JP2021149373A - Information processing device and program - Google Patents

Abstract

To provide an information processing device and a program that can reduce the possibility of erroneous discrimination between moving tags and stationary tags.SOLUTION: An information processing device of an embodiment includes a discrimination unit that discriminates whether a wireless tag is a moving tag, which is moving, or a stationary tag, which remains stationary based on phase change information indicating an over-time change of the phase of a signal received by each of a plurality of antennas detected by a phase detection unit that detects the phase of the signal received by the plurality of antennas that receive the signal from the wireless tag attached to an article.SELECTED DRAWING: Figure 2

Description

Embodiments of the present invention relate to information processing devices and programs.

Conventionally, there is known a technique for discriminating between a moving tag (moving tag) and a stationary tag (stationary tag) by analyzing information acquired over time from the reflected wave of the wireless tag. However, the conventional technique has a problem that the information obtained with time differs depending on the orientation of the wireless tag and the like, and the reading of the wireless tag does not go well.

If the information obtained over time differs depending on the orientation of the wireless tag, or if the wireless tag does not read well, the information for distinguishing between the moving tag and the stationary tag cannot be obtained correctly, and the tag moves. There was a risk of misidentification between the tag and the static tag.

An object to be solved by the present invention is to provide an information processing device and a program capable of reducing the possibility of erroneous discrimination between a moving tag and a stationary tag.

The information processing apparatus of the embodiment is received by each of the plurality of antennas detected by the phase detection unit that detects the phase of the signal received by the plurality of antennas that receive the signal from the wireless tag attached to the article. A discriminating unit for determining whether the radio tag is a moving tag or a stationary tag based on the phase change information indicating the change in the phase of the signal with time is provided.

FIG. 1 is a diagram showing an example of an information processing system according to the first embodiment. FIG. 2 is a side view schematically showing a structure of the wireless tag reading device according to the first embodiment in a partial cross section. FIG. 3 is a block diagram showing an example of the hardware configuration of the wireless tag reader according to the first embodiment. FIG. 4 is a block diagram showing an example of the functional configuration of the wireless tag reading device according to the first embodiment. FIG. 5 is a block diagram showing an example of the hardware configuration of the POS terminal according to the first embodiment. FIG. 6 is a block diagram showing an example of the functional configuration of the POS terminal according to the first embodiment. FIG. 7 is an explanatory diagram in which the phase change information is graphed. FIG. 8 is an explanatory diagram showing an example of the standard deviation of the phase calculated for each antenna. FIG. 9 is a flowchart showing an example of the detection process of the wireless tag reading device according to the first embodiment. FIG. 10 is a flowchart showing an example of the determination process of the POS terminal according to the first embodiment. FIG. 11 is a block diagram showing an example of the functional configuration of the POS terminal according to the second embodiment. FIG. 12 is a flowchart showing an example of the discrimination process of the POS terminal according to the second embodiment.

Hereinafter, embodiments of the present invention will be described. In the present embodiment, the POS (Point of Sales) terminal will be described as an example of the information processing device. Further, in the present embodiment, a product sold in a store will be described as an example of an article. Therefore, the goods are hereinafter referred to as goods. The present invention is not limited by the description of the following embodiments.

(First Embodiment)
<Configuration of Information Processing System According to First Embodiment>
FIG. 1 is a diagram showing an information processing system according to an embodiment. For example, an information processing system 1 used in a supermarket, a convenience store, a mass retailer, or the like includes a wireless tag reading device 2 and a POS terminal 3. The wireless tag reader 2 and the POS terminal 3 are electrically connected to each other via a communication line L so as to be able to communicate with each other.

FIG. 2 is a side view schematically showing a structure of the wireless tag reader according to the embodiment in a partial cross section. The wireless tag reading device 2 reads the tag information held by the RFID tag attached to the product while transporting the product, and outputs the read tag information to the POS terminal 3 (not shown in FIG. 2). The RFID tag is an example of a "wireless tag".

The wireless tag reader 2 includes a belt conveyor 24, an antenna 25, an antenna 26, an RFID reader / writer 27, and the like. The belt conveyor 24 conveys products by rotating an endless belt having an annular flat surface on which the products are placed by the driving force of a transfer motor 28 (not shown in FIG. 2) described later.

The antenna 25 receives a signal from the RFID tag attached to the product. In the present embodiment, the antenna 25 is transmitted from a position below the surface (mounting surface) on which the product of the belt conveyor 24 is placed to the RFID tag attached to the product on the mounting surface via radio waves. Send and receive information.

The antenna 25 is, for example, a flat antenna, and is connected to the RFID reader / writer 27 via a flexible coaxial cable or the like. The antenna 25 emits radio waves (electromagnetic waves) that can communicate with the RFID tag under the control of the RFID reader / writer 27.

The antenna 26 is an antenna having the same configuration as the antenna 25, and is attached to a frame F provided on the side surface of the wireless tag reader 2. The antenna 26 transmits / receives information via radio waves to and from the position on the side surface of the belt conveyor 24 with the RFID tag attached to the product on the mounting surface.

The antenna 25 and the antenna 26 are examples of “plurality of antennas”. Further, it can be said that the antenna 25 and the antenna 26 are "provided on different planes". The antenna 25 and the antenna 26 do not necessarily have to be provided on different planes, but are preferably provided on different planes.

This is because, for example, an antenna installed on the lower surface has a problem of the orientation of the RFID tag, and even if it is difficult to receive radio waves from the RFID tag attached to a certain product, it is on a different plane (for example, a side surface). ) Is different from the antenna installed on the bottom surface in the angle between the antenna and the RFID tag, so it receives radio waves from the RFID tag attached to a certain product compared to the antenna installed on the bottom surface. This is because there is a high possibility that it will be easier to do.

Further, in the present embodiment, two antennas are installed, but three or more antennas may be installed. Even in this case, it is preferable that the antennas are provided on different planes.

The RFID reader / writer 27 radiates radio waves to the antenna 25 and the antenna 26 to read the RFID tag attached to the product. Further, the RFID reader / writer 27 measures the phase of the radio wave received from the RFID tag.

In the present embodiment, the RFID reader / writer 27 reads the tag information stored in the RFID tag attached to the product from the radio waves received by the antenna 25 and the antenna 26 and outputs the tag information to the control unit 20 described later. Further, the RFID reader / writer 27 outputs the measured phase of the radio wave to the control unit 20. The RFID reader / writer 27 has, for example, electronic circuits (none of which are shown) such as a DA converter, an AD converter, a modulation / demodulator, a phase-locked loop, and an amplifier circuit.

