KR20060124538A - Channel selecting method for reading tag information, channel selecting apparatus of rfid reader and rfid reader thereof - Google Patents

Abstract

A channel selecting method for reading tag information, a channel selecting device of an RFID(Radio Frequency Identification) reader adopting the method, and the RFID reader are provided to select/determine a channel, which RFID readers of almost the same area try to almost simultaneously use, as a channel for reading tag information, thereby preventing interference. A channel request time measurer(120) measures channel request time by a user's inputting action and channel request time by a channel change request inputting action. A channel selector(140) selects a channel for reading tag information stored in an RFID tag(10) existing in the outside, by using channel selecting information in accordance with the measured channel request times. A channel decider decides whether the selected channel is used in another RFID reader existing in the outside by measuring a receiving signal for the selected channel, and demands channel changes to the measurer(120) if the selected channel is used, then determines the selected channel as a channel for reading the tag information if the selected channel is not used.

Description

Channel selecting method for reading tag information, channel selecting apparatus of RFID reader and RFID reader

1 is a view showing an RFID system to which the present invention is applicable;

2 is a block diagram of a portable terminal equipped with a channel selection device of an RFID reader according to an embodiment of the present invention;

3 is a flowchart provided to explain a channel selection method according to an embodiment of the present invention;

4 and 5 are views provided in the description of the channel selection method of FIG.

6 to 8 are diagrams provided for further description of tag information reading time, received signal measurement times per unit time, and total channel determination times for each protocol in the channel selection method of FIG. 3;

9 is a block diagram of a portable terminal equipped with a channel selection device of an RFID reader according to another embodiment of the present invention, and

10 is a flowchart provided to explain a channel selection method according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100 ~ 400: Mobile terminal 10 ~ 30: RFID tag

100A: channel selector 120: channel request time measurement unit

140: channel selection unit 140-1: channel selection information storage unit

140-2: selection unit 160: channel determination unit

162: reception count counter 164: reception count determination unit

166: channel judgment count counter 168: channel judgment count comparison unit

170: channel determination unit

172: first channel determination unit 172A: first measurement unit

172B: first comparison unit 172B-1: first-1 comparison unit

172B-2: 1-2 comparison unit 174: second channel determination unit

174A: second measuring unit 174B: second comparing unit

100B: RF signal transceiver 100C: Tag information reading unit

100D: output section

The present invention relates to a channel selection method, a channel selection apparatus and an RFID reader of an RFID reader applying the same, and more particularly, a channel selection method for reading tag information stored in at least one RFID tag, and a channel selection apparatus of the RFID reader applying the same. And an RFID reader.

Radio Frequency Identification (RFID) is a type of Automatic Identification and Data Capture (AIDC) technology that reads data stored in an RFID tag with a microchip in a non-contact manner using radio frequency. to be.

The RFID system consists of an RFID reader and an RFID tag. When the RFID reader requests tag information to be sent to the RFID tag, the RFID system operates by transmitting the tag information to the RFID reader in the form of a radio frequency.

The general RFID technology standard assumes that a fixed RFID reader continuously reads a plurality of RFID tags. The RFID technology standard is suitable for use in a conventional RFID system such as supply chain management (SCM).

When the conventional RFID system applied to the SCM is applied to a wireless communication terminal, the RFID reader included in the wireless communication terminal continuously operates to read a plurality of RFID tags, which causes battery consumption of the wireless communication terminal.

In addition, since the RFID reader continuously operates while being connected to the reader information related server in order to receive the tag information, information usage fee of the wireless communication portable terminal may be problematic. Therefore, it is necessary to operate the RFID reader only when the user wants to obtain necessary tag information.

In addition, when there is an RFID reader for MRF (Mobile RFID Forum), and a plurality of wireless communication portable terminals equipped with an RFID reader attempt to read tag information stored in at least one RFID tag at about the same time, interference between a plurality of RFID readers is performed. What is needed is a way to prevent this. For example, when a plurality of wireless communication portable terminals including an RFID reader simultaneously read at least one tag attached to an artwork displayed at an exhibition hall, interference between a plurality of RFID readers may occur.

This problem can be solved by using a central controller to perform spatial coordination so that a plurality of RFID readers do not interfere with each other or by changing the use channel of each reader through time synchronization between multiple RFID readers. Can be. However, the RFID reader for MRF is difficult to visualize the spatial arrangement and the RFID reader, the seriousness of the problem is emerging.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to prevent interference that may occur when a plurality of RFID readers attempt to read tag information stored in at least one RFID tag almost simultaneously. The present invention provides a channel selection method for selecting and determining a channel used by RFID readers in almost the same area as a channel for reading tag information, and a channel selection device and an RFID reader of the RFID reader applying the same.

According to the present invention for achieving the above object, the channel selection device of the RFID reader provided in the wireless communication terminal, the channel request time measurement by measuring the channel request time by the user input and the channel change request input part; A channel selector which selects a channel for reading tag information stored in an RFID tag externally using the channel selection information according to the measured channel request time; And determining whether the selected channel is used by another RFID reader externally by measuring a reception signal with respect to the selected channel, and if the selected channel is determined to be in use, requesting the channel change time measurement unit to change the channel. And a channel determiner configured to determine the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use.

The channel request time measurement unit preferably measures the channel request time using visual information provided by the wireless communication portable terminal.

The channel selector may further include channel selection information including channel information to be selected according to the measured channel request time and channel selection information including channel information to change the selected channel when the selected channel is in use by the other RFID reader. Storage unit; And a selecting unit for selecting a channel for reading the tag information by referring to the channel selection information stored in the channel selection information storage unit.

The channel determination unit may further include: a reception frequency counter for measuring whether the reception signal is received at predetermined intervals for the predetermined unit time for the selected channel, and counting the reception frequency of the reception signal; And a reception frequency determination unit configured to determine the selected channel as a channel for reading the tag information based on a result of the comparison between the reception frequency counted by the reception frequency counter and a first reference value.

The reception frequency determination unit may determine that the other RFID reader does not use the selected channel when the reception frequency counted by the reception frequency counter matches the first reference value, and determines the selected channel as the tag information. Can be determined as the channel for reading. In this case, the first reference value may be '0'.

When the number of reception times exceeds a second reference value, the reception frequency determination unit may determine that the other RFID reader uses the selected channel and may not determine the selected channel as a channel for reading the tag information. .

