KR101227154B1 - Reader communicating system for radio frequency identification tag and communicating method thereof - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a radio frequency identification tag reader device and a communication method thereof, which can more efficiently communicate with an RFID reader device that reads and writes data on an RFID tag.
The reader device of the radio frequency identification tag according to the present invention is connected to a network with an RFID reader device that writes data to the radio frequency identification tag and reads the data recorded on the radio frequency identification tag, and transmits network setting information and RFID reader protocol setting information. A control unit connected to the RFID reader using the network connection unit and the RFID reader protocol setting information; A data processing unit for writing data to a radio frequency identification tag or reading data stored in the radio frequency identification tag by using a control unit; And a memory storing network connection information and setting information of the RFID reader protocol and supplying the control unit and the data processing unit.

Description

READER COMMUNICATING SYSTEM FOR RADIO FREQUENCY IDENTIFICATION TAG AND COMMUNICATING METHOD THEREOF}

The present invention relates to a reader device for a radio frequency identification tag and a communication method thereof, and more particularly, to a reader device for radio frequency identification tag and a communication method thereof for reading and writing data to a radio frequency identification tag.

BACKGROUND OF THE INVENTION The use of radio frequency identification tags (RFID TAGs, hereinafter referred to as RFID tags) for recording various types of information on tags is increasing.

The RFID tag wirelessly communicates with the RFID reader device to transmit data stored in the user memory in the RFID tag. In addition, the RFID reader device accesses the user memory of the RFID tag and records data in the user memory or reads the recorded data. In addition, the RFID reader device transmits the data read from the user memory to the application system to perform various tasks in the application system.

In order to transmit data to the application system, the RFID reader device uses RFID middleware, which is software that links the RFID reader device and the RFID application system. The RFID middleware controls the RFID reader device through a communication protocol with the RFID reader device and defines a command and response method for setting and inquiring a specific function. Table 1 below shows the RFID reader protocol.

division ISO / IEC 15961 EPCglobal RP EPCglobal RM EPCglobal LLRP TTAK.KO-06.0220 TTAK.KO-06.0196 Main purpose RFID tag memory setting and control RFID reader setup and high-level reader control Status monitoring and alarm control of RFID reader Reader Protocol Based on RFID Reader and Tag Characteristics Lightweight interface for RFID tag memory access control RFID Reader Protocol Suitable for Mobile Phones Command Count 16 148 93 16 8 38 Notification message - offer offer offer offer - Message format - XML, Text XML, SNMP Binary Binary Binary Characteristic Link to ISO / IEC 15962 RFID Reader Object Model Based RFID Reader Status Management and Settings Need to understand RF characteristics Consider development and operational efficiency Mobile RFID Reader Support

Each RFID reader protocol presented above has its own characteristics and constraints and its main functions are different. Therefore, each RFID reader device supports different RFID reader protocols. Therefore, in order to interwork RFID reader devices of different termination in the RFID middleware, there is a problem that a complicated setup process, such as performing a separate development process, is involved.

SUMMARY OF THE INVENTION An object of the present invention is to provide a radio frequency identification tag reader device and a communication method thereof, which can more efficiently communicate with an RFID reader device that reads and writes data on an RFID tag.

In order to achieve the above object, a first aspect of the present invention is connected to an RFID reader device that writes data to a radio frequency identification tag and reads data recorded on the radio frequency identification tag, and is connected to a network, and establishes network configuration information and an RFID reader protocol. A network connection unit for transmitting information, a control unit connected to the RFID reader apparatus using RFID reader protocol setting information; A data processing unit for writing data to a radio frequency identification tag or reading data stored in the radio frequency identification tag by using a control unit; And a memory storing network connection information and setting information of the RFID reader protocol and supplying the control unit and the data processing unit.
Additionally, the data processing unit configures one RFID reader device as one logical reader, configures one RFID reader device as a plurality of logical readers, or sets a plurality of the RFID reader devices as one set. The present invention provides a reader device for a radio frequency identification tag that configures the set as one logical reader.
In addition, the network connection information is to provide a reader device for a radio frequency identification tag including the ID of the RFID reader device, the IP address of the RFID reader device, the connection status of the RFID reader network.
Additionally, the setting information of the RFID reader protocol is to provide a reader device for a radio frequency identification tag including information on an RFID reader protocol name, whether the RFID reader protocol is provided, and an RFID reader protocol providing port.
In addition, the control unit provides a reader device for a radio frequency identification tag that stores the RFID protocol connection information in the memory when connected to the RFID reader device.
According to a second aspect of the present invention, an RFID reader network connection unit recognizes an RFID reader device on a network, and the RFID reader network connection unit stores RFID reader network connection information and RFID reader protocol setting information in a memory, wherein the RFID reader protocol It provides a communication method of a reader device for a radio frequency identification tag comprising the step of connecting the RFID reader device and the RFID control unit through the setting information.
Additionally, the RFID reader data processing unit inquires the RFID reader network connection information in the memory, and the RFID reader control unit further comprises the step of writing or reading data in the RFID tag through the RFID reader device. It is to provide a communication method.
Additionally, when the RFID reader device and the network connection are valid through the RFID reader network connection information, communication of the reader device for the radio frequency identification tag that records the time when the RFID reader device connected to the RFID reader device is connected. To provide a way.