The RFID reader / writer 27 communicates with the RFID tag via the antenna 25 and the antenna 26 to read the tag information held by the RFID tag and write data to the RFID tag. The RFID reader / writer 27 is an example of a “wireless tag reader”.

Further, the RFID reader / writer 27 shall be able to discriminately read which of the antenna 25 and the antenna 26 is the tag information received. For example, the RFID reader / writer 27 may attach an identifier indicating the receiving antenna to the tag information and output it to the control unit 20.

The start sensor SS detects the start of movement of the product with the RFID tag by a predetermined distance. The end sensor ES detects the start of movement of the product with the RFID tag by a predetermined distance. As the start sensor SS and the end sensor ES, for example, an infrared sensor or the like is used.

Next, the operation of the wireless tag reading device 2 will be described. When the user presses a transfer start button (not shown), the transfer motor 28 is driven and the belt conveyor 24 starts the transfer of the product C.

Then, when the start detection sensor SS detects the start of movement of the product C by a predetermined distance l, the RFID reader / writer 27 causes the antenna 25 and the antenna 26 to transmit a carrier wave. The RFID tag T attached to the product C receives the carrier wave. The RFID tag T that has received the carrier wave transmits a response wave to the carrier wave. The carrier wave and the response wave are examples of "signals".

The response wave includes information related to the product C to which the RFID tag T is attached (including individual product information that identifies the product as an individual product). The antenna 25 and the antenna 26 continue to receive the response wave transmitted by the RFID tag T while the product C to which the RFID tag T is attached moves a predetermined distance l.

Then, when the end detection sensor ES detects the end of movement of the product by a predetermined distance l, the transfer motor 28 stops driving, and the transfer of the product C ends. Then, the RFID reader / writer 27 outputs the received response wave information to the control unit 20.

Next, the POS terminal 3 will be described. The POS terminal 3 executes the product registration process based on the RFID tag information read by the wireless tag reading device 2 (including the individual product information that identifies the product with the RFID tag as an individual product). In addition, the POS terminal 3 executes a payment process for the product for which the product registration process has been performed.

By the way, the RFID reader / writer 27 of the wireless tag reader 2 may read the RFID tag attached to a product not placed on the belt conveyor 24, such as a product placed on a nearby shelf. Since the products not placed on the belt conveyor 24 are often not the products that the customer wants to purchase, the POS terminal 3 is based on the information read from the RFID tag attached to such products. , It is not preferable to perform the product registration process and the settlement process.

Further, the products mounted on the belt conveyor 24 move on the belt conveyor 24 by the drive of the conveyor belt 28, but the products not mounted on the belt conveyor 24 are often stationary. .. Therefore, the POS terminal 3 according to the present embodiment determines whether the RFID tag is moving or stationary, and based on the information read from the RFID tag determined to be moving, the product registration process and the settlement. Perform processing.

<Hardware configuration of the wireless tag reader according to the first embodiment>
Next, the hardware configuration of the wireless tag reading device 2 according to the first embodiment will be described. FIG. 3 is a block diagram showing an example of the hardware configuration of the wireless tag reader according to the first embodiment. The wireless tag reading device 2 includes a control unit 20, a storage unit 21, and an input / output controller 23.

First, the control unit 20 will be described. The control unit 20 includes a CPU (Central Processing Unit) 201, a ROM (Read Only Memory) 202, and a RAM (Random Access Memory) 203. The CPU 201 connects the ROM 202 and the RAM 203 via the bus line 22.

The CPU 201 expands various programs stored in the ROM 202 and the storage unit 21 into the RAM 203. The CPU 201 controls the wireless tag reading device 2 by operating according to various programs developed in the RAM 203. That is, the control unit 20 has a general computer configuration.

Further, the RAM 203 receives information on all response waves output from the RFID reader / writer 27 to the control unit 20 and received by the antenna 25 and the antenna 26 while the product with the RFID tag is moving a predetermined distance. , Store each individual item information included in the response wave. The response wave information includes the phase information of the response wave measured by the RFID reader / writer 27.

Further, the control unit 20 is connected to the storage unit 21 and the input / output controller 23 via the bus line 22.

The storage unit 21 is a non-volatile memory such as a flash memory, an HDD (Hard Disk Drive), or the like, which retains the stored information even when the power is turned off. The storage unit 21 stores a program or the like including a control program. The control program is a program for exerting the functions provided in the wireless tag reading device 2.

The input / output controller 23 is connected to the RFID reader / writer 27, the transfer motor 28, and the communication I / F 29. Further, the RFID reader / writer 27 is connected to the antenna 25 and the antenna 26. The input / output controller 23 controls various connected hardware based on a command from the control unit 20.

The transfer motor 28 drives the belt conveyor 24. In the present embodiment, the transfer motor 28 rotates the non-terminal belt by a driving force via the input / output controller 23.

The communication I / F 29 is an interface for communicating with an external device. In the present embodiment, the communication I / F 29 communicates with the POS terminal 3 via the communication line L.

<Functional configuration of the wireless tag reader according to the first embodiment>
Next, the functional configuration of the wireless tag reading device 2 according to the first embodiment will be described. FIG. 4 is a block diagram showing an example of the functional configuration of the wireless tag reading device according to the first embodiment. The wireless tag reading device 2 includes a phase detection unit 221 and an output unit 222.

A part or all of these functional units may have a software configuration realized by cooperation between a processor (CPU201) and various programs (for example, control programs) stored in a memory (ROM202, storage unit 21). .. Further, a part or all of these functional units may have a hardware configuration realized by a dedicated circuit or the like.

The phase detection unit 221 detects the phase of the signal received by the plurality of antennas. In the present embodiment, the phase detection unit 221 starts the transfer of the product with the RFID tag and ends the transfer from the phase information of the response wave included in the response wave information stored in the RAM 203 for each individual item information. Up to the point in time, the phase of the response wave is detected at regular intervals. The phase detection unit 221 detects the phase of the response wave for each antenna.

The output unit 222 outputs the information of the RFID tag read by the RFID reader / writer 27 to the POS terminal 3. In the present embodiment, the output unit 222 outputs information (individual product information, etc.) included in the antenna 25 temporarily stored in the RAM 203 and the response wave received by the antenna 26 to the POS terminal 3.