The reception frequency determination unit may determine whether the reception signal is received in a section located in the second half of the sections forming the predetermined unit time when the number of reception times is less than or equal to a second reference value, and the section located in the second half. If it is determined that the received signal is not received, it is preferable to determine the selected channel as a channel for reading the tag information.

In addition, the channel selection apparatus of the RFID reader includes: a channel determination count counter for counting a channel determination count by the reception count determination unit; And the reception signal is determined to have exceeded a second reference value by the reception frequency determination unit, or the reception signal has been received in a section located at the second half of the reception frequency determination unit, and is counted at the channel determination count counter. If the number of times of determining the channel and the third reference value do not match, instructing the reception count counter to recount the reception count for the next unit time, and instructing the reception count determination unit to recompare the reception count and the first reference value. It is preferable to further include a; channel judgment number comparison unit to.

In addition, when the channel determination count comparison unit matches the channel determination count and the third reference value, it is preferable to request the channel change to the channel request time measurement unit. In this case, the third reference value may be an integer of '5' or less.

The channel determiner may include: a first channel determiner configured to determine whether the selected channel is used by the other RFID reader based on a measurement result of a first received signal for a predetermined unit time for the selected channel; And when the other RFID reader is determined to use the selected channel by the first channel determiner, based on a measurement result of a second received signal for a predetermined tag information reading time for the selected channel, And a second channel determiner for determining any one of the channel change request and the repeater determination by the channel determiner and the channel request time measurer.

The first channel determiner may measure whether the first received signal is received at a predetermined interval for the predetermined unit time with respect to the selected channel and counts the number of times of reception of the first received signal. part; And a first comparator configured to determine the selected channel as a channel for reading the tag information based on a result of comparing a received frequency of the first received signal counted by the first measurer with a first reference value. can do.

The first comparison unit determines that the other RFID reader does not use the selected channel when the number of receptions of the first received signal counted by the first measurement unit and the first reference value match. The selected channel is determined as a channel for reading the tag information, and if the number of receptions of the first received signal and the first reference value do not coincide, the other RFID reader determines that the selected channel uses the selected channel. A first-first comparison unit that does not determine a channel as a channel for reading the tag information; And if it is determined by the first-first comparison unit that the other RFID reader uses the selected channel, it is determined whether the first reception signal is received in a section located in the latter half of the sections forming the predetermined unit time. If it is determined that the first reception signal is not received in the section located in the second half, the selected channel is determined as a channel for reading the tag information, and the first reception signal is received in the section located in the second half. And a 1-2 comparison unit which does not determine the selected channel as a channel for reading the tag information when it is determined that the information is determined.

The second channel determiner may determine whether the other RFID reader uses the selected channel by the first channel determiner, at a predetermined interval for a predetermined tag information reading time for the selected channel. A second measuring unit which measures whether a received signal is received and counts the number of times of receiving the second received signal; And repeating the determination by the first channel determination unit and the channel request time measurement unit based on a comparison result of the number of receptions of the second received signal counted by the second measurement unit and a second reference value. It is preferable to include; a second comparison unit for determining any one of the request.

The second comparison unit determines the repetition determination by the first channel determination unit when the number of times of reception of the second reception signal is equal to or less than the second reference value, and the number of times of reception of the second reception signal by the second reference value. If exceeding, it is preferable to determine the channel change request to the channel request time measurement unit.

On the other hand, according to the present invention, a channel selection method of an RFID reader provided in a wireless communication terminal, the channel request time measurement step of measuring the channel request time by the user input and the channel change request input; A channel selection step of selecting a channel for reading tag information stored in an external RFID tag by using the channel selection information according to the measured channel request time; And determining whether the selected channel is used by another RFID reader existing outside by measuring a received signal with respect to the selected channel, and if the selected channel is determined to be in use, requesting the channel change to the channel request time measurement step. And determining the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use.

In the step of measuring the channel request time, it is preferable to measure the channel request time using visual information provided by the wireless communication portable terminal.

The channel selection step may be performed by referring to channel information to be selected according to the measured channel request time and channel selection information including channel information to change the selected channel when the selected channel is in use by the other RFID reader. It is preferable to select a channel for reading the tag information.

The channel determination step may include: a reception frequency counting step of measuring whether the reception signal is received at a predetermined interval for the predetermined unit time with respect to the selected channel, and counting the reception frequency of the reception signal; And a reception frequency determination step of determining the selected channel as a channel for reading the tag information based on a result of comparing the reception frequency counted by the reception frequency counting step with a first reference value. .

The reception frequency determination step may include determining that the other RFID reader is not using the selected channel when the reception frequency counted by the reception frequency counting step and the first reference value coincide with each other. It is desirable to determine a channel for reading tag information. In this case, the first reference value may be '0'.

In the reception frequency determining step, when the reception frequency exceeds a second reference value, the other RFID reader may determine that the selected channel uses the selected channel and may not determine the selected channel as a channel for reading the tag information. have.

The reception frequency determining step may include determining whether the reception signal is received in a section located at a later half of the sections forming the predetermined unit time when the reception frequency is less than or equal to a second reference value. If it is determined that the reception signal is not received in the interval, the selected channel may be determined as a channel for reading the tag information.

The channel selection method of the RFID reader includes: a channel determination counting step of counting a channel determination count by the reception count determination step; And in the receiving frequency determining step, the receiving frequency is determined to exceed a second reference value or the receiving signal is determined to be received in a section located later in the receiving frequency determining step. If the counted number of channel determination times and the third reference value do not match, the reception counting step is instructed to recount the reception counts for the next unit time, and the reception count determination step re-compares the reception counts with the first reference value. It is preferable to further include a; channel determination times comparing step indicating.

In addition, in the channel determination number comparing step, when the channel determination number and the third reference value coincide, the channel determination time may be requested to the channel request time measurement step. In this case, the third reference value may be an integer of '5' or less.

The channel determining step may include: a first channel determining step of determining whether the selected channel is used by the other RFID reader based on a measurement result of a first received signal for a predetermined unit time with respect to the selected channel; And when the other RFID reader is determined to use the selected channel by the first channel determining step, based on a measurement result of a second received signal for a predetermined tag information reading time for the selected channel, And a second channel determination step of determining any one of the channel change request in the repeating determination by the channel determination step and the channel request time measurement step.