According to the reader device for a radio frequency identification tag and the communication method thereof according to the present invention, it can be effectively used to collect RFID tag data in conjunction with various kinds of RFID reader devices, in particular, the development of application services using a plurality of RFID reader devices And the development efficiency that occurs in the system construction can be increased. In addition, in the ubiquitous network environment based on RFID technology, it is easy to construct a ubiquitous infrastructure by securing reliability of data collection and control of various types of RFID readers.

1 is a structural diagram showing a reader device for a radio frequency identification tag according to the present invention.
2 is a structural diagram showing a platform shown in FIG.
3 is a flowchart illustrating a connection process between a platform and a network connection unit.
4 is a flowchart illustrating a first embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader device.
5 is a flowchart illustrating a second embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader device.
6A and 6B are flowcharts illustrating a first embodiment of a method of connecting an RFID reader protocol by an RFID reader controller.
7 is a flowchart illustrating a third embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader.
8 is a flowchart illustrating a first embodiment of a procedure for terminating the connection between the RFID reader device and the platform.

Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through these embodiments.

1 is a structural diagram showing a reader device communication system for a radio frequency identification tag according to the present invention.

Referring to FIG. 1, a reader device communication system 100 for a radio frequency identification tag includes an RFID reader device 110, a platform 120, and an application system 130.

The RFID reader 110 reads data stored in the user memory 145 of the RFID tag 140 through radio frequency communication with the plurality of RFID tags 140 or the user memory 145 of the RFID tag 140. Write data to That is, the RFID reader 110 collects an RFID tag identifier from the RFID tag 140, records an RFID tag identifier, inquires and records data stored in the user memory 145 of the RFID tag, and retrieves data from the RFID tag 140. Deactivation settings, etc. are performed through the communication protocol.

The platform 120 associates the RFID reader device 110 with the application system 130. The platform 120 is connected to the RFID reader device 110 through an RFID protocol to control the RFID reader device 110 and define a command and response method for inquiring setting of specific functions, data, and the like. In addition, the platform 120 accesses the user memory 145 of the RFID tag 140 to read data stored in the user memory 145 or write data to the user memory 145.

The application system 130 may use data written in the RFID tag 140 through the RFID reader device 110 and may process processes such as distribution, drug management, and asset management.

2 is a structural diagram showing the structure of the platform shown in FIG.

2, the platform 120 includes an RFID reader network connection unit 120a, an RFID reader control unit 120b, an RFID tag data processing unit 120c, and a memory 120d.

The RFID reader network connection unit 120a is connected to the RFID reader device 110 so that the platform 120 is connected to the RFID reader device 110. The RFID reader network connection unit 120a monitors the discovery and initial setting of the RFID reader device 110 and its operation state on the network. The RFID reader network connection unit 120a employs one of an RFID reader device 110, a transmission control protocol (TCP), a user datagram protocol (UDP), a hypertext transfer protocol (HTTP), a remote method invocation (RMI), and the like. Is connected.

The RFID reader controller 120b controls the RFID reader device 110 to write data to the user memory 145 of the RFID tag 140 or to read the user memory 145. When the RFID reader network connection unit 120a and the RFID reader device 110 are connected through a network, the RFID reader control unit 120b connects the RFID reader device 110 using an RFID protocol.

The RFID tag data processing unit 120c registers a procedure for performing a series of processors using the data in advance, and writes the data into the user memory 145 of the RFID tag 140 or the user memory according to the registered procedure. It serves to read the data written in the (145).

The memory 120d may include attributes of the RFID reader device 110 such as ID of the RFID reader device 110, a manufacturer of the RFID reader device 110, a connection state of the RFID reader device 110, and an RFID reader device protocol. It is used to store and query predefined rules for processing data stored in 140.

3 is a flowchart illustrating a connection process between a platform and a network connection unit.

