JP4730594B2 - Position detection system - Google Patents

Description

This invention relates to a position detecting system for detecting a position of the managed.

  One of radio communication systems is an RFID (Radio Frequency Identification) system. The RFID system includes a reader / writer having a reading function and an information medium that transmits various types of information such as identification information in accordance with an instruction from the reader / writer. Some information media are in the form of cards or tags. Of these, the tag-shaped information media are called RFID tags, and are attached to, for example, a person to be managed. In recent years, a position detection system that uses the RFID system to detect the position of the RFID tag based on the identification information transmitted from the RFID tag, the installation position of the reader / writer that has read the RFID tag, the strength of the radio wave transmitted from the RFID tag, etc. Has been proposed (see Patent Documents 1 to 3). In such a position detection system, the position of the RFID tag attached to the management subject is detected by performing wireless communication between the RFID tag and the reader / writer, and the management subject's entry / exit management is performed. .

JP 2003-61131 A JP 2005-55186 A JP-A-2005-64725

  However, the conventional position detection system is based on the premise that the management subject wears an RFID tag. In other words, in the conventional position detection system, the position of the RFID tag that transmitted the identification information is determined as the position of the management target person wearing the RFID tag, and the management target person's entrance / exit management is performed. For this reason, in the conventional position detection system, when the management target person drops an RFID tag in the communicable area of the reader / writer and the management target person does not stay in the communicable area of the reader / writer. Even if it exists, this RFID tag transmits identification information according to the instruction | indication of a reader / writer. In this case, the conventional position detection system supports the RFID tag when the RFID tag is in the communicable area even when the management target person is not staying in the communicable area of the reader / writer. There is a case where the management person who performs the management mistakes that he / she is staying in this communicable area. As a result, the conventional position detection system has a problem that the management target person cannot be accurately managed.

This invention has been made in view of the drawbacks of the prior art described above, provides, a position detection system managed person to prevent misidentification of the managed person position detection in the case where no carry an RFID tag The purpose is to do.

In order to solve the above-described problems and achieve the object, a position detection system according to the present invention includes an information medium that is attached to a management target and transmits predetermined identification information in a contactless manner, and the information medium transmitted from the information medium. A position detection system including a management device that detects a position of the management target based on identification information, wherein the information medium includes temperature detection means for detecting a temperature around the information medium; The temperature information including the detected temperature is transmitted together with the identification information, and the management device adds the information medium to the management target when the temperature information transmitted from the information medium satisfies a predetermined temperature condition. Determining means that determines that the information medium is attached to the management target, and detecting the position of the information medium as the management target position when the determination means determines that the information medium is attached to the management target Detection means that, characterized by comprising a.

  In the position detection system according to the present invention, the management object is a person, and the temperature condition is set based on a temperature range corresponding to the body temperature of the person.

According to the position detection system of the present invention, the management device determines that the temperature information transmitted from the information medium provided with the temperature detection means satisfies a predetermined temperature condition, and the information medium is attached to the management target. Since the position of the management target is detected only in the case where it has been, it is possible to prevent misidentification of the management target position.

  Hereinafter, an information medium and a position detection system according to embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments. In the description of the drawings, the same parts are denoted by the same reference numerals.

( Reference example )
First, an information medium according to a reference example will be described. As an information medium according to this reference example , an RFID tag having an RFID function and carried by a management subject will be described as an example. Since the RFID tag according to this reference example can be transmitted only when it is carried by the management subject, it prevents misunderstanding of the location detection of the management subject when the management subject does not carry the RFID tag. be able to. Hereinafter, an RFID tag according to a reference example will be described, and a position detection system including the RFID tag will be described. FIG. 1 is a schematic diagram showing the overall configuration of the position detection system in this reference example .

As shown in FIG. 1, the position detection system 1 in the reference example performs RFID communication between an RFID tag 10 storing predetermined identification information and the like and an RFID tag 10 via a radio wave of a predetermined frequency. The reader / writer 20 that acquires the identification information stored in the reader 10 and the position of the management subject H carrying the RFID tag 10 based on the identification information sent from the reader / writer 20 are detected. And a management device 30 for performing entrance / exit management. The reader / writer 20 and the management device 30 are connected via a network 40. Note that the reader / writer 20 and the management apparatus 30 may be connected via a network 40, or may be connected by wire or wirelessly.

