KR20130127215A - Apparatus and method for data processing of radio frequency identification - Google Patents

Abstract

The present invention relates to an apparatus and method for processing RFID data. The RFID system according to the embodiment of the present invention comprises; an RFID tag which stores a tag identifier (ID) code; an RFID reader which receives the tag identifier code from one or more tags and determines whether the tag identifier cod is included in a tag list in which the tag identifier code is received and stored or not and recognizes a signal received from the tag as a normal signal if the received tag identifier code is included in the tag list. [Reference numerals] (211,251) Antenna unit;(212) Oscillating unit;(213) Power amplification unit;(214) Peak detecting unit;(215) Filter unit;(216) Amplification unit;(217) Patterning unit;(218) Control unit;(219,255) Memory unit;(252) Clock generating unit;(253) Power unit;(254) Command detecting unit;(256) Encoder unit;(257) Modulation unit;(258) Modulation switch unit

Description

RFID data processing apparatus and method {Apparatus and method for data processing of Radio Frequency Identification}

The present invention relates to RFID, and more particularly, to an apparatus and method for processing data between an RFID reader and a tag.

RF (Radio Frequency Identification) is a field of automatic recognition, such as bar code, magnetic sensor, IC-CARD, etc., and uses the microwave or long wave to wirelessly store data stored in the tag's microchip. Speak skills to recognize.

The principle of the RFID system is to receive information stored in a tag through an antenna, and to recognize and analyze the information, thereby obtaining unique information of the article on which the tag is mounted. Since RFID system uses frequency, it is not affected by environment such as snow, rain, dust, and magnetic flux, and it has a merit that it can be recognized on the move due to the fast passing speed.

Since RFID can transmit a lot of data at a high speed using a wireless channel, RFID is being recognized as a technology to replace the bar codes currently used in industries requiring product recognition such as logistics, distribution, and financial services.

When the RFID system inquires a tag for information, the tag receiving the inquiry signal transmits its ID to the reader. Tag recognition is very easy when there is one tag in the reader's recognition range, but when several tags are in the reader's recognition range, tag impulse occurs that several tags simultaneously transmit their information.

1 is an exemplary view showing a form of data transmitted from a conventional RFID tag.

In RFID, a tag transmits its ID code in serial form to the reader using back scattering. In this case, the tag transmits its own identifier code to allow the reader to confirm that the tag identifier transmitted by the tag has been successfully transferred, and then additionally transmits a cyclical redundancy check (CRC) value for the identifier code. do.

For example, if 16-bit CRC is used to ensure no error of communication data (including tag identifier) between RFID reader and tag, reader recognizes wrong tag identifier as normal communication data even though it is CRC with error. Ghost tag reading phenomenon occurs.

An object of the present invention is to provide a data processing apparatus and method of an RFID system for preventing the recognition of a ghost tag in order to solve the above problems.

In addition, when the reader of the RFID system recognizes a tag, the present invention is a data processing apparatus and method of the RIF system to check the identifier data received from the tag, and to process the normal tag data except the ghost tag data accordingly The purpose is to provide.

The RFID system according to the embodiment of the present invention includes an RFID tag that stores an RFID tag identifier (ID) code; Receive a tag identifier code from at least one tag, determine whether the received tag identifier code is included in the tag list that has been received and stored, and if the received tag identifier code is included in the tag list It includes; RFID reader for recognizing the signal received from the normal tag signal.

In addition, the RFID data processing apparatus according to an embodiment of the present invention may store a tag identifier code received from at least one tag in an RFID reader, and if the stored tag identifier code is not re-received within a predetermined time, A memory unit for deleting a tag identifier code; A control unit for receiving a tag identifier code from at least one tag and storing the tag identifier code in the memory unit, and counting a predetermined time and deleting the corresponding tag identifier code stored in the memory unit if the tag identifier code is not received again during the predetermined time; It includes.

According to the present invention, an apparatus and method for processing data in an RFID system has an effect of identifying data received from a tag in a reader of an RFID system and separating ghost data to recognize and process normal data.

In addition, according to the data processing apparatus and method of the RFID system, the present invention has an effect of reducing the occurrence of malfunction due to the transmission and reception of reliable data in the RFID system.

1 is an exemplary view showing a form of data transmitted from a conventional RFID tag.
2 is a block diagram of an RFID system to which an embodiment of the present invention is applied.
3 is a flowchart illustrating a tag recognition operation of an RFID reader according to an embodiment of the present invention.
4 is a flowchart illustrating a data processing operation of an RFID reader according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

2 is a block diagram of an RFID system to which an embodiment of the present invention is applied.

