KR20100101953A - Rfid antenna system on middleware technology and method of the same - Google Patents

Abstract

PURPOSE: An RFID antenna system and a control method of a middleware base controlling a communications environment between a system management server and a reader are provided to maximize the transmission and reception rate by using state information of the reader. CONSTITUTION: An antenna(110) receives a tag signal. A reader(120) demodulates the tag signal received through the antenna into tag data. A data communications module(132) receives a message tag data from reader. An SNMP communications module(131) receives the status information of reader from the reader.

Description

Middleware-based RDF antenna system and its control method {RFID ANTENNA SYSTEM ON MIDDLEWARE TECHNOLOGY AND METHOD OF THE SAME}

The present invention relates to an RFID antenna system for managing a network based on middleware using an SNMP communication module and a control method of an RFID antenna system using the same.

In general, RF (Radio Frequency IDentification) technology refers to a technology for contactlessly reading data stored in a tag, a label, a card, etc., in which a small semiconductor chip is embedded, using a radio frequency signal. .

Such radio identification technology uses radio frequency signals to recognize the information of the article and its surroundings from the tags attached to the article, thereby collecting, storing, processing, and tracking the information of each article, thereby positioning, It provides various services such as remote processing, management and information exchange between goods.

The RFID antenna system can be managed by being connected to a network management system. In particular, akgs is used as a simple network management protocol (SNMP) based network management method for centrally managing networks having different types from one place. The SNMP protocol is an application layer protocol and is a protocol made for exchanging management information between network devices. The SNMP protocol uses a standard called a management information base (MIB). SNMP is a protocol that constitutes a TCP / IP protocol shooter. It allows network administrators to manage information about network performance, help them to find and solve problems when they occur on the network, and to monitor the network's saints. Assist in planning. SNMP is widely used as a network management protocol standard because it is simple and easy to implement for network management.

The present invention provides an RFID antenna system for controlling a communication environment in an RFID middleware using an SNMP communication module and a control method of an RFID antenna system using the same.

RFID antenna system according to an embodiment of the present invention for realizing the above object, an antenna for receiving a tag signal, a reader for demodulating the tag signal received through the antenna into tag data, receiving the tag data from the reader Performs data processing using a data communication module, an SNMP communication module receiving state information of the reader from the reader, and tag data received from the data communication module, and using the state information of the reader received from the SNMP communication module. It includes an RFID middleware for controlling the communication environment between the reader and the system management server.

In addition, the RFID middleware receives the error information of the reader from the SNMP communication module, and controls to transmit a reset command to the reader.

In addition, the RFID middleware receives the communication failure information of the reader from the SNMP communication module, and controls to transmit a recovery request command to the system management server.

In addition, the RFID middleware receives the status information of the reader from the SNMP communication module, transmits the status information to an external reader management server and receives a management command corresponding to the status information.

According to an aspect of the present invention, there is provided a method of controlling an RFID antenna system, the method comprising: transmitting status information of a reader from a reader to an SNMP communication module; And transmitting to the wear and controlling the communication environment between the reader and the system management server by using the state information of the reader in the RFID middleware.

In the controlling of the communication environment in the RFID middleware, the RFID middleware receives error information of a reader from the SNMP communication module and transmits a reset command to the reader.

In the controlling of the communication environment in the RFID middleware, the RFID middleware receives the communication failure information of the reader from the SNMP communication module, and transmits a recovery request command to a system management server.

The controlling of the communication environment in the RFID middleware may include: receiving the state information of the reader from the SNMP communication module, transmitting the state information to an external reader management server, and the RFID middleware. The method may further include receiving a management command corresponding to the status information from the external reader management server.

The transmitting of the status information by the RFID middleware to the external reader management server may include analyzing the status information at the external reader management server and corresponding to the status information at the external reader management server. Generating a management command.

The RFID antenna system according to at least one embodiment of the present invention configured as described above has an advantage of maximizing a transmission / reception rate by performing communication using state information of a reader.

DETAILED DESCRIPTION Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. It should be noted that the same reference numerals and the same elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of an RFID antenna system according to an embodiment of the present invention.

Referring to FIG. 1, an RFID antenna system 100 according to an embodiment of the present invention includes an antenna 110, a reader 120, an SNMP communication module 131, a data communication module 132, and an RFID middleware ( 133 and database 140.

The antenna 110 performs data transmission and reception between the reader and the tag.

The reader 120 demodulates tag data transmitted from the antenna 110. The reader 120 includes a Simple Network Management Protocol (SNMP) AGENT 121 and a data AGENT 122. The SNMP refers to an application layer standard protocol defined on TCP / IP for the purpose of managing and monitoring network equipment. In other words, the SNMP allows the network administrator to manage network performance and find and correct network problems. Thus, an administrator can query a server that supports SNMP to receive data, and vice versa. The SNMP AGENT 121 is connected to the SNMP communication module 131 and performs a function of transmitting status information of the reader 120. In addition, the data AGENT 122 performs a function of transmitting the tag data received through the antenna 110 to the data communication module 132.

The SNMP communication module 131 receives state information of the reader from the reader 120. The state information may include normal state information and abnormal state information. Specific examples of the abnormal state information may include error information in which the reader malfunctions or incapacity information indicating that the reader cannot communicate. The SNMP communication module 131 is connected to the SNMP AGENT 121 of the reader 120.

The data communication module 132 receives tag data from the reader 120. The tag data is object data to which a tag transmitted from an external tag is attached. The data communication module 132 is connected to the data AGENT 122 of the reader 120.

