KR20080075323A - System and method for processing data of rfid tag memory - Google Patents

Abstract

A system and a method for processing data of an RFID(Radio Frequency IDentification) tag memory are provided to reduce repeated data exchange on an RF communication network by temporarily storing data read from the RFID tag memory when the data is exchanged between an RFID tag and an RFID reader. A command converter(20) converts a command received from a user into a tag memory read command. A logical memory manager(21) checks whether a logical cache memory(24) related to a tag(210) is found, and reads authentication data from a tag memory and determines validity of the logical cache memory by the converted command. The command received from the user is performed by using the logical cache memory without reading the data from the tag memory when the logical cache memory is valid. The data is processed through a logical memory(22) by reading the data from the tag memory when contents of the logical cache memory are invalid. A data processor(23) processes the command received from the user by processing tag memory data stored in the logical cache memory or a logical memory.

Description

System and method for processing data of RDF tag memory

1 is a block diagram of a general RFID tag memory data processing system

2 is a block diagram of an RFID tag memory data processing system applying a cache according to the present invention.

3 is a diagram illustrating a consistency problem of caches on multiple readers.

4 is a block diagram illustrating a cache data structure of a reader of an RFID tag memory data processing system according to the present invention.

Explanation of symbols for the main parts of the drawings

200. Reader 210. Tag

20. Instruction Converter 21. Logical Memory Manager

22. Logical Memory 23. Data Processing Unit

24. Logical Cache Memory 25. Tag Memory

25a. Cache Check Byte Storage 25b. Reader ID storage area

25c. Memory data storage area

The present invention relates to the operation of an RFID system, and in particular, it is possible to reduce repetitive data exchange in RF communication by temporarily storing and using the memory data of a tag once read when exchanging memory data between the RFID reader and the tag. The present invention relates to a data processing system and a data processing method of an RFID tag memory.

Radio Frequency Identification (RFID) technology is one of non-contact recognition technologies that can recognize objects by identifying unique IDs (data) using radio frequency (RF).

RFID technology consists of an RFID tag containing unique data, an RFID reader for reading information (data) of the RFID tag, and a series of computing systems for processing data read by the RFID reader. It is a technology that enables an RFID reader to read tag data from an RFID tag attached to an object requiring identification, such as a vehicle, a product, a traffic card, and process the same in a computing system to recognize an object and perform a desired purpose.

In general, an RFID tag is composed of a transponder chip made of a semiconductor and an antenna, and receives energy from a radio wave signal of an RFID reader (passive type) or energy supplied from its own power source (battery) (active type). Send the unique data stored in the tag.

On the other hand, the frequencies commonly used in RFID technology include low frequency (LF) in the 123 GHz band, high frequency (HF) in the 13.56 MHz band, ultra high frequency (UHF) in the 433/900 MHz band, and MW in the 2.4 GHz band. (Microwave) and the like. Each of these frequency bands has advantages and disadvantages according to their characteristics. For reference, 900 MHz of the UHF band is mainly used for the passive RFID scheme, and 433 MHz is mainly used for the active RFID scheme.

Hereinafter, an RFID tag memory data processing system will be described with reference to the accompanying drawings.

1 is a block diagram of a general RFID tag memory data processing system.

The relevant standards for RFID readers are ISO / IEC 15961, ISO / IEC 15962, and ISO / IEC 18000. ISO / IEC 18000 is divided into Part 1 through Part 7 depending on the frequency band.

ISO / IEC 15961 (Data Protocol: Application Interface) is the standardization of the interface between readers and applications, and ISO / IEC 15962 (Data Protocol: Data Encoding Rules and Logical Memory Functions) encodes the information that readers will store in tags. It is a standard to save.

These two standards are common to all RFID systems, regardless of frequency band, and ISO / IEC 18000 is divided into Part 1 through Part 7 according to the frequency band. Physical factors such as carrier frequency are standardized.

FIG. 1 shows a system structure for data processing of an RFID tag memory and an ISO / IEC 15961 command processing procedure in the current ISO / IEC 15961 and 18000 standards.