  The RFID tag 10 can transmit and receive when the temperature around the RFID tag 10 satisfies a predetermined temperature condition, and starts wireless communication with the reader / writer 20. The RFID tag 10 is capable of transmitting and receiving, thereby transmitting a radio wave including predetermined identification information and the like to the reader / writer 20 and rewriting or writing information stored in accordance with an instruction radio wave from the reader / writer 20. .

  The reader / writer 20 transmits an instruction radio wave of a predetermined frequency to the RFID tag 10 and receives radio waves transmitted from the RFID tag 10 in response to the instruction radio wave, thereby identifying information stored in the RFID tag 10 and the like. And the identification information and the like are sent to the management device 30. The reader / writer 20 rewrites and writes information stored in the RFID tag 10 by transmitting an instruction radio wave having a predetermined frequency to the RFID tag 10. The position detection system 1 in FIG. 1 shows a case where the reader / writer 20 having the management area A as a communicable range is provided for ease of explanation, but the actual position detection system 1 has a plurality of management. A reader / writer 20 may be provided for each area, or a plurality of reader / writers 20 may be provided within a predetermined communicable range.

  The management device 30 includes a control unit 32 and a detection unit 34, and is connected to a database 38 in which various information and the like are stored by wire or wireless. The control unit 32 controls the processing operation of each component. The detection unit 34 is based on the identification information of the RFID tag 10 transmitted from the reader / writer 20 via the network 40, the installation position of the reader / writer 20 that has read the RFID tag, the strength of radio waves transmitted from the RFID tag 10, and the like. In addition, the position of the RFID tag 10 is detected and output as the position of the management subject H corresponding to the RFID tag 10. The control unit 32 stores the position information detected by the detection unit 34 in the database 38. Further, the control unit 32 sends predetermined information to the reader / writer 20 as necessary, and instructs the reader / writer 20 to rewrite and write information of the RFID tag 10.

  Here, the RFID tag 10 will be described with reference to FIG. FIG. 2 is a block diagram showing a schematic configuration of the RFID tag 10 shown in FIG. As shown in FIG. 2, the RFID tag 10 includes a transmission / reception unit 11, a power supply unit 12, a temperature detection unit 13, a switching unit 14, and a switching control unit 15. Among these, the power supply unit 12 supplies operating power to the transmission / reception unit 11 and the switching control unit 15. The transmission / reception unit 11 and the power supply unit 12 are electrically connected via the switching unit 14, and the switching control unit 15 and the power supply unit 12 are electrically connected.

  The transmission / reception unit 11 transmits predetermined identification information in a contactless manner. The transmission / reception unit 11 performs wireless communication with the reader / writer 20 by being supplied with operating power from the power supply unit 12. Therefore, the transmission / reception unit 11 can perform wireless communication processing when electrically connected to the power supply unit 12. On the other hand, the transmission / reception unit 11 cannot perform wireless communication processing when it is not electrically connected to the power supply unit 12.

  The temperature detection unit 13 is a temperature sensor that detects the temperature around the RFID tag 10. The temperature detection unit 13 outputs the detected temperature around the RFID tag 10 to the switching control unit 15. Note that the temperature detection unit 13 may perform a temperature detection process under the control of the switching control unit 15.

  The switching unit 14 enables transmission / reception of the transmission / reception unit 11 in the on state, and blocks the transmission function and reception function of the transmission / reception unit 11 in the off state. The switching unit 14 prevents the energy supply function for the transmission / reception unit 11 in the off state. In other words, the switching unit 14 electrically connects the transmission / reception unit 11 and the power supply unit 12 by being turned on. In this case, the transmission / reception unit 11 can receive power supply from the power supply unit 12, and can perform wireless communication processing with the reader / writer 20. On the other hand, the switching 14 prevents an electrical connection between the transmission / reception unit 11 and the power supply unit 12 by being turned off. In this case, the transmission / reception unit 11 cannot receive power supply from the power supply unit 12 and cannot perform wireless communication processing with the reader / writer 20.

