JP2012133463A - Tag device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tag device capable of effectively preventing a lock of a door from being unexpectedly unlocked without requiring any specific operation by a user when the user carrying a tag device just passes through an area adjacent to a transmission source of an inquiry signal such as tag reader without having any entering intention.SOLUTION: The tag device 200 includes a determination part 206 that determines if the level of a received inquiry signal is larger than a predetermined value and a control part 207 that, when the determination part 206 determines that the level is larger than the predetermined value, performs control to transmit a response signal including a piece of own device ID information; and when the determination part 206 determines that the level is not larger than the predetermined value, performs control not to transmit the response signal.

Description

  The present invention relates to a tag device (active tag) that transmits a response signal in response to an interrogation signal from a tag reader, and relates to a response signal transmission control technique.

There is known an entrance management system that uses a tag reader and a tag device to manage visitors as follows.
The tag reader is installed near the door for entry, and repeatedly transmits a question signal. When the user who has the tag device enters an area where the question signal from the tag reader can be received, the tag device receives the question signal and includes a response signal including identification information (hereinafter referred to as “tag ID”) of the own device. Send.

  When the tag reader receives this response signal, it transmits the tag ID included in the response signal to the gate unit that authenticates the entrance. The gate unit stores a list of tag IDs of tag devices possessed by users who are permitted to enter, and performs authentication based on this list and the received tag ID, and opens the door according to the authentication result. Control the lock.

  As described above, when the user having the tag device enters an area where the question signal can be received, the tag device automatically transmits a response signal in response to the question signal. In some cases, the door may be unlocked.

  In other words, not only when the user moves toward the door to enter and enters the area where the question signal can be received, but also enters the area where the question signal can be received simply trying to pass near the door. In this case, the door is unlocked. As a result, an unfavorable situation may occur in terms of security that anyone can enter from the unlocked door.

To cope with this, it is conceivable to apply a technique (for example, Patent Document 1) that restricts whether or not to perform communication to the tag device.
The technology of Patent Document 1 controls the validity and invalidity of an IC card function in a portable terminal device having an IC (Integrated Circuit) card function for using electronic money or the like. Specifically, it is normally controlled to a locked state in which communication with the card reader is not possible, and is controlled to an unlocked state in which communication with the card reader is possible only when a predetermined operation is received from the user. Is.

JP 2007-148670 A

However, when the technique of Patent Document 1 is applied to a tag device, the user needs to perform a predetermined operation each time when entering the site, which is troublesome.
Therefore, the present invention has been made in view of such problems, and a user who has a tag device can search the vicinity of a question signal transmission source such as a tag reader without entering the site without special user operation. An object of the present invention is to provide a tag device that can effectively prevent the door from being unexpectedly unlocked when it simply passes.

  In order to solve the above-described problem, a tag device according to the present invention includes a determination unit that determines whether or not a level of a received question signal is equal to or higher than a predetermined value, and the determination unit includes: If the determination means determines that the level is not greater than or equal to a predetermined value, the response signal including the identification information of the device itself is transmitted. And control means for controlling not to transmit the response signal.

  In addition, the question signal includes information indicating whether or not to limit a communication distance, and the control unit determines that the determination unit determines that the level is not equal to or greater than a predetermined value. The response signal may be controlled not to be transmitted only when the information included in the received inquiry signal indicates that the communication distance is limited.

  Further, the interrogation signal is transmitted in an LF band, and the determination means is closer than a maximum distance between a transmission source of the interrogation signal that can receive the interrogation signal and the own apparatus. The determination may be performed with the level of the question signal when the question signal is received as the predetermined value.

  In the tag device according to the present invention having the above-described configuration, the user who has the tag device simply passes the vicinity of the question signal transmission source such as the tag reader without entering the site, even if no special user operation is performed. If it is not too much, the door can be effectively prevented from being unlocked unexpectedly.

Floor plan of facility where admission management system 1000 according to the embodiment is used System configuration diagram of admission management system 1000 according to the embodiment The figure which shows the data structure of the question signal 10 which concerns on embodiment, and the response signal 20 Flowchart showing processing of tag reader 100A according to the embodiment The flowchart which shows the process of the tag apparatus 200 which concerns on embodiment

Hereinafter, an admission management system using a tag device according to an embodiment of the present invention will be described with reference to the drawings.
<< Embodiment >>
<Overview>
FIG. 1 is a sketch of a facility where an admission management system 1000 according to an embodiment is used.