Further, the output unit 222 attaches an antenna number for identifying the antenna to the phase of the response wave detected by the phase detection unit 221 for each antenna, and outputs the phase to the POS terminal 3. Thereby, the POS terminal 3 can identify whether the acquired phase is the phase detected based on the information received by the antenna 25 or the phase detected based on the information received by the antenna 26. ..

<Hardware configuration of the POS terminal according to the first embodiment>
Next, the hardware configuration of the POS terminal 3 according to the first embodiment will be described. FIG. 5 is a block diagram showing an example of the hardware configuration of the POS terminal according to the first embodiment. The POS terminal 3 includes a control unit 30, a storage unit 31, and an input / output controller 33.

First, the control unit 30 will be described. The control unit 30 includes a CPU 301, a ROM 302, and a RAM 303. The CPU 301 connects the ROM 302 and the RAM 303 via the bus line 32.

The CPU 301 expands various programs stored in the ROM 302 and the storage unit 31 into the RAM 303. The CPU 301 controls the POS terminal 3 by operating according to various programs developed in the RAM 303. That is, the control unit 30 has a general computer configuration.

Further, the RAM 303 temporarily stores information output from the wireless tag reading device 2, product information described later, and the like.

Further, the control unit 30 is connected to the storage unit 31 and the input / output controller 33 via the bus line 32.

The storage unit 31 is a non-volatile memory such as a flash memory, an HDD, or the like, which retains the stored information even when the power is turned off. The storage unit 31 stores a program or the like including a control program. The control program is a program for exerting the functions provided in the POS terminal 3. The storage unit 31 stores the phase change information 311 and the product master 312, which will be described later.

The input / output controller 33 is connected to the display unit 34, the operation unit 35, and the communication I / F 36. The input / output controller 33 controls various connected hardware based on a command from the control unit 30.

The display unit 34 displays the product information or the like read by the wireless tag reading device 2. The operation unit 35 is various physical buttons and the like for operating the POS terminal 3. The operation unit 35 detects an operator's operation on various physical buttons and transmits information corresponding to the operation to the control unit 30. Instead of the physical buttons and the like, a touch panel may be provided on the display unit 34, and various buttons for operating the POS terminal 3 may be displayed on the display unit 34 to detect the operation of the operator.

The communication I / F 36 is an interface for communicating with an external device. In the present embodiment, the communication I / F 36 communicates with the wireless tag reader 2 via the communication line L.

<Functional configuration of the POS terminal according to the first embodiment>
Next, the functional configuration of the POS terminal 3 according to the first embodiment will be described. FIG. 6 is a block diagram showing an example of the functional configuration of the POS terminal according to the first embodiment. The POS terminal 3 includes a phase acquisition unit 321, a generation unit 322, a calculation unit 323, an antenna selection unit 324, a discrimination unit 325, a registration unit 326, and a settlement unit 327.

A part or all of these functional units may have a software configuration realized by cooperation between a processor (CPU 301) and various programs (for example, control programs) stored in a memory (ROM 302, storage unit 31). .. Further, a part or all of these functional units may have a hardware configuration realized by a dedicated circuit or the like.

The phase acquisition unit 321 acquires the phase. In the present embodiment, the phase acquisition unit 321 acquires the phase of the response wave output by the output unit 222 of the wireless tag reading device 2 included in the information temporarily stored in the RAM 303 for each individual product information.

The generation unit 322 generates the phase change information 311. In the present embodiment, the generation unit 322 rearranges the phase of the response wave acquired by the phase acquisition unit 321 for each individual product information in chronological order for each antenna number attached to the phase of the response wave, and the phase change information. Generate 311. Further, the generation unit 322 stores the generated phase change information 311 in the storage unit 31.

Here, the phase change information 311 will be described. The phase change information 311 is information indicating a change over time in the phase of the signal received by each of the plurality of antennas. In the present embodiment, the phase change information 311 rearranges the phases of the response waves detected by the phase detection unit 221 for each individual product information in chronological order for each antenna number attached to the phase of the response waves. be.

Next, the phase change information 311 will be described as a graph. FIG. 7 is an explanatory diagram in which the phase change information is graphed.

In this figure, 701 indicates the phase of the response wave received from the RFID tag 1 by the antenna 25 at each predetermined time point in the process in which the product mounted on the belt conveyor 24 moves a predetermined distance. 702 indicates the phase of the response wave received from the RFID tag 1 by the antenna 26 at each predetermined time point in the process in which the product mounted on the belt conveyor 24 moves a predetermined distance.

Further, 703 indicates the phase of the response wave received from the RFID tag 2 by the antenna 25 at each predetermined time point in the process in which the product mounted on the belt conveyor 24 moves a predetermined distance. 704 indicates the phase of the response wave received from the RFID tag 2 by the antenna 26 at each predetermined time point in the process in which the product mounted on the belt conveyor 24 moves a predetermined distance.

If the phase exceeds 360 ° and the unwrapping process is not performed, the phase is detected again from 0 °. That is, the phase of the product located at the position where the phase exceeds 360 ° is the same as the position where the position of the phase 360 ° is set to 0 ° again.

If the unwrapping process is not performed even if the phase exceeds 360 °, for example, 360 ° is detected as 0 ° and the phase change is difficult to understand. Therefore, if the phase exceeds 360 °, the unwrapping process is preferable. Here, the unwrap process specifically refers to a process of adding 360 ° to the detected phase when the phase exceeds 360 °.

In the example of FIG. 7, it can be seen that the phase of the response wave received from the RFID tag 1 changes with the passage of time. It can also be seen that the change in the phase of the response wave received by the antenna 25 from the RFID tag 1 is larger than the change in the phase of the response wave received by the antenna 26 from the RFID tag.

On the other hand, it can be seen that the phase of the response wave received by the antenna 25 from the RFID tag 2 and the phase of the response wave received by the antenna 26 from the RFID tag 2 have hardly changed over time. In this way, from the phase change information 311 it is possible to know how the phase of the response wave received from the RFID tag changes for each antenna.

In the present embodiment, the phase change information 311 rearranges the phases of the response waves detected by the phase detection unit 221 for each individual product information in chronological order for each antenna number attached to the phase of the response waves. However, the phase change information 311 is not limited to this. The phase change information 311 may represent, for example, a time-series change in the phase difference between the phase of the carrier wave transmitted by the antenna 25 and the antenna 26 and the phase of the response wave received by the antenna 25 and the antenna 26.

