KR20100026183A - Method for identifying operation state of rfid system - Google Patents

Abstract

PURPOSE: A method for confirming operation state of RFID system is provided to accurately confirm the operation state of RFID reader in real time through a simple method using a result of communicating with an electronic tag. CONSTITUTION: A method for confirming operation state of RFID system comprise the following steps: a step(S10) transmitting a query command is transmitted per a predetermined period; a step(S16) counting accumulated numbers for confirming an electronic tag; a step(S20) deciding normal operation of the RFID reader when the counted number reaches in a set value and deciding an error of the RFID reader when the counted number does not reach in the set value; a step(S24) marking the error by operating a state display block when the error is determined.

Description

Method for Identifying Operation State of RFID System

The present invention relates to a method for checking an operating state of an RFID system, and in particular, a communication result with the confirmation electronic tag in a state in which a confirmation electronic tag for confirming whether the RFID reader is normally operated near the RFID reader antenna is always attached. The present invention relates to a method for checking an operating state of an RFID system for checking whether an RFID system operates normally.

In general, radio frequency identification (RFID: R adio F requency Id entification) is by reading or writing information in a non-contact from the tag with the identification information inherent with the radio frequency tag is attached to the object or vehicle, animals, people, etc. Technology that enables you to recognize, track, and manage your business. Such an RFID system has a plurality of electronic tags (hereinafter referred to simply as 'tags') attached to a vehicle or an object having unique identification information, and an RFID reader (Reader or Interrogator) for reading or writing information on the tag. ) (Hereinafter also referred to simply as 'leader'). RFID systems are also classified into mutual induction and electromagnetic waves according to the intercommunication method between the reader and the tag, and are classified into active and passive according to whether the tag operates on its own power. It is divided into short wave, microwave and microwave. In accordance with the above classification, various kinds of standards are enacted or in preparation for enactment. Such RFID systems are being actively used in logistics and factory automation.

On the other hand, in the above-described RFID system, when a problem such as a power supply failure, various hardware or software failures, or a bad antenna fastening state in the RFID reader occurs, the operation of the system is stopped due to failure to read necessary information from the tag. There is a problem that the accuracy and reliability of the system is deteriorated because there is no function to check the normal operation of the RFID reader in real time and deliver it to a host computer.

The present invention has been made to solve the above-described problems, RFID in accordance with the communication result with the identification electronic tag in the state that always attached a confirmation electronic tag for confirming the normal operation near the RFID reader antenna It is an object of the present invention to provide a method for checking the operation status of an RFID system so as to confirm whether the system is operating normally.

In the method for checking the operation state of the RFID system of the present invention for achieving the above object, in the state in which the confirmation electronic tag is fixedly attached near the antenna, the number of times of recognition of the identification electronic tag is transmitted by transmitting a query command every predetermined time period. (A) cumulative counting and if the cumulative count reaches a predetermined reference value within a predetermined reference time is determined to be normal operation while the cumulative count does not reach the predetermined reference value within the predetermined reference time. If it does not include the step (b) of determining as an error.

In the above-described configuration, the method may further include (c) displaying an error by operating its status display block when determining the error, or further transmitting (d) the result of the determination at step (b) to the host computer. It may also include.

According to the method for checking the operating state of the RFID system of the present invention, the operating state of the RFID reader can be accurately confirmed in real time in a simple, easy and reliable manner.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the operation state checking method of the RFID system of the present invention.

1 is a schematic configuration diagram of an RFID system in which an operation state checking method of the present invention is implemented. As illustrated in FIG. 1, an RFID system in which an operation state checking method of the present invention is implemented may be, for example, a tag from an electronic tag 210 attached to a vehicle 200 installed at an entrance such as a public parking lot and passing therethrough. The host computer 100 and the RFID that monitor the operation state of the RFID reader 300 in addition to performing the parking guidance or the cost settlement by receiving the information acquired by the RFID reader 300 and the RFID reader 300 to obtain the information. Near the antenna A of the reader 300, for example, a support 400 implemented with any fixture within a distance of several tens of centimeters that can reliably recognize tag information and the identification attached to such a support 400 The electronic tag 410 may be included.

In the above-described configuration, the tag identifier ID of the electronic tag 410 for confirmation should be registered in advance in the corresponding RFID reader 300.

2 is a detailed block diagram of an RFID system in which an operation state checking method of the present invention is implemented. As shown in FIG. 2, the RFID system in which the operation state checking method of the present invention is implemented emits an RF signal toward a tag, and captures an RF signal emitted by the tag, and a predetermined frequency toward the tag. RF module 320 for transmitting an RF signal of a band, for example, UHF (900MHz) band and received from the host computer 100 while coordinating collision between other tags in communication with a tag. The digital module 390 may be configured to perform various setting items and control commands, and transmit tag information received by communicating with a tag to the host computer 100.

In the above-described configuration, the digital module 390 again includes a modem unit 352 which performs transmission and reception of data with a tag, collision coordination with another reader when occupying a frequency for communication with the tag, and the like. An RFID reader block (usually referred to as a Field Programmable Gate Array (FPGA)) 350, which is composed of an SDRAM 354 for temporarily storing various data generated in the control process 350, DAC block 335, which converts the digital data generated in the FPGA block 350 into an analog signal and provides it to the RF module 320, converts the analog signal received from the tag through the RF module 320 into digital data The power supply block 345 which provides various operating powers to the ADC block 330, the RF module 320, and the digital module 390 which are transmitted to the block 350, and the status display block 340 which displays various states of the RFID reader. ), Basic host I / F block 370, which is a basic communication interface for communicating with the host computer 100, and an optional host I / F block 375, which is an optional communication interface, and tag information. / F block 370 or option host I / F block 375 to pass to the host computer 100, and according to the various settings and commands received from the own program or host computer 100 FPGA block (350) It may include a processor block 360 for collectively controlling each block of the digital module 390, including.

