KR20070057598A - Apparatus and method for testing performance of rfid middleware - Google Patents

Abstract

A device and a method for testing performance of RFID middleware are provided to measure load of the RFID middleware by generating virtual tag data from a virtual reader, and measure a time difference between tag request time and result receiving time by generating a request of tag data from a virtual application system. A user interface(60) receives the first and second information from a user. The first information defines a tag and a reader to generate tag data provided to the RFID middleware(20). The second information defines an interested reader, the interested tag data, and a filtering value to enable the RFID middleware to collect, classify, and process the tag data. The virtual reader(30) transmits the tag data generated by the first information to the RFID middleware. The virtual application system(10) requests and receives the result processing the tag data generated from the virtual reader according to the second information. A controller(40) measure the load of the RFID middleware by checking the tag data received from the virtual reader, and measure the tag request time and the result receiving time.

Description

Apparatus and method for testing performance of RFID middleware}

1 is a configuration diagram of an embodiment of a performance testing apparatus of an RFID middleware according to the present invention;

2 is a flowchart illustrating an operation of a virtual reader to which the present invention is applied;

3 is a flowchart illustrating an operation of a virtual application system to which the present invention is applied;

Figure 4 is a flow chart of an embodiment of a performance testing method of RFID middleware according to the present invention.

* Explanation of symbols on the main parts of the drawing

10; Virtual application system 20; RFID middleware

30; Virtual leader 40; Control

50; Storage 60; User interface

The present invention relates to a performance testing apparatus and method for RFID middleware, and more particularly, to generate virtual tag data through a virtual reader to measure the load of RFID middleware, and to request a request for tag data from a virtual application system. The present invention relates to an apparatus and method for testing performance of RFID middleware by measuring a difference between a request time and a time at which a result is delivered to test the performance of the RFID middleware.

RFID middleware is a software system that collects and refines data of large quantities of RFID tags generated in heterogeneous RFID environments, summarizes them into valuable information, and delivers them to application systems.

The RFID middleware is connected to a plurality of RFID readers that read the recognized tag data, and receives the tag data at predetermined time intervals. In addition, the RFID middleware is connected to the application system receives information about the RFID readers and the required processing method for the tag data. In addition, the RFID middleware goes through a process of collecting, classifying, and the like, the tag data received from the RFID readers, and delivers the processed result to the application system according to a predetermined format.

As such, the RFID middleware is a client requesting tag data for RFID readers and a server for an application system requesting tag data.

Conventionally, the performance of the RFID middleware determines the performance by measuring the response time taken to process a related process in response to a request from an application system. At this time, the conventional method has a problem that it is not possible to completely grasp the performance of the middleware to perform the role of the client and the server at the same time.

The present invention has been proposed to solve the above problems and to meet the above demands. The virtual tag data is generated through the virtual reader to measure the load of the RFID middleware, and the tag data is applied to the tag data from the virtual application system. An object of the present invention is to provide an apparatus and method for testing a performance of an RFID middleware by measuring a difference between a request time and a time at which a result is delivered, thereby testing the performance of the RFID middleware.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to an aspect of the present invention, there is provided an apparatus for measuring the performance of an RFID middleware, comprising: first information defining a tag and a reader for generating tag data provided from a user to the RFID middleware, and the RFID middleware includes tag data A user interface unit configured to receive second information defining interest readers, interest tag data, and filtering values to collect, classify, and process the data; A virtual reader configured to transmit tag data generated according to the first information to an RFID middleware; A virtual application system for requesting and receiving a result of processing the tag data generated by the virtual reader according to the second information; And a controller for checking the information on the tag data transmitted from the virtual reader to measure the load of the RFID middleware, and measuring the request time and response time of the processing result to the RFID middleware in the virtual application system.