In the present embodiment, the phase change information 311 is stored in the storage unit 31, but the storage location of the phase change information 311 is not limited to this. For example, it may be stored in a storage unit such as a server connected to the wireless tag reading device 2 and the POS terminal 3.

The calculation unit 323 calculates a phase statistical value for each antenna. In the present embodiment, the calculation unit 323 calculates the standard deviation of the phase for each antenna based on the phase change information 311 generated by the generation unit 322. The standard deviation is an example of a "statistical value".

The antenna selection unit 324 determines whether the RFID tag is a moving tag or a stationary tag among a plurality of antennas based on the phase statistics calculated by the calculation unit 323. Select one antenna to be used for discrimination.

In the present embodiment, the antenna selection unit 324 determines whether the RFID tag is a moving tag or a stationary tag for the antenna having the higher standard deviation calculated by the calculation unit 323 among the antenna 25 or the antenna 26. Select as an antenna to do.

Here, the reason for selecting an antenna having a high standard deviation as an antenna to be used for discrimination will be described. For example, an RFID tag that is difficult to read also makes it difficult to detect the phase of the response wave. If the phase of the response wave cannot be detected correctly, the phase change of the response wave may be small even though the RFID tag is moving. In this case, the moving tag may be erroneously identified as the static tag.

On the other hand, since the phase of the response wave received from the stationary RFID tag does not change, it is unlikely that the phase change of the response wave becomes large even though the RFID tag is stationary. Therefore, it is considered that erroneous discrimination can be reduced by selecting an antenna having a large phase change of the response wave.

The higher the standard deviation, the larger the phase change of the response wave. Therefore, it is considered that selecting an antenna having a high standard deviation leads to a reduction in erroneous discrimination. From the above, in the present embodiment, the antenna having a high standard deviation is selected as the antenna used for discrimination.

When the RFID tag information is read only by one of the antenna 25 or the antenna 26, the antenna selection unit 324 selects the antenna capable of reading the RFID tag information as the antenna used for discrimination.

The determination unit 325 determines whether the RFID tag is a moving tag or a stationary tag based on the phase change information 311.

In the present embodiment, the RFID tag is a moving tag depending on whether or not the standard deviation of the phase of the response wave received by the antenna selected by the antenna selection unit 324 of the antenna 25 or the antenna 26 exceeds the standard deviation threshold. Determine if it is a static tag. The standard deviation threshold is an example of a "predetermined parameter".

Here, since the standard deviation of the phase of the response wave is calculated by the calculation unit 323 based on the phase change information 311. Therefore, "The determination unit 325 uses the phase change information 311 to move the RFID tag. It can also be said that it determines whether it is a static tag or a static tag. "

In the present embodiment, the discrimination unit 325 determines whether the tag is a moving tag or a stationary tag by using the standard deviation of the phase of the response wave received by the antenna selected by the antenna selection unit 324. , The standard deviation of the phase of the response wave of the RFID tag received by each of the multiple antennas is compared with the threshold of the standard deviation, and if even one exceeds the threshold, it is determined as a moving tag and all are below the threshold. In the case of, the configuration may be such that it is determined to be a static tag.

Further, the discriminating unit 325 tells the RFID reader / writer 27 of the wireless tag reading device 2 that the RFID tag has been discriminated from the RFID tag for which it has been discriminated whether it is a moving tag or a stationary tag. Performs the process of writing the indicated determined flag.

Then, while the discrimination unit 325 performs the RFID tag discrimination processing, the RFID reader / writer 27 of the wireless tag reading device 2 reads the RFID tag at any time, and the output unit 222 discriminates to the POS terminal 3 at any time. Outputs the reading result of the RFID tag including the completed flag. As a result, it is possible to prevent the RFID tag whose discrimination has already been completed from being repeatedly discriminated as to whether it is a moving tag or a stationary tag.

The product with the static tag may be placed on the belt conveyor 24 as a product that the customer wants to purchase in the future. Therefore, if the discriminated flag remains, the discriminating process by the discriminating unit 325 will not be performed even if the discriminating flag is placed on the belt conveyor 24. Therefore, in the present embodiment, the discriminated flag is automatically deleted after a certain period of time has elapsed.

Here, the antenna selection by the antenna selection unit 324 and the discrimination between the moving tag and the stationary tag by the discrimination unit 325 in the present embodiment will be described in detail. FIG. 8 is an explanatory diagram showing an example of the standard deviation of the phase calculated for each antenna. In this example, the standard deviation is calculated for each antenna based on the phase change information 311 of FIG.

In this figure, 801 indicates the standard deviation of the phase of the response wave received by the antenna 25 from the RFID tag 1. 802 indicates the standard deviation of the phase of the response wave received by the antenna 26 from the RFID tag 1. 803 indicates the standard deviation of the phase of the response wave received by the antenna 25 from the RFID tag 2. 804 indicates the standard deviation of the phase of the response wave received by the antenna 26 from the RFID tag 2.

In this example, since the standard deviation of the phase of the response wave received by the antenna 25 from the RFID tag 1 is higher than the standard deviation of the phase of the response wave received by the antenna 26 from the RFID tag 1, the antenna selection unit 324 is set to RFID. The antenna 25 is selected as an antenna for determining whether the tag 1 is a moving tag or a stationary tag.

Further, since the standard deviation of the phase of the response wave received by the antenna 26 from the RFID tag 2 is higher than the standard deviation of the phase of the response wave received by the antenna 25 from the RFID tag 2, the antenna selection unit 324 uses the RFID tag 2 The antenna 26 is selected as an antenna for determining whether the tag is a moving tag or a stationary tag.

In the discrimination unit 325, since the standard deviation of the phase of the response wave received from the RFID tag 1 by the antenna 25 selected by the antenna selection unit 324 as the antenna for discriminating the RFID tag 1 exceeds the threshold value 25, the RFID tag 1 is used. It is determined that the tag 1 is a moving tag.

Further, since the discrimination unit 325 has a standard deviation of the phase of the response wave received from the RFID tag 2 by the antenna 26 selected by the antenna selection unit 324 as the antenna for discriminating the RFID tag 2 is 25 or less, which is the threshold value. The RFID tag 2 is discriminated as a stationary tag.

