KR101682129B1 - Method of managing products using a rfid tag and monitoring product flow - Google Patents

Abstract

A method of managing an article using an RFID tag and a method of monitoring a distribution are provided. A method of managing an article using an RFID tag according to an embodiment of the present invention includes the steps of transmitting a transmission signal through a plurality of transmitters to a plurality of tags existing in a predetermined detection area, Comprising: receiving, via a receiver, an individual response signal generated from an individual RFID tag constituting a plurality of activated RFID tags based on a transmission signal; determining whether the individual response signal exists in the detection area based on the characteristic of the individual response signal received during a predetermined detection time Calculating a position of the individual RFID tag, and displaying the calculated position of the individual RFID tag on the display unit. According to various embodiments of the present invention, an article management method using an RFID tag activates RFID tags existing in a wide area by a plurality of transmitters, so that the position of RFID tags existing in a wide area can be accurately and quickly monitored . Thus, time and cost for managing the articles are saved, and waste of manpower for monitoring the articles can be prevented.

Description

TECHNICAL FIELD [0001] The present invention relates to an RFID tag, and more particularly,

The present invention relates to an article management method and a distribution monitoring method using an RFID tag, and more particularly, to an article management method and a distribution monitoring method using a passive RFID tag capable of accurate and quick position sensing.

RFID (Radio Frequency Identification) technology is a technology for wirelessly reading various information stored in an RFID tag by using an RF signal. Particularly, the RFID tag has a better data storage capacity than a barcode, and can transmit data even at a relatively long distance, and is attracting attention as a substitute technology for a bar code.

RFID tags used in RFID technology are divided into an active method and a passive method according to a power supply method. Active RFID tags are powered separately via separate power supplies. Using the active RFID tag, it is possible to accurately read the information of the RFID tag existing at a long distance, but since a separate power supply device is required for each RFID tag, the price of the RFID tag can be increased. On the other hand, a passive RFID tag is activated based on a transmission signal provided through a transmitter, and transmits data. The use of a passive RFID tag does not require a separate power supply, so the price of the RFID tag is low. However, there is a problem that it is impossible to read information of an RFID tag existing a long distance, and it is difficult to read information accurately.

Position detection method and apparatus (Patent Application No. 2007-0040054)

The inventor of the present invention has found that the RFID tag of the passive type is easy to apply to various industrial fields due to its low price. However, since the RFID tag of the passive type is activated only by power supply, The recognition rate of the recognition rate is rapidly decreased. The inventors of the present invention invented a passive RFID system capable of reading information from RFID tags existing in a wide area by separating a transmitter for activating passive RFID tags and a receiver for receiving response signals from RFID tags .

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an article management method using an RFID tag capable of real-time managing the state and movement of articles existing in a wide area by accurately detecting the position information of the RFID tag existing in a wide area, And to provide a method of monitoring the logistics.

Another object of the present invention is to provide an article management method and an article tracking method using an RFID tag that can be easily applied to a complicated industrial field by applying an inexpensive passive RFID system at low cost and can manage articles at low cost and high efficiency .

According to an aspect of the present invention, there is provided a method of managing an article using an RFID tag, the method comprising: transmitting a transmission signal through a plurality of transmitters to a plurality of tags existing in a predetermined detection area; Comprising: receiving, via a receiver, an individual response signal generated from an individual RFID tag constituting a plurality of activated RFID tags based on a transmission signal; determining whether the individual response signal exists in the detection area based on the characteristic of the individual response signal received during a predetermined detection time Calculating the position of the individual RFID tag, and displaying the calculated position of the individual RFID tag on the display unit. In the method of managing an article using an RFID tag according to an embodiment of the present invention, since a plurality of transmitters activate RFID tags existing in a wide area, it is possible to accurately and quickly monitor the positions of RFID tags existing in a wide area. Thus, time and cost for managing the articles are saved, and waste of manpower for monitoring the articles can be prevented.

According to another aspect of the present invention, the step of receiving the individual response signal through the receiver includes receiving the RFID information pre-stored in the individual RFID tag, wherein the RFID information includes information on the article to which the individual RFID tag is attached And the individual RFID tags are distinguished from each other based on a plurality of RFID tags and RFID information.

According to another aspect of the present invention, the article information includes at least one of a type of article, a date of manufacture of the article, a shelf life of the article, a manufacturer of the article, and a destination of delivery of the article.