Referring to FIG. 2, the RFID system includes an RFID reader 210 and an RFID tag 250.

The RFID reader 210 includes an antenna unit 211, an oscillator 212, a power amplifier 213, a peak detector 214, a filter 215, an amplifier 216, a shaping unit 217, and a controller ( 218 and a memory unit 219.

The antenna unit 211 may transmit or receive a specific frequency to the RFID tag 250 in association with the electronic circuit and the electronic circuit that emits or receives a predetermined radio wave toward the RFID tag 250.

The oscillator 212 generates a radio frequency signal to be transmitted through the antenna unit 211.

The power amplifier 213 may amplify the power to transmit the radio frequency signal through the antenna unit 211.

The peak detector 214 may detect a peak signal from a radio frequency signal input from the antenna unit 211.

The filter unit 215 may perform filtering on the peak signal detected by the peak detector 214.

The amplifier 216 may amplify the peak signal detected by the peak detector 214.

The shaping unit 217 may shape the peak signal detected by the peak detection unit 214.

The control unit 218 controls the radio frequency signal transmission through the antenna unit 211. In addition, the controller 218 may read and read predetermined data from the peak (standardized, amplified or filtered peak signal) signal. In particular, the controller 218 may receive a tag identifier (ID) code received from the tag 250, store it in the memory unit 213, or compare it with a tag identifier code previously stored. When the controller 218 receives the tag identifier code from the tag 250, the controller 218 may check the reception time of the received tag identifier code. The controller 218 may delete the tag identifier code if the tag recognition code having the same tag identifier is not detected so that the tag identifier code previously stored in the memory 219 passes a predetermined time. The controller 218 may detect a recognition time of the tag identifier code, and may separately include a timer for the detection.

The memory unit 219 may be one of a diary / write memory (eg, EEPROM (Electrically Erasable and Programmable Read Only Memory) and RAM (Random Access Memory)). The tag identifier information may be stored from the peak signal received through 211. In addition, the memory unit 219 may update the pre-stored tag identifier code every predetermined time under the control of the controller 218. That is, the memory unit If the tag identifier code received from the tag 250 is not received at least twice within a predetermined time, the controller 218 may delete the tag tag code stored in the memory unit 219.

The RFID tag 250 includes an antenna unit 251, a clock generator 252, a power supply unit 253, an instruction detector 254, a memory unit 255, an encoder unit 256, a modulator 257, and a modulation switch ( 258).

The antenna unit 251 may transmit and receive radio frequency signals (radio waves) of a predetermined frequency band from the RFID reader 210.

The clock generator 252 may generate a predetermined clock based on the radio frequency signal input from the antenna unit 251.

The power supply unit 253 generates a predetermined power having a predetermined voltage value from the radio frequency signal received through the antenna unit 251 in the case of the passive RFID tag or charges and stores the predetermined power in the entire RFID tag in the case of the active RFID tag. Can supply

The command detector 254 may detect a predetermined command from a radio frequency signal input from the antenna unit 251. The command detecting unit 254 extracts predetermined unique information from the memory unit 255 by the clock generated by the clock generating unit 252 and the command and provides it to the encoder unit 256. The unique information may be a tag identifier code according to an embodiment of the present invention.

The encoder 256 may encode the unique information.

The modulator 257 may modulate the encoded tag identifier code. In an embodiment of the present invention, the radio frequency signal transmission and reception between the RFID reader 210 and the RFID tag 250 is performed by amplitude shift keying (ASK), frequency shift keying (FSK), and phase shift keying: PSK) may be made through at least one modulation scheme.

The modulation switch unit 258 transmits the tag identifier code modulated by the modulation unit 257 to the RFID reader 210 through the antenna unit 251. In particular, the modulation switch unit 258 according to an embodiment of the present invention may transmit the tag identifier code transmitted to the RFID reader 210 at least two times or more within a predetermined time at the request of the RFID reader 210.

3 is a flowchart illustrating a tag recognition operation of an RFID reader according to an embodiment of the present invention.

Referring to FIG. 3, the RFID reader 210 (hereinafter referred to as “reader”) transmits a predetermined frequency through the antenna unit 211 and waits for RFID tag 250 (hereinafter referred to as “tag”) recognition. It can be operated as (step 302).