  As shown in the figure, the building 1 is divided into an entrance hall 2, an office 3, a server room 5 and the like serving as an entrance, and entrance to the office 3 and the server room 5 is managed by the entrance management system 1000.

  Hereinafter, the office 3 is a section where all employees of a certain company can enter, and the server room 5 is a section with a high security level that can be accessed only by the user of the tag device 200 who is the system administrator of the company. And The office 3 and the server room 5 are also referred to as “management section”.

  The gate unit 8 performs authentication based on the tag ID of the tag device 200 included in the response signal transmitted from the tag device 200 in response to the question signal repeatedly transmitted from each tag reader, and opens the door of the management section. The unlocking of the electric locks 7A and 7B of 4 and 6 is controlled.

  Here, the tag device 200 does not limit the communication distance to the question signal when the level of the question signal received from each tag reader is equal to or higher than the predetermined value, or even if the level of the question signal is lower than the predetermined value. A response signal is transmitted when the information indicating is included. Hereinafter, this information is referred to as “mode information”.

  That the level of the question signal is equal to or higher than the predetermined value indicates that the tag device 200 and the tag reader that is the source of the question signal are close to each other to the extent that the level of the question signal becomes equal to or higher than the predetermined value. .

  Therefore, for example, mode information indicating that the communication distance is limited is included in the question signal transmitted by the tag reader 100A installed in the management section with a high security level (the server room 5 in this example). By doing in this way, when the distance between the tag reader 100A and the tag device 200 is long, even if the tag device 200 receives the question signal from the tag reader 100A, the response signal is not transmitted. it can. That is, the communication distance between the tag reader 100A and the tag device 200 can be limited to a short distance.

  As a result, for example, when the tag device 200 of the user who has just passed in front of the server room 5 transmits a response signal in response to the question signal from the tag reader 100A, the door 6 is unlocked. It is possible to prevent a situation in which a person different from the user can enter.

<Configuration>
<Admission management system 1000>
Hereinafter, the configuration of the entrance management system 1000 will be described.

FIG. 2 is a system configuration diagram of the admission management system 1000 according to the embodiment.
As shown in the figure, the admission management system 1000 includes tag readers 100A and 100B, a tag device 200, and a gate unit (GU) 8.

  Here, each tag reader and GU8 are connected by a cable (for example, one conforming to the RS-485 standard). Further, one management server 9 provided in the building 1 and the GU 8 are connected via a LAN (Local Area Network).

  In addition, although the entrance management system 1000 has shown the example provided with two tag readers 100A and 100B and one GU8 in the figure, this is an example and the number of each apparatus is not restricted to this. . The admission management system 1000 includes, for example, a tag reader provided separately from each device shown in FIG. 2 in order to manage admission to each section other than that shown in FIG. 1, and a gate unit connected to the management server 9 via a LAN. And may be included.

  In addition, in the figure, only one tag device 200 is shown, but each user of the entrance management system 1000 holds the tag device, and the entrance management system 1000 includes a plurality of tag devices.

Here, the electric locks 7A and 7B are attached to the doors 6 and 4 and normally lock the doors, and receive the instructions from the GU 8 to unlock the doors.
The GU 8 performs authentication based on the identification information of the tag reader received from each tag reader, the tag ID of the tag device 200, and the entrance authorized person list for the management area received and stored in advance from the management server 9, and the authentication log Is transmitted to the management server 9.

Hereinafter, the identification information of the tag reader is referred to as “reader ID”. The authentication log is data including a reader ID used for authentication, a tag ID, and an authentication result.
Further, the GU 8 instructs the unlocking to the electric lock attached to the door of the management section where the tag reader indicated by the reader ID used for the authentication is installed particularly when the authentication is successful.

  The management server 9 manages the admission list and the authentication log received from the GU 8 registered in advance by an administrator of the admission management system 1000 (hereinafter simply referred to as “system administrator”) and updated as necessary. Is.

  This admission list corresponds to the reader ID of a tag reader installed in the vicinity of each door to be entered and the tag ID of a tag device possessed by a user permitted to enter from the door. It is the attached data.