In addition, the present invention is a method for measuring the performance of the RFID middleware using a virtual reader and a virtual application system, when the information of the tag and the reader to generate the tag data to the virtual reader, the information on the generated tag data Receiving a first step of measuring a load degree of the RFID middleware; In order to collect, classify and process the tag data generated by the virtual reader to the virtual application system, inputting information on the interest reader, the interest tag data, and filtering, the virtual application system notifies the request time of the tag data processing result. Receiving a second step; And a third step of checking a response time according to a response of a tag data processing result from the virtual application system to calculate a time for processing tag data in the RFID middleware.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an embodiment of a performance test apparatus of an RFID middleware according to the present invention.

As shown in Figure 1, the performance test apparatus of the RFID middleware according to the present invention, the virtual application system 10, RFID middleware 20, virtual reader 30, the control unit 40, the storage unit 60, A user interface unit 60 is included.

The user interface unit 60 provides an interface for a user to access the performance test apparatus of the RFID middleware 20.

In this way, the user interface unit 60 receives information (hereinafter, referred to as "middleware request information") for determining the manner in which the virtual application system 10 requests the result data processed by the RFID middleware 20 from the user. Receive input. Here, the middleware request information is defined by the interest reader value definition, interest tag data value definition [data collection range (trigger, repetition period, operation time, duration, etc.), interest tag data (new occurrence, deletion, selection 1 of all data) , Processing result data name], filtering value definition, processing result data value definition (grouping information, result data display value (EPC code, hexadecimal, decimal, sum, etc.)].

In addition, the user interface unit 60 receives information (hereinafter, referred to as "tag data providing information") for defining the manner in which the virtual reader 30 provides the tag data to the RFID middleware 20 from the user. The tag data providing information may include a reader definition value (ie, a leader name, a leader type, a number of readers, etc.), a tag definition value (type of tag, length of tag data, sequential / random generation of tag data, and tag per second Data generation amount, etc.).

In addition, the user interface unit 60 includes middleware information (IP address, port number) and protocol method (TCP / IP, HTTP) for the virtual application system 10 and the virtual reader 30 to communicate with the RFID middleware 20. [Hereinafter referred to as "middleware communication information") is received from the user.

The virtual application system 10 includes a middleware request generator 11 and a middleware transceiver 12.

The middleware request generation unit 11 generates a request signal (hereinafter referred to as a "middleware request signal") for receiving tag data processed by the RFID middleware 20, that is, result data according to the middleware request information.

In addition, the middleware request generation unit 11 provides the information on the result data of processing the tag data in the RFID middleware 20 to the control unit 40 through the middleware transmission unit 12, thereby allowing the RFID middleware in the control unit 40. The response time processed by 20 confirms the processing time to the RFID middleware 20.

The middleware transceiver 12 transmits the middleware request signal to the RFID middleware 20 according to the middleware communication information, receives the result data from the RFID middleware 20, and transmits the result data to the controller 40.

The virtual reader 30 is composed of a tag data transmitter 31 and a tag data generator 32.

The tag data generator 32 generates tag data to be provided to the RFID middleware 20 according to the tag data providing information. In this case, the tag data generation unit 32 generates tag data according to the tag data providing information, so that the tag data is generated under various environments by the reader and the tag defined by the user.

In addition, the tag data generation unit 32 provides the information about the generated tag data (for example, the amount of tag data generated per second, etc.) to the control unit 40 through the tag data transmission unit 31, thereby controlling the control unit 40. To measure the load of the tag data provided to the RFID middleware 20.

The tag data transmitter 31 transmits the tag data generated at regular intervals to the RFID middleware 20 according to the middleware communication information. At this time, the tag data transmitter 31 receives information on the tag data generated from the tag data generator 32 and transmits the information to the controller 40.

The controller 40 controls the virtual application system 10, the RFID middleware 20, the virtual reader 30, the storage 60, and the user interface 60.

In addition, the controller 40 inputs middleware request information to the virtual application system 10, tag data providing information to the virtual reader 30, and middleware communication information to the virtual application system 10 and the virtual reader 30.