In the present embodiment, the standard deviation threshold value is determined by performing verification in advance, but the standard deviation threshold value may be determined in advance by machine learning or deep learning.

Further, in the present embodiment, the standard deviation calculated by the calculation unit 323 is compared with one standard deviation threshold (25 in the above-mentioned example) from the start of reading to the end of reading, but from the start of reading to the end of reading. The time may be divided into several sections, a standard deviation threshold may be set for each section, and the standard deviation may be calculated for each section and compared with the standard deviation threshold. With such a configuration, it is possible to improve the discrimination accuracy between the moving tag and the stationary tag.

The registration unit 326 performs the product registration process. In the present embodiment, when the unidentified RFID tag disappears, the registration unit 326 starts with the product from the product master 312 stored in the storage unit 31 based on the information of the RFID tag determined by the discrimination unit 325 as the moving tag. Read the product information (product name, price, etc.) of.

In addition, the registration unit 326 performs a process of displaying the read product information of the product on the display unit 34. Further, the registration unit 326 performs a process of temporarily storing the read product information of the product in the RAM 303. In this embodiment, the above process is referred to as "product registration process".

Here, the product master 312 will be described. The product master 312 is information that stores the product information of the product in association with the product code that identifies the product. In the present embodiment, since the RFID tag information read by the RFID reader / writer 27 of the wireless tag reading device 2 includes the product code, the registration unit 326 refers to the product of the product corresponding to the product code from the product master 312. Information can be read.

In the present embodiment, the product master 312 is stored in the storage unit 31, but the storage location of the product master 312 is not limited to this. For example, it may be stored in a storage unit such as a server connected to the wireless tag reading device 2 and the POS terminal 3.

The settlement unit 327 performs settlement processing. Here, in the present embodiment, the settlement unit 327 performs a process of displaying the total amount of transactions and the tax amount on the display unit 34 based on the product information temporarily stored in the RAM 303 in connection with the product registration process.

In addition, the settlement unit 327 performs a process of calculating and displaying change based on the deposit received from the customer. Further, the settlement unit 327 performs a process of issuing a receipt printed with product information and settlement information (total amount, deposit amount, change amount, etc.). In this embodiment, the above processing and the like are referred to as "payment processing".

In the present embodiment, the above-mentioned phase acquisition unit 321 and generation unit 322, calculation unit 323, antenna selection unit 324, discrimination unit 325, registration unit 326, and settlement unit 327 are provided in the POS terminal 3, but the above-mentioned The wireless tag reader 2 may include a part or all of the functional configuration.

<Processing of wireless tag reader according to the first embodiment>
Next, the processing of the wireless tag reading device 2 according to the first embodiment will be described. FIG. 9 is a flowchart showing an example of the detection process of the wireless tag reading device according to the first embodiment.

First, the control unit 20 confirms whether the start detection sensor SS has detected the start of movement of the product by a predetermined distance (step S101). If the start detection sensor SS does not detect the start of movement (step S101: No), step S101 is repeated until it is detected.

When the start detection sensor SS detects the start of movement (step S101: Yes), the RFID reader / writer 27 starts reading the RFID tag (step S102). The control unit 20 confirms whether the RFID reader / writer 27 has read the information of the RFID tag (step S103).

When the RFID tag information is read (step S103: Yes), the RAM 203 temporarily stores the RFID tag information read by the RFID reader / writer 27 (step S104).

Then, the control unit 20 confirms whether the end detection sensor ES has detected the end of movement of the product by a predetermined distance (step S105). If the end detection sensor ES does not detect the end of movement (step S105: No), the processes of steps S103 to S105 are repeated until it is detected.

When the end detection sensor ES detects the end of movement (step S105: Yes), the phase detection unit 221 detects the phase for each individual item information from the RFID tag information temporarily stored in the RAM 203 (step S106). ). Then, the output unit 222 attaches an antenna number to the phase detected by the phase detection unit 221 and outputs the phase to the POS terminal 3, and ends this process (step S107).

On the other hand, if the RFID tag information has not been read in step S103 (step S103: No), the process proceeds to step S105. Then, similarly to the above-mentioned processing, when the end detection sensor ES does not detect the end of movement (step S105: No), the processing of steps S103 to S105 is repeated until it is detected.

If the RFID reader / writer 27 cannot read the RFID tag information at all by the end of the movement of the product, steps S106 and S107 cannot be executed, so that the present process is terminated as it is.

<Processing of POS terminal according to the first embodiment>
Next, the processing of the POS terminal 3 according to the first embodiment will be described. FIG. 10 is a flowchart showing an example of the determination process of the POS terminal according to the first embodiment.

First, the phase acquisition unit 321 is output by the output unit 222 of the wireless tag reading device 2, and acquires the phase temporarily stored in the RAM 303 for each individual item information (step S201). The generation unit 322 rearranges the phase acquired by the phase acquisition unit 321 for each individual product information for each antenna to generate the phase change information 311 (step S202). The generation unit 322 stores the generated phase change information 311 in the storage unit 31.

The calculation unit 323 calculates the standard deviation of the phase for each antenna based on the phase change information 311 generated by the generation unit 322 (step S203). The antenna selection unit 324 selects an antenna having a high phase standard deviation from the antenna 25 or the antenna 26 as an antenna to be used for discrimination (step S204).

The determination unit 325 confirms whether the standard deviation of the phase of the antenna selected by the antenna selection unit 324 exceeds the threshold value (step S205). When the threshold value is exceeded (step S205: Yes), the determination unit 325 determines that the RFID tag is a moving tag (step S206).

Then, the discrimination unit 325 performs a process of causing the RFID reader / writer 27 of the wireless tag reader 2 to write the discrimination flag on the discrimination RFID tag (step S208).

The control unit 30 confirms whether or not there is an unidentified RFID tag from the RFID tag information output by the output unit 222 of the wireless tag reading device 2 and temporarily stored in the RAM 303 (step S209).

If there is no unidentified RFID tag (step S209: No), this process ends. On the other hand, when there is an unidentified RFID tag (step S209: Yes), the processes of steps S204 to S209 are repeated for the unidentified RFID tag.

On the other hand, when the value is equal to or less than the threshold value in step S205 (step S205: No), the determination unit 325 determines that the RFID tag is a stationary tag (step S207). Then, the processes of step S208 and step S209 described above are performed, and this process is completed.