  Note that in this admission list, the reader IDs of the tag readers 100A and 100B are associated with the tag ID of the tag device 200. That is, the user of the tag device 200 can enter the office 3 and the server room 5.

  Further, the management server 9 transmits the updated data to the GU 8 every time the authorized admission list is updated by the system administrator or the like. Thereby, matching with the admission permit list on the management server 9 and the admission permit list on the GU 8 is achieved.

  The tag readers 100A and 100B are installed in the vicinity of the doors 6 and 4 and repeatedly transmit a question signal including the reader ID of the device itself and mode information in the LF band (30 to 300 kHz).

  In addition, since the interrogation signal is transmitted in the LF band, the range of the area where the interrogation signal can be received (hereinafter also referred to as “reception area”) is limited to a relatively narrow range. It is assumed that the range is within about 1.5 m from each tag reader in the absence of an object.

Each tag reader transmits the tag ID included in the response signal from the tag device 200 and the reader ID of the own device to the GU 8.
The tag device 200 is a so-called active tag. When the tag device 200 is received by a user and enters each reception area where a question signal from each tag reader can be received, the tag device 200 receives the question signal, and receives the question signal level and the question signal. The processing according to the content of the mode information included in the is performed.

  That is, the tag device 200 indicates that the communication distance is not limited to the question signal when the level of the received question signal is equal to or higher than the predetermined value, or even when the level of the received question signal is lower than the predetermined value. If the information is included, a response signal is transmitted.

  That is, tag device 200 does not transmit a response signal when the level of the received question signal is less than a predetermined value and the question signal includes mode information indicating that the communication distance is limited.

  This response signal includes the tag ID of the own device (tag device 200) and is transmitted in the UHF band (300 MHz to 3 GHz). Therefore, the area where the response signal can be received is a relatively wide range, and in this embodiment, it is assumed that the range is about 20 m from the tag device without any obstacle.

  Hereinafter, the configuration of each tag reader and tag device will be described in more detail. Since the configurations of the tag readers 100A and 100B are the same, the tag reader 100A will be described below as an example.

<Tag reader>
First, the configuration of the tag reader 100A will be described.
The tag reader 100A includes an RS-485 interface 101, an LF signal transmission circuit 102, an RF signal reception circuit 103, a storage unit 104, and a control unit 105, as shown in FIG.

Note that the tag reader 100A includes a memory and a processor, and the function of the control unit 105 is realized by the processor executing a program stored in the memory.
Here, the RS-485 interface 101 has a function of exchanging data according to the GU8 and the RS-485 standard.

  The LF signal transmission circuit 102 includes a filter, an amplifier, and the like (not shown) in addition to the LF antenna, and has a function of transmitting a question signal transmitted according to an instruction from the control unit 105 as an LF band radio signal.

  The RF signal receiving circuit 103 includes a filter, an amplifier, and the like (not shown) in addition to the RF antenna, and has a function of receiving a response signal transmitted from the tag device 200 and transmitting the response signal to the control unit 105.

The storage unit 104 is realized by a storage medium such as a nonvolatile memory, and has a function of storing mode information preset by a system administrator or the like and a reader ID of the own device.
The tag readers 100A and 100B have the same configuration, but of course the reader ID setting value is different, and in this example, the mode information setting value is also different.

  In the following, the mode information stored in the tag reader 100A is set to “1” indicating that the communication distance is limited, and the mode information stored in the tag reader 100B indicates that the communication distance is not limited. It is assumed that “0” is set.

  In addition to the function of controlling the entire apparatus, the control unit 105 generates a question signal including the reader ID of the own device stored in the storage unit 104, and transmits the generated question signal to the LF signal transmission circuit 102. Have.

  Further, when the control unit 105 receives a response signal including the reader ID of its own device via the RF signal receiving circuit 103, the control unit 105 sets the reader ID and the tag ID included in the response signal to RS-485. It has a function of sending to the GU 8 via the interface 101.

<Tag device>
Next, the configuration of the tag device 200 will be described.
The tag device 200 includes an LF signal reception circuit 201, an RF signal transmission circuit 202, a storage unit 203, a built-in battery 204, a rectifier circuit 205, a determination unit 206, and a control unit 207, as shown in FIG.

