KR101041600B1 - Method for reading ???? tag data using transactions - Google Patents

Abstract

The present invention relates to a method of reading RFID tag data using transaction processing that dynamically reads packet data by dynamically adjusting a packet size indicating a data size that can be read from a tag at a time. Finding a packet size suitable for a communication environment of an existing reader area; reading tag data using the obtained packet size; finding a suitable packet size again if a data read failure occurs; Make it completely readable.

RFID, Transaction, Packet Size, Dynamic Scaling, Tag Data, Signal Strength

Description

How to read RDF tag data using transactions {Method for reading RDF tag data using transactions}

The present invention relates to a method for efficiently and completely reading RFID tag data. Specifically, a transaction process for dynamically reading a tag data by dynamically adjusting a packet size indicating a data size that can be read from a tag at a time. It relates to a method of reading RFID tag data using.

In general, RFID (Radio Frequency Identification) technology attaches RFID tags to goods mainly for applications such as port logistics, plant management, cold chain systems, warehouse management, and records data on tags or reads recorded data to efficiently manage goods. In this case, the data recorded from the RFID tag is collected wirelessly through RF communication and provided to the application.

Since RFID technology is a contactless wireless recognition technology, transmission failure may occur while reading a tag from an RFID reader.

Since the RFID system of the related art uses a method of reading all tag data in one command, there is a problem in that all data becomes meaningless when an error occurs even once.

A simple way to ensure complete data reading in an RFID system is to read all the data and then read the failed part again to make the complete data.

However, in the conventional method, since data is read using a fixed packet size determined before reading when a tag is read, there is a problem that a continuous read failure occurs or a read speed decreases in the process of rereading the data.

This is because the packet has the following characteristics depending on the size.

If the packet size is large, the data rate (speed) is high but the error rate is high. On the other hand, when the packet size is small, the data rate is slow but the error occurrence rate is low.

Therefore, in the prior art system using a fixed packet size, there is a problem in that the tag data cannot be read efficiently by flexibly adjusting the data transmission rate and the error occurrence rate.

The present invention is to solve the problem of the prior art RFID system, using a transaction processing to dynamically read the tag data by dynamically adjusting the packet size indicating the data size that can be read from the tag at a time Its purpose is to provide a method of reading RFID tag data.

According to the present invention, the packet size is dynamically adjusted while reading the tag data, and the packet size is read out by the packet size in sequence, and recovered immediately when a read failure occurs, or the packet is dynamically adjusted when a read failure occurs after reading the entire data. The purpose of the present invention is to provide a method of reading RFID tag data using transaction processing, which can provide only complete data by reading only the part that failed to read again.

SUMMARY OF THE INVENTION The present invention provides a transaction processing method for efficiently reading tag data in a minimum time without data loss by dynamically finding a packet size suitable for a reader region having a high error occurrence rate or a reader region having a low error occurrence rate. There is a purpose.

RFID tag data reading method using a transaction processing according to the present invention for achieving the above object is a step of finding a packet size suitable for the communication environment of the reader region in which the target tag to be read; Tag using the obtained packet size Reading data; if a data read failure occurs, finding a suitable packet size again.

Here, in order to find a packet size suitable for a communication environment of a reader area in which a target tag to be read exists, the signal size of the reader area is found through a reader, and the packet size is determined according to the signal strength.

In order to find the packet size that is suitable for the communication environment of the reader area where the target tag to be read exists, the appropriate packet size is found by varying the packet size according to the transmission success and failure rate from the specific value of the packet size. It is characterized by determining the packet size to be used for reading.

In the step of reading tag data by using the obtained packet size, the tag data is read while the tag data is sequentially read as much as the packet size, and the tag data is read according to the success or failure of the read.

In the step of reading tag data by using the obtained packet size, when the lost part occurs during reading after reading the entire tag data, only the part which fails to read is read after adjusting the packet size again.

According to another aspect of the present invention, there is provided a method of reading RFID tag data using transaction processing, the method comprising: finding a packet size suitable for a communication environment of a reader area in which a target tag to be read exists; reading tag data by the packet size; And determining the success or failure of the reading process and adjusting the packet size according to the success or failure of the reading.

In the process of determining whether the read process is successful, the data is read by adjusting the packet size when the data read fails in a predetermined number of times or the data read succeeds in a predetermined number of times.

According to another aspect of the present invention, there is provided a method of reading RFID tag data using transaction processing, the method comprising: finding a packet size suitable for a communication environment of a reader area where a target tag to be read exists; reading entire tag data of a corresponding area; ; Checking a part that has failed to read and adjusting a packet size to read only the part again.

The RFID tag data reading method using transaction processing according to the present invention has the following effects.

First, it has the effect of providing transaction processing techniques that support effective reads that provide complete data in a minimum amount of time.

Second, it is possible to effectively manage the product by receiving the data recorded in the tag which is important for product management without loss.

