receiving an information request message of an electronic tag destined for an internet address, reading information related to the electronic tag by wireless accessing an electronic tag embedded with an EPC code corresponding to the internet address, and reading the read information Transmitting the information associated with the electronic tag to the requesting node.

According to another aspect of the present invention, a reader for reading an electronic tag embedded with the EPC code, an Object Name System (ONS) server, and an EPC- for storing and managing detailed information about the EPC code. In an EPC network comprising an information service (EPC-IS) server, a method is provided for communicating with an electronic tag over the Internet. The method includes reading an EPC code from the electronic tag, combining the read EPC code with a network prefix address to generate and storing an Internet address to be mapped to the EPC code, and storing the received EPC code in the received EPC code. Querying the ONS server using the received EPC code to determine the address of the EPC-IS server in which detailed information is stored; and accessing the address of the EPC-IS server identified from the ONS server to access the EPC. Recording the internet address to be mapped to a code, and accessing the electronic tag using the internet address recorded in the EPC-IS server.

Hereinafter, with reference to the embodiments shown in the accompanying drawings, the present invention will be described in detail by way of example. However, the following detailed description is provided for illustrative purposes only and should not be construed as limiting the inventive concept.

First, referring to FIG. 1, the structure of an EPC network to which the present invention is applied is schematically illustrated. The EPC network, in addition to the reader 120 capable of reading the EPC code information of the electronic tag through wireless communication with the electronic tag (or RFID tag) 110 equipped with the EPC code, includes a servant server 130, An ONS (Object Name Service) server 140 which performs a function similar to that of the Internet, and an EPC Information Service (IS) server (hereinafter, referred to as an EPC-IS server) 150 storing detailed information of things Include. The reader 120 reads EPC code information embedded in an electronic tag of an object by using radio frequency (RF) wireless communication, and transmits the read EPC code to the servant server 130 through the Internet. The servant server 130 uses the received EPC code value to query and obtain the location of the EPC to the ONS server 140, that is, the address (eg, w.x.y.z) of the EPC-IS server 150. Thereafter, the central server 130 obtains detailed information of the thing using the EPC code value to the EPC-IS server 150 of the obtained address. The EPC-IS server 150 is configured in the form of a database that stores detailed information of a thing. The EPC-IS server 150 not only stores information such as name, expiration date, and production date of the thing related to the EPC code, but also the EPC code of the thing. It can also store information about the reader that reads. Through the reader information, the distribution path of the thing can be identified.

In the above-described EPC network, the object attached with the electronic tag 110 in which the EPC code is embedded is capable of RF wireless communication with the reader 120. The present invention enables the reader 120 to perform Internet address (ie, IPv6 address) mapping of the EPC code of the electronic tag 110, thereby enabling bidirectional communication with the electronic tag-attached object using the mapped IPv6 address. I would like to.

2 is a flowchart illustrating a process of generating and using an internet address of an electronic tag according to a preferred embodiment of the present invention. As shown, in step 210, the reader 120 reads EPC information from an electronic tag attached to a nearby object via a wireless connection.

In step 220, the received EPC code and IPv6 network prefix information are combined to generate an Internet (IPv6) address to which the EPC code will be mapped. 3 illustrates the format of an IPv6 address generated in accordance with a preferred embodiment of the present invention. Typical IPv6 addresses are largely in 128-bit format, which includes the network prefix 64-bit and EUI-64 information (64-bit). The EUI-64 information consists of 64 bits of the extended form using the MAC (48 bit) address of the node's network interface. In general, a node in an IPv6 network environment may easily generate its own IPv6 address by using a stateless autoconfiguration method. Similarly, the EPC-IPv6 code mechanism according to the present invention uses the same network prefix (64-bit) and instead of using the EUI-64 method later, an IPv6 address to be mapped to the EPC code instead of the 64-bit EPC code (hereinafter, , Referred to as an "EPC-IPv6 address". Thus, as shown in FIG. 3, the EPC-IPv6 address may consist of 128 bits including the network prefix address 64 bits and the received EPC code 64 bits.

Referring back to FIG. 2, the EPC-IPv6 mapping address generated in step 220 is stored with the EPC code in the EPC-IPv6 mapping address database of the reader.

The reader then receives a status information request message of an electronic tag destined for the EPC-IPv6 mapping address from another node on the IPv6 network (step 230). In response to the request, the reader checks if the received EPC-IPv6 mapping address exists in its address database (step 240), and if it is found to exist in its address database, the electronic tag embedded with the corresponding EPC code. The current situation information is grasped through a wireless communication with the mobile station, and it is generated in a predetermined message form and transmitted to the requesting node (step 250).