<Effect of information processing system according to the first embodiment>
Next, the effect of the information processing system 1 according to the first embodiment will be described. In the POS terminal 3 according to the present embodiment, the RFID tag is a moving tag or a stationary tag based on the phase change information 311 indicating the time-dependent change in the phase of the response wave received by each of the plurality of antennas. It is provided with a discriminating unit 325 for discriminating whether or not.

For example, when determining whether an RFID tag is a moving tag or a stationary tag based on the change in the phase of the response wave received from the RFID tag by one antenna, the RFID reader uses the RFID tag due to problems such as the orientation of the RFID tag. If it is not read properly, the phase change cannot be detected correctly, and erroneous discrimination may occur.

However, if there are a plurality of antennas, even if one antenna cannot detect the phase change correctly, the other antennas are more likely to detect the phase change correctly. If the phase change can be detected correctly by another antenna, no erroneous discrimination will occur. Therefore, the POS terminal 3 according to the present embodiment can reduce the possibility of erroneous determination of whether the RFID tag is a moving tag or a stationary tag.

Further, the wireless tag reading device 2 according to the present embodiment includes an antenna 25 and an antenna 26 provided on different planes, respectively. For example, when it is difficult for one antenna to read the RFID tag due to problems such as the orientation of the RFID tag, the angle between the antenna and the RFID tag may be different even if other antennas are provided on the same plane. Since it does not change, it is unlikely that the RFID tag will be easier to read with other antennas.

However, if the other antennas are provided on different planes, the angle formed by the antenna and the RFID tag is different, so that there is a high possibility that the RFID tag can be easily read by the other antenna. Further, if the wireless tag reading device 2 can normally read the RFID tag, the discriminating unit 325 of the POS terminal 3 can correctly detect the phase change.

That is, since the wireless tag reading device 2 includes the antennas 25 and the antennas 26 provided on different planes, there is a high possibility that the discriminating unit 325 can correctly detect the phase change. The POS terminal 3 can reduce the possibility of erroneous determination of whether the RFID tag is a moving tag or a stationary tag.

Further, the POS terminal 3 according to the present embodiment has an RFID tag from a plurality of antennas based on the calculation unit 323 that calculates the phase standard deviation for each antenna and the phase standard deviation calculated by the calculation unit 323. It is provided with an antenna selection unit 324 for selecting one antenna used for determining whether the tag is a moving tag or a stationary tag.

The calculation unit 323 obtains the standard deviation of the phase, so that the variation in the phase of the response wave can be known. It should be noted that a large variation also means a large phase change. Then, in the present embodiment, the antenna selection unit 324 refers to the antenna having a high standard deviation of the phase of the response wave calculated by the calculation unit 323 among the antenna 25 or the antenna 26, and the RFID tag is a moving tag or a stationary tag. It is selected as an antenna used to determine whether or not it is.

That is, the antenna selection unit 324 can select an antenna having a large phase change as an antenna used for discrimination. As a result, for example, even if one antenna does not read the RFID tag well and the phase change is detected to be small, the antenna is used to determine whether the tag is a moving tag or a stationary tag. Therefore, it is possible to reduce the possibility of erroneous determination of whether the tag is a moving tag or a stationary tag.

<Modification example of the information processing system according to the first embodiment>
-Modification example 1-
In the above-described embodiment, the antenna 25 and the antenna 26 of the wireless tag reading device 2 are provided at fixed positions, but the wireless tag reading device 2 is provided with a moving mechanism, and the antenna 25 and the antenna 26 are attached to the moving mechanism. It may be configured to be movable.

When the wireless tag reading device 2 has such a configuration, the wireless tag reading device 2 is provided with an operation control unit that controls the operation of the antenna, and the operation control unit adjusts to the movement of the product mounted on the belt conveyor 24. Then, the antenna 25 and the antenna 26 are controlled to be moved.

When the antenna 25 and the antenna 26 move according to the movement of the product, the RFID tag (moving tag) attached to the product mounted on the belt conveyor 24 does not change the distance between the antenna and the RFID tag. , The change in the phase of the response wave received by the antenna from the moving tag becomes small.

On the other hand, in the RFID tag (stationary tag) that is not mounted on the belt conveyor 24, the distance between the antenna and the RFID tag changes, so that the phase change of the response wave received by the antenna from the stationary tag becomes large. Therefore, unlike the above-described embodiment, the discrimination unit 325 determines that the tag is a moving tag when the standard deviation of the phase is equal to or less than the threshold value, and determines that the tag is a stationary tag when the deviation value of the phase exceeds the threshold value. ..

The information processing system 1 according to the first modification has the effect of reducing the possibility of erroneous determination of whether the RFID tag is a moving tag or a stationary tag, and in addition, a product mounted on the belt conveyor 24 is predetermined. Since the antenna always stays close to the RFID tag while traveling a distance, the possibility of missing the RFID tag attached to the product mounted on the belt conveyor 24 can be reduced.

-Modification example 2-
In the above-described embodiment, the wireless tag reading device 2 includes the belt conveyor 24, but the wireless tag reading device 2 may not include the belt conveyor 24. If the wireless tag reading device 2 does not include the belt conveyor 24, the RFID tag attached to the product that the customer who is trying to make a payment wants to read does not move. That is, the RFID tag is stationary.

On the other hand, it is conceivable that there are other customers who are moving around the wireless tag reader 2 and the POS terminal 3 with the product with the RFID tag attached. That is, it can be determined that the product with the moving RFID tag is not the product that the customer wants to read. Therefore, unlike the above-described embodiment, the information processing system 1 according to the second modification performs the product registration process only for the product to which the RFID tag determined to be the static tag is attached.

The information processing system 1 according to the second modification is a case where it is necessary to install a wireless tag reading device 2 without a belt conveyor in a store or the like that is narrow and has many customers, and other than customers who are trying to make an account. This is useful in situations where the customer often moves near the wireless tag reader 2 or the POS terminal 3.

(Second Embodiment)
Next, the information processing system 1 according to the second embodiment will be described. In the description of the second embodiment, the parts showing the same operation as the above-described first embodiment are designated by the same reference numerals in the drawings and the like, and detailed description thereof will be omitted.

In the information processing system 1 according to the first embodiment, the RFID tag is a moving tag that the customer wants to read, or the customer reads it, based on the phase change of the response wave of the RFID tag received by the plurality of antennas. Determine if it is a static tag that you do not want.