According to another aspect of the present invention, there is provided a method of managing an article using an RFID tag, the method comprising: displaying a position of an individual RFID tag on a display unit; Searching for at least one first RFID tag including information on the first RFID tag, and displaying the searched first RFID tag on the display unit so that the position of the first RFID tag is distinguished from the position of the remaining RFID tags.

According to another aspect of the present invention, there is provided a method of managing an article using an RFID tag, the method comprising: after displaying the position of the individual RFID tag on the display unit, Counting the number of RFID tags and displaying the number of individual RFID tags existing in the area of interest on the display unit.

According to another aspect of the present invention, there is provided a method of managing an article using an RFID tag, the method comprising: displaying a number of individual RFID tags on a display unit; comparing a number of individual RFID tags existing in a region of interest with a predetermined threshold number And generating a preset event when the number of individual RFID tags existing in the area of interest is smaller than the threshold number.

According to another aspect of the present invention, a predetermined event includes at least one of a visual alert, an audible alert, and a tactile alert.

According to an aspect of the present invention, there is provided a method for monitoring a distribution using an RFID tag, the method comprising: transmitting a transmission signal to at least one RFID tag through a plurality of transmitters provided in a plurality of checkpoints, Receiving, via a receiver, a response signal generated from an activated RFID tag based on a transmitted signal; calculating a position of the RFID tag based on a characteristic of a response signal received during a predetermined detection time; Calculating a distance between the position of the RFID tag and at least one of the plurality of checkpoints, and calculating a distance between the position of the RFID tag and the at least one checkpoint, And generating a preset event when it is smaller than the set threshold distance It shall be. The method for monitoring the logistics using the RFID tag according to an embodiment of the present invention can monitor the logistics in real time using the RFID tag, thereby saving cost and time for managing the logistics. In particular, it is possible to generate various events at checkpoints based on the RFID information stored in the RFID tag, and efficiently monitor the vehicles entering and exiting the checkpoints.

According to another aspect of the present invention, the position of the RFID tag is repeatedly calculated at a detection time interval, and the position of the RFID tag displayed on the display unit is updated with a detection time interval.

According to another aspect of the present invention, the step of receiving a response signal through a receiver includes receiving RFID information pre-stored in the RFID tag, wherein the RFID information of the RFID tag includes a person having the RFID tag, And information on the attached article.

According to another aspect of the present invention, the step of displaying the position of the RFID tag on the display unit includes the step of displaying the position of the RFID tag and information about the person holding the RFID tag or the article to which the RFID tag is attached together on the display unit .

According to another aspect of the present invention, the article information on the article to which the RFID tag is attached includes information such as the type of article loaded on the vehicle with the RFID tag, the manufacturer of the article, the origin of the article, the destination of the article, And information regarding a manufacturing date of the recording medium.

Since the transmitter for activating the RFID tag of the passive system is separated from the receiver for receiving the response signal of the RFID, it is possible to accurately and quickly monitor the position and state of the articles in a wide area in real time.

In addition, since the passive RFID tag having a low price is used, it can be easily applied to a large and complicated industrial field, and manpower for goods and logistics management is reduced, so that the cost of goods and logistics management is reduced.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the specification.

1 is a schematic block diagram illustrating an RFID system according to an embodiment of the present invention.
2 is a flowchart illustrating an article management method using an RFID tag according to an embodiment of the present invention.
Fig. 3 is a schematic view for explaining the article management method of Fig. 2; Fig.
4 is a schematic view for explaining the position and the article information of the RFID tag displayed on the display unit of Fig.
5 is a flowchart illustrating an article management method using an RFID tag according to another embodiment of the present invention.
Fig. 6 is a schematic view for explaining the article management method of Fig. 5; Fig.
7 is a flowchart illustrating a method of monitoring a logistics using an RFID tag according to an embodiment of the present invention.
FIG. 8 is a schematic view for explaining a method of monitoring the distribution of FIG. 7; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

Although the first, second, etc. are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are used only to distinguish one component from another. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical scope of the present invention.

Like reference numerals refer to like elements throughout the specification. It is to be understood that each step of the various embodiments of the invention may be practiced in sequence or in conjunction with one another, and that technically various order variations are possible, as will be appreciated by those skilled in the art, and that each embodiment may be practiced independently of one another, It may be possible to do it together.

Various embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram illustrating an RFID system according to an embodiment of the present invention. Referring to FIG. 1, the RFID system 100 includes a central control unit 110, a receiving module 120, transmitters 131 and 132, antennas 141 and 142, a display unit 150, RFID tags 161 and 162 And a server 180.