In the determining of the first channel, the first channel may be configured to measure whether the first reception signal is received at predetermined intervals for the predetermined unit time and count the number of reception times of the first reception signal. Measuring step; And a first comparing step of determining the selected channel as a channel for reading the tag information based on a result of comparing the received frequency of the first received signal counted by the first measuring step with a first reference value. can do.

The first comparing step determines that the other RFID reader does not use the selected channel when the number of receptions of the first received signal counted by the first measuring step and the first reference value match. The selected channel is determined as a channel for reading the tag information, and if the number of receptions of the first received signal and the first reference value do not coincide, the other RFID reader determines that the selected channel uses the selected channel. A 1-1 comparison step of not determining a as a channel for reading the tag information; And when the other RFID reader is determined to use the selected channel by the first-first comparison step, determine whether the first reception signal is received in a section located at a later half of the sections forming the predetermined unit time. If it is determined that the first reception signal is not received in the section located in the second half, the selected channel is determined as a channel for reading the tag information, and the first reception signal is received in the section located in the second half. And a 1-2 comparison step of not determining the selected channel as a channel for reading the tag information when it is determined that the information is determined.

In the determining of the second channel, if it is determined that the other RFID reader uses the selected channel by the first channel determining step, the second channel determining step is performed at predetermined intervals during a predetermined tag information reading time for the selected channel. A second measurement step of measuring whether a second reception signal is received and counting a reception frequency of the second reception signal; And changing the channel in the repetition determination by the first channel determination step and the channel request time measurement step, based on a result of comparing the number of times of reception of the second received signal counted by the second measurement unit with a second reference value. And a second comparing step of determining any one of the requests.

In the second comparing step, if the number of times of reception of the second reception signal is less than or equal to the second reference value, the determination of repetition by the first channel determination step is determined, and the number of times of reception of the second reception signal is determined by the second comparison signal. If the reference value is exceeded, it is preferable to determine the channel change request in the channel request time measurement step.

On the other hand, according to the present invention, the channel selection device of the RFID reader provided in the wireless communication portable terminal, based on the channel request time measured by using the time information provided by the wireless communication portable terminal, the RFID tag that is externally present Select channel to read tag information saved in.

On the other hand, according to the present invention, the RFID reader, a channel request time measurement unit for measuring the channel request time by the user input and the channel change request input by the channel input request; A channel selector which selects a channel for reading tag information stored in an RFID tag externally using the channel selection information according to the measured channel request time; And determining whether the selected channel is used by another RFID reader externally by measuring a reception signal with respect to the selected channel, and if the selected channel is determined to be in use, requesting the channel change time measurement unit to change the channel. And a channel determiner configured to determine the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use.

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

1 is a diagram illustrating an RFID system to which the present invention is applicable. As shown in FIG. 1, the RFID system includes a plurality of 'wireless communication terminals' (hereinafter, abbreviated as 'portable terminals') 100 to 400 and a plurality of RFID tags 10 to 30. In the RFID system illustrated in FIG. 1, it is assumed that the number of portable terminals is four and the number of RFID tags is three, but this is merely an example for convenience of illustration. Therefore, there is no restriction on the number of portable terminals and the number of RFID tags. That is, the present invention is also applicable to an RFID system constructed with more or fewer portable terminals and RFID tags.

As shown in FIG. 1, four portable terminals 100 to 400 may attempt to read tag information stored in at least one tag 10 to 30 at about the same time. According to the present invention, the mobile terminal i) reads the tag information through the channel if the other mobile terminal is not using the channel for reading the tag information, ii) the other mobile terminal uses a channel for reading the tag information In the case of doing so, since tag information is read through a different channel, interference does not occur as in the prior art.

Hereinafter, the mobile terminals 100 to 400 illustrated in FIG. 1 will be described in detail with reference to FIG. 2. 2 is a block diagram of a portable terminal equipped with a channel selection device of an RFID reader according to an embodiment of the present invention. Since the mobile terminals 100 to 400 shown in FIG. 1 may be implemented in the same manner, only the mobile terminal having the reference numeral '100' will be described below. Accordingly, FIG. 2 illustrates the mobile terminal 100. The bay is shown. In addition, Figure 2 further shows an RFID tag of reference numeral '10' for convenience of understanding.

As shown in FIG. 2, the mobile terminal 100 is a channel selector of an RFID reader (hereinafter, abbreviated as a channel selector) 100A according to an embodiment of the present invention. Section 100B, tag information reading section 100C, and output section 100D.

The channel selector 100A selects and determines a channel for reading tag information stored in the RFID tag 10. The channel selector 100A includes a channel request time measurement unit 120, a channel selector 140, and a channel determiner 160.

The channel request time measurement unit 120 measures 'channel request time by user input' and 'channel request time by channel change request input'. The channel request time measured by the channel request time measurement unit 120 is applied to the channel selector 140 to be described later.

Here, 'channel request time by user input' is a time when a tag information reading command is input from a user through a key manipulation unit (not shown) provided in the mobile terminal 100. The 'channel request time by inputting a channel change request' is a time when a channel change request is received from the channel determination unit 160 which will be described later.

In measuring the channel request time, the channel request time measurement unit 120 may use visual information provided by a timer (not shown) of the mobile terminal 100. On the contrary, the channel request time measurement unit 120 may use a timer provided by itself.

The channel selector 140 selects or changes a channel for reading tag information stored in the RFID tag 10 when the channel request time is received from the channel request time measurement unit 120. In selecting or changing a channel, the channel selector 140 refers to a channel request time and channel selection information to be described later.

The channel selector 140 includes a channel selection information storage 140-1 and a selector 140-2.

The channel selection information storage unit 140-1 is a storage medium in which the channel selection information described above is stored. 'Channel selection information' refers to i) channel information to be selected according to the channel request time, and ii) channel information to be changed when there is a need to change the selected channel.

The selector 140-2 selects or changes a channel for reading tag information with reference to the channel selection information stored in the channel selection information storage 140-1. In detail, the selector 140-2 selects, from the channel request time measurement unit 120, i) 'channel request time by user input' and 'channel request time by user input' and 'channel information to select'. Refer to ', and select channel for reading tag information. Ii) If' Channel request time by channel change request input 'is authorized, refer to' Channel request time by channel change request input 'and' Channel information to change '. To change the channel for reading tag information.

The channel determiner 160 measures a received signal for a channel selected / changed by the selector 140-2, and then uses other portable terminals 200 to 400 (or other RFID readers that exist externally). Determines whether) uses the selected / changed channel.