On the other hand, the controller 40 receives the information on the tag data from the virtual reader 30, thereby measuring the load degree of the RFID middleware 20 as the tag data is generated. In this way, the controller 40 may check the performance (load of tag data input from a server, ie, a reader) when the RFID middleware 20 performs a client role.

In addition, the control unit 40 confirms the request time of transmitting the middleware request signal from the virtual application system 10 to the RFID middleware 20, and information on the result data of processing the tag data from the virtual application system 10. Check the response time while receiving. In this case, the controller 40 may measure a processing time that is a time difference between the response time and the request time, that is, a time when the virtual application system 10 responds to the request for the result data by the RFID middleware 20.

Through this, the controller 40 may measure the performance (response time from the client, that is, the application system) when the RFID middleware 20 performs a server role.

In addition, the controller 40 monitors the operation status of the virtual reader 30 and the virtual application system 10 in real time, and measures the load degree and response time of the RFID middleware 20 mentioned above. Provided to the user through 60.

The storage unit 50 stores the middleware request information, tag data providing information, and middleware communication information input from the user interface unit 60.

In addition, the storage unit 50 receives and stores the measurement result of the RFID middleware 20 (that is, the load degree, the request time / response time / processing time, and information on the result data) from the control unit 40.

2 is a flowchart illustrating an embodiment of the operation of the virtual reader 30 to which the present invention is applied.

As shown in FIG. 2, the virtual reader 30 receives tag data provision information from the controller 40 (S100). Through this, the virtual reader 30 virtually configures readers operating in a real environment (for example, defining an active reader or a passive reader / number of readers) according to the input reader value definition.

In addition, the virtual reader 30 receives the middleware communication information to communicate with the RFID middleware 20 (S101).

Meanwhile, the virtual reader 30 generates tag data according to the tag value definition included in the tag data providing information (S102). In this way, the virtual reader 30 is a real environment according to the input tag value definition (for example, whether it is an active tag or a passive tag / tag data is generated sequentially or randomly generated / defines the amount of tag data generated per second). Virtually constructs tags recognized by.

Thereafter, the virtual reader 30 transmits the tag data generated by the RFID middleware 20 at regular intervals and transmits the information of the generated tag data to the controller 40 (S103 and S104). In this case, the virtual reader 30 allows the control unit 40 to measure the load degree of the RFID middleware 20 according to the information of the tag data.

Thereafter, the virtual reader 30 repeatedly generates tag data, which is the above-described process, and provides the RFID data to the RFID middleware 20, and ends when receiving the end signal from the RFID middleware 20 (S105).

3 is a flowchart of an embodiment of the operation of the virtual application system 10 to which the present invention is applied.

As shown in FIG. 3, the virtual application system 10 receives middleware request information from the controller 40 (S200). Through this, the virtual application system 10 determines the operation method of the RFID middleware 20 according to the received middleware request information.

That is, the virtual application system 10 receives a list of readers to collect tag data according to the definition of the reader value of interest. In addition, the virtual application system 10 determines tag data to be collected from the selected reader according to the interest tag data value definition. In addition, the virtual application system 10 classifies the collected tag data according to a filtering value definition. In addition, the virtual application system 10 processes the result data according to the process result data value definition.

In addition, the virtual application system 10 receives the middleware communication information to communicate with the RFID middleware 20 (S201).

Thereafter, the virtual application system 10 notifies the request time to the controller 40 while transmitting the middleware request signal to the RFID middleware 20 (S202).

Thereafter, the virtual application system 10 receives the processing result of the tag data (that is, the result data of collecting, classifying, grouping, etc. of the tag data) from the RFID middleware 20, and controls the processing result. 40). At this time, the virtual application system 10 notifies the control unit 40 of the response time of the RFID middleware 20 (S203).

As mentioned above, the virtual application system 10 notifies the control unit 40 of the request time and the response time so that the control unit 40 can measure the processing time.

4 is a flow chart of an embodiment of a performance test method of the RFID middleware 20 according to the present invention.