The RFID system 100 is a system for reading the position of the RFID tags 161 and 162 and the information of the RFID tags 161 and 162 using RFID technology. The RFID system 100 can monitor the positions of the RFID tags 161 and 162 in real time using passive RFID tags 161 and 162. [

Transmitters 131 and 132 are connected to the central control unit 110 through radio and / or wire lines through a reception module 120 and transmit signals TS1 and TS2 based on control signals of the central control unit 110. [ . The transmission signals TS1 and TS2 activate the RFID tags 161 and 162. The transmission signals TS1 and TS2 are, for example, RF signals and activate the RFID tags 161 and 162 existing in a specific area. A plurality of transmitters 131 and 132 may be dispersed and arranged so as to cover a wide area. For example, the first transmitter 131 is disposed in the first area to activate the first RFID tag 161 present in the first area, and the second transmitter 132 is disposed in the second area, And is arranged in the second area to activate the RFID tag 162. [ As a result, all the RFID tags 161 and 162 existing in the first area and the second area can be activated. Although two transmitters 131 and 132 are shown in FIG. 1, the number of transmitters 131 and 132 is not particularly limited.

The antennas 141 and 142 are connected to the transmitters 131 and 132 and transmit the transmit signals TS1 and TS2 to the RFID tags 161 and 162 based on the control signals of the transmitters 131 and 132, For example, as shown in FIG. 1, a first transmitter 131 is connected to four antennas 141, and a second transmitter 132 is connected to four antennas 142, respectively. However, the number of antennas 141 and 142 connected to the transmitters 131 and 132 is not limited thereto. The antennas 141 and 142 may be spaced apart from each other at a small interval so as to cover a wide area with little frequency interference.

The RFID tags 161 and 162 are activated based on the transmission signals TS1 and TS2 and generate response signals RS1 and RS2. As described above, the RFID tags 161 and 162 are passive tags, and generate response signals RS1 and RS2 based on the power transmitted through the transmission signals TS1 and TS2. For example, the first RFID tag 161 generates the response signal RS1 based on the transmission signal TS1 of the first transmitter 131, the second RFID tag 162 generates the response signal RS1 based on the second transmitter 132, And generates a response signal RS2 based on the transmission signal TS2. The response signals RS1 and RS2 are RF signals and include RFID information previously stored in the RFID tags 161 and 162. [ The first RFID tag 161 and the second RFID tag 162 have different RFID information. The first RFID tag 161 and the second RFID tag 162 are distinguished from each other based on the RFID information. For example, the RFID information of the first RFID tag 161 includes the unique number of the first RFID tag 161, and the RFID information of the second RFID tag 162 includes the unique number of the second RFID tag 162 . ≪ / RTI > The first RFID tag 161 and the second RFID tag 162 may be distinguished from each other based on their unique numbers. The RFID information includes article information on articles to which the RFID tags 161 and 162 are attached. For example, the RFID information may include at least one of the type of the article to which the RFID tag 161, 162 is attached, the manufacturing date, the expiration date, the manufacturer, and the destination. However, the information included in the RFID information is not limited thereto, and the RFID information may include various information.

The receiving module 120 is wired and / or wirelessly connected to the central control unit 110 and is connected to the transmitters 131 and 132 in a wired and / or wireless manner. For example, the receiving module 120 is connected to the central control unit 110 via a LAN and to the transmitters 131 and 132 via coaxial cables, respectively. The receiving module 120 transmits power and control signals to the transmitters 131 and 132 and receives response signals RS1 and RS2 generated by the RFID tags 161 and 162. [ The receiving module 120 includes a receiver 121 and a position detector 122.

The receiver 121 receives response signals RS1 and RS2 from the activated RFID tags 161 and 162. For example, the receiver 121 may receive the response signals RS1 and RS2 via the antennas 141 and 142 connected to the transmitters 131 and 132. [ That is, the first response signal RS1 generated from the first RFID tag 161 activated by the first transmitter 131 is received through the antenna 141 connected to the first transmitter 131, May be received by the receiver 121 via the antenna 131. The second response signal RS2 generated from the second RFID tag 162 activated by the second transmitter 132 is also received via the antenna 142 connected to the second transmitter 132, May be received by the receiver 121 via the receiver 132. In some embodiments, the receiver 121 may receive the direct response signals RS1, RS2.

