KR20090083230A - Reader and tag reading method thereof - Google Patents

Abstract

A reader and a tag interpretation method for estimating the location of a tag by using a timer and a processor are provided to estimate the location of the tag through a distance which is a reading object. Data request signal is transmitted from a tag including data. A transceiver(110) receives data from the tag. A timer(120) receives transmission/reception time of data from the transceiver. The timer measures the turnaround time to receive data. A processor(100) computes the distance by using the measured turnaround time. A display indicates the computed distance. The computed distance is distance to the tag from the transceiver.

Description

Reader and tag reading method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reader for radio frequency identification and a tag reading method thereof, and more particularly to a reader and a tag reading method for estimating the position of a read tag by displaying a distance to a tag to be read.

Automatic identification is a broad term used in various technologies used to help a machine identify items or objects, such as cartons, boxes, bottles, and the like. One type of automatic identification technology is Radio Frequency Identification (RFID). The most common way of identifying items using RFID is to store information such as the serial number that identifies the product on the microchip attached to the antenna. The chip and antenna together form an RFID transponder circuit. The antenna allows a remote reader with a transceiver to communicate with the chip and allows the chip to retransmit identification information to the reader when the chip is operated by the reader to transmit information. . The reader converts the radio waves returned from the RFID tag into a form that can be used by the computer.

The reader can obtain information identifying the product of the RFID tag, but the location of the product is unknown. In particular, if there are several RFID tags, the location of the product according to each RFID tag cannot be determined.

Accordingly, it is an object of the present invention to provide a reader and a tag reading method capable of estimating the position of a tag from the calculated distance by calculating the distance of the tag transmitting data.

A reader according to the present invention for achieving the above object is a transceiver for receiving the data from the tag by transmitting a data request signal to a tag (TAG) containing the data, the transmission and reception time of the data from the transceiver And a timer for receiving the input and measuring the time required to receive the data, a processor for calculating a distance using the measured time required, and a display for displaying the calculated distance.

Meanwhile, the reader according to the present invention requests a data from a plurality of tags (TAG) to receive each data from the tags, a transceiver, a timer for receiving the order in which the respective data is received from the transceiver, the received A processor for sorting the respective data in order, and a display for displaying the sorted respective data.

In addition, the tag reading method of the reader according to the present invention transmits a data request signal to a tag (TAG) containing the data, receiving the data from the tag, measuring the time required to receive the data Comprising a step of calculating the distance using the time required, and displaying the calculated distance.

The tag reading method of the reader according to the present invention includes requesting data from a plurality of tags and receiving respective data from the tags, storing the respective data, and receiving the respective data. Storing the data, rearranging the respective data in the receiving order, and displaying the rearranged data.

According to the present invention, the position of a tag can be estimated based on the distance to the tag, and when there are a plurality of tags, the position of each tag can be estimated in the order of distance or distance.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is an internal block diagram of a reader according to the present invention.

Referring to FIG. 1, a reader includes a processor 100, a transceiver 110, a timer 120, and a display 130.

The transceiver 110 transmits a data request signal to a tag TAG including data, and receives data from the tag. The tag consists of an antenna and a microchip. The tag receives a data request signal through an antenna and transmits data such as product identification information to the transceiver 110. The transceiver 110 receives data such as an identification degree of a product from a tag.

The timer 120 receives the transmission time and the reception time of the data from the transceiver 110 and measures the time required to receive the data. The timer 120 receives a transmission time at which the data request signal is transmitted and a reception time at which the data is received from the transceiver 110. Alternatively, the processor 100 may receive a transmission time and a reception time. The timer 120 may transmit the transmission and reception times to the processor 100, and may transmit the required time that is a difference between the two times to the processor 100.

The processor 100 calculates a distance by using a time required, that is, a difference between a transmission time and a reception time. The distance means the distance from the transceiver 110 to the tag. The time required includes the arrival time from the transceiver 110 of the radio wave to the tag, the travel time reflected back out, and the time required for the arithmetic processing on the microchip of the tag. The time taken for arithmetic processing in the microchip of the tag is constant. Therefore, the remaining time except for the time required for arithmetic processing is the time when the radio wave travels from the transceiver 110 to the tag. The processor 100 may calculate the distance using the round trip time and the propagation speed.

Display 130 displays the calculated distance. The display 130 may display the data received from the tag and the calculated distance. That is, the display 130 may display the distance calculated in association with identification information of the product stored in the tag.