  Note that the tag device 200 includes a memory and a processor, and the functions of the determination unit 206 and the control unit 207 are realized by the processor executing a program stored in the memory.

The LF signal reception circuit 201 includes a filter, an amplifier, and the like (not shown) in addition to the LF antenna, and has a function of transmitting a question signal received from each tag reader to the control unit 207.
The RF signal transmission circuit 202 includes a filter, an amplifier, and the like (not shown) in addition to the RF antenna, and has a function of transmitting a response signal transmitted from the control unit 207 as an RF band radio signal.

The storage unit 203 is realized by a storage medium such as a nonvolatile memory, and has a function of storing the tag ID of the own device.
The built-in battery 204 has a function of supplying power to each part of the tag device 200.

The rectifier circuit 205 has a function of rectifying the interrogation signal (radio wave) received via the LF antenna and outputting DC power to the determination unit 206.
The determination unit 206 has a function of determining whether the level of the DC power output from the rectifier circuit 205 is equal to or higher than a predetermined value set in advance, and sending the determination result to the control unit 207.

The shorter the distance between the tag device 200 when receiving the interrogation signal and the tag reader that transmitted the interrogation signal, the higher the level of DC power output from the rectifier circuit 205.
Therefore, the system administrator or the like determines the communication distance that may be permitted between the tag reader installed in the management section with a high security level and the tag device 200, so that the predetermined value is set as follows, for example. Can be determined.

  That is, for example, the tag device 200 is received from the tag reader in a state where the tag device 200 is close to the tag reader so that the distance between the tag device 200 and the tag reader is an allowable communication distance (for example, about several centimeters). The level of the DC power obtained by rectifying the interrogation signal is measured. The level of the measured DC power may be set to a predetermined value.

  In addition to the function of controlling the entire apparatus, the control unit 207 includes the determination result received from the determination unit 206 when the question signal is transmitted from the LF signal receiving circuit 201 and the contents of the mode information included in the question signal. The function of controlling whether or not to transmit a response signal is provided.

  The control unit 207 indicates that the determination result from the determination unit 206 indicates that the level of the received question signal is less than a predetermined value, and that the mode information included in the question signal limits the communication distance. Except for cases, a response signal is transmitted via the RF signal transmission circuit 202.

The control unit 207 transmits the response signal including the tag ID of its own device stored in the storage unit 203 and the reader ID included in the received question signal.
<Data>
Hereinafter, data used in the admission management system 1000 will be described.

<Question signal>
First, the question signal generated and transmitted by the tag reader 100A will be described.
FIG. 3A is a diagram illustrating a data configuration of the question signal 10 according to the embodiment.

As shown in the figure, the question signal 10 includes a PR (PReamble) 11, a UW (Unique Word) 12, mode information 13, a reader ID 14, and a CRC 15.
Here, PR11 is a bit string (synchronization code) indicating the start of the data of the interrogation signal, and UW12 is a so-called frame synchronization signal.

  The mode information 13 is information indicating whether or not to limit the communication distance between the tag reader 100A that is the transmission source of the interrogation signal 10 and the tag device 200. The mode information 13 of the question signal transmitted by the tag reader 100A is always set to “1”.

  The reader ID 14 is identification information of the tag reader 100A that is the source of the question signal, and the CRC 15 is data for detecting whether the tag device 200 that has received the question signal has an error in the question signal. .

  Although the question signal generated and transmitted by the tag reader 100A has been described here, the data structure of the question signal generated and transmitted by the tag reader 100B is the same. However, the mode information 13 of the question signal generated by the tag reader 100B is always set to “0”.

<Response signal>
Next, a response signal generated and transmitted by the tag device 200 will be described.
FIG. 3B is a diagram illustrating a data configuration of the response signal 20 according to the embodiment.

The response signal 20 is composed of PR21, UW22, reader ID23, tag ID24, and CRC25 as shown in FIG.
Here, PR21 is a bit string (synchronization code) indicating the start of response signal data, and UW22 is a so-called frame synchronization signal.

The reader ID 23 is a reader ID (identification information) included in the received question signal, and the tag ID 24 is a tag ID (identification information) of the own device.
The CRC 25 is data for detecting whether the tag reader that has received the response signal has an error in the response signal.