The position detector 122 calculates the positions of the RFID tags 161 and 162 based on the response signals RS1 and RS2 received by the receiver 121. [ For example, the position detector 122 measures the size of the response signals RS1 and RS2 received during a predetermined detection time, the signal to noise ratio (SNR), the reception direction of the response signals RS1 and RS2 The positions of the RFID tags 161 and 162 are calculated based on the characteristics of the response signals RS1 and RS2.

Although the position detector 122 is shown in FIG. 1 as being included in the receiving module 120, the position detector 122 is not limited to the receiving module 120, As shown in FIG. For example, the position detector 122 may be implemented in the form of a program in the central control unit 110. In this case, the characteristic information of the response signals RS1 and RS2 received by the receiver 121 of the receiving module 120 is transmitted to the central control unit 110, and the position detector 122 of the central control unit 110 The position of the RFID tags 161 and 162 is calculated based on the characteristic information of the response signals RS1 and RS2.

The display unit 150 displays the article information included in the response signals RS1 and RS2 and the positions of the RFID tags 161 and 162 calculated through the position detector 122. [ The display unit 150 can display the positions of the RFID tags 161 and 162 as icons. The user can quickly and quickly grasp the position of the RFID tags 161 and 162 through the display unit 150. [

The central control unit 110 is connected to the reception module 120, the display unit 150 and the server 180 and controls the reception module 120, the display unit 150, and the transmitters 131 and 132.

The server 180 is connected to the central control unit 110 through wired and / or wireless, and receives the position and information of the goods from the central control unit 110 in real time. The user can access the server 180 via the Internet and monitor the current location and information of the article regardless of time and place.

The RFID system 100 according to an embodiment of the present invention includes transmitters 131 and 132 that activate the RFID tags 161 and 162 and a receiver that receives response signals RS1 and RS2 from the RFID tags 161 and 162 The RFID tags 161 and 162 located in a wide area can be accurately detected. That is, the RFID tags 161 and 162 in a wide area are activated through the plurality of transmitters 131 and 132 distributed in a wide area, and the response signals RS1 and RS2 are transmitted from the activated RFID tags 161 and 162 And the position of the individual RFID tag can be accurately calculated. Also, since passive RFID tags 161 and 162 are inexpensive, the article management system 100 using RFID tags can be easily applied to various industrial fields.

2 is a flowchart illustrating an article management method using an RFID tag according to an embodiment of the present invention. Fig. 3 is a schematic view for explaining the article management method of Fig. 2; Fig. 3, a method of monitoring the quantity and position of articles stored in a warehouse is schematically shown. However, the method of managing an article using the RFID tag according to an embodiment of the present invention is limited by the example shown in FIG. 3 no.

2 and 3, an article management method using an RFID tag includes transmitting a transmission signal through a plurality of transmitters 131, 132, and 133 to a plurality of RFID tags 361 and 362 existing in a predetermined detection area, (S210).

As described above, in the RFID system, a plurality of transmitters 131, 132, and 133 may be connected to one receiving module 120. Each of the transmitters 131, 132, and 133 activates RFID tags 361 and 362 existing within a predetermined detection area. The detection region means the sum of regions that each transmitter 131, 132, 133 can cover, and the detection region shown in FIG. 3 means the warehouses. That is, the first RFID tags 361 of the article 1 stored in the warehouse A1 are activated by the first transmitter 131, and the second RFID tags 362 of the article 2 stored in the warehouse A1 are activated. Further, the first RFID tags 361 of the article 1 stored in the warehouse A2 are activated by the second transmitter 132. [ On the other hand, there is no RFID tag activated by the third transmitter 133 because there is no stored article in the warehouse A3. The transmission signals are transmitted by the antennas 141, 142 and 143 respectively connected to the transmitters 131, 132 and 133. That is, a transmission signal is transmitted by the first antennas 141 connected to the first transmitter 131 in the warehouse A1, and transmitted by the second antennas 142 connected to the second transmitter 132 in the warehouse A2. And a transmission signal is transmitted to the warehouse A3 by the third antennas 143 connected to the third transmitter 133. [

Thereafter, an individual response signal generated from the individual RFID tags constituting the plurality of RFID tags 361 and 362 activated based on the transmission signal is received through the receiver (S220).