The reader 210 determines whether an access of the tag 250 is detected (step 304) while performing the standby mode (step 302), and determines whether a tag identifier (ID) code is received from the detected tag (step 306). )

When the tag 210 receives a tag identifier code from the tag 250, the reader 210 determines whether the received tag identifier code is included in a previously stored tag list (step 308).

If the tag list does not include the received tag identifier code, the reader 210 may newly register the received tag identifier code in the tag list and store it in the memory (step 310).

On the other hand, if the received tag identifier code is included in the tag list, the reader 210 determines the signal of the recognized tag as a normal signal and performs an operation mode according to the normal tag recognition.

That is, when the received tag identifier code is present in the tag list, the reader 210 determines that the signal of the tag is a normal signal, not a ghost signal, and performs tag recognition and its operation. However, when the received tag identifier code does not exist in the tag list, the tag transmitted to the tag according to an embodiment of the present invention may be a ghost signal, so that the tag is determined to be received at least twice within a predetermined time. Save it to the list first. Therefore, if a tag identifier code stored in the tag list is received again within a predetermined time later, the signal of the tag is classified as a normal signal. Will be ignored.

Hereinafter, an operation for processing tag identifier information registered in a tag list according to the tag detection will be described in detail.

4 is a flowchart illustrating a data processing operation of an RFID reader according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the reader 210 may transmit a predetermined frequency through the antenna unit 211 and operate in a standby mode waiting for RFID tag 250 (hereinafter, referred to as 'tag') recognition. step)

The reader 210 determines whether an access of the tag 250 is detected (step 304) while performing the standby mode (step 402), and determines whether a tag identifier (ID) code is received from the detected tag (step 404).

When the tag identifier code is received from the tag 250, the reader 210 performs a tag recognition operation mode (steps 308 to 312) as described with reference to FIG. 3.

When the tag identifier code is not received from the tag, the reader 210 scans a previously stored tag list. (406) The tag list previously stored in the memory unit 219 of the reader 210 is first recognized as a tag. If a tag identifier code is received from the stored tag identifier code. The reader 210 scans the tag identifier code previously stored in the memory unit 219 in the control unit 218 (step 406), and determines whether the tag identifier code included in the tag list is received again for a predetermined time (408). step)

When the reader 210 receives at least two tag identifier codes for a predetermined time, the reader 210 ghosts a tag signal including tag identifier information received one or more times for a predetermined time to determine that the signal of the corresponding tag is a normal signal. Can be classified as a signal. Therefore, when the predetermined time elapses, the tag identifier information may be deleted from the memory unit 219 (step 410).

The reader 210 normally processes a signal of a tag that transmits the tag identifier code even when two or more tag identifier codes are received during a predetermined time, and initializes information on the tag by deleting the stored tag identifier code. can do.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (6)

An RFID tag for storing an RFID tag identifier (ID) code;
Receive a tag identifier code from at least one tag, determine whether the received tag identifier code is included in the tag list that has been received and stored, and if the received tag identifier code is included in the tag list It includes; RFID reader for recognizing the signal received from the normal tag signal
RFID data processing system. The method of claim 1,
The RFID reader is
If the tag identifier code is received from the tag and the tag identifier code is not included in the tag list, the received tag identifier code is stored and the tag identifier code is operated in a standby mode for receiving the tag identifier code.
RFID data processing system. 3. The method of claim 2,
The RFID reader is
If the stored tag identifier code is not received again within a predetermined time, deleting the stored tag identifier code
RFID data processing system. 3. The method of claim 2,
The RFID reader is
When the stored tag identifier code is re-received within a predetermined time, the signal of the received tag is normally signaled and the previously stored tag identifier code is deleted.
RFID data processing system. For RFID Reader,
A memory unit which stores a tag identifier code received from at least one tag, and deletes the stored tag identifier code if the stored tag identifier code is not received again within a predetermined time;
A control unit for receiving a tag identifier code from at least one tag and storing the tag identifier code in the memory unit, and counting a predetermined time and deleting the corresponding tag identifier code stored in the memory unit if the tag identifier code is not received again during the predetermined time; Containing
RFID data processing device. The method of claim 5,
The control unit
When the tag identifier code previously received and stored in the memory unit is re-received within a predetermined time, the signal signal of the tag transmitting the tag identifier code is normally signaled and the tag identifier code is deleted.
RFID data processing device.

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