Referring to FIG. 3, first, the RFID reader network connection unit 120a searches for the RFID reader device 110 and 300a, and discovers the RFID reader device 110. (310a) In addition, the RFID reader network connection unit 120a ) Receives the presence signal of the RFID reader device 110 output from the RFID reader device 110 (300b) and transmits a confirmation signal of the RFID reader device discovery to the RFID reader device 110. Can be found (310b).

Then, when the RFID reader network connection unit 120a makes an RFID reader network authentication request to the RFID reader device 110 (320), the RFID reader device 110 transmits an RFID reader network authentication signal (330). When the authentication is confirmed by receiving a network authentication signal, the 120a performs an initial configuration inquiry and setting of the RFID reader device 110. (340) The RFID reader device 110 connects the RFID reader network 120a. In step 350, the RFID reader device 110 inquires the operation attribute information that can be provided, and if necessary, the firmware version of the RFID reader device 110 is checked and updated. Then, the RFID reader network connection unit 120a initializes the RFID reader device 110 so that the RFID reader device 110 is initialized (360), and the RFID reader device 110 is initialized to the RFID reader network connection unit 120a. When the initialization is completed, the RFID reader device 110 is connected to the RFID reader controller 120b through a specific protocol.

4 is a flowchart illustrating a first embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader device.

Referring to FIG. 4, the RFID reader network connection unit 120a initializes the RFID reader device 110 and stores the connection information of the network connected to the RFID reader device 110 in the memory 120d. ) The connection information stored in the memory 120d includes IDs of the RFID readers 110 (for example, 'R1', 'R2', 'R3', 'R3'), and IP addresses of the RFID readers 110. (Eg, '192.168.1.1'), and a connection state of the RFID reader network (eg, 'Connected', 'Disconnected', 'Unknown') and the like. That is, information such as {'R1', '192.168.1.1', 'Connected'} is stored in the memory 120d. In addition, the RFID reader network connection unit 120a receives the configuration information of a specific protocol supported by the RFID reader device 110 and stores the received configuration information in the memory 120d. Name (for example, 'EPCglobalRP1.0', 'ISO / IEC2791-5', 'TTASRP'), whether to provide the RFID reader protocol or not, and whether to provide the RFID reader protocol (for example, 'True', 'False '), Information about the RFID reader protocol providing port (eg,' 3084 '), which is a port providing a network protocol for the corresponding RFID reader protocol, is included. Therefore, when the RFID reader 110 supports reader protocols for EPCglobalRP1.0 and ISO / IEC2791-5, the memory 120d has {'R1', 'EPCglobalRP1.0', 'True', '4684'}, Reader protocol setting information such as {'R1', 'ISO / IEC2791-5', 'True', '4684'} is stored.

In addition, the RFID reader network connection unit 120a instructs the RFID reader control unit 120b to connect a predetermined RFID reader protocol supported by the RFID reader device 110. (403) At this time, the RFID reader network connection unit 120a Information transmitted to the RFID reader controller 120b includes an 'RFID reader ID' and a 'RFID reader protocol name'. At this time, the RFID reader controller 120b inquires the memory 120d of the information necessary for the connection of the RFID reader protocol, that is, the RFID reader protocol providing port information of the specific RFID reader, in order to receive the information through the RFID reader network. (404)

In addition, the RFID reader controller 120b may use the RFID reader device using the RFID reader protocol by using the obtained reader protocol connection setting information (for example, RFID reader IP address, RFID reader protocol name, and RFID reader protocol providing port). 110) (405)

In addition, the RFID reader controller 120b receives a signal corresponding to the RFID reader protocol connection from the RFID reader device 110. In operation 406, one or more messages may be transmitted or received according to its own regulation of the predetermined RFID reader protocol. It may further proceed between the RFID reader controller 120b and the RFID reader device 110. That is, in the case of the specification of EPCglobalRP, an additional message exchange may be performed to negotiate a message format (eg, 'XML', 'Text', etc.) or a protocol version (eg, '1.1', '1.2'). Can be.

If the RFID reader controller 120b successfully connects with the RFID reader device 110, the RFID reader controller 120b stores the RFID reader protocol connection information in the memory 120d using the RFID protocol. The control unit 120b provides the connection information to the RFID reader network connection unit 120a, the RFID tag data processing unit 120c, and / or the application system 130, and transmits an RFID protocol connection command to the RFID reader network connection unit 120a. (408)