4, an application example using the EPC IPv6 code mapping mechanism according to the present invention is shown. The use example is an example that can determine the status of the patients in real time by attaching the electronic tag to the patients in the hospital. As shown, an electronic tag embedded with an EPC code is attached to the cardiac patient 410 in the hospital "A". This electronic tag is a tag that serves as a sensor to record the patient's heart rate. In order to know the heart rate of the patient with the electronic tag attached to the hospital, the present invention can be utilized as follows.

1) The reader 420 reads the EPC code embedded in the electronic tag attached to the patient 410 and generates an IPv6 address mapped to the EPC code using an RFID-IPv6 mapping scheme.

2) Reader 420 queries ONS server 450 to know where the received EPC code value belongs. In response, the ONS server 450 verifies that the EPC code is from hospital “A” and sends EPC-IS server address 460 of hospital “A” to reader 420.

3) The reader 420 receiving the EPC-IS server address of hospital “A” accesses the EPC-IS server 460 via the received EPC-IS server address, and then the EPC-IS server of the EPC-IS server. The generated IPv6 address is recorded in the database 470 using the EPC code.

4) The doctor of hospital “A” requests information about the current heart rate using the IPv6 address recorded in the EPC-IS database 470 to know the heart rate of the patient 410.

5) When the reader 430 receives the request for information on the heart rate, the EPC corresponding to the IPv6 address is found in the local area of the electronic tag embedded therein, and the heart rate information recorded therein is read and generated in the form of a predetermined message. Answer the doctor. Through this process, real-time information can be obtained from an electronic tag with an embedded EPC code.

In the above, the present invention has been described in connection with specific embodiments, but the present invention is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes within the scope not departing from the technical spirit of the present invention. It will be apparent to one of ordinary skill in the art that this is possible.

The present invention is to enable the linkage and compatibility between the RFID standard technology, which is a technology that automatically recognizes the location and information content of various things using wireless recognition technology in the ubiquitous sensor (u Sensor) network environment and the IPv6 address system of the next generation Internet standard. Technology. According to the present invention, an internet address of an electronic tag having an embedded EPC code can be generated, and real-time information of an object related to the electronic tag can be obtained by communicating with an electronic tag equipped with an EPC code in real time through the internet address. .

Claims (8)

A method for generating an internet address to be mapped to an EPC code embedded in an electronic tag, the method comprising: Reading the EPC code from the electronic tag; Combining the read EPC code and a network prefix address to generate an internet address to be mapped to the EPC code EPC mapping Internet address generation method comprising the. The EPC mapping Internet of claim 1, wherein the EPC code is 64 bits, the network prefix address is 64 bits, and the Internet address generated by combining them is an Internet Protocol version 6 (IPv6) address composed of 128 bits. How to generate an address. The method of claim 2, wherein the network prefix address is a network prefix of an IPv6 address set according to a stateless autoconfiguration scheme in an IPv6 network environment. In the method for obtaining in real time the information of the electronic tag embedded with the EPC code, the method, Reading an EPC code from the electronic tag; Generating and storing an internet address to be mapped to the EPC code by combining the read EPC code and a network prefix address; Receiving an information request message of an electronic tag destined for the Internet address from another node on the Internet; Reading information associated with the electronic tag by wireless access to an electronic tag embedded with an EPC code corresponding to the internet address; Transmitting information associated with the read electronic tag to a requesting node. Real time acquisition method of electronic tag information comprising a. A reader for reading electronic tags with embedded EPC code, an Object Name System (ONS) server, and an EPC-Information Service (EPC-IS) server for storing and managing detailed information about the EPC code. In a containing EPC network, a method for communicating with an electronic tag via the Internet, the method comprising: Reading an EPC code from the electronic tag; Generating and storing an internet address to be mapped to the EPC code by combining the read EPC code and a network prefix address; Querying the ONS server using the received EPC code to determine the address of the EPC-IS server where detailed information about the received EPC code is stored; Accessing the address of the EPC-IS server identified from the ONS server and recording the Internet address to be mapped to the EPC code; Accessing the electronic tag using the internet address recorded in the EPC-IS server Communication method with an electronic tag via the Internet comprising a. Means for reading an EPC code embedded in an electronic tag; Means for combining the read EPC code with a network prefix address to generate an internet address to be mapped to the EPC code; Means for storing the generated internet address Electronic tag reading device comprising a. 7. The electronic tag reading of claim 6, wherein the EPC code is 64 bits, the network prefix address is 64 bits, and the Internet address generated by combining them is an Internet Protocol version 6 (IPv6) address composed of 128 bits. Device. Means for reading an EPC code embedded in an electronic tag; Means for combining the read EPC code with a network prefix address to generate an internet address to be mapped to the EPC code; Means for storing the generated internet address; Means for receiving an information request message of an electronic tag destined for the Internet address from another node on the Internet; Means for reading information associated with the electronic tag by wireless access to an electronic tag embedded with an EPC code corresponding to the internet address; Means for sending information associated with the read electronic tag to a requesting node. Electronic tag reading device comprising a.

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