  The switching control unit 15 controls an on state and an off state in the switching unit 14. The switching control unit 15 turns on the switching unit 14 when the temperature detected by the temperature detection unit 13 satisfies a predetermined temperature condition. On the other hand, the switching control unit 15 turns off the switching unit 14 when the temperature detected by the temperature detection unit 13 does not satisfy a predetermined temperature condition. The predetermined temperature condition is set according to the management target. For example, in the case of the RFID tag 10 carried by a person, the predetermined temperature condition is set based on a temperature range corresponding to the body temperature of the person. Specifically, as the predetermined temperature condition, the threshold temperature Tc is set to 36 ° C. corresponding to the human body temperature. In this case, the switching control unit 15 turns on the switching unit 14 when the detected temperature Tm detected by the temperature detection unit 13 exceeds the threshold temperature Tc. This is because when the detected temperature Tm exceeds the threshold temperature Tc, the RFID tag 10 is considered to be carried by the management subject H. Moreover, the switching control part 15 makes the switching part 14 an OFF state, when the detected temperature Tm detected by the temperature detection part 13 is less than the threshold temperature Tc. When the RFID tag 10 is not carried by the person H to be managed, the temperature around the RFID tag 10 is the room temperature, and normally the room temperature does not exceed the human body temperature. For this reason, when the detected temperature Tm is lower than the threshold temperature Tc, it is considered that the RFID tag 10 is not carried by the management subject H. Note that the switching control unit 15 may turn on the switching unit 14 when the temperature detected by the temperature detection unit 13 is within a predetermined temperature range. For example, the switching control unit 15 turns on the switching unit 14 when the detected temperature Tm is in a temperature range of 35.5 ° C. to 37.5 ° C. corresponding to the vicinity of the human body temperature. Similarly, in this case, when the detected temperature Tm is within this temperature range, the RFID tag 10 is considered to be carried by the management subject H.

  The transmission / reception unit 11 includes a control unit 16, a storage unit 17, a processing unit 18, and an antenna 19. The control unit 16 controls each process or operation of the storage unit 17 and the processing unit 18. The control unit 16 performs predetermined input / output control on the information input / output to / from each of these components, and performs predetermined information processing on the information. The storage unit 17 stores various types of information including predetermined identification information such as an ID number for identifying the RFID tag 10. The processing unit 18 performs wireless communication with the reader / writer 20 under the control of the control unit 16. The processing unit 18 receives the instruction radio wave transmitted from the reader / writer 20 via the antenna 19, demodulates an electric signal corresponding to the instruction radio wave as necessary, and acquires instruction information from the reader / writer 20. The processing unit 18 sends the acquired instruction information to the control unit 16. As the instruction information, there is an instruction to rewrite information stored in the storage unit 17 or an instruction to write information to the storage unit 17 in addition to a radio wave transmission instruction including identification information stored in the storage unit 17. In addition, the processing unit 18 modulates an electrical signal corresponding to the identification information stored in the storage unit 17 as needed under the control of the control unit 16, and sends it to the antenna 19. Then, the processing unit 18 controls the antenna 19 to transmit a predetermined radio wave corresponding to this electric signal. The antenna 19 transmits and receives radio waves of a predetermined frequency to and from the reader / writer 20 installed in the management area A under the control of the processing unit 18. In this case, the antenna 19 receives the instruction radio wave transmitted from the reader / writer 20 and sends an electrical signal corresponding to the received instruction radio wave to the processing unit 18. The antenna 19 transmits a predetermined radio wave corresponding to the electric signal input from the processing unit 18 to the reader / writer 20.

  Next, an operation process of the RFID tag 10 will be described. FIG. 3 is a flowchart for explaining the operation process of the RFID tag 10 shown in FIGS. 1 and 2. First, the temperature detection unit 13 detects the temperature around the RFID tag 10 and performs a temperature detection process of outputting the detected temperature to the switching control unit 15 (step S102). The switching control unit 15 compares the detected temperature Tm detected by the temperature detecting unit 13 with a predetermined threshold temperature Tc, and determines whether or not the detected temperature Tm> the threshold temperature Tc (step S104).

  When the switching control unit 15 determines that the detected temperature Tm> the threshold temperature Tc (step S104: Yes), the RFID tag 10 is considered to be carried by the management subject H. In this case, the switching control unit 15 turns on the switching unit 14 (step S106), and electrically connects the transmission / reception unit 11 and the power supply unit 12. As a result, the transmission / reception unit 11 can receive power supply from the power supply unit 12, and transmits / receives information such as identification information to / from the reader / writer 20 (step S108).

  On the other hand, when the switching control unit 15 determines that the detected temperature Tm> the threshold temperature Tc is not satisfied (step S104: No), it is considered that the RFID tag 10 is not carried by the management subject H. In this case, the switching control unit 15 turns off the switching unit 14 (step S110), and prevents electrical connection between the transmission / reception unit 11 and the power supply unit 12. As a result, the transmission / reception unit 11 cannot receive power from the power supply unit 12 and does not transmit / receive information to / from the reader / writer 20. That is, the RFID tag 10 does not transmit identification information or the like to the reader / writer 20.