First, upon receiving a command (ISO / IEC 15961 Command) from the user (S11), the reader 100 converts the ISO / IEC 18000 tag memory read command and requests the tag 110 to read the tag memory data. S12)

Subsequently, valid memory data in the memory 12 region of the tag 110 is imported into the logical memory 10 of the reader 100. (S13)

The reader 100 processes the data of the logical memory 10 according to the corresponding command through the data processing unit 11 (S14).

The processed data is updated in the memory 12 of the tag 110 according to the command (S15), and outputted as a response (ISO / IEC 15961 Response) according to the command (S16).

The data processing according to such a command has the following problems.

Depending on the command, in most cases, the entire tag memory data must be imported into the logical memory. In this process, several ISO / IEC 18000 commands must be executed repeatedly to process one ISO / IEC 15961 command.

This repetitive communication is associated with data instability in RF communication and battery life issues with active tags.

That is, in the case of repetitive performance in collecting memory data of RFID tag, inefficient performance of reading the same data continuously through RF signal is performed. If the amount of data is large, an error may occur due to data instability on RF. There is a great deal of overhead in RF communication to read a lot of data.

The present invention is to solve the problems of the system structure for data processing of the RFID tag memory of the prior art and the process of ISO / IEC 15961 command processing in the current ISO / IEC 15961, 18000 standard. The purpose of the present invention is to provide a data processing system and a data processing method of an RFID tag memory which can reduce the repetitive data exchange in RF communication by temporarily storing and using the memory data of a tag once read in memory data exchange of the memory. There is this.

According to an aspect of the present invention, there is provided a data processing system of an RFID tag memory, including: a command converting unit converting a command received from a user into a tag memory read command; inspecting whether a logical cache memory associated with the tag exists; And a logical memory manager configured to read the authentication data stored in the tag memory and determine the validity of the logical cache memory by the read command. If the logical cache memory is valid, the logical memory manager does not read the data of the tag memory. Characterized in that the command received from the user using the cache memory.

According to another aspect of the present invention, there is provided a data processing method of an RFID tag memory, including: converting a command received from a user into a tag memory read command during data processing in a reader for performing a command received from a user; Reading the logical cache memory authentication data stored in the tag when there is a logical cache memory associated with the; when the validity of the logical cache memory is authenticated using the authentication data, the logical cache is no longer required for the tag. And performing a command received from a user through the memory.

Hereinafter, exemplary embodiments of a data processing system and a data processing method of an RFID tag memory according to the present invention will be described in detail.

Features and advantages of the data processing system and data processing method of the RFID tag memory according to the present invention will become apparent from the detailed description of each embodiment below.

2 is a block diagram of an RFID tag memory data processing system applying a cache according to the present invention.

The present invention temporarily stores the memory data of a tag once read in the reader when exchanging memory data between the RFID reader and the tag, and the reader with the temporarily stored data is valid from the tag before using the temporarily stored memory of the tag. It is to make sure that you can use it.

By using the temporarily stored data as described above, we propose a method that can reduce the repetitive data exchange in RF communication and efficiently operate in processing speed and data transfer rate.

The method of caching tag memory data according to the present invention does not apply to a broadcast command for a plurality of tags, but a command corresponding to tag memory data read / write of a point-to-point command between a reader and a tag. Applies to the implementation process.

In the configuration of the RFID tag memory data processing system applying the cache according to the present invention, a command converting unit 20 converting a command (ISO / IEC 15961 Command) received from a user into an ISO / IEC 18000 Tag Memory Read command as shown in FIG. 2. Checks whether there is a logical cache memory associated with the tag, requests a read of authentication data stored in the tag memory 25 in the tag 210 by the converted ISO / IEC 18000 Tag Memory Read command, Logical memory management unit 21 that determines the validity of the logical cache memory 24 using the read authentication data, and memory data of the tag 210 when the contents of the logical cache memory 24 are determined to be invalid. The logical memory 22 which stores the memory data read in the area 25c and the tag memory data of the logical cache memory 24 or the logical memory 22 are pro- grammed. Singh to include the data processing part 23 for processing according to the command (ISO / IEC 15961 Command) received from a user and configuration.

Here, the data processed through the data processing unit 23 is updated in the tag memory 25 of the tag 210 according to the command, and is output as a response (ISO / IEC 15961 Response) according to the command.

The ISO / IEC 18000 "Write Tag Memory" command is used to update the changed data to the tag, and the authentication data reader ID and CCB are also updated via the "Write Tag Memory" command.