If it is determined that the selected / changed channel is in use, the channel determination unit 160 requests the channel request time measurement unit 120 to change the channel. On the other hand, if it is determined that the selected / modified channel is not in use, the channel determination unit 160 determines the selected / modified channel as a channel for reading tag information.

As shown in FIG. 2, the channel determination unit 160 includes a reception frequency counter 162, a reception frequency determination unit 164, a channel determination frequency counter 166, and a channel determination frequency comparison unit 168. .

Detailed description of the components included in the channel determination unit 160 will be described later with reference to the flowchart shown in FIG. 3.

On the other hand, the RF signal transceiver 100B receives the received signal for the channel selected / changed by the selector 140-2 and applies it to the reception frequency counter 162.

In addition, the RF signal transceiver 100B reads tag information stored in the RFID tag 10 through a channel determined by the channel determiner 160. Specifically, the RF signal transceiver 100B requests the tag information from the RFID tag 10 through the channel and receives the tag information from the RFID tag 10.

The tag information reading unit 100C displays the tag information read by the RF signal transmitting and receiving unit 100B on the output unit 100D so that a user can recognize the tag information.

Hereinafter, a process in which the portable terminal 100 shown in FIG. 2 selects / determines a channel for reading tag information and reads tag information through the determined channel will be described in detail with reference to FIG. 3. 3 is a flowchart provided to explain a channel selection method according to an embodiment of the present invention.

As shown in FIG. 3, first, the channel request time measurement unit 120 measures 'channel request time by user input' (S120). The channel request time measured by the channel request time measurement unit 120 is applied to the selector 140-2. The channel request time based on a user input has been described above as a time when a tag information reading command is input from a user through a key operation unit (not shown) provided in the mobile terminal 100.

Then, the selector 140-2 selects a channel for reading tag information (S140). In selecting a channel, the selector 140-2 selects the channel request time measured by the user input and the channel request information stored in the channel selection information stored in the channel selection information storage 140-1. Channel information to be selected according to time '.

Then, the reception count counter 162 provided in the channel determination unit 160 counts the reception count of the reception signal for the channel selected in step S140 (S162). At this time, the reception count counter 162 may measure whether the reception signal is received at predetermined intervals for a predetermined unit time, and count the reception frequency of the reception signal.

At this time, the unit time may be set to 5ms and the measurement interval may be set to 12.5 ms or 7.125 ms. If the measurement interval is 12.5㎲, the number of measurements for 5ms is 400 (= 5ms / 12.5㎲), and if the measurement interval is 7.125㎲, the number of measurements for 5ms is 700 times (= 5ms / 7.125㎲). Depending on the protocol, the unit time and the measurement interval may be set differently from the examples.

Thereafter, the reception frequency determination unit 164 provided in the channel determination unit 160 determines whether the channel selected in operation S140 is a channel for reading tag information based on a result of comparing the reception frequency counted in step S162 with the first reference value. It is determined whether or not (S164A).

At this time, the first reference value is preferably set to '0'. In this case, when the reception frequency of the reception signal counted in step S162 is '0' (the first reference value) (S164A-Y), the reception frequency determination unit 164 reads the channel information selected in step S140 for tag information. The channel is determined.

If the number of receptions of the counted received signal is '0', i) if no received signal is received during the unit time, or ii) received signal strength is received even if received signal (Received Signal Strength Indicator: RSSI) Can be assumed to be very weak and considered to be noise. In this case, since it is determined that the other mobile terminals 200 to 400 do not use the channel selected in step S140, the channel is determined as a channel for reading tag information.

Accordingly, the RF signal transceiver 100B reads tag information stored in the RFID tag 10 through a channel determined by the reception frequency determination unit 164 (S180).

On the other hand, if the received frequency of the counted received signal is not the first reference value (0) (S164A-N), the received frequency determination unit 164 based on the comparison result of the counted received frequency and the second reference value in step S162, It is determined whether the counted reception count is large or small (S164B).

In this case, the second reference value may be half of the number of times of reception signal measurement. For example, when the measurement frequency is 400 times, the second reference value is 200 times, and when the measurement frequency is 700 times, the second reference value is 350 times. If necessary, of course, the second reference value may be set differently from the example.

According to this, in step S164B, the reception frequency determining unit 164 is i) when the counted reception signal exceeds half of the reception signal measurement frequency, the reception frequency is large. Ii) The counted reception signal is less than half the reception signal measurement frequency. In this case, it is determined that the number of receptions is small.

If the number of times of reception exceeds the second reference value in step S164B, that is, if it is determined that the number of times of reception is high (S164B-Y), step S164C is not performed.

On the other hand, if the number of receptions is less than or equal to the second reference value in step S164B, that is, if it is determined that the number of receptions is small (S164B-N), the reception frequency determination unit 164 is located in the latter half of the sections forming the predetermined unit time. In step S164C, it is determined whether the channel selected in step S140 is a channel for reading tag information based on whether or not the reception signal is received in the interval.

Specifically, in step S164C, if it is determined that the reception signal is not received in the section located in the latter half (S164C-N), the reception frequency determination unit 164 is a channel for reading tag information in the channel selected in step S140 Decide on Thereafter, step S180 is performed.

On the other hand, if it is determined in step S164C that the received signal is received in the section located in the latter half (S164C-Y), the reception frequency determination unit 164 is a channel selected by the other mobile terminal (200 ~ 400) in step S140 In operation S140, the channel selected in step S140 is not determined as a channel for reading tag information. The determination result of the reception frequency determination unit 164 is transmitted to the channel determination frequency counter 166 provided in the channel determination unit 160.

Then, the channel determination count counter 166 increments counting the channel determination count by the reception count determination unit 164 (S166). The channel determination count comparison unit 168 determines whether to request a channel change based on a comparison result of the channel determination count counted by the channel determination count counter 166 and the third reference value (S168).

Specifically, if the channel determination count and the third reference value do not match (S168-N), the channel determination count comparison unit 168 instructs the reception count counter 162 to recount the reception count for the next unit time. Re-run from step S162.

The discrepancy between the channel determination frequency and the third reference value corresponds to a case where the number of channel determination times due to the comparison process of the reception frequency determination unit 164 is not sufficient for several times (the third reference value). The third reference value, which is a reference value indicating whether or not the number of times of channel determination by the comparison process of the reception frequency determination unit 164 is sufficient, is preferably set to '3' or '5'. If necessary, of course, the third reference value may be set differently from the example.