First, the controller 40 registers the virtual reader 30 in the RFID middleware 20 (S300). In this case, the controller 40 creates an environment in which the RFID middleware 20 communicates with heterogeneous readers as in an actual environment.

In addition, the controller 40 inputs tag data provision information and middleware communication information to the virtual reader 30 (S301).

Thereafter, the virtual reader 30 generates tag data according to the received tag data providing information (S302). At this time, the virtual reader 30 communicates with the RFID middleware 20 according to the middleware communication information, and transmits the generated tag data to the RFID middleware 20 at regular intervals (S303).

On the other hand, the virtual reader 30 transmits the information on the generated tag data (that is, the generation amount per second of the tag data, etc.) to the control unit 40 to measure the load degree of the RFID middleware 20 (S304). At this time, the controller 40 measures the load degree of the RFID middleware 20 according to the information on the received tag data (S305).

Thereafter, the controller 40 inputs the middleware request information and the middleware communication information to the virtual application system 10 (S306).

Then, the virtual application system 10 generates a middleware request signal according to the received middleware request information (S307).

In addition, the virtual application system 10 transmits the middleware request signal to the RFID middleware 20 (S308), and notifies the control unit 40 of the request time for transmitting the middleware request signal (S309). Here, the control unit 40 checks the request time (S310).

Meanwhile, the RFID middleware 20 processes tag data received from the virtual reader 30 according to the middleware request signal received from the virtual application system 10 (S311).

At this time, when the processing of the tag data in the RFID middleware 20 is terminated, the end signal is transmitted to the virtual reader 30 while transmitting the processing result to the virtual application system 10 (S312, S313). Here, the virtual reader 30 receives the end signal and ends the generation process of the tag data (S314). In addition, the virtual application system 10 transmits the processing result to the control unit 40, and notifies the response time (S315).

Thereafter, the controller 40 calculates a processing time (that is, a time difference between the response time and the request time (response time-request time)) using the response time and the request time confirmed in step S310 (S316 and S317).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

The present invention as described above, has the effect of measuring the performance of the RFID middleware to perform the role of the client and the server at the same time.

In addition, the present invention has the effect of measuring the response time of the RFID middleware that serves as a client.

In addition, the present invention has the effect that can measure the load of the RFID middleware to act as a server.

Claims (5)

In the device for measuring the performance of the RFID middleware, First information defining a tag and a reader to generate tag data provided to the RFID middleware from a user, and a second reader defining an interest reader, an interest tag data, and a filtering value to collect, classify, and process tag data by the RFID middleware A user interface unit for receiving information; A virtual reader for transmitting tag data generated according to the first information to an RFID middleware; A virtual application system for requesting and receiving a result of processing the tag data generated by the virtual reader according to the second information; And A controller which checks the information on the tag data transmitted from the virtual reader to measure the load of the RFID middleware, and measures the request time and response time of the processing result to the RFID middleware in the virtual application system; Performance testing device of the RFID middleware comprising a. According to claim 1, And the user interface unit receives RFID middleware information and a protocol scheme so that the virtual reader and the virtual application system communicate with the RFID middleware. The method of claim 1, And the second information includes information for grouping a result of processing tag data. In the method of measuring the performance of RFID middleware using a virtual reader and a virtual application system, A first step of measuring a load degree of the RFID middleware by receiving information on the generated tag data when inputting tag and reader information to generate tag data with the virtual reader; In order to collect, classify and process the tag data generated by the virtual reader to the virtual application system, inputting information on the interest reader, the interest tag data, and filtering, the virtual application system notifies the request time of the tag data processing result. Receiving a second step; And A third step of checking a response time according to a response of a tag data processing result from the virtual application system to calculate a time for processing tag data in the RFID middleware; Performance test method of the RFID middleware comprising a. The method of claim 4, wherein In the first and second steps, the middleware information and protocol information are input so that the virtual reader and the virtual application system can communicate with the RFID middleware.

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