2 is a signal flow diagram comprising a reader in accordance with the present invention. See FIG. 1.

2 shows an internal signal of the reader and a flow of signals between the reader and the tag.

The transceiver 110 requests data from the tag 150 (S210). The transceiver 110 transmits a transmission time to the timer 120 (S220). The tag 150 transmits data to the transceiver 110 in response to the data request signal (S230). The transceiver 110 transmits the time when the data is received to the timer 120 (S240).

The timer 120 measures the time required using the transmission time and the reception time (S250).

The timer 120 transmits the measured time required to the processor 100 (S270). The transceiver 110 transmits the received data to the processor 100 (S260).

The processor 100 calculates the distance from the transceiver 110 to the tag 150 with reference to the required time, the speed of propagation, and the operation processing time in the tag 150 (S280). The processor 100 transmits the data and the calculated distance to the display 130 (S290). The display 130 displays the received data and the calculated distance on the screen.

3 is a signal flow diagram comprising a reader in accordance with the present invention. See FIGS. 1 and 2.

Referring to FIG. 3, an internal signal of the reader and a signal flow between the reader and the tag are shown. Signal flow is shown by representing Tag 1 (156) and Tag 2 (158) among a plurality of tags.

The transceiver 110 requests data from the tag 1 156 and the tag 2 158 (S310). The song receiver 110 may transmit a transmission time to the timer 120 (S220). In general, since the transmission signal propagates through a radio wave, the transmission time of the data request signal for each tag 156 and 158 is the same. The timer 120 may not transmit the transmission time. This is because the transmission time is not necessary if the distance display is not desired. This will be described later.

The transceiver 110 receives data from each tag 156 and 158 (S330). The transceiver 110 transmits the reception time of receiving each data to the timer 120 (S340). The timer 120 may measure the time required using the transmission time and the reception time (S350).

The tag 150 transmits data to the transceiver 110 in response to the data request signal (330). The transceiver 110 transmits the received data to the processor 100 (S360).

The timer 120 transmits the measured time required or the reception time to the processor 100 (S370).

The processor 100 may rearrange data associated with the reception time in order of reception time with reference to the reception time (S375). To this end, the reader may further include a buffer memory (not shown). The processor 100 may reorder the data, for example, in the order of early arrival. The processor 100 may cause the display 130 to display the data in the rearranged order (S400). In other words, the processor 100 may display the identification information of the tags in the close range.

In addition, the processor 100 may calculate each distance using the required time, the propagation speed, and the calculation speed in the tag (S380). The distance means the distance from the transceiver 110 to each tag 156, 158.

The processor 100 transmits the rearranged data or distance to the display 130 (S390). The display 130 displays the received rearranged data or each distance.

In the present exemplary embodiment, the data is rearranged using the reception time, but it may be displayed on the display in the order in which the data arrives at the transceiver 110.

The present invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is an internal block diagram of a reader according to the present invention;

2 is a signal flow diagram comprising a reader according to the invention, and

3 is a signal flow diagram comprising a reader in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

100: processor 110: transceiver

120: timer

Claims (7)

A transceiver for transmitting a data request signal to a tag including data and receiving the data from the tag; A timer which receives a transmission and reception time of the data from the transceiver and measures a time required to receive the data; A processor for calculating a distance by using the measured time required; And And a display for displaying the calculated distance. The method of claim 1, And the calculated distance is a distance from the transceiver to the tag. A transceiver for requesting data from a plurality of tags and receiving respective data from the tags; A timer for receiving an order in which the respective data are received from the transceiver; A processor for sorting the respective data according to the received order; And And a display for displaying each of the aligned data. The method of claim 3, wherein The timer receives an angle at the time of transmitting and receiving the respective data from the transceiver, and measures the time required to receive the data, The processor calculates each distance using the measured time required for each, And said display displays said calculated respective distances. The method of claim 4, wherein The respective calculated distances are the length from the transceiver to the respective tags. Transmitting a data request signal to a tag containing data; Receiving the data from the tag; Measuring a time taken to receive the data; Calculating a distance using the time required; And And displaying the calculated distance. Requesting data from a plurality of tags and receiving respective data from the tags; Storing the respective data; Storing an order of receiving each data; Rearranging the data in the order of reception; And Displaying the rearranged data.

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