The tag memory 25 in the tag 210 includes a cache check byte storage area 25a, a reader ID storage area 25b, and a memory data storage area 25c.

The authentication data includes a CCB (Cache Check Byte) and a Reader ID.

The reader 200 of the RFID tag memory data processing system according to the present invention has a cache structure capable of temporarily storing the memory data of the tag 210 read once.

When the reader 200 reads the memory data of the tag 210 that is first accessed, the reader 200 always stores the data in the logical cache memory 24 of the reader 200. After that, when accessing a specific tag, if there is data of the corresponding tag in the logical cache memory 24 that it has, only verification data is sent to check whether the cache data of the own tag is valid, and if valid, memory data from the tag. The command is processed using the data in the logical cache memory 24 without reading. If cache data of the tag is invalid, memory data is read from tag again.

Such a data processing procedure of the data processing system of the RFID tag memory according to the present invention will be described in detail.

3 is a diagram illustrating a consistency problem of a cache on a multiple reader, and FIG. 4 is a diagram illustrating a cache data structure of a reader of an RFID tag memory data processing system according to the present invention.

The RFID tag memory data processing method using a cache according to the present invention is to solve a repetitive communication problem and applies a method of storing a logical memory of a tag once read in a reader. Here, the logical memory of the tag stored in the reader is called logical cache memory.

In the RFID tag memory data processing method according to the present invention, if a method of storing a logical memory of a tag that has been read once is stored as a logical cache memory, as shown in FIG. 3, a consistency problem of logical cache memory data may occur.

For example, when a multiple reader is configured where a large area of material management is required, overlapping regions are formed between the leader where the tag A of FIG. 3 is located and the leader. At this time, when the reader A accesses the tag C, if the 'write' related command is executed in the tag memory map and the reader B executes the 'read' related command, the reader B reads the logical cache memory related to the tag C in the reader B. The memory data that is generated is not valid data.

Therefore, the present invention allows the reader to authenticate whether the currently cached data is valid from the tag before using the logical cache memory.

In order to proceed with this process, the last 'Write' reader ID in the tag and the value of Cache Check Byte (CCB), which is recorded every time the tag memory map is changed, are used as authentication data and always authenticated from the tag before using the logical cache memory. Check the validity of the data.

The data structure for storing logical cache data in the reader is as in FIG.

The reader is designed in a structure that can store the memory map data of the tag once read into the logical cache memory in the reader.

First, the index data includes a tag ID for identifying the logical cache memory, a reader ID for storing the ID of the reader last writing the corresponding logical cache memory, and a write. 'Include a Cache Check Byte (CCB) that changes each time.

And Error item is recorded in the process of 'Write' data to tag.

When an error occurs, the reader notifies the user that there is a problem updating the data of the tag, and then keeps the logical cache memory in 'Error state' so that the user can proceed with 'Write' again according to the user's command.

This can prevent the case where all the data of the tag cannot be written because there is no backup data when the continuous problem occurs when 'Write' occurs when only the logical memory is configured without the logical cache memory.

The 'Memory Pointer' is a Pointer that points to the contents of the logical cache memory of the tag.

In the 'Reader ID' shown in the tag, the ID of the last reader 'Write' is stored in the tag's memory map, and the 'Cache Check Byte' always stores a different value from the previous value when 'Write'. When the contents of the map data are changed, a record of the change is kept.

This is authentication data that tells the other reader that the tag has changed in the process of authenticating with the tag before using the cache memory data, invalidating the logical cache memory and receiving the tag memory data again.

A data processing method of the RFID tag memory according to the present invention will be described with reference to FIG.

First, upon receiving the ISO / IEC 15961 command from the user (S21), the command converting unit 20 of the reader 200 converts the ISO / IEC 18000 tag memory read command (S22).

Subsequently, the logical memory manager 21 of the reader 200 checks whether the logical cache memory 24 related to the tag exists.

If the logical cache memory 24 exists, the reader 200 requests and reads the reader ID and CCB read stored in the tag 210 through the "Read Tag Memory" command of ISO / IEC 18000 (S23). S24)

Thereafter, the logical memory manager 21 of the reader 200 compares the reader ID and the CCB read from the tag 210 with the reader ID and the CCB of the logical cache memory 24 of the corresponding tag to determine the logical cache memory 24. Check the validity.