On the other hand, if the number of times of channel determination matches the third reference value, that is, if the number of times of channel determination by the comparison process of the reception frequency determination unit 164 is sufficiently made (S168-Y), the channel determination times comparison unit 168 requests the channel. The time measurement unit 120 is requested to change the channel so as to be performed again from step S120.

Accordingly, the channel request time measurement unit 120 measures the 'channel request time by the channel change request input' (S120). The channel request time measured by the channel request time measurement unit 120 is applied to the selector 140-2.

Then, the selector 140-2 changes the channel for reading tag information (S140). In changing the channel, the selector 140-2 selects the 'channel request time by inputting the channel change request input' and the channel selection information stored in the channel selection information storage 140-1 measured in step S120. Channel information to be changed according to the request time '.

Thereafter, the changed channels are re-run from step S162, and detailed description thereof will be omitted since it can be inferred from the foregoing description.

Meanwhile, while performing the steps shown in the flowchart shown in FIG. 3, the selecting unit 140-2 refers to the channel selection information storing unit 140-1 so that the channel allocated to the current time is set / changed in step S140. Determine whether it matches the channel. At this time, if it is determined that the two are different, the selector 140-2 changes the channel set / changed in step S140 to the channel assigned to the current time.

Hereinafter, the channel selection method shown in FIG. 3 will be described with reference to FIGS. 4 and 5.

4 is a diagram illustrating channels that may be used by the mobile terminal 100. Referring to FIG. 4, the frequency band that the mobile terminal 100 can use is 908.5 MHz to 914 MHz, and the total number of channels in this frequency band is 27. Therefore, the frequency band of one channel is 0.20 MHz.

FIG. 5 is a diagram provided to explain channel selection information stored in the channel selection information storage 140-1. As shown in FIG. 5, 'channel selection information' includes i) channel information to be selected and ii) a channel to be changed when there is a need to change the selected channel according to a channel request time (Time). Channel) information.

The channel to be selected according to the channel request time can be generated by a pseudo-random number generator, and the channel to be changed according to the channel request time (change channel when a collision occurs) is selected from the channel ( It is preferable to determine the channel away from the channel) by a predetermined frequency.

Hereinafter, in the case where the time interval is assumed to be 37 ms (1 s / 27 (total number of channels)) in FIG. 5, the channel selection method of the portable terminal will be described in detail.

5 illustrates a case where a tag information reading command is input to the mobile terminals 1 to 3 within a first time (00 to 37 ms) section. The command input time of the portable terminal 2 is T1, the command input time of the portable terminal 3 is T1-1, and the command input time T3-1 of the portable terminal 1 is input within the first time interval (00 to 37 ms). For example, the mobile terminal 2 is at 15:22:10 seconds 9 (15: 22: 10: 09), and the mobile terminal 3 is at 15:22:10 seconds 11 (15: 22: 10: 11). 1 is a case where a tag information reading command is inputted at 15:22:10 seconds 18 (15: 22: 10: 18).

The channel assigned at the time when the tag information reading command is input to the portable terminal 2 is channel 1 (908.55 MHz to 908.75 MHz). Accordingly, the mobile terminal 2 selects the channel 1 and counts the number of receptions of the received signal for the channel 1 for 5 ms. At this time, since the mobile terminals 1 and 3 do not use the channel 1, the counted number of receptions is '0'. Accordingly, the mobile terminal 2 determines channel 1 as a channel for reading tag information. Thereafter, the portable terminal 2 repeatedly reads the tag information over two 8ms.

On the other hand, since the terminal 3 has a tag information reading command input to T1-1 later than T1, the tag information reading command is input within the first time period (00 to 37 ms) like the mobile terminal 2, Choose. The mobile terminal 3 counts the number of receptions of the received signal for the channel 1 for 5 ms. On the other hand, since the mobile terminal 2 is using the channel 1 from T2 to T3, the mobile terminal 3 recounts the number of receptions of the received signal for the channel 1 for the next 5 ms (T3 to T4).

Since T3 is T4 and T4 is T5, mobile terminal 2 is using channel 1, and in the latter half of T5 and T6, mobile terminals 2 and 3 do not use the first channel, so mobile terminal 3 uses channel 1 at T6. Read tag information.

On the other hand, since the channel assigned at the time when the tag information reading command is input to the portable terminal 1 is channel 1, the portable terminal 2 selects the channel 1 and counts the number of receptions of the received signal for the channel 1 for 5 ms. Since the mobile terminal 2 is using the channel 1 from T3-1 to T7, the mobile terminal 3 recounts the number of receptions of the received signal for the channel 1 for the next 5 ms (T7 to T8).

Since the terminal 2 is using the first channel from T7 to T8, and the terminal 3 is using the first channel from T8 to T9, T9 to T10, and T10 to T11, the mobile terminal 1 uses channel 1 as tag information. Do not decide to read the channel.

However, after T11, since the current time corresponds to a second time period (37 to 74 ms), the mobile terminal 1 selects channel 4, which is a channel allocated to the second time period. The mobile terminal 1 then counts the number of times of reception of the received signal for channel 4 for 5 ms (T12 to T13). On the other hand, since the mobile terminals 2 and 3 do not use the channel 4 from T12 to T13, the counted number of receptions is '0'. Therefore, the mobile terminal 1 determines channel 4 as a channel for reading tag information. Thereafter, the mobile terminal 1 repeatedly reads the tag information over two 8ms.

6 to 8 are diagrams provided for explaining the tag information reading time, the number of reception signal measurement per unit time, and the total channel determination number (third reference value) for each protocol in the channel selection method of FIG. 3.

6 is a diagram illustrating a case in which the present invention is applied to an EPC C1G2 signal tag.

Referring to FIG. 6, it can be seen that the total number of channel determinations (third reference value) is five times and the tag information reading time is 16 ms (8 ms × 2). In addition, since the reception signal measurement cycle is 12.5 μs, the number of reception signal measurement times per unit time (5 ms) is 400 (5 ms / 12.5 μs). In this case, the second reference value can be set to 200, which is half of 400 times.

7 is a diagram illustrating a case where the present invention is applied to an EPC C1 signal tag.

Referring to FIG. 7, it can be seen that the total number of channel determinations (third reference value) is two times and the tag information reading time is 3ms. In addition, since the reception signal measurement cycle per unit time (5ms) is 7.125 µs, the number of reception signal measurement cycles per unit time is 700 (5 ms / 7.125 µs). In this case, the second reference value can be set to 350, which is half of 700 times.