However, if the RFID tag is read while another customer holding the product with the RFID tag is moving near the wireless tag reading device 2, the movement of the other customer will affect the reading of the RFID tag. There is a risk that the phase change of the stationary tag that the customer does not want to read will be large. In this case, the RFID tag attached to the product that the customer does not want to read may be determined as the moving tag, and the product registration process of the product may be performed.

Therefore, there is a need for a method that can identify an RFID tag attached to a product owned by another moving customer as a static tag. In the present embodiment, the "moving tag" refers to an RFID tag that is moving by driving the belt conveyor 24, and the "stationary tag" is an RFID tag that is moving by driving the belt conveyor 24. RFID tag.

In order to realize the above, in the POS terminal 3 of the present embodiment, the number of readings of the RFID reader / writer 27, that is, the reception by the plurality of antennas, is not the phase change of the response wave of the RFID tag received by each of the plurality of antennas. Based on the number of times the response wave of the RFID tag is received, it is determined whether the RFID tag is a moving tag or a stationary tag.

The configuration of the information processing system 1 according to the second embodiment, the hardware configuration and functional configuration of the wireless tag reading device 2, and the hardware configuration of the POS terminal 3 are the same as those of the first embodiment described above, and thus will be described in detail. However, in the present embodiment, the information output by the wireless tag reader 2 and temporarily stored in the RAM 303 of the POS terminal 3 includes information on the number of times the response wave of the RFID tag received by the plurality of antennas is received. Shall be included.

<Functional configuration of the POS terminal according to the second embodiment>
The functional configuration of the POS terminal 3 according to the second embodiment will be described. FIG. 11 is a block diagram showing an example of the functional configuration of the POS terminal according to the second embodiment. The POS terminal 3 according to the second embodiment includes a discrimination unit 325, a registration unit 326, a settlement unit 327, and a read count acquisition unit 328. Since the registration unit 326 and the settlement unit 327 perform the same processing as in the first embodiment, detailed description thereof will be omitted.

First, the reading number acquisition unit 328 will be described. The reading count acquisition unit 328 acquires the reading count of the RFID reader / writer 27. In the present embodiment, the read count acquisition unit 328 receives the response wave of the RFID tag received by the plurality of antennas output by the output unit 222 of the wireless tag reader 2 included in the information temporarily stored in the RAM 303. Acquire the number of receptions for each individual item information.

Specifically, the reading count acquisition unit 328 receives the response wave of the RFID tag received by each of the antenna 25 and the antenna 26 while the product mounted on the belt conveyor 24 is moving a predetermined distance. Is acquired for each individual item information.

The determination unit 325 determines whether the RFID tag is a moving tag or a stationary tag based on the number of readings of the RFID tag acquired by the reading number acquisition unit 328. In the present embodiment, in the determination unit 325, the RFID tag is a moving tag based on the number of receptions of the response wave of the RFID tag received by the antenna 25 and the antenna 26 acquired by the reading number acquisition unit 328 for each individual item information. Determine whether it is a static tag or a static tag.

Specifically, when the number of times the response wave of the RFID tag received by the antenna 25 and the antenna 26 is received exceeds the preset threshold value, the RFID tag is determined to be a moving tag, and when it is below the threshold value, the RFID tag is Determined to be a static tag. In the present embodiment, the threshold value of the number of readings is determined by performing verification in advance, but may be determined in advance by machine learning or deep learning.

In the present embodiment, the number of readings of the RFID tag acquired by the reading number acquisition unit 328 is compared with the threshold value of one reading number from the start of reading to the end of reading, but the time from the start of reading to the end of reading is compared. It may be divided into several sections, a threshold value for the number of readings may be set for each section, and the threshold value for the number of readings may be compared for each section. With such a configuration, it is possible to improve the discrimination accuracy between the moving tag and the stationary tag.

Here, the reason why it is possible to determine whether the product is a moving tag or a stationary tag from the number of readings while the product is moving a predetermined distance will be described. Generally, a product placed on a belt conveyor 24 and moving is close to the antenna 25 and the antenna 26, whereas a product owned by another customer is close to the antenna 25 and the antenna 26. It is considered to be far away.

When the distance between the RFID tag and the antenna 25 and the antenna 26 becomes long, it becomes difficult for the RFID reader / writer 27 to read the RFID tag in a stable manner. That is, it is considered that the static tag is read less frequently by the RFID reader / writer 27 while the product placed on the belt conveyor 24 is moving a predetermined distance.

On the other hand, it is considered that the RFID reader / writer 27 can stably read the moving tag. That is, it is considered that the moving tag is read by the RFID reader / writer 27 more times than the stationary tag while the product placed on the belt conveyor 24 is moving a predetermined distance. Thereby, it is possible to determine whether the tag is a moving tag or a stationary tag based on the number of readings.

The wireless tag reading device 2 does not necessarily have to include a plurality of antennas, but when one antenna is used, it may be difficult for the RFID reader / writer 27 to read the RFID tag due to problems such as the orientation of the RFID tag. .. In this case, even if the tag is a moving tag, the number of readings is reduced, and the discrimination unit 325 may erroneously discriminate the tag as a stationary tag.

However, if there are a plurality of antennas, there is a high possibility that the RFID tag can be stably read while the product is moving a predetermined distance. Therefore, the wireless tag reading device 2 may be provided with the plurality of antennas. preferable.

In the present embodiment, the determination unit 325, the registration unit 326, the settlement unit 327, and the reading count acquisition unit 328 are provided in the POS terminal 3, but a part or all of the above-mentioned functional configurations are provided in the wireless tag reading device. 2 may be provided.

<Processing of POS terminal according to the second embodiment>
Next, the processing of the POS terminal 3 according to the second embodiment will be described. FIG. 12 is a flowchart showing an example of the discrimination process of the POS terminal according to the second embodiment.

First, the read count acquisition unit 328 obtains individual information on the number of receptions of the RFID tag response wave received by the antenna 25 and the antenna 26, which are output by the output unit 222 of the wireless tag reader 2 and temporarily stored in the RAM 303. Obtained for each (step S301). The determination unit 325 confirms whether the number of receptions of the response wave of the RFID tag received by the antenna 25 and the antenna 26 acquired by the reading number acquisition unit 328 for each individual item information exceeds the threshold value (step S302).