Third, by using the packet size dynamic adjustment method, the maximum data rate is guaranteed in the target reader area, and the tag data is selected by selecting the packet size with the lowest error rate to reduce the load that can be caused by the accumulation of many read commands in the reader. Can give

Fourth, complete tag data can be provided within a minimum time even if there are obstacles that prevent communication between the tag and the reader in the environment of the reader area where the target tag exists.

Fifth, since only a simple algorithm needs to be added, effective reading of tag data can be guaranteed without changing the RFID system.

Sixth, it is possible to grasp the communication environment state of the target reader area so that the tag data can be effectively read by selecting a packet size suitable for reading tag data.

Seventh, by providing accurate and complete tag data value in a short time, it can help to speed up logistics process.

Hereinafter, a preferred embodiment of the RFID tag data reading method using transaction processing according to the present invention will be described in detail.

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

1 is a block diagram illustrating a transaction processing procedure for performing a read command of RFID tag data of the present invention.

A feature of tag data read transaction processing in accordance with the present invention is to dynamically adjust the packet size.

That is, to find the packet size suitable for the communication environment of the reader area where the target tag to be read exists, find the appropriate packet size by varying the packet size according to the transmission success and failure rate from the specific value that the packet size can have. To determine the packet size to use when reading.

Here, the dynamic control of the packet size reads the data recorded in the tag memory sequentially and adjusts the packet size when read failure occurs, reads and restores the read failed data again, and the target reader area before reading the tag data. After finding the most suitable packet size for the environment, we can read the entire data and then divide it again by adjusting the packet size to read only the part that failed to read due to the change of environmental factors in the reader area.

Such tag data read transaction processing minimizes data loss while reading tag data, and provides complete data in a minimum amount of time.

Specifically, a transaction processing method that guarantees a complete read in a minimum time according to the present invention includes a process of dynamically adjusting a packet size to optimize data transmission rate and error occurrence rate.

According to the first embodiment of the present invention, the process of finding the optimal packet size after dynamically adjusting the packet size to find the optimal packet size and reading the entire tag data and then failing to read the result data It is possible to guarantee the complete reading of the data by finding and reading the packet size using the process again (processing the packet size dynamically to optimize the data rate and error rate).

The second embodiment according to the present invention reads the complete data while recovering the tag data immediately after the read failure occurs (a process of dynamically adjusting the packet size to optimize the data transmission rate and the error occurrence rate) while reading the tag data sequentially from the beginning. To ensure.

In this case, the process of dynamically adjusting the packet size to optimize the data rate and error rate may cause a read failure because the tag to be read does not respond to changes in the environment in which the tag to be read is recognized. This can be solved by dynamically adjusting the packet size.

In the case of the first embodiment of the present invention, the packet size suitable for the environment of the reader area in which the target tag to be read is obtained, all the tag data is read, and if the data that fails to read is present in the result, the packet size is adjusted again to be lost. The read data back to provide complete data.

In the case of the second embodiment of the present invention, when the environment of the reader area in which the target tag is to be read is frequently changed, the data is read one by one in sequence, and the data read fails and the packet size is continuously adjusted. Reread and successive successes also resize the packet to provide complete data in minimum time.

1 is a view for explaining a method for ensuring read success of tag data according to an embodiment of the present invention.

As shown in FIG. 1, a real user has only transmitted one logical read command to process a command issued by a user to read tag data, but several physical reads are performed internally in a real RFID system to ensure complete reading of tag data. The command is performed.

If any data is lost after reading all the tag data, one or more read commands are executed inside the RFID system even if the lost data is read again to recover the lost data. The same method is used when reading tag data.

Performing a logical read command with multiple physical read commands ensures a complete read without losing tag data.

A process of recovering lost data after reading all data in a transaction according to the present invention is as follows.

2 is a flowchart illustrating a process of recovering lost data after reading all data in a transaction according to the present invention, and FIG. 3 illustrates a process of recovering lost data after reading all data in a transaction according to the present invention. It is a block diagram.

FIG. 2 illustrates a process of retrieving and reading only a portion that fails to read after reading the entire tag data to be read while dynamically adjusting a packet size to obtain complete tag data in a minimum time when a tag data read command is executed. .

First, when a command to read data of a specific tag is transmitted to the user, when the target tag enters the reader area, the maximum packet size that can receive the tag data without data loss is found in the target reader area (S201).

Thereafter, the entire tag data requested by the user is read (S202), it is determined whether there is a portion of the read failure in the read result data (S203), and the portion missing data due to the read failure is designated as a read region. S204)

Then, since the environment of the reader area is variable, it finds the maximum packet size that can receive tag data without losing data in the target reader area, reads the data that failed to read in order, and restores the result data as complete data. (S205) (S206)

FIG. 3 illustrates a process of recovering lost data after reading all the data of FIG. 2. The tag data requested by the user is dynamically modified using a technique of dynamically adjusting a packet size and reading specific tag data requested by the user. It is a flow chart of transaction processing method that finds only the part that failed to read after reading all, adjusts the packet size only to the part that failed and reads it again to make complete result data.