If the logical cache memory 24 is valid, the reader 200 no longer requests data to the tag 210 and the logical memory manager 21 processes the ISO / IEC 15961 command through the logical cache memory 24. (S27)

Thereafter, when data update is required according to the ISO / IEC 15961 command, the data of the logical cache memory 24 is first changed. Then, the changed data is updated to the tag using the "Write Tag Memory" command of ISO / IEC 18000, and the authentication data reader ID and CCB are also updated through the "Write Tag Memory" command (S28).

If the logical cache memory 24 is not valid, the logical memory manager 21 requests the tag memory data read to read the memory data in the memory data storage area 25c (S26) and the data through the logical memory 22. Proceed with the processing.

Such a data processing system and data processing method of an RFID tag memory according to the present invention writes caching techniques of tag memory data and collects memory data of a tag once read as a cache data of a reader when repetitive memory data information is collected from a tag. Temporary storage reduces the performance of commands on the RF for repetitive memory data collection.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Such a data processing system and data processing method of the RFID tag memory according to the present invention has the following effects.

By applying the tag memory data caching technique, when collecting repetitive memory data information from a tag, temporarily storing the memory data of a tag once read as cache data of a reader can reduce command execution on the RF for repetitive memory data collection. .

Therefore, reducing the repetitive command execution on the RF has the effect of increasing the data stability on the RF communication.

In addition, when applied to the active tag can reduce the tag power consumption problem, it is effective to enable efficient system operation by reducing the data processing time in the RFID system.

Claims (11)

In the RFID tag memory data processing system, A command converting unit converting a command received from a user into a tag memory read command; A logical memory manager for checking whether a logical cache memory related to the tag exists and reading the authentication data stored in the tag memory and determining the validity of the logical cache memory by the converted command; And when the logical cache memory is valid, executing a command received from a user using the logical cache memory without reading data of the tag memory. The method of claim 1, wherein when it is determined that the contents of the logical cache memory are invalid, A data processing system of an RFID tag memory, characterized by reading data of a tag memory from a tag and processing data through a logical memory. The data processing system of claim 1, further comprising a data processing unit processing tag memory data of the logical cache memory or the logical memory and processing the tag memory data according to a command received from a user. The method of claim 3, wherein the data processed through the data processing unit, The data processing system of the RFID tag memory, which is updated in the tag memory according to the command and outputted in response to the command. The method of claim 1, wherein the authentication data, A data processing system of an RFID tag memory comprising a cache check byte storage area of a tag memory, a cache check byte (CCB) stored in a reader ID storage area, and a reader ID. In the data processing in the reader to perform a command received from the user, Converting a command received from a user into a tag memory read command; Reading logistic cache memory authentication data stored in the tag if there is a logical cache memory associated with the tag; If the validity of the logical cache memory is authenticated using the authentication data, performing a command received from the user through the logical cache memory without requiring data to the tag any more; data processing of the RFID tag memory Way. 7. The data processing method of claim 6, further comprising updating data in the logical cache memory according to a command received from a user, and updating data and authentication data in the tag memory. The method of claim 6, wherein if it is determined that the contents of the logical cache memory are invalid, The data processing method of RFID tag memory which reads data of tag memory from tag and processes data through logical memory. The method according to claim 6, wherein the authentication data includes a cache check byte (CCB), a reader ID, and the validity of the logical cache memory is authenticated. And a reader ID and a CCB read from a tag, comparing the reader ID and the CCB of the logical cache memory of the tag to verify the validity of the logical cache memory. 7. The structure of claim 6, wherein the structure of the index data stored in the reader to store the data of the once-read tag memory into the logical cache memory in the reader, A Memory Pointer pointing to the contents of the logical cache memory of the tag, A Tag ID that identifies the logical cache memory, Reader ID which stores the ID of the reader who last 'Write' the logical cache memory. A method of processing data in an RFID tag memory, comprising a Cache Check Byte (CCB) that changes every time a 'Write' is performed. The method of claim 10, wherein the index data stored in the reader, It includes an Error item that keeps the logical cache memory in 'Error state' so that the user can be notified that there is a problem updating the data of the tag and then can proceed with 'Write' again according to the user's command. RFID tag memory data processing method.

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