When the threshold value is exceeded (step S302: Yes), the determination unit 325 determines that the RFID tag is a moving tag (step S303). Then, the discrimination unit 325 performs a process of causing the RFID reader / writer 27 of the wireless tag reader 2 to write the discrimination flag on the discrimination RFID tag (step S305).

The control unit 30 confirms whether or not there is an unidentified RFID tag from the RFID tag information output by the output unit 222 of the wireless tag reading device 2 and temporarily stored in the RAM 303 (step S306).

If there is no unidentified RFID tag (step S306: No), this process ends. On the other hand, when there is an unidentified RFID tag (step S306: Yes), the processes of steps S302 to S306 are repeated for the unidentified RFID tag.

On the other hand, when the value is equal to or less than the threshold value in step S302 (step S302: No), the determination unit 325 determines that the RFID tag is a stationary tag (step S304). Then, the processes of steps S305 and S306 described above are performed, and this process is completed.

<Effect of information processing system according to the second embodiment>
Next, the effect of the information processing system 1 according to the second embodiment will be described. The POS terminal 3 according to the present embodiment acquires the number of times the response wave of the RFID tag received by the antenna 25 and the antenna 26 is received for each individual item information while the product is moving a predetermined distance. A unit 328 is provided.

Further, in the determination unit 325 of the present embodiment, the RFID tag is a moving tag based on the number of receptions of the response wave of the RFID tag received by the antenna 25 and the antenna 26 acquired by the reading number acquisition unit 328 for each individual item information. Determine if it is a static tag.

When determining whether the RFID tag is a moving tag or a stationary tag based on the phase change, the RFID reader / writer 27 is used while the customer holding the product with the RFID tag is moving near the wireless tag reader 2. If the RFID tag attached to the product carried by the moving customer is read, the phase may change due to the movement of the customer, and the phase change may be largely detected.

That is, when there is a moving customer and it is determined whether the RFID tag is a moving tag or a stationary tag based on the phase change, the stationary tag may be erroneously determined as a moving tag. On the other hand, the POS terminal 3 according to the present embodiment is a moving tag based on the number of receptions of the response wave of the RFID tag received by the antenna 25 and the antenna 26 acquired by the reading count acquisition unit 328, not the phase change. Since it is determined whether the tag is a stationary tag, it is possible to avoid erroneous determination caused by the influence of the movement of the customer.

That is, the POS terminal 3 according to the present embodiment is moving near the wireless tag reading device 2 with the product with the RFID tag attached when a customer is going to perform the product registration process and the payment process. Even if there are other customers, the phase change is largely detected due to the influence of the movement of the other customers, and the possibility that the stationary tag is erroneously determined as the moving tag can be reduced.

Although the embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

For example, the program executed by the POS terminal 3 of the above embodiment is provided by being incorporated in a storage medium (ROM 102 or storage unit 11) included in the POS terminal 3 in advance, but the present invention is not limited to this, and an installable format is used. Alternatively, a file in an executable format may be configured to be recorded and provided on a computer-readable recording medium such as a CD-ROM, a flexible disk (FD), a CD-R, or a DVD (Digital Versatile Disk). ..

The storage medium is not limited to a medium independent of a computer or an embedded system, but also includes a storage medium in which a program transmitted via a LAN, the Internet, or the like is downloaded and stored or temporarily stored.

Further, the program executed by the POS terminal 3 of the above embodiment may be stored on a computer connected to a network such as the Internet and provided by downloading via the network. Further, the program executed by the POS terminal 3 of the above embodiment may be configured to be provided or distributed via a network such as the Internet.

1 Information processing system 2 Wireless tag reader 3 POS terminal 20 Control unit 21 Storage unit 22 Bus line 23 Input / output controller 24 Belt conveyor 25, 26 Antenna 27 RFID reader / writer 28 Conveyor motor 29 Communication I / F
30 Control unit 31 Storage unit 32 Bus line 33 I / O controller 34 Display unit 35 Operation unit 36 Communication I / F
201 CPU
202 ROM
203 RAM
221 Phase detector 222 Output unit 301 CPU
302 ROM
303 RAM
321 Phase acquisition unit 322 Generation unit 323 Calculation unit 324 Antenna selection unit 325 Discrimination unit 326 Registration unit 327 Settlement unit 328 Read count acquisition unit SS Start detection sensor ES End detection sensor C Product T RFID tag

Japanese Unexamined Patent Publication No. 2009-276939

Claims (6)

The phase of the signal received by each of the plurality of antennas detected by the phase detector for detecting the phase of the signal received by the plurality of antennas receiving the signal from the wireless tag attached to the article over time. A discriminating unit that determines whether the wireless tag is a moving tag or a stationary tag based on the phase change information indicating the change.
Information processing device. The phase change information is information indicating a change over time in the phase of the signal received by each of the plurality of antennas provided on different planes.
The information processing device according to claim 1. A calculation unit that calculates phase statistics for each antenna from the phase change information,
In order to determine whether the wireless tag is a moving tag or a stationary tag from the plurality of antennas based on the phase statistical value calculated by the calculation unit. Antenna selection unit that selects one antenna to be used for
With more
Based on the statistical value of the phase of one antenna selected by the antenna selection unit and predetermined parameters, the discriminating unit determines whether the wireless tag is the moving tag or the stationary tag. To determine,
The information processing device according to claim 1 or 2. A reading count acquisition unit that acquires the reading count of the wireless tag by the wireless tag reading unit that reads the wireless tag attached to the article by radiating radio waves to the antenna.
A discriminating unit that determines whether the wireless tag is a moving tag or a stationary tag based on the number of readings of the wireless tag acquired by the reading count acquisition unit.
Information processing device. Information processing device,
The phase of the signal received by each of the plurality of antennas detected by the phase detector for detecting the phase of the signal received by the plurality of antennas receiving the signal from the wireless tag attached to the article over time. A discriminating unit that determines whether the wireless tag is a moving tag or a stationary tag based on the phase change information indicating the change.
A program that functions as. Information processing device,
A reading count acquisition unit that acquires the reading count of the wireless tag by the wireless tag reading unit that reads the wireless tag attached to the article by radiating radio waves to the antenna.
Based on the read count acquisition unit, a determination unit that determines whether the wireless tag is a moving tag or a stationary tag that is moving, and a determination unit that determines whether the wireless tag is a stationary tag.
A program that functions as.

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