The RFID middleware 133 controls the communication environment between the reader and the system management server using the state information of the reader received from the SNMP communication module 131. In addition, the RFID middleware 133 performs data processing using tag data transmitted from the data communication module 132. The middleware refers to software that connects different types of hardware, protocols, and communication environments in a distributed computing environment to enable smooth communication between an application program and an environment in which the program is operated. Therefore, the RFID middleware 133 analyzes the communication environment between the reader 120 and the system management server to control smooth communication. For example, when the RFID middleware 133 receives the error information of the reader from the SNMP communication module 131, the RFID middleware 133 transmits a reset command for rebooting the reader in response to the error information. In addition, when the RFID middleware 133 receives the communication failure information of the reader from the SNMP communication module 132, a command for requesting a recovery to the system management server so that an external administrator can take action on the communication failure state of the reader. Can be transmitted. In addition, the RFID middleware 133 may be connected to an external reader management server to control the reader by a command of the reader management server.

2 is a block diagram of an RFID antenna system connected to an external management server according to an embodiment of the present invention.

2, the RFID antenna system 100 according to an embodiment of the present invention is connected to an external management server 200.

The external management server 200 includes a module 210 for performing a collection analysis operation by SNMP, a database 220 and a module 230 for generating a management command of the reader.

The module 210 which performs the collection analysis operation by the SNMP receives a status command of the reader from the RFID antenna system 100 and transmits the status command to the collection module 211. The private management information base (MIB) information is analyzed using the status command of the reader received by the collection module 211. Specific state information such as a reader operating state and an antenna state of the reader is defined and managed separately in a private MIB area. Accordingly, the MIB analysis is performed using a module 230 that uses the MIB analysis module 212 to identify the state information of the reader using data stored separately in the private MIB area and generates a management command of the reader through the interface 213. Send the result. At this time, the database 220 connected to the module 210 for performing the collection analysis by the SNMP may be used.

The module 230 generating the management command of the reader receives the MIB analysis result through the interface 231 from the module 210 performing the collection analysis by the SNMP through the database 220. The reader status analysis module 232 included in the module 230 generating the management command of the reader may determine the status of the reader using the MIB analysis result and control the reader from the action processing module 233. Generate the command and send it to the RFID antenna system.

3 is a view for explaining an example of using a plurality of RFID antenna system according to an embodiment of the present invention.

Referring to FIG. 3, the RFID antenna system 100 is a user system and a plurality of RFID antenna systems are connected to one external management server 200. The external management server may be a hardware maintenance company. The RFID antenna system 100 identifies the state information of the reader and transmits data to the external management server 200, and the external management server 200 receiving the data corresponds to the state of each antenna system 100. An action command is generated and transmitted to the RFID antenna system 100.

4 is a diagram illustrating a control process of an RFID antenna system according to an exemplary embodiment of the present invention.

4, the state information of the reader is transmitted from the reader to the SNMP communication module (S410). The SNMP communication module receiving the state information of the reader transmits the state information to the RFID middleware (S420). The RFID middleware having received the state information transmits state information to an external reader management server (S430). The external reader management server receiving the status information of the reader analyzes the received status information (S440). As a result of the analysis, an external management server generates a management command corresponding to the status information (S450), and the generated management command is transmitted from the external management server to the RFID middleware (S460). The RFID middleware that has received the management command controls the reader by an action according to the management command (S470).

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the appended claims as well as the equivalent scope of the claims.

1 is a block diagram of an RFID antenna system according to an embodiment of the present invention.

2 is a block diagram of an RFID antenna system connected to an external management server according to an embodiment of the present invention.

3 is a view for explaining an example of using a plurality of RFID antenna system according to an embodiment of the present invention.

4 is a diagram illustrating a control process of an RFID antenna system according to an embodiment of the present invention.

Claims (9)

An antenna for receiving a tag signal; A reader that demodulates a tag signal received through the antenna into tag data; A data communication module to receive tag data from the reader; SNMP communication module for receiving the status information of the reader from the reader and RFID middleware for performing data processing using tag data received from the data communication module and controlling a communication environment between the reader and a system management server using state information of the reader received from the SNMP communication module. RFID antenna system. The method of claim 1, The RFID middleware receives the error information of the reader from the SNMP communication module, and controls to transmit a reset command to the reader. The method of claim 1, The RFID middleware receives the communication failure information of the reader from the SNMP communication module, and controls to transmit a recovery request command to a system management server. The method of claim 1, The RFID middleware receives the status information of the reader from the SNMP communication module, and transmits the status information to an external reader management server to receive a management command corresponding to the status information. Transmitting status information of the reader from the reader to the SNMP communication module; Transmitting, by the SNMP communication module, state information of the reader to an RFID middleware; And controlling the communication environment between the reader and a system management server by using the state information of the reader in the RFID middleware. The method of claim 5, In the controlling of the communication environment in the RFID middleware, the RFID middleware receives error information of a reader from the SNMP communication module, and transmits a reset command to the reader. The method of claim 5, Controlling the communication environment in the RFID middleware, the RFID middleware receives the communication failure information of the reader from the SNMP communication module, the control of the RFID antenna system, characterized in that for transmitting a recovery request command to a system management server Way. The method of claim 5, wherein the controlling of the communication environment in the RFID middleware includes: Receiving, by the RFID middleware, the status information of the reader from the SNMP communication module, and transmitting the status information to an external reader management server; And receiving, by the RFID middleware, a management command corresponding to the state information from the external reader management server. The method of claim 8, wherein the RFID middleware transmits the state information to the external reader management server. Analyzing status information in the external reader management server; and And generating a management command corresponding to the state information in the external reader management server.

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