<Operation>
Next, the operation of the admission management system 1000 having the above configuration and handling the data will be described.

<Tag reader>
First, the operation of the tag reader 100A will be described.
FIG. 4 is a flowchart showing processing of the tag reader 100A according to the embodiment.

  When the power of the tag reader 100A is turned on, the control unit 105 transmits an inquiry signal in which the mode information and the reader ID stored in the storage unit 104 are set to the mode information 13 and the reader ID 14 to the LF signal transmission circuit 102. (Step S1).

  As described above, the mode information stored in the storage unit 104 of the tag reader 100A is set to “1”, and the mode information stored in the storage unit 104 of the tag reader 100B is set to “0”. Yes.

  Subsequently, the control unit 105 determines whether or not a response signal has been received via the RF signal receiving circuit 103 (step S2). When the response signal is received (step S2: YES), the response signal is determined. It is determined whether or not the reader ID of its own device is included (step S3).

  Specifically, when the reader ID 23 included in the response signal matches the reader ID stored in the storage unit 104, the control unit 105 includes the reader ID of its own device in the received response signal. (Step S3: YES).

  When the response signal includes the reader ID of the own device (step S3: YES), the control unit 105 uses the RS-485 interface 101 for the reader ID of the own device and the tag ID included in the response signal. Via GU8 (step S4).

  Note that the GU 8 uses the received reader ID and tag ID to transfer the tag device (in this example, the tag device) indicated by the tag ID to the management area in which the tag reader (in this example, the tag reader 100A) indicated by the reader ID is installed. Authentication relating to admission of a user possessing the device 200) is performed. In particular, when the authentication is successful, the GU 8 instructs the electric lock (7A in this example) attached to the door of the management area (the door 6 in this example) to unlock, and sends the authentication log to the management server 9 Send to.

  When the process of step S4 is completed, when a response signal is not received (step S2: NO), or when the received response signal does not include the reader ID of its own device (step S3: NO) The control unit 105 performs the processing from step S1 again. In addition, the control part 105 transmits the question signal in step S1 so that it may become a fixed period (for example, every 300 ms).

<Tag device>
Next, the operation of the tag device 200 will be described.
FIG. 5 is a flowchart showing processing of the tag device 200 according to the embodiment.

  The control unit 207 of the tag device 200 determines whether or not an interrogation signal has been received via the LF signal receiving circuit 201 (step S11). If not received (step S11: NO), the control unit 207 again performs step S11. Perform the process. Note that the control unit 207 performs the process of step S11 so as to have a constant period (for example, less than 300 ms).

  When the question signal is received (step S11: YES), the determination unit 206 determines whether or not the level of the DC power output from the rectifier circuit 205 is equal to or higher than a predetermined value, and the determination result is transmitted to the control unit 207. (Step S12).

The control unit 207 determines whether or not the determination result received from the determination unit 206 indicates that the power supply amount is greater than or equal to a predetermined value (step S13).
When it indicates that the power supply amount is equal to or greater than the predetermined value (step S13: YES), the control unit 207 sets the reader ID included in the question signal to the reader ID 23 and the tag ID stored in the storage unit 203. A response signal set in the tag ID 24 is transmitted (step S14). When the process of step S14 is completed, the control unit 207 performs the process from step S1 again.

  On the other hand, when the determination result indicates that the power supply amount is less than the predetermined value (step S13: NO), the control unit 207 indicates that the value of the mode information 13 included in the question signal received in step S11 is “ It is determined whether it is “0” (step S15).

When the mode information 13 is “0” (step S15: YES), the control unit 207 transmits a response signal as described above (step S14), and performs the processing from step S1 again.
On the other hand, when the value of the mode information 13 is “1” (step S15: NO), the process is performed again from step S11 without transmitting a response signal.

  As described above, the value of the mode information 13 included in the question signal from the tag reader 100A is “1”, and the value of the mode information 13 included in the question signal from the tag reader 100B is “0”. .

  Therefore, when the interrogation signal is received from the tag reader 100B, the tag device 200 transmits the interrogation signal regardless of the power supply amount (step S13: YES, step S15: YES). On the other hand, when the interrogation signal is received from the tag reader 100A, the tag device 200 transmits the interrogation signal only when the power supply amount is a predetermined value or more (step S13: YES, step S15: NO). .