The individual RFID tags constituting the activated RFID tags 361 and 362 generate response signals respectively and the individual response signals individually generated by the RFID tags 361 and 362 are received by the receiver of the receiving module 120 do. For example, the receiver of the receiving module 120 receives an individual response signal for each warehouse through the antennas 141, 142, and 143. That is, the receiver of the receiving module 120 receives the response signals of the five first RFID tags 361 through the antenna 141 installed in the warehouse A1 and receives the response signals of the four second RFID tags 362 do. Also, the receiver of the receiving module 120 receives the response signals of the two first RFID tags 361 located in the warehouse A2 through the antenna 142 installed in the warehouse A2. In some embodiments, the receiver of the receiving module 120 may receive all of the response signals of the RFID tags 361, 362 located directly in the warehouse A1, the warehouse A2, and the warehouse A3.

Then, the position of the individual RFID tag existing in the detection area is calculated based on the characteristic of the individual response signal received during the predetermined detection time (S230).

As described above, the individual RFID tags constituting the activated plurality of RFID tags 361 and 362 generate respective response signals, and the receiver of the receiving module 120 receives the individual response signals, respectively. The individual response signal is an RF signal, and the characteristics of the RF signal may be changed depending on the position of the individual RFID tag that generates the individual response signal. For example, the magnitude of the RF signal, the signal-to-noise ratio (SNR), or the receiving direction of the RF signal may change. The position detector of the receiving module 120 detects the detailed position of the RFID tags 361, 362 by analyzing the characteristics of the response signal. The position detector of the receiving module 120 analyzes the characteristics of the response signal during a predetermined detection time and calculates the position of the individual RFID tag. That is, the position detector of the receiving module 120 can repeatedly calculate each position of the individual RFID tag at the detection time interval. Each of the plurality of RFID tags 361 and 362 is attached to an article to be managed. For example, first RFID tags 361 are attached to a first article, and second RFID tags 362 are attached to a second article. Accordingly, the position of the first RFID tag 361 means the position of the first article, and the position of the second RFID tag 362 means the position of the second article. That is, by calculating the position of the individual RFID tags, the position of each individual article can be monitored.

Then, the calculated position of the individual RFID tag is displayed on the display unit 150 (S240).

The position information of the individual RFID tags calculated by the position detector of the receiving module 120 is transmitted to the central control unit 110 and the central control unit 110 displays the position of the individual RFID tags on the display unit 150. The user can accurately and quickly grasp the position of the current products through the display unit 150. [

4 is a schematic view for explaining the position and the article information of the RFID tag displayed on the display unit of Fig. FIG. 4 is an enlarged view of the display unit 150 of FIG. 3, and the position of the RFID tag is shown by an inverted triangle icon. However, the method of displaying the position of the RFID tag is not limited thereto.

Referring to FIG. 4, a display area 150 displays a detection area 453. The detection area shown in FIG. 3 means warehouse A1, warehouse A2, and warehouse A3, and therefore, FIG. 4 shows a detection area 453 corresponding to warehouse A1, warehouse A2, and warehouse A3. The positions of the RFID tags existing in the detection area 453 are indicated by icons 451 and 452, respectively. RFID tags attached to articles of the same kind are indicated by the same icon. 4, the RFID tag attached to the article 1 is indicated by a black inverted triangle icon 451, and the RFID tag attached to the article 2 is indicated by a white inverted triangle icon 452 . As described above, the response signal generated in the activated RFID tag includes the RFID information previously stored in the individual RFID tag, and the RFID information of the individual RFID tag includes various article information on the article to which the RFID tag is attached. The central control unit may analyze the RFID information of the received individual RFID tags to distinguish the RFID tags attached to the same type of the plurality of RFID tags from each other, and the display unit 150 may display the RFID tags Are displayed with the same icon. Accordingly, the user can easily grasp the position of the article by the type of the article through the display unit 150 at a glance.

The display unit 150 can emphasize and display the position of a specific kind of article. For example, when it is necessary to grasp the position of the first item among the various items in the warehouse, the central control unit, based on the monitoring command for the first article, The position of the RFID tag including the article information on the first article may be displayed on the display unit 150 so that the position of the RFID tag including the article information of the first article is distinguished from the position of another RFID tag. Thus, the position of the first article can be marked to be emphasized. For example, the display unit 150 may display the icon for the first article differently from the icon for the other article, or only the icon for the first article, and not the icon for the other article. However, the method of indicating the position of the first article is not limited thereto.