8 is a diagram illustrating a case in which the present invention is applied to an ISO Type B signal tag.

Referring to FIG. 8, it can be seen that the total number of channel determinations (third reference value) is three times and the tag information reading time is 6.15 ms. In addition, since the reception signal measurement cycle per unit time (5ms) is 12.5µs, the number of reception signal measurement cycles per unit time is 400 (5ms / 12.5µs). In this case, the second reference value can be set to 200, which is half of 400 times.

Hereinafter, another embodiment of the present invention will be described in detail with reference to FIGS. 9 and 10.

9 is a block diagram of a portable terminal equipped with a channel selection device of an RFID reader according to another embodiment of the present invention. FIG. 9 further illustrates an RFID tag having a reference numeral '10' for convenience of understanding.

As shown in FIG. 9, the mobile terminal 100 is a channel selector of an RFID reader (hereinafter, abbreviated as a channel selector) 100A according to another embodiment of the present invention. Section 100B, tag information reading section 100C, and output section 100D. The channel selector 100A selects and determines a channel for reading tag information stored in the RFID tag 10. The channel selector 100A includes a channel request time measurement unit 120, a channel selector 140, and a channel determiner 170.

The RF signal transceiver 100B, the tag information reading unit 100C, the output unit 100D, the channel request time measurement unit 120, and the channel selector 140 shown in FIG. 9 are those shown in FIG. Since the detailed description thereof is omitted, only the channel determination unit 170 having a configuration different from that of the channel determination unit 160 shown in FIG. 2 will be described.

The channel determiner 170 measures a received signal for a channel selected / changed by the selector 140-2, and then uses other portable terminals 200 to 400 (or other RFID readers that exist externally). Determines whether) uses the selected / changed channel.

If it is determined that the selected / changed channel is in use, the channel determination unit 170 requests the channel request time measurement unit 120 to change the channel. On the other hand, if it is determined that the selected / modified channel is not in use, the channel determination unit 170 determines the selected / modified channel as a channel for reading tag information.

As shown in FIG. 9, the channel determiner 170 includes a first channel determiner 172 and a second channel determiner 174. The first channel determiner 172 includes a first measurer 172A and a first comparator 172B, and the first comparator 172B is connected to the 1-1 comparator 172B-1. The 1-2 comparison part 172B-2 is provided. The second channel determiner 174 includes a second measurer 174A and a second comparator 174B.

Detailed description of the components included in the channel determination unit 170 will be described with reference to the flowchart shown in FIG. 10. 10 is a flowchart provided to explain a channel selection method according to another embodiment of the present invention.

Steps S120 and S140 shown in FIG. 10 are the same as described with reference to FIG.

When the step S140 is completed, the first measurement unit 172A provided in the first channel determination unit 172 counts the number of times of reception of the received signal for the channel selected in step S140 (S172A). In this case, the first measurement unit 172A may measure whether the received signal is received at predetermined intervals for a predetermined unit time, and count the number of times of reception of the received signal.

At this time, the unit time may be set to 5ms and the measurement interval may be set to 12.5 ms or 7.125 ms. If the measurement interval is 12.5㎲, the number of measurements for 5ms is 400 (= 5ms / 12.5㎲), and if the measurement interval is 7.125㎲, the number of measurements for 5ms is 700 times (= 5ms / 7.125㎲). If necessary, the unit time and the measurement interval may be set differently from the examples.

Subsequently, the first-first comparison unit 172B-1 provided in the first comparison unit 172B of the first channel determination unit 172 may determine a result of comparing the received frequency of the received signal counted in step S172A and the first reference value. On the basis of this, it is determined whether the channel selected in step S140 is a channel for reading tag information (S172B-1).

At this time, the first reference value is preferably set to '0'. In this case, when the reception frequency of the reception signal counted in step S172A is '0' (the first reference value) (S172B-1-Y), the first-first comparison unit 172B-1 is selected in step S140. The channel is determined as a channel for reading tag information.

When the number of reception of the received signal counted in step S172A is '0', i) when none of the received signals are received for a unit time, or ii) even when the received signal is received (Received Signal Strength Indicator) It can be assumed that RSSI) is very weak and is judged to be noise. In this case, since it is determined that the other mobile terminals 200 to 400 do not use the channel selected in step S140, the channel is determined as a channel for reading tag information.

Accordingly, the RF signal transmitting and receiving unit 100B reads tag information stored in the RFID tag 10 through the channel determined by the 1-1 comparison unit 172B-1 (S180).

On the other hand, if the number of receptions of the received signal counted in step S172A is not the first reference value (0) (S172B-1-N), the first-first comparison unit 172B-1 may determine that other mobile terminals 200 to 400 are connected. In operation S140, it is determined that the selected channel is used, and the decision right is given to the 1-2 comparison unit 172B-2.

Accordingly, the 1-2 comparison unit 172B-2 receives tag information on the channel selected in step S140 based on whether the received signal is received in a section located in the latter half of the sections forming the predetermined unit time. It is determined whether to use a channel for reading (S172B-2).

Specifically, if it is determined in step S172B-2 that the received signal is not received in the section located in the latter half (S172B-2-N), the 1-2 comparison unit 172B-2 is selected in step S140 Determine the channel to read tag information. Thereafter, step S180 is performed.

On the other hand, if it is determined in step S172B-2 that the received signal is received in the section located in the latter half (S172B-2-Y), the 1-2 comparison unit 172B-2 is another mobile terminal (200 ~). In operation S140, it is determined that the channel uses the selected channel, and the determination right is given to the second channel determination unit 174.

Accordingly, the second measurement unit 174A provided in the second channel determination unit 174 measures whether or not the reception signal is received at predetermined intervals during the predetermined tag information reading time for the channel selected in step S140, and receives the reception signal. Count the number of times of reception (S174A).

Here, the tag information reading time is a time required for the mobile terminal (or RFID reader) to read the RFID tag. Meanwhile, the tag information reading time is determined according to the protocol, and the measurement interval is determined according to the protocol.

Thereafter, the second comparison unit 174B determines whether to request a channel change, based on a result of comparing the received frequency of the received signal counted in step S174A and the fourth reference value (S174B).