  Next, the wireless communication process between the RFID tag 10 and the reader / writer 20 will be specifically described. First, the case where the RFID tag 10 is carried by the management subject H will be described with reference to FIG. In this case, since the RFID tag 10 is carried by the person H to be managed, the temperature around the RFID tag 10 becomes a temperature near the human body temperature, and this temperature is detected by the temperature detection unit 13. Therefore, in the RFID tag 10, the switching control unit 15 determines that the detected temperature Tm detected by the temperature detecting unit 13 exceeds the threshold temperature Tc, and turns off the switching unit 14 as indicated by an arrow Y4. To turn on. As a result, since the transmission / reception unit 11 and the power supply unit 12 are electrically connected, the transmission / reception unit 11 can be supplied with power from the power supply unit 12 and can transmit and receive. Therefore, the RFID tag 10 can receive the instruction radio wave Wa transmitted from the reader / writer 20, and can transmit the radio wave Wb including identification information and the like according to the instruction of the instruction radio wave Wa. The management device 30 detects the position of the RFID tag 10 based on the information corresponding to the radio wave Wb input from the reader / writer 20 and registers the detected position of the RFID tag 10 as the position of the person H to be managed.

  Next, a case where the RFID tag 10 is removed from the management target person H and is not carried by the management target person H will be described with reference to FIG. In this case, since the RFID tag 10 is not carried by the management subject H, the temperature around the RFID tag 10 becomes the indoor temperature, and this temperature is detected by the temperature detection unit 13. Usually, the indoor temperature does not exceed the human body temperature. Therefore, in the RFID tag 10, the switching control unit 15 determines that the detected temperature Tm detected by the temperature detecting unit 13 does not exceed the threshold temperature Tc, and turns off the switching unit 14 as indicated by an arrow Y5. To. As a result, since the electrical connection between the transmission / reception unit 11 and the power supply unit 12 is interrupted, the transmission / reception unit 11 cannot receive power from the power supply unit 12 and performs transmission processing and reception processing. I can't. Therefore, even when the instruction radio wave Wa is transmitted from the reader / writer 20, the RFID tag 10 cannot receive the instruction radio wave Wa and does not transmit the radio wave Wb including identification information and the like. As a result, the management device 30 does not receive information corresponding to the radio wave Wb from the reader / writer 20 and does not detect the position of the RFID tag 10.

As described above, the RFID tag 10 according to the present reference example can supply power to the transmission / reception unit 11 and transmit the transmission / reception unit 11 when the temperature detected by the temperature detection unit 13 satisfies a predetermined temperature condition. Enable reception. For this reason, the RFID tag 10 performs wireless communication with the reader / writer 20 only when the RFID tag 10 exists under a predetermined temperature condition such as when carried by the management subject H. Can be done. In other words, when the RFID tag 10 is not present under a predetermined temperature condition, such as when not being carried by the management subject H, wireless communication with the reader / writer 20 cannot be performed. Therefore, when the management target person H drops an RFID tag in the management area A of the reader / writer 20 and the management target person H does not stay in the communicable area of the reader / writer 20, the RFID tag 10 Does not transmit identification information or the like because the transceiver 11 does not function. As a result, in the position detection system 1 according to the present reference example , the management target person H drops the RFID tag in the communicable area of the reader / writer 20, and the management target person H can communicate with the reader / writer 20 in the communicable area. Even if the user is not staying in the room, the position of the management subject H is not misidentified, and the management subject H can be accurately managed.

Further, in the RFID tag 10 according to the reference example , when the management target person H is not carried, the switching unit 14 is turned off and the power supply unit 12 does not supply power to the transmission / reception unit 11. For this reason, when the RFID tag 10 is not carried by the management subject H, power is not consumed in the transmission / reception unit 11. Therefore, the RFID tag 10 can reduce power consumption as compared with the conventional RFID tag in which power is always supplied to the transmission / reception unit, and the consumption of the battery constituting the power supply unit 12 can be suppressed. .