The process of immediately recovering when a read failure occurs while reading sequentially in the unit of packet size in the transaction according to the present invention is as follows.

4 is a flowchart illustrating a process of immediately recovering when a read failure occurs while sequentially reading by a packet size unit of a transaction according to the present invention, and FIG. 5 sequentially reading by a packet size unit of a transaction according to the present invention. This is a block diagram showing the process of recovering immediately when a read failure occurs.

As shown in FIG. 4, in order to read specific tag data requested by a user, a maximum value of a packet size that can read tag data without data loss is found in a target reader area where a target tag exists (S401). Read the data (S402).

While reading the tag data by the found packet unit, it is determined whether the read is successful (S403). If a read failure occurs, the read of the failed part is attempted again (S404).

If it fails to read continuously, it finds a packet size suitable for the target reader area again (S401) and starts reading using the packet size (S403).

On the other hand, if the read is successful, it is determined whether or not the read is terminated (S405), and continuously changed to the next read tag memory address (S406). It finds a packet size that can read tag data at one time that is larger than the set packet size available and uses the packet size to read the remaining data.

At this time, if the packet size is set to the maximum value supported by the reader or the current packet size is suitable for reading tag data without loss, the packet size does not change.

FIG. 5 illustrates the process of FIG. 4 in more detail. The packet size that can read specific tag data requested by the user without loss of data in the target reader area is sequentially read in units of the packet size, and the tag data read failure is continuously performed. In the event of success or success, this is a flow chart of transaction processing method to find the optimal packet size and read all requested tag data.

The RFID tag data reading method using transaction processing according to the present invention finds the signal strength of the reader area through the reader in order to find the packet size suitable for the communication environment of the reader area in which the target tag to be read is located and the signal strength. By setting the packet size accordingly, it is possible to guarantee the data transmission speed, to reduce the load on the reader by appropriate read command processing, and to provide complete tag data.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the 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.

1 is a block diagram illustrating a transaction processing procedure for performing a read command of RFID tag data of the present invention.

2 is a flowchart illustrating a process of recovering lost data after reading all data in a transaction according to the present invention.

3 is a diagram illustrating a process of recovering lost data after reading all data in a transaction according to the present invention.

4 is a flowchart illustrating a process of immediately recovering when a read failure occurs while sequentially reading by a packet size unit of a transaction according to the present invention.

5 is a block diagram illustrating a process of immediately recovering when a read failure occurs while sequentially reading by a packet size unit of a transaction according to the present invention.

Claims (8)

In the method of reading the data of the tag existing in the reader area in the reader of the RFID system comprising a tag for storing data and a reader for reading the data of the tag, Finding a packet size suitable for a communication environment of a reader area where a target tag to be read in the reader exists; Reading tag data using the packet size found by the reader; And searching for a suitable packet size in the reader if a failure occurs in the data reading step. The method of claim 1, wherein the packet size suitable for a communication environment of a reader area in which a target tag to be read exists is RFID tag data reading method using transaction processing, characterized in that finds the signal strength of the reader area through the reader to determine the packet size according to the signal strength. The method of claim 1, wherein the packet size suitable for a communication environment of a reader area in which a target tag to be read exists is A method of reading RFID tag data using transaction processing, characterized by determining the packet size to use when reading tag data by finding a suitable packet size by varying the packet size according to transmission success and failure rate from a specific value of the packet size. The method of claim 1, wherein the tag data is read using the obtained packet size. A method of reading RFID tag data using transaction processing, wherein the tag data is read sequentially as much as the packet size, and the tag data is read according to the success or failure of the read. The method of claim 1, wherein the tag data is read using the obtained packet size. Method of reading RFID tag data using transaction processing, characterized in that after reading the whole tag data, if the lost part occurs during reading, only the part that failed to read is read after adjusting the packet size again. In the method of reading the data of the tag existing in the reader area in the reader of the RFID system comprising a tag for storing data and a reader for reading the data of the tag, Finding a packet size suitable for a communication environment of a reader area where a target tag to be read in the reader exists; Reading tag data by a packet size in the reader; And determining the success or failure of the reading step in the reader to adjust the packet size according to the success or failure of the reading. The method of claim 6, wherein in determining whether the reading step is successful, A method of reading RFID tag data using transaction processing, characterized in that the data is read by adjusting the packet size when the data read fails continuously a predetermined number of times or the data read succeeds a predetermined number of times. In the method of reading the data of the tag existing in the reader area in the reader of the RFID system comprising a tag for storing data and a reader for reading the data of the tag, Finding a packet size suitable for a communication environment of a reader area where a target tag to be read in the reader exists; Reading full tag data of a corresponding area in the reader; Identifying a portion of the reader that has failed to read, adjusting a packet size, and rereading only the corresponding portion; RFID tag data reading method using transaction processing.

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