Specifically, if the number of times of reception of the received signal counted in step S174A is less than or equal to a predetermined fourth reference value (S174B-N), the second comparison unit 174B determines the repetition determination by the first channel determination unit 172. . Accordingly, the process will be performed again from step S172A.

On the other hand, if the number of times of reception of the received signal counted in step S174A exceeds the fourth reference value (S174B-Y), the second comparator 174B determines the channel change request, and the channel to the request time measurement unit 120. Request a change.

Accordingly, the channel request time measurement unit 120 measures the 'channel request time by the channel change request input' (S120). The channel request time measured by the channel request time measurement unit 120 is applied to the selector 140-2.

Then, the selector 140-2 changes the channel for reading tag information (S140). In changing the channel, the selector 140-2 selects the 'channel request time by inputting the channel change request input' and the channel selection information stored in the channel selection information storage 140-1 measured in step S120. Channel information to be changed according to the request time '.

Thereafter, the changed channel is re-run from step S172A, and detailed description thereof will be omitted since it can be inferred from the foregoing description.

As described above, according to the present invention, a channel not used by another RFID reader existing outside is selected and determined as a channel for reading tag information. That is, if another RFID reader is not using a channel for reading tag information, the tag information is read through the channel. If another RFID reader is using a channel for reading tag information, the other channel is read through the other channel. The tag information is read. Accordingly, interference that may occur when a plurality of RFID readers attempt to read the tag information stored in the RFID tag at about the same time can be avoided, and the tag information can be read more accurately.

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.

Claims (34)