The RFID tag data processing unit 120c checks the network connection state with the RFID reader device 110 through the memory 120d or the RFID reader network connection unit 120a. (409) At this time, the RFID tag data processing unit 120c is connected to the network. It is also possible to check the connection state through the RFID reader network connection unit 120a. If the connection status of the RFID reader network is not 'Connected', the following process does not proceed.
The RFID tag data processing unit 120c accesses the user memory 145 of the RFID tag 140 through the RFID reader device 110 to the RFID reader control unit 120b to write or read data. The RFID tag data access command, such as an access command, is transmitted. (410) At this time, the data access operation of the callable RFID tag 140 to the user memory 145 is performed by collecting RFID tag identifier, recording RFID tag identifier, and RFID tag 140. Data inquiry or recording stored in the user memory 145 of the < RTI ID = 0.0 >),< / RTI > The RFID reader controller 120b transmits a data access operation command message to the RFID reader 140 of the RFID tag 140 to the user memory 145. In operation 411, the RFID reader controller 120b receives a command. In order to generate the message, the RFID reader ID, the RFID reader network connection status, the RFID reader protocol name, the RFID reader protocol connection status, the user memory 145 data access operation name and related parameters of the RFID tag 140, and the command message ID is required.

The RFID reader controller 120b receives a response message according to a data access operation result of the RFID tag 140 performed by the RFID reader device 110 on the user memory 145 (412), and the RFID reader controller 120b. The data transfer result of accessing the user memory 145 data of the RFID tag 140 to the RFID tag data processing unit 120c.

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5 is a flowchart illustrating a second embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader device.

Same as the flowchart of FIG. 4 except for storing the RFID reader network connection information. Therefore, only the parts with differences are shown.

Referring to FIG. 5, in order to deliver network connection information of the RFID reader 110 and the platform 120 to each component, the RFID reader network connection unit 120a stores the RFID reader network connection information in the memory 120d. (502) The RFID reader network connection unit 120a notifies the RFID reader control unit 120b of the network connection of the RFID reader device (503) and notifies the RFID tag data processing unit 120c of the network connection of the RFID reader device. 504)

In this case, the information transmitted to the RFID reader controller 120b includes an RFID reader ID and an RFID reader IP address. In addition, the information transmitted to the RFID tag data processing unit 120c includes an RFID reader ID and a list of antenna names supported by the RFID reader device 110.

Here, although the RFID reader control unit 120b and the RFID tag data processing unit 120c are shown to receive information directly from the RFID reader network connection unit 120a, the RFID reader control unit 120b and the RFID tag data processing unit 120c may be The memory 120d received the information from the RFID reader network connection unit 120a may be searched to obtain the information.

6A and 6B are flowcharts illustrating a first embodiment of a method of connecting an RFID reader protocol by an RFID reader controller.

6A and 6B, the RFID reader 110 is connected to the RFID reader network connection unit 120a through a network and the RFID reader network connection unit 120a recognizes the connection (601). The connection unit 120a stores the connection information in the memory 120d. (602) The RFID reader network connection unit 120a stores the RFID reader protocol setting information in the memory 120d. The network connection unit 120a determines whether the RFID reader device 110 and the RFID network connection are valid. If the network connection is not valid, the network connection unit 120a stores the RFID protocol connection information in the memory 120d so that the connection is valid. If the network connection is valid, it is determined whether or not the number of reader protocols to be connected with the number of reader reader protocols to be connected is identical (606). ) That is, when the number of RFID reader protocols to be connected with the number of RFID reader protocols match, it is determined that all the RFID reader devices 110 and the RFID reader network connection unit 120a existing on the network are connected. If the number of RFID reader protocols to be connected to and the number of RFID reader protocols do not match, it is determined that the RFID reader device 110 that is not connected to the RFID reader network connection unit 120a exists on the network. When the number of reader protocols to be connected with the number of RFID reader protocols connected to the RFID reader apparatus 110 matches, the RFID reader network connection unit 120a records the time of the matched time as a time stamp.

In addition, the RFID reader network connection unit 120a periodically checks that it is connected to the RFID reader device 110 through the network. (608) In order to check whether the network is periodically connected, a time stamped time stamp This can be achieved by confirming that the network connection is maintained again after a certain time elapses.If the time difference recorded in the timestamp and the current time is greater than the period for the connection check, Through the RFID reader network connection unit 120a and the RFID reader device 110 again check whether or not. If the time difference recorded in the time stamp and the current time is smaller than the period for confirming the connection, the time difference between the time recorded in the time stamp and the current time becomes larger than the stock price.

If the number of reader protocols to be connected with the number of RFID reader protocols connected to the RFID reader apparatus 110 does not match, acquiring setting information necessary for connection to the RFID reader protocol, and (609) the RFID reader protocol connection signal is received from the RFID reader apparatus. In operation 610, the RFID reader network connection unit 120a determines whether an RFID reader protocol connection confirmation has been received (611). If not, the RFID reader network connection unit 120a transmits the RFID reader protocol connection signal to the RFID reader device 110 again. In step 612, the RFID reader protocol connection information is stored in the memory 120d, and it is determined whether the network connection with the RFID reader 110 is valid.