The display unit 150 may display the positions of the articles and the article information together. As described above, the RFID information stored in the RFID tag may include various kinds of information such as the type, manufacture date, shelf life, manufacturer, and destination of the article to which the RFID tag is attached. The display unit 150 displays the positions of the articles in an icon form and displays the article information of the articles together. In this case, the article management can be made easier. For example, in the case of a manufacturer or distributor of a food product, it is possible to easily retrieve the production date and expiration date of the food stored in each warehouse, quickly locate the food after the expiration date, and discard it. In addition, in the case of a distributor distributing the goods, the kind of article stored in each warehouse, the maker, and the destination of delivery can be easily searched.

As shown in FIG. 4, the display unit 150 displays the number of articles existing in the area of interest. That is, the central control unit searches the RFID tags attached to the same kind of articles based on the RFID information of the RFID tag, counts the number of RFID tags existing in the region of interest based on the position of the retrieved RFID tag, And displays the counted number of RFID tags on the display unit 150. For example, if the warehouse A1 is a region of interest, the central control unit searches the RFID tag attached to the article 1 based on the RFID information of the individual RFID tags constituting the plurality of RFID tags, And counts the number of attached RFID tags. Further, the central control section searches the RFID tag attached to the article 2 and counts the number of RFID tags attached to the article 2 existing in the warehouse A1. Then, the central control unit displays the number of articles 1 and the number of articles 2 on the display unit 150 based on the number of counted RFID tags. The number of articles may be shown in table 454, as shown in FIG. 4, but the method of displaying the number of articles is not limited thereto.

The method of managing an article using the RFID tag according to an embodiment of the present invention displays the individual position and the article information of the various articles existing in a wide area on the display unit 150 in real time so that the management of the article can be facilitated. In addition, since the number of articles existing in the area of interest and the article information can be quickly retrieved, it is not necessary to separately grasp the inventory of the articles, and the time and cost for managing the articles can be effectively reduced.

5 is a flowchart illustrating an article management method using an RFID tag according to another embodiment of the present invention. Fig. 6 is a schematic view for explaining the article management method of Fig. 5; Fig. 5 and FIG. 6, the number of RFID tags in the region of interest is counted (S250) and compared with the number of RFID tags in the region of interest (S260) the number of RFID tags in the region (S260), and if the number of RFID tags in the region of interest is less than the threshold number, generating a preset event (S270) Is substantially the same as the article management method using the RFID tag shown in FIG. 2 and FIG. Therefore, redundant description thereof will be omitted. 6, a method of monitoring the quantity and location of components in each process line is schematically shown. However, the method of managing an article using the RFID tag according to another embodiment of the present invention is not limited to the embodiment shown in FIG. 6 But is not limited to.

5 and 6, after the positions of the RFID tags 661 and 662 are displayed on the display unit 150, an article management method using the RFID tags is performed based on the calculated positions of the RFID tags 661 and 662 , And counts the number of RFID tags 661 and 662 existing in the predetermined region of interest (S250).

As shown in FIG. 6, the RFID system can be applied to a process line. In order to operate the process line smoothly, it is necessary to accurately and quickly ascertain the number of parts supplied to each process line. The RFID tags 661 and 662 may be attached to respective parts, and the RFID tags 661 and 662 attached to the respective parts may be used to store part information on the corresponding parts. For example, the RFID tag 661, 662 may be stored with information such as the kind of a specific part, a manufacturing date, and a manufacturer. The receiving module 120 may calculate the current position of each part based on the response signal received from the activated RFID tags 661 and 662 and the central control part 110 may calculate the current position of each part based on the position of the calculated parts The number of parts existing in the area can be counted. The region of interest may be a particular process line. For example, the central control unit 110 controls the number of the first RFID tags 661 attached to the first component supplied to the A process line 670A and the number of the second RFID tags 662 attached to the second component Counts the number of first RFID tags 661 and the number of second RFID tags 662 supplied to the B process line 670B and counts the number of the second RFID tags 662 supplied to the C process line 670C, The number of second RFID tags 661 and the number of second RFID tags 662 can be counted, respectively.

Thereafter, the number of RFID tags existing in the region of interest is compared with a preset threshold number (S260).

The critical number can be varied depending on the type of process line that the user is interested in. For example, the critical number may be the minimum number of components needed to drive the process line smoothly.

If the number of RFID tags in the region of interest is smaller than the threshold number, the predetermined event is generated (S270).