  That is, when entering the office 3 shown in FIG. 1, the user who owns the tag device 200 can receive a question signal from the tag reader 100B (within about 1.5 m from the tag reader 100B without an obstacle). It is sufficient if it is close to the tag reader 100B.

  On the other hand, when it is desired to enter the server room 5, the user who owns the tag device 200 needs to bring the tag device 200 closer to the tag reader 100A so that the distance from the tag reader 100A is, for example, about several centimeters.

  Therefore, when the user wants to enter a section with a relatively low security level such as the office 3, the door is opened from a relatively long distance (in this example, within about 1.5 m from the tag reader 100B with no obstacles). 4 can be unlocked, giving priority to user convenience.

  Further, when passing in front of a high security level section such as the server room 5, the tag device 200 held by the user transmits a response signal in response to the question signal from the tag reader 100A, and the door 6 It can be prevented from being unlocked.

  In other words, since the tag device 200 can limit the communication distance with the tag reader 100A to a short distance, the occurrence of a situation in which anyone can enter from an unlocked door without intention of entering is appropriately performed. Can be prevented.

<Supplement>
The tag device according to the present invention has been described above based on the embodiment. However, the tag device can be modified as follows, and the present invention is not limited to the tag device as described in the above-described embodiment. Of course.

  (1) When the control unit 207 of the tag device 200 according to the embodiment receives the question signal, the control unit 207 sends a response signal based on the level of the received question signal and the content of the mode information included in the question signal. It has been described as controlling whether or not to transmit. However, the control unit 207 may be modified so as to control whether or not to transmit a response signal based on only the level of the received question signal regardless of the mode information.

This modification is particularly effective when, for example, it is desired to uniformly limit the communication distance between all the tag readers in the admission management system and the tag device according to this modification.
Further, in the embodiment, the communication distance that may be permitted between the tag device 200 and the tag reader 100A has been described as an example of about several centimeters. However, the communication distance that may be permitted is a distance (for example, 50 cm or less) that can achieve the purpose of preventing the user who does not intend to enter from being unlocked when passing in front of the tag reader 100A. ).

  Thus, based on the determined communication distance that may be permitted, the determination unit 206 of the tag device 200 determines using the level of the DC power measured as described in the embodiment as a predetermined value. It can be performed.

  (2) In the embodiment, when the mode information is “1”, the communication distance is limited, and when the mode information is “0”, the communication distance is not limited. As explained. However, this is merely an example, and the mode information may be any information as long as it indicates whether or not the communication distance is limited.

  (3) It has been described that the predetermined value used for determination by the determination unit 206 of the tag device 200 according to the embodiment is set in advance. However, for example, each tag reader may be modified to include the information indicating the predetermined value in the question signal transmitted by each tag reader, and the determination unit 206 may be modified to perform determination based on this information. In this case, the determination unit according to this modification acquires information indicating the predetermined value included in the question signal via the control unit.

  Further, for example, the tag device 200 may be provided with a predetermined operation unit such as a button, and the level of the question signal received from the tag reader may be stored as a predetermined value while operating the operation unit.

  Further, in the embodiment, it has been described that the function of the determination unit 206 is realized by executing the program stored in the memory of the tag device 200 by the processor of the tag device 200. However, the determination unit 206 may be realized using a circuit element such as a comparator.

  (4) A program for causing the processor to execute the processing of the tag device 200 shown in the embodiment (see FIG. 5) can be recorded on a recording medium or distributed and distributed via various communication paths. . Examples of such a recording medium include an IC card, an optical disk, a flexible disk, a ROM (Read Only Memory), and a flash memory. The distributed and distributed program is used by being stored in a memory or the like that can be read by a processor in the device, and each function of the tag device 200 shown in the embodiment is executed by the processor executing the program. Is realized.

  (5) Each or all of the components of the tag device 200 according to the embodiment may be realized as an integrated circuit of one chip or a plurality of chips, or may be realized by a computer program. Any other form may be realized.