(In the form state of implementation)
Next, a description will be given in the form state of implementation. The form state implementations, the RFID tag transmits the temperature information of the peripheral RFID tag together with the identification information, management apparatus, the RFID tag is carried in the management subject on the basis of the temperature information transmitted from the RFID tag Only when it is determined that the RFID tag is present, the position of the RFID tag is detected.

Figure 6 is a schematic diagram showing the overall structure of a position detection system according to the shape condition of embodiment, FIG. 7 is a block diagram showing the schematic configuration of the RFID tag shown in FIG. As shown in FIG. 2, the position detection system according to the shape condition of the embodiment 201, compared with the position detection system in the reference example, in place of the RFID tag 10, it transmits the temperature information including the detected temperature with a predetermined identification information A management device 230 that determines whether or not the RFID tag 210 is attached to the management subject H based on the temperature information transmitted from the RFID tag 210, instead of the management device 30. Have.

As illustrated in FIG. 7, the RFID tag 210 has a configuration in which the temperature detection unit 13, the switching unit 14, and the switching control unit 15 are deleted as compared with the RFID tag 10. The RFID tag 210 includes a transmission / reception unit 211 including a control unit 216, a storage unit 17, a processing unit 218, and an antenna 19 instead of the transmission / reception unit 11, and includes a temperature detection unit 213. The transmission / reception unit 211 and the power supply unit 12 are electrically connected, and the control unit 216 and the temperature detection unit 213 in the transmission / reception unit 211 are electrically connected. The temperature detection unit 213 has the same function as the temperature detection unit 13, detects the temperature around the RFID tag 210, and outputs the detected temperature to the control unit 216. The control unit 216 functions in the same manner as the control unit 16. The control unit 216 causes the processing unit 218 to transmit temperature information including the temperature detected by the temperature detection unit 213 together with the identification information stored in the storage unit 17 to the external reader / writer 20. The processing unit 218 has the same function as that of the processing unit 18, modulates an electrical signal corresponding to the identification information and the temperature information as necessary, and sends it to the antenna 19. Then, the processing unit 218 controls the antenna 19 to transmit a predetermined radio wave corresponding to the electrical signal to the reader / writer 20 as a radio wave corresponding to the instruction radio wave. Therefore, RFID tag 210 definitive to form state of implementation, the transmitting the temperature information including the temperature detected by the temperature detecting unit 213 with the identification information to the reader writer 20. As a result, the reader / writer 20 sends information including identification information and temperature information to the management device 230 as information received from the RFID tag 210.

  The management device 230 has the same function as that of the management device 30 and further includes a determination unit 236 as compared with the management device 30. The management device 230 includes a control unit 232 instead of the control unit 32 as compared with the management device 30. Based on the temperature information transmitted from the RFID tag 210, the determination unit 236 determines whether or not the RFID tag 210 is carried by the management subject H. The control unit 232 has the same function as that of the control unit 32 and instructs the detection unit 34 to detect the position of the management subject H according to the determination result of the determination unit 236.

  The determination unit 236 determines that the RFID tag 210 is attached to the management subject H when the temperature information transmitted from the RFID tag 210 satisfies a predetermined temperature condition. In this case, the detection unit 34 detects the position of the RFID tag 210 as the position of the management subject H to whom the RFID tag 210 is attached. On the other hand, the determination unit 236 determines that the RFID tag 210 is not attached to the management subject H when the temperature information transmitted from the RFID tag 210 does not satisfy a predetermined temperature condition. In this case, the detection unit 34 does not perform the position detection process of the management subject H corresponding to the RFID tag 210. For example, in the case of the RFID tag 210 carried by a person, the predetermined temperature condition is set based on a temperature range corresponding to the body temperature of the person. Specifically, as the predetermined temperature condition, the threshold temperature Tc is set to 36 ° C. corresponding to the human body temperature. In this case, the determination unit 236 determines that the RFID tag 210 is attached to the management subject H when the temperature information Ti transmitted from the RFID tag 210 exceeds the threshold temperature Tc. This is because when the temperature information Ti exceeds the threshold temperature Tc, the RFID tag 210 is considered to be carried by the management subject H. The determination unit 236 determines that the RFID tag 210 is not attached to the management subject H when the temperature information Ti transmitted from the RFID tag 210 is lower than the threshold temperature Tc. When the RFID tag 210 is not carried by the person H to be managed, the temperature around the RFID tag 210 is the room temperature, and normally the room temperature does not exceed the human body temperature. For this reason, when the detected temperature Tm is lower than the threshold temperature Tc, it is considered that the RFID tag 210 is not carried by the management subject H. The determination unit 236 may determine that the RFID tag 210 is attached to the management subject H when the temperature information Ti is within a predetermined temperature range. For example, the determination unit 236 attaches the RFID tag 210 to the management subject H when the temperature information Ti is in a temperature range of 35.5 ° C. to 37.5 ° C. corresponding to the vicinity of the human body temperature. Judge. Similarly, in this case, when the temperature information Ti is within this temperature range, the RFID tag 210 is considered to be carried by the management subject H.