If the number of parts supplied to the process line is insufficient, the process line can not be operated smoothly, so additional supply of parts may be required. Accordingly, the method of managing an article using an RFID tag can generate various events when the number of parts supplied to the processing line is less than the threshold number. The event may include various alerts. For example, the event may include at least one of a visual alert, audible alert, and tactile alert. FIG. 6 shows a state in which the display unit 150 generates the visual alarm 655. FIG. In some embodiments, an article management method using an RFID tag may stop the operation of the process line if the number of parts supplied to the specific process line is insufficient. However, the generated event is not limited thereto, and the method of managing an article using the RFID tag can generate various events.

The method of managing an article using an RFID tag according to another embodiment of the present invention provides information on the type, number, position, and the like of parts supplied to a process line in real time, thereby improving process efficiency, Can be improved.

7 is a flowchart illustrating a method of monitoring a logistics using an RFID tag according to an embodiment of the present invention. FIG. 8 is a schematic view for explaining a method of monitoring the distribution of FIG. 7; FIG. The method of monitoring the RFID tag using the RFID tags shown in FIGS. 7 and 8 can calculate the position of the RFID tag through substantially the same method as the method of managing articles using the RFID tag shown in FIGS. 2 and 3, The description is omitted. 8, a method of monitoring the logistics by attaching the RFID tag to a vehicle that carries the product is schematically illustrated. However, the method of monitoring the logistics using the RFID tag according to another embodiment of the present invention is similar to the embodiment And the like.

Referring to FIGS. 7 and 8, after the calculated positions of the RFID tags 861 and 862 are displayed on the display unit, the method of monitoring the RFID tag using the RFID tags, (S750) the distance between at least one checkpoint 892 among the checkpoints 891 and 892.

The method of monitoring a logistics using an RFID tag can be applied to a distribution business that distributes various articles. In the case of a retail business, it is necessary to distribute goods to a correct destination within a short time, so it is necessary to quickly identify various information such as the type, quantity, manufacturer, manufacturing date, place of manufacture, As described above, since the RFID system of the present invention can accurately read the RFID information from the RFID tags existing in a wide area, the RFID system of the present invention can be efficiently utilized in the distribution industry. For example, the RFID tags 861 and 862 may be attached to a vehicle that carries goods, and the RFID tags 861 and 862 may be provided with various types of goods, quantity, manufacturer, date of manufacture, Destination, and so on. The RFID tags 861 and 862 are activated by the transmitter 131 to generate response signals RS1 and RS2 and the receiver of the receiving module 120 receives the response signals RS1 and RS2, The control unit 110 can read various information on the articles loaded on the vehicle based on the response signals RS1 and RS2.

The position of the vehicle is calculated via the RFID tags 861 and 862 attached to the vehicle and the distance TD between the vehicle and the checkpoints 891 and 892 is calculated based on the positions of the RFID tags 861 and 862 . The checkpoints 891 and 892 may be specific points that need to monitor the entry and exit of the vehicle, and may be, for example, a door in and out of the vehicle. FIG. 8 shows an article management system using an RFID tag installed at a door for convenience of explanation.

Then, the distance TD between the vehicle and the checkpoints 891 and 892 is compared with the threshold distance (S760).

If the distance TD between the vehicle and the at least one checkpoint 892 is less than the critical distance, the method for monitoring the logistics using the RFID tag generates a predetermined event (S770).

The predetermined event may be an alarm occurrence event such as a visual alarm, an audible alarm, and a tactile alarm, or may be an event such as a door opening when the RFID system is installed at a door. In some embodiments, when the distance (TD) between the vehicle and the at least one checkpoint 892 is less than the critical distance, the method for monitoring the logistics using the RFID tag is based on the RFID information previously stored in the RFID tag 861, The validity of the RFID tag 861 is determined. If the RFID tag 861 is valid, the logistics monitoring method using the RFID tag opens the door, but if the RFID tag 861 is not valid, an alarm is generated through the alarm 850 installed at the door. In this case, the vehicle entering and leaving the factory requiring security can be efficiently controlled and managed.

As described above, the logistics monitoring method using the RIFD tag can easily read the information from the RFID tag located at a long distance, so that the logistics can be efficiently monitored. In addition, since various information stored in the RFID tag can be accurately read, time and cost for managing the logistics can be effectively reduced.

Meanwhile, the RFID system of the present invention can be applied to various industrial fields other than the distribution industry. For example, a VIP (very important person) visit can be confirmed through the RIFD system, and if the VIP accesses the entrance door, the visitor can display a welcome greeting through the display installed at the door. In addition, the RIFD tag can be attached to the passbook of workers working at risky work sites, and the RFID system can be used to manage the safety training of workers.