7 is a flowchart illustrating a third embodiment of a procedure in which an RFID reader controller writes data into a memory of an RFID tag and reads the written data through the RFID reader.

Referring to FIG. 7, the RFID reader network connection unit 120a initializes the RFID reader device 110 and stores the connection information of the network connected to the RFID reader device 110 in the memory 120d. In addition, the RFID reader network connection unit 120a receives the configuration information of a specific protocol supported by the RFID reader device 110 and stores it in the memory 120d.

In addition, the RFID tag data processing unit 120c instructs the RFID reader control unit 120b to read data in the user memory 145 of the RFID tag 140 or to write data in the user memory 145. In addition, the RFID reader controller 120b inquires the RFID reader protocol setting information from the memory 120d, and then sets the RFID reader protocol to perform a connection operation with the RFID reader device 110 (705). The reader device 110 confirms the connection with the RFID reader controller 120b. (706) In addition, the RFID reader controller 120b receives the RFID reader protocol connection information from the RFID reader protocol 110 when the connection confirmation is received from the RFID reader device 110. In operation 707, the RFID reader controller 120b reads data from the user memory 145 of the RFID tag 140 received from the RFID tag data processor 120c or reads the RFID tag 140. Data or write data into the user memory 145 The RFID reader device 110 transmits a message corresponding to a command to read the data to the RFID reader device 110, and the RFID reader device 110 transmits a result of processing corresponding to the command to write or read data. In operation 710, the RFID reader control unit 120b transmits the processing result corresponding to the command to write or read data to the RFID tag data processing unit 120c.

8 is a flowchart illustrating a first embodiment of a procedure for terminating the connection between the RFID reader device and the platform.

Referring to FIG. 8, when the connection between the RFID reader device 110 and the RFID reader network connection unit 120a is terminated, the RFID reader network connection unit 120a stores the RFID reader network connection information in the memory 120d (800). In addition, the RFID reader network connection unit 120a notifies the RFID tag data processing unit 120c of the network connection termination (802), and notifies the RFID reader control unit 120b of the network connection termination. The RFID reader controller 120b stores the RFID reader protocol connection information in the memory 120d when the network connection termination is notified from the RFID reader network connection unit 120a.

Although the technical spirit of the present invention has been described in detail according to the above-described preferred embodiment, it should be noted that the above-described embodiment is for the purpose of description and not of limitation. In addition, it will be understood by those of ordinary skill in the art that various embodiments are possible within the scope of the technical idea of the present invention.

110: RFID reader device 120: platform
120a: RFID reader network connection unit 120b: FID reader control unit
120c: RFID tag data processing unit 120d: memory
130: application system

Claims (8)

Performing network connection with an RFID reader device that writes data to a radio frequency identification tag and reads data recorded on the radio frequency identification tag, and transmits network connection information and RFID reader protocol setting information received from the RFID reader device; Network connection;
A control unit for performing a protocol connection with the RFID reader device using the RFID reader protocol setting information;
A data processor for writing data to the radio frequency identification tag or reading data stored in the radio frequency identification tag by using the controller; And
And a memory storing the network connection information and the RFID reader protocol setting information and supplying the network connection information and the RFID reader protocol setting information to the control unit and the data processing unit.
The method of claim 1,
The data processing unit configures the set by configuring one RFID reader device as one logical reader, configuring one RFID reader device as a plurality of logical readers, or setting a plurality of the RFID reader devices as one set. A reader device for a radio frequency identification tag composed of one logical reader. The method of claim 1,
And the network connection information includes an ID of the RFID reader device, an IP address of the RFID reader device, and a connection state of the RFID reader network. The method of claim 1,
The setting information of the RFID reader protocol includes a RFID reader protocol name, whether the RFID reader protocol is provided, and information on an RFID reader protocol providing port. The method of claim 1,
The control unit is a radio frequency identification tag reader device for storing the RFID protocol connection information, when connected to the RFID reader device. Recognizing an RFID reader device on a network and performing a network connection with the recognized RFID reader device;
Storing network connection information with the RFID reader device and RFID reader protocol setting information received from the RFID reader device; And
And performing a protocol connection with the RFID reader device by using the RFID reader protocol setting information. The method according to claim 6,
Inquiring the stored network connection information and writing or reading data in an RFID tag through the RFID reader. The method of claim 7, wherein
And when the network connection information is valid through the network connection information and all the RFID reader protocols connected with the RFID reader device are connected, recording a time point of the connection. Way.

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