(6) Hereinafter, the configuration of the tag device according to one embodiment of the present invention, its modification, and each effect will be described.
(A) The tag device according to the embodiment of the present invention includes a determination unit that determines whether or not the level of the received question signal is equal to or higher than a predetermined value, and the determination unit includes the level equal to or higher than a predetermined value. If the determination means determines that the level is not greater than or equal to a predetermined value, the response signal including the identification information of the device itself is transmitted. Control means for controlling not to transmit the response signal.

  According to this tag device, the response signal is not transmitted when the distance between the question signal transmission source (tag reader, etc.) and the tag device is far enough that the level of the received question signal is less than a predetermined value. Control.

  Therefore, according to this tag device, by appropriately setting the predetermined value, the user who possesses the tag device has only passed near the tag reader or the like without using a special user operation. The door can be effectively prevented from being unlocked unexpectedly.

  (B) The question signal includes information indicating whether or not the communication distance is limited, and the control means determines that the level is not equal to or higher than a predetermined value. In such a case, the response signal may be controlled not to be transmitted only when the information included in the received inquiry signal indicates that the communication distance is limited.

  This tag device has information indicating that the communication distance is not limited to the question signal when the distance between the question signal transmission source and the tag device is far enough that the level of the received question signal is less than a predetermined value. When it is included, a response signal is transmitted.

  For example, when a question signal including information indicating that the communication distance is not limited is transmitted to a tag reader or the like installed near a room with a relatively low security level, the tag device that has received the question signal Transmits a response signal.

  In other words, depending on the security level of the room in which the tag reader is installed, the content of the information included in the question signal transmitted by the tag reader or the like is changed, so that the tag reader and the tag device Can easily change the communication distance.

  (C) Further, the interrogation signal is transmitted in an LF band, and the determination means is more than a maximum distance between a transmission source of the interrogation signal and the own apparatus that can receive the interrogation signal. The determination may be performed using the level of the question signal when the question signal is received at a short distance as the predetermined value.

For example, this tag device does not transmit a response signal when the interrogation signal is received in the vicinity of the maximum distance at which the interrogation signal can be received.
Accordingly, when performing admission management using the identification information of the tag device included in the response signal, for example, the tag device of the user who has just passed through the passage where the tag reader or the like that transmitted the question signal is installed is the response signal. Can be prevented from being transmitted.

  That is, according to this tag device, it is effective for the door to be unexpectedly unlocked when the user who possesses the tag device has only passed near the tag reader or the like without any special user operation. Can be suppressed.

  (D) Further, the determination means sets the level of the question signal when the question signal is received when the distance between the source of the question signal and the own apparatus is 50 cm or less as the predetermined value. It is good also as making determination.

  For example, this tag device does not transmit a response signal when a question signal is received from the tag reader or the like at a position that is more than 50 cm away from the tag reader or the like that transmits the question signal.

Accordingly, it is possible to effectively prevent the door from being unexpectedly unlocked when the user who possesses the tag device has only passed the vicinity of the tag reader or the like.
(7) The tag device 200 according to the embodiment may be applied by combining some or all of the modifications (1) to (6) above.

  (8) The determination unit and the control unit included in the tag device according to the present invention correspond to the determination unit 206 and the control unit 207 included in the tag device 200 according to the embodiment.

DESCRIPTION OF SYMBOLS 200 Tag apparatus 201 LF signal receiving circuit 202 RF signal transmission circuit 203 Memory | storage part 204 Built-in battery 205 Rectifier circuit 206 Judgment part 207 Control part

Claims (3)

Determination means for determining whether the level of the received question signal is equal to or higher than a predetermined value;
When the determination unit determines that the level is equal to or higher than a predetermined value, a response signal including identification information of the own device is transmitted, and the determination unit is not higher than the predetermined value. And a control means for controlling not to transmit the response signal when the determination is made. In the question signal,
Contains information indicating whether to limit the communication distance,
The control means includes
When the determination means determines that the level is not equal to or higher than a predetermined value, the response signal is transmitted only when the information included in the received question signal indicates that the communication distance is limited. The tag device according to claim 1, wherein the tag device is controlled so as not to occur. The interrogation signal is transmitted in the LF band,
The determination means includes
Performing the determination with the level of the question signal when the question signal is received at a shorter distance than the maximum distance between the transmission source of the question signal and the device capable of receiving the question signal as the predetermined value. The tag device according to claim 1.

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