  Next, the position detection process in the management device 230 will be described. FIG. 8 is a flowchart illustrating a processing procedure of position detection processing by the management device 230. First, the control unit 232 determines whether or not state information indicating the state of the RFID tag 210 has been received from the reader / writer 20 (step S202). This state information includes identification information of the RFID tag 210, the installation position of the reader / writer 20 that has read the RFID 210 tag, the strength of the radio wave transmitted from the RFID tag 210, and the like. The control unit 232 repeats the determination in step S202 until the status information is received. If the control unit 232 determines that the status information has been received (step S202: Yes), the management target person H enters the management area A based on the status information. It is determined whether the user has entered or left the management area A (step S204). When the control unit 232 determines that the management subject H has left the management area A (step S204: exit), the control unit 232 deletes the location information corresponding to the RFID tag 210, that is, the location information of the management subject H ( Step S206). This is because the management target person H has left the management area A, and therefore it is not necessary to manage the entrance and exit of the management target person H. Then, the control unit 232 proceeds to step S202, and repeats the determination of step S202 until receiving state information indicating the state of the RFID tag 210 from the reader / writer 20.

  When the control unit 232 determines that the management target person H has entered the management area A (step S204: entrance), the determination unit 236 acquires identification information and temperature information in the RFID tag 210 (step S208). The determination unit 236 compares the acquired temperature information Ti with the threshold temperature Tc, and determines whether or not the temperature information Ti> the threshold temperature Tc (step S210).

  If the determination unit 236 determines that the temperature information Ti> the threshold temperature Tc (step S210: Yes), the determination unit 236 determines that the management subject H is carrying the RFID tag 210 (step S212), and determines the determination result. The data is output to the control unit 232. In this case, the control unit 232 instructs the detection unit 34 to perform position detection processing in order to manage the entry / exit of the person H to be managed. The detection unit 34 detects the position of the management target person H based on the identification information of the RFID tag 210 under the control of the control unit 232, and uses the detected position as position information indicating the position of the management target person. Registration is performed (step S214). Then, the control unit 232 proceeds to step S202, and repeats the determination in step S202 until state information is input.

  On the other hand, if the determination unit 236 determines that temperature information Ti> threshold temperature Tc is not satisfied (step S210: No), it determines that the management subject H is not carrying the RFID tag 210 (step S216). The determination result is output to the control unit 232. In this case, since the management target person H does not exist in the management area A, the control unit 232 does not perform the management of the management target person H. Therefore, the control unit 232 does not instruct position detection processing for the detection unit 34, and the detection unit 34 does not detect the position of the management subject H. Then, the control unit 232 proceeds to step S202, and repeats the determination in step S202 until state information is input.

Thus, in the position detecting system 201 according to the shape condition of the present embodiment, the management apparatus 230, when the temperature information transmitted from the RFID tag 210 which includes a temperature detection unit 213 is a predetermined temperature condition is satisfied, the RFID The position of the tag 210 is detected as the position of the management subject H. For this reason, the position detection system 201 detects the position of the management target person H only when the RFID tag 210 is present under a predetermined temperature condition, such as when the management target person H is carrying it. It will be. As a result, in the position detection system 201, the management target person H stays in the communicable area of the reader / writer 20 when the management target person H drops the RFID tag 210 in the communicable area of the reader / writer 20. Even if not, the position of the management subject H is not misidentified, and the management subject H can be managed accurately.

The position detection systems 1 and 201 described in the reference example and the embodiment described above can be realized by executing a program prepared in advance on a computer system such as a personal computer or a workstation. Hereinafter, a computer system that executes a position detection program having the same function as the position detection system described in the above embodiment will be described.