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to those embodiments and various changes and modifications may be made without departing from the scope 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. Therefore, it should be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: RFID system
110: Central Control Department
120: receiving module
121: receiver
122: Position detector
131: first transmitter
132: second transmitter
141: First antenna
142: Second antenna
150:
161, 361, 661, 861: a first RFID tag
162, 362, 662, 862: a second RFID tag
180: Server
451: icon of the first RFID tag
452: icon of the second RFID tag
453: detection area
454: Table showing the number of articles
655: Visual alarm
670A: Process line A
670B: B process line
670C: C process line
850: Alarm
891, 892:

Claims (12)

Transmitting a transmission signal through a plurality of transmitters to a plurality of radio-frequency identification (RFID) tags existing in a predetermined detection area;
Receiving an individual response signal generated from an individual RFID tag constituting the plurality of activated RFID tags based on the transmission signal through a separate receiver separate from the plurality of transmitters;
Wherein the individual response signal includes a signal-to-noise ratio (SNR) of the individual response signal received during a predetermined detection time of the individual RFID tag existing in the detection region Calculating a position; And
And displaying the calculated position of the individual RFID tag on the display unit. The method according to claim 1,
Wherein receiving the individual response signal via the receiver comprises receiving RFID information previously stored in the individual RFID tag,
Wherein the RFID information includes article information on the article to which the individual RFID tag is attached,
Wherein the individual RFID tags are distinguished from each other based on the plurality of RFID tags and the RFID information. 3. The method of claim 2,
Wherein the article information includes at least one of a type of the article, a date of manufacture of the article, a shelf life of the article, a manufacturer of the article, and a destination of delivery of the article. 3. The method of claim 2,
After the step of displaying the position of the individual RFID tag on the display unit,
Retrieving, through the central control unit, at least one first RFID tag including first article information among the plurality of RFID tags based on a monitoring command for the first article; And
And displaying the searched first RFID tag position on the display unit so as to be distinguished from the remaining RFID tags. The method according to claim 1,
After the step of displaying the position of the individual RFID tag on the display unit,
Counting the number of the individual RFID tags existing in the predetermined region of interest through the central control unit based on the calculated position of the individual RFID tag; And
And displaying the number of the individual RFID tags existing in the area of interest on the display unit. 6. The method of claim 5,
After the step of displaying the number of the individual RFID tags on the display unit,
Comparing the number of the individual RFID tags existing in the region of interest through the central control unit with a predetermined threshold number; And
Further comprising the step of generating a preset event through an alarm when the number of the individual RFID tags existing in the area of interest is smaller than the threshold number. The method according to claim 6,
Wherein the predetermined event includes at least one of a visual alert, an audible alarm, and a tactile alert. Transmitting a transmission signal to at least one RFID tag through a plurality of transmitters provided in a plurality of checkpoints respectively;
Receiving a response signal generated from the RFID tag activated based on the transmission signal through a separate receiver separate from the plurality of transmitters;
Calculating a position of the RFID tag through a central control unit based on a characteristic of the response signal including a signal-to-noise ratio (SNR) of the response signal received during a predetermined detection time;
Displaying the calculated position of the RFID tag on a display unit;
Calculating a distance between the location of the RFID tag and at least one of the plurality of checkpoints through the central control; And
And generating a predetermined event through an alarm when the distance between the position of the RFID tag and the at least one checkpoint is less than a predetermined threshold distance. . 9. The method of claim 8,
Wherein the position of the RFID tag is repeatedly calculated at the detection time interval,
Wherein the position of the RFID tag displayed on the display unit is updated at the detection time interval. 9. The method of claim 8,
Wherein the step of receiving the response signal via the receiver comprises receiving RFID information previously stored in the RFID tag,
Wherein the RFID information of the RFID tag includes information on a person holding the RFID tag or an article to which the RFID tag is attached. 11. The method of claim 10,
The step of displaying the position of the RFID tag on the display unit includes:
And displaying the position of the RFID tag and information about the person holding the RFID tag or the article attached with the RFID tag together on the display unit . 12. The method of claim 11,
The information on the article to which the RFID tag is attached includes at least one of a type of the article loaded on the vehicle with the RFID tag, a manufacturer of the article, a starting point of the article, a destination of the article, And information on a manufacturing date of the RFID tag.

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