Meanwhile, the processor block 360 may debug a microprocessor, for example, an ARM9 processor 364 or a digital module 390, which is a 32-bit RISC processor for an embedded device developed by an ARM (Advanced RISC Machine) company. Joint Test Action Group (JTAG) 362, a flash ROM 368 for storing a program required for the operation of the processor 364, and an SDRAM 366 for temporarily storing various data generated during the operation of the processor 364. Can be made. The basic host I / F block 370 is again an Ethernet port 371 for performing Ethernet communication, serial communication such as RS-232 or RS-422, and Universal Serial Bus (USB) communication with the host computer 100, respectively. , A serial port 372 and a USB port 373. The option host I / F block 375 may further include a wireless LAN (WLAN) unit 376 and a code division multiple access (CDMA) unit 377.

3 is a flowchart illustrating a method for checking an operating state of an RFID system, and unless otherwise described, the processor 364 performs as a subject. As shown in FIG. 3, first in step S10, the RFID reader 300 transmits a query command every predetermined time period, for example, several to several tens of microseconds, through the antenna A, and then again in step S12. Determines whether there is a response from the tag to the query command, that is, the tag is recognized.

As a result of the determination in step S12, when the tag is recognized, the process proceeds to step S14 again to determine whether the recognized tag is the identification tag 410. This determination may be performed by checking the identifier of the tag, As described above, the identifier of the identification tag 410 is registered in advance in the RFID reader. As a result of the determination in step S14, when the tag is not the identification tag 410, but is a tag from a vehicle that enters or exits at random, step S26 is performed to appropriately process the recognized tag information, for example. The host computer 100 performs a process such as transmitting to the host computer 100 in real time or storing itself and transmitting the data to the host computer 100 in a batch.

On the other hand, if the recognized tag is the check tag 410 as a result of the determination in step S14, the number of tag recognitions is accumulated by performing step S16, and again in step S18, the cumulative count is a predetermined reference value, for example. For example, it is determined whether it reached five times. As a result of the determination in step S18, when the cumulative count does not reach the reference value, the flow advances to step S22 to determine whether a predetermined reference time, for example, one minute has elapsed. As a result of the determination in step S18, when the cumulative count reaches five times within one minute, the flow advances to step S20 to notify the host computer 100 that it is in normal operation. On the other hand, if the reference time has not elapsed in step S22, the program returns to step S12 to repeat the program, and if the reference time has elapsed, i.e., if the cumulative count has not reached five times within one minute, the RFID reader Since any part of the error occurs, the host computer 100 is notified of this fact, and an alarm is generated by itself through the status display block 340 if necessary. The host computer 100 then notifies the administrator immediately through appropriate communication means, so that the administrator can quickly correct the error.

On the other hand, when notifying the host computer 100 that it is in normal operation, the operation load of the RFID reader can be reduced by not accumulating the number of times of recognition of the identification tag any more until all of these reference times have elapsed.

The operation state checking method of the RFID system of the present invention is not limited to the above-described embodiment, and can be variously modified and implemented within the range allowed by the technical idea of the present invention. For example, both the reference time and the reference value described above may be appropriately changed. Furthermore, when the FID reader recognizes the tag 410 for confirmation, it only delivers it to the host computer 100 in real time, and determines whether the accumulated count (step S16) and the accumulated count of the number of recognition have reached the reference value ( Both the step S18) and the determination of the passage of the reference time (step S22) may be performed by the host computer 100.

1 is a schematic structural diagram of an RFID system in which an operation state checking method of the present invention is implemented;

2 is a detailed block diagram of an RFID system in which an operation state checking method of an RFID system of the present invention is implemented;

3 is a flowchart illustrating a method of checking an operating state of an RFID system.

*** Explanation of symbols for the main parts of the drawing ***

100: host computer, 200: vehicle,

210: electronic tag, A: antenna,

300: RFID reader, 320: RF module,

330: ADC block, 335: DAC block,

340: status display block, 345: power block,

350: FFGA block, 352: modem section,

354: SDRAM, 360: processor block,

362: JTAG, 364: processor,

366: SDRAM, 368: Flash ROM,

370: basic host I / F block, 371: Ethernet port,

372: serial port, 373: USB port,

375: optional host I / F block, 376: WLAN,

377: CDMA, 390: Digital Module,

400: support, 410: electronic tag for confirmation

Claims (3)

With the electronic tag fixed for confirmation near the antenna, (A) accumulating a number of times of recognition of the identification electronic tag by transmitting a query command at a predetermined time period; and If the cumulative count reaches a predetermined reference value within a predetermined reference time, it is determined to be normal operation, whereas if the cumulative count does not reach the predetermined reference value within the predetermined reference time, it is determined to be an error (b). Method of checking the operating state of the RFID system comprising a) step. The method of claim 1, And (c) displaying an error by operating its own status display block when determining the error. The method according to claim 1 or 2, And (d) transmitting the result of the determination in step (b) to a host computer.

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