  FIG. 9 is a system configuration diagram showing the configuration of the computer system using the above-described embodiment, and FIG. 10 is a block diagram showing the configuration of the main body in this computer system. As shown in FIG. 9, a computer system 100 according to the present embodiment includes a main body 101, a display 102 for displaying information such as an image on a display screen 102a according to an instruction from the main body 101, and the computer system. A keyboard 103 for inputting various information to 100 and a mouse 104 for designating an arbitrary position on the display screen 102a of the display 102 are provided.

  Further, as shown in FIG. 10, a main body 101 in the computer system 100 includes a CPU 121, a RAM 122, a ROM 123, a hard disk drive (HDD) 124, a CD-ROM drive 125 that receives a CD-ROM 109, and a flexible disk. An FD drive 126 that accepts an (FD) 108; an I / O interface 127 that connects the display 102, keyboard 103, and mouse 104; and a LAN interface 128 that connects to a local area network or wide area network (LAN / WAN) 106 Prepare.

  Further, a modem 105 for connecting to a public line 107 such as the Internet is connected to the computer system 100, and another computer system (PC) 111 and server 112 are connected via a LAN interface 128 and a LAN / WAN 106. The printer 113 is connected.

  And this computer system 100 implement | achieves a position detection system by reading and executing the position detection program recorded on the predetermined recording medium. Here, the predetermined recording medium is not limited to “portable physical medium” such as flexible disk (FD) 108, CD-ROM 109, MO disk, DVD disk, magneto-optical disk, IC card, etc. Connected to internal and external hard disk drives (HDD) 124, “fixed physical media” such as RAM 122 and ROM 123, public line 107 connected via modem 105, other computer system 111 and server 112 Any recording medium that records a position detection program readable by the computer system 100, such as a “communication medium” that holds the program in a short period of time when the program is transmitted, such as a LAN / WAN 106 that is used.

  That is, the position detection program is recorded on a recording medium such as the above-mentioned “portable physical medium”, “fixed physical medium”, “communication medium”, etc. so that it can be read by a computer. The position detection system and the position detection method are realized by reading and executing the position detection program from such a recording medium. Note that the position detection program is not limited to be executed by the computer system 100, and when the other computer system 111 or the server 112 executes the position detection program, or the position detection program cooperates with the position detection program. The present invention can be similarly applied to the case where the above is executed.

It is a schematic diagram which shows the whole structure of the position detection system in a reference example . It is a block diagram which shows schematic structure of the RFID tag shown in FIG. 3 is a flowchart illustrating an operation process of the RFID tag 10 illustrated in FIGS. 1 and 2. It is the figure explaining the radio | wireless communication process between an RFID tag and a reader / writer. It is the figure explaining the radio | wireless communication process between an RFID tag and a reader / writer. It is a schematic diagram showing the overall structure of a position detection system according to the shape condition of the embodiment. It is a block diagram which shows schematic structure of the RFID tag shown in FIG. It is a flowchart which shows the process sequence of the position detection process by the management apparatus shown in FIG. It is a block diagram which shows the structure of the computer system using embodiment. It is a block diagram which shows the structure of the main-body part in the computer system shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,201 Position detection system 10, 210 RFID tag 11, 211 Transmission / reception part 12 Power supply part 13, 213 Temperature detection part 14 Switching part 15 Switching control part 16, 216 Control part 17 Storage part 18, 218 Processing part 19 Antenna 20 Reader Writer 30, 230 Management device 32, 232 Control unit 34 Detection unit 38 Database 40 Network 236 Judgment unit H Management target 100 Computer system 101 Main unit 102 Display 102a Display screen 103 Keyboard 104 Mouse 105 Modem 106 Local area network or wide area network (LAN / WAN)
107 Public line 108 Flexible disk (FD)
109 CD-ROM
111 Other computer systems (PC)
112 server 113 printer 121 CPU
122 RAM
123 ROM
124 hard disk drive (HDD)
125 CD-ROM drive 126 FD drive 127 I / O interface 128 LAN interface

Claims (1)

A position detection system comprising: an information medium that is attached to a management target and transmits predetermined identification information in a contactless manner; and a management device that detects the position of the management target based on the identification information transmitted from the information medium In
The information medium is
Temperature detecting means for detecting the temperature around the information medium, and transmitting temperature information including the temperature detected by the temperature detecting means together with the identification information;
The management device
Determining means for determining that the information medium is attached to the management target when the temperature information transmitted from the information medium satisfies a predetermined temperature condition;
Detecting means for detecting the position of the information medium as the position of the management target when the determination means determines that the information medium is attached to the management target;
A position detection system comprising:

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