In the channel selection device of the RFID reader provided in the wireless communication portable terminal, A channel request time measurement unit measuring a channel request time by a user input and a channel request time by a channel change request input; A channel selector which selects a channel for reading tag information stored in an RFID tag externally using the channel selection information according to the measured channel request time; And It is determined whether the selected channel is used by another RFID reader existing outside by measuring the received signal with respect to the selected channel.If it is determined that the selected channel is in use, the channel request time measurement unit is requested to change the channel. And a channel determination unit determining the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use. The method of claim 1, The channel request time measurement unit, And the channel request angle is measured using visual information provided by the wireless communication portable terminal. The method of claim 1, The channel selector, A channel selection information storage unit storing channel information to be selected according to the measured channel request time and channel selection information including channel information to change the selected channel when the selected channel is in use by the other RFID reader; And And a selecting unit which selects a channel for reading the tag information by referring to the channel selection information stored in the channel selection information storage unit. The method of claim 1, The channel determination unit, A reception frequency counter for measuring whether the reception signal is received at a predetermined interval for the predetermined unit time for the selected channel, and counting the reception frequency of the reception signal; And And a reception count determining unit configured to determine the selected channel as a channel for reading the tag information, based on a result of the comparison of the reception count counted by the reception count counter with a first reference value. Channel selector. The method of claim 4, wherein The reception count determination unit, If the received count counted by the received count counter and the first reference value coincide, the other RFID reader determines that the selected channel is not used to determine the selected channel as a channel for reading the tag information. A channel selection device of an RFID reader. The method of claim 5, And the first reference value is '0'. The method of claim 4, wherein The reception count determination unit, If the number of times of reception exceeds a second reference value, the other RFID reader determines that the selected channel is used, and thus does not determine the selected channel as a channel for reading the tag information. . The method of claim 7, wherein The reception count determination unit, When the number of times of reception is less than or equal to a second reference value, it is determined whether the reception signal is received in a section located in the latter half of the sections forming the predetermined unit time, and the reception signal is not received in the section located in the latter half. And determining that the selected channel is a channel for reading the tag information. The method of claim 8, A channel determination count counter for counting the channel determination count by the reception count determination unit; And The reception frequency determination unit determines that the number of reception times exceeds a second reference value or the reception signal is determined to be received in a section located at the second half of the reception frequency determination unit, and is counted by the channel determination count counter. If the channel determination count and the third reference value do not match, instructing the reception count counter to recount the reception count for the next unit time, and instructing the reception count determination unit to recompare the reception count and the first reference value. A channel selection apparatus of an RFID reader, characterized in that it further comprises; The method of claim 9, The channel judgment number comparison unit, And if the channel determination count is equal to the third reference value, requesting the channel change time measurement unit to change the channel. The method of claim 10, And the third reference value is an integer less than or equal to '5'. The method of claim 1, The channel determination unit, A first channel determination unit determining whether the selected channel is used by the other RFID reader based on a measurement result of a first received signal for a predetermined unit time with respect to the selected channel; And If it is determined by the first channel determination unit that the other RFID reader uses the selected channel, the first channel is based on a measurement result of a second received signal for a predetermined tag information reading time for the selected channel. And a second channel determiner for determining any one of the channel change request to the repeater determination unit and the channel request time measurement unit. The method of claim 12, The first channel determiner, A first measuring unit for measuring whether the first reception signal is received at predetermined intervals for the predetermined unit time for the selected channel, and counting the number of reception times of the first reception signal; And A first comparator configured to determine the selected channel as a channel for reading the tag information based on a result of comparing the number of receptions of the first received signal counted by the first measurer with a first reference value; Channel selector of the RFID reader, characterized in that. The method of claim 13, The first comparison unit, If the number of receptions of the first received signal counted by the first measurement unit and the first reference value coincide, the other RFID reader determines that the selected channel is not used to read the tag information in the selected channel. If the number of receptions of the first received signal and the first reference value do not coincide, the other RFID reader determines that the selected channel is used as the channel for reading the tag information. A 1-1 comparison unit that does not determine; And If it is determined by the first-first comparison unit that the other RFID reader uses the selected channel, it is determined whether the first reception signal is received in a section located in the latter half of the sections forming the predetermined unit time. If it is determined that the first reception signal is not received in the section located in the second half, the selected channel is determined as a channel for reading the tag information, and the first reception signal is received in the section located in the second half. And a 1-2 comparison unit which does not determine the selected channel as a channel for reading the tag information when it is determined that the selected channel is read. The method of claim 12, The second channel determiner, If it is determined by the first channel determination unit that the other RFID reader uses the selected channel, the reception of the second received signal is measured at predetermined intervals during a predetermined tag information reading time for the selected channel. A second measuring unit counting the number of times of reception of the second received signal; And On the basis of a result of comparing the number of times of reception of the second received signal counted by the second measurement unit and a second reference value, the repetition determination by the first channel determination unit and the channel request time measurement unit are performed. And a second comparator for determining any one of the channel selectors of the RFID reader. The method of claim 15, The second comparison unit, If the number of times of reception of the second reception signal is less than or equal to the second reference value, the determination of repetition by the first channel determination unit is determined. If the number of times of reception of the second reception signal exceeds the second reference value, the channel request time is measured. And the channel change request is determined by the receiver. In the channel selection method of the RFID reader provided in the wireless communication portable terminal, A channel request time measurement step of measuring a channel request time by a user input and a channel request time by a channel change request input; A channel selection step of selecting a channel for reading tag information stored in an external RFID tag by using the channel selection information according to the measured channel request time; And It is determined whether the selected channel is used by another RFID reader existing outside by measuring the received signal with respect to the selected channel.If it is determined that the selected channel is in use, the channel change request time measurement step is requested. And determining the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use. The method of claim 17, The channel request time measurement step, The channel selection method of the RFID reader, characterized in that for measuring the channel request time using the time information provided by the wireless communication terminal. The method of claim 17, The channel selection step, A channel for reading the tag information by referring to channel information to be selected according to the measured channel request time and channel selection information including channel information to change the selected channel when the selected channel is in use by the other RFID reader. Channel selection method of the RFID reader, characterized in that the selection. The method of claim 17, The channel determination step, A reception count counting step of measuring whether the reception signal is received at predetermined intervals for the predetermined unit time for the selected channel, and counting the reception frequency of the reception signal; And And a reception count determination step of determining the selected channel as a channel for reading the tag information based on a result of the comparison of the reception count count and the first reference value counted by the reception count counting step. How to select channel of reader. The method of claim 20, The reception count determination step, If the received count counted by the received count counting step and the first reference value coincide with each other, the RFID reader determines that the selected channel does not use the selected channel and determines the selected channel as a channel for reading the tag information. Channel selection method of the RFID reader, characterized in that. The method of claim 21, And the first reference value is '0'. The method of claim 20, The reception count determination step, If the number of times of reception exceeds a second reference value, it is determined that the other RFID reader uses the selected channel and does not determine the selected channel as a channel for reading the tag information. . The method of claim 23, wherein The reception count determination step, When the number of times of reception is less than or equal to a second reference value, it is determined whether the reception signal is received in a section located in the second half of the sections forming the predetermined unit time, and the reception signal is not received in the section located in the second half. And if it is determined that the selected channel is determined as a channel for reading the tag information. The method of claim 24, A channel determination counting step of counting a channel determination count by the reception count determination step; And In the reception frequency determination step, it is determined that the reception frequency exceeds a second reference value or the reception signal is determined to be received in a section located at the second half in the reception frequency determination step, and the counting step is counted in the channel judgment counting step. If the number of times of determining the channel and the third reference value are inconsistent, the receiving count counting step is instructed to recount the number of receiving times for the next unit time, and the receiving frequency determining step re-compares the number of receiving times with the first reference value. A channel selection method of an RFID reader, characterized in that it further comprises; indicating the channel number of times of comparison. The method of claim 25, The channel judgment number comparing step, And requesting a channel change to the channel request time measurement step when the channel determination count and the third reference value coincide with each other. The method of claim 26, And the third reference value is an integer of 5 or less. The method of claim 17, The channel determination step, A first channel determining step of determining whether the selected channel is used by the other RFID reader based on a measurement result of a first received signal for a predetermined unit time with respect to the selected channel; And If it is determined by the first channel determining step that the other RFID reader uses the selected channel, the first channel is based on a measurement result of a second received signal for a predetermined tag information reading time for the selected channel. And a second channel determination step of determining any one of the channel change request in the iterative determination by the determination step and the channel request time measurement step. The method of claim 28, The first channel determination step, A first measuring step of measuring whether the first received signal is received at predetermined intervals for the predetermined unit time for the selected channel and counting the number of times of reception of the first received signal; And And a first comparing step of determining the selected channel as a channel for reading the tag information based on a result of comparing the received frequency of the first received signal counted by the first measuring step with a first reference value. Channel selection method of the RFID reader, characterized in that. The method of claim 29, The first comparison step, If the number of receptions of the first received signal counted by the first measurement step and the first reference value coincide, the other RFID reader determines that the selected channel does not use the selected channel to read the tag information in the selected channel. If the number of receptions of the first received signal and the first reference value do not coincide, the other RFID reader determines that the selected channel is used as the channel for reading the tag information. A first-first comparison step not determined; And When it is determined that the other RFID reader uses the selected channel by the first-first comparison step, it is determined whether the first reception signal is received in a section located at the latter half of the sections forming the predetermined unit time. If it is determined that the first reception signal is not received in the section located in the second half, the selected channel is determined as a channel for reading the tag information, and the first reception signal is received in the section located in the second half. And a 1-2 comparison step of not determining the selected channel as a channel for reading the tag information when it is determined that the selected channel is read. The method of claim 28, The second channel determination step, If it is determined by the first channel determination step that the other RFID reader uses the selected channel, it is determined whether the second reception signal is received at predetermined intervals during a predetermined tag information reading time for the selected channel. A second measuring step of counting a number of receptions of the second received signal; And The channel change request to the repetition determination by the first channel determination step and the channel request time measurement step are based on a comparison result of the number of receptions of the second received signal counted by the second measurement unit and a second reference value. And a second comparing step of determining any one of the channel selection methods of the RFID reader. The method of claim 31, wherein The second comparison step, If the number of times of reception of the second reception signal is less than or equal to the second reference value, the determination of repetition by the first channel determination step is determined. If the number of times of reception of the second reception signal exceeds the second reference value, the channel request time is measured. And determining the channel change request at step. In a channel selection device of an RFID reader provided in a wireless communication portable terminal, tag information stored in an external RFID tag is read based on a channel request time measured by using the time information provided by the wireless communication portable terminal. Channel selector of the RFID reader, characterized in that for selecting a channel for. A channel request time measurement unit measuring a channel request time by a user input and a channel request time by a channel change request input; A channel selector which selects a channel for reading tag information stored in an RFID tag externally using the channel selection information according to the measured channel request time; And It is determined whether the selected channel is used by another RFID reader existing outside by measuring the received signal with respect to the selected channel.If it is determined that the selected channel is in use, the channel request time measurement unit is requested to change the channel. And a channel determination unit determining the selected channel as a channel for reading the tag information when it is determined that the selected channel is not in use.

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