JP2005021344A - Living body information measuring and communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable to transmit the living body information to the outside apparatus to store without awareness of a user. <P>SOLUTION: A measuring means 101 measures the living body information of a living body. A first memorization means 103 memorizes the living body information. A detecting means 107 detects whether the living body contacts a living body information controlling device or not. A transmitting means 104 transmits the living body information to the living body information controlling device through the living body when the living body is detected to contact the living body information controlling device. A suspension means 102 suspends to transmit the living body information when the living body is detected not to contact the living body information controlling device. A second memorization means 108 memorizes a data suspension position of the suspended living body information. A living body information measuring device 13 is equipped with the above composition. The living body information controlling device 23 is equipped with a reception means 204 which receives the living body information from the living body information measuring device through the living body and a third memorization means 203 which memorizes the received living body information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a biological information measurement communication system that performs communication of biological information between a device carried or worn by a user and an external device.
[0002]
[Prior art]
Conventionally, as a means for transmitting data of a device carried or worn by a user to an external device, a method of directly connecting to an external device using a wire, a method of communicating wirelessly, or via a recording medium There are methods to exchange data. The method using the cable has to be connected directly every time communication is performed, and there is a problem that the cable becomes an obstacle. On the other hand, although the cable can be eliminated by using wireless communication, power consumption required for communication is large, and there is a risk that the contents of communication may be intercepted. The method of using media is time-consuming as in the case of using wired communication.
[0003]
Therefore, there is a method of performing data communication using the human body itself as a communication path. This is a method for realizing data communication from a human body to a human body and from a human body to an external device through the human body (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-271274 A
[0005]
[Problems to be solved by the invention]
However, the data communication through the human body that has been proposed so far has to be in contact with the communication partner and communication destination in order to carry out data communication, and has to be kept in contact until the communication ends. is there.
[0006]
Therefore, the present invention provides a biological information measurement communication system that transmits biometric information collected in daily life to an external device and stores the data in an external device without the user being aware of it in daily life. For the purpose.
[0007]
[Means for Solving the Problems]
The biological information measurement communication system of the present invention is a biological information measurement communication system comprising a biological information measurement device attached to a living body and a biological information management device that acquires biological information from the biological information measurement device.
Measuring means for measuring living body biological information, first storage means for storing living body information, detecting means for detecting whether or not the living body is in contact with the biological information management apparatus, and living body in contact with the biological information management apparatus Transmitting means for transmitting biological information to the biological information management apparatus through the living body when it is detected that the living body is detected, and stopping transmission of the biological information when it is detected that the living body is not in contact with the biological information management apparatus A biometric information measuring device comprising: a canceling means for performing; and a second storage means for storing a data stop position of the biometric information that has been canceled;
A biological information management device is provided that includes biological information receiving means for receiving biological information from the biological information measuring device through the living body and third storage means for storing the received biological information.
[0008]
The biological information measurement communication system of the present invention is a biological information measurement communication system comprising a biological information measurement device attached to a living body and a biological information management device that acquires biological information from the biological information measurement device.
When a transmission request signal is received, a measurement unit that measures biological information of the biological body, a first storage unit that stores biological information, a first reception unit that receives a transmission request signal from the biological information management device through the biological body In addition, the first transmitting means for transmitting the biological information to the biological information management apparatus through the living body, the second receiving means for receiving the reception completion signal from the biological information management apparatus through the living body, and the data start position of the transmitted biological information are stored. A biological information measuring device comprising second storage means;
A detecting means for detecting whether or not the living body is in contact with the living body information measuring device, and a transmission request signal is transmitted to the living body information measuring device through the living body when it is detected that the living body is in contact with the living body information measuring device. Second transmitting means for receiving, biological information receiving means for receiving biological information from the biological information measuring apparatus through the living body, third storage means for storing the received biological information, and receiving completion signal to the biological information measuring apparatus through the living body. A biological information management device including third transmission means for transmitting is provided.
[0009]
The biological information measurement communication system of the present invention includes a biological information measurement system including a measurement module attached to a biological body and a storage module for storing biological information, an acquisition module for acquiring biological information from the biological information measurement system, and acquired biological information. In a biological information measurement communication system comprising a biological information management system comprising a management module for managing
A measurement module including a measurement unit that measures biological information of the living body, and a first transmission unit that transmits the measured biological information to the storage module;
First receiving means for receiving transmitted biological information, first storage means for storing received biological information, detecting means for detecting whether or not the living body is in contact with the obtaining module, and the living body being the obtaining module If it is detected that the living body is in contact with the acquisition module, the second transmission means for transmitting the biological information to the acquisition module through the living body, and if it is detected that the living body is not in contact with the acquisition module, the transmission of the biological information is stopped. A biometric information measurement system comprising a storage module including a canceling unit to perform, and a second storage unit for storing a data stop position of the biometric information that has been canceled,
An acquisition module including second receiving means for receiving biological information from the storage module through the living body; and third transmitting means for transmitting the received biological information to the management module;
A biological information management system is provided that includes a management module including third receiving means for receiving biological information from the acquisition module and third storage means for storing the received biological information.
[0010]
The biological information measurement communication system of the present invention includes a biological information measurement system including a measurement module attached to a biological body and a storage module for storing biological information, an acquisition module for acquiring biological information from the biological information measurement system, and acquired biological information. In a biological information measurement communication system comprising a biological information management system comprising a management module for managing
A measurement module including a measurement unit that measures biological information of the living body, and a first transmission unit that transmits the measured biological information to the storage module;
First receiving means for receiving transmitted biological information, first storage means for storing received biological information, second receiving means for receiving a transmission request signal from an acquisition module through a living body, and a transmission request signal When received, the second transmission means for transmitting the biological information to the acquisition module through the biological body, the third reception means for receiving the reception completion signal from the acquisition module through the biological body, and the data start position of the transmitted biological information are stored. A biological information measurement system comprising a storage module including second storage means
Detection means for detecting whether or not the living body is in contact with the measurement module; and third transmission means for transmitting a transmission request signal to the measurement module through the living body when it is detected that the living body is in contact with the measurement module; A fourth receiving means for receiving the biological information from the measurement module through the living body, a fourth transmitting means for transmitting the received biological information to the management means, and a reception completion signal for each reception of the biological information to the measuring module through the living body. An acquisition module including fifth transmission means for transmitting;
A biometric information management system is provided that includes a management module that includes fifth receiving means for receiving biometric information from the obtaining means and third storage means for storing biometric information.
[0011]
According to the above configuration, it is possible to provide a biological information measurement communication system that can be worn on the body, measure biological information, and transmit the measured data to the outside through the human body. In addition, the biological information collected in daily life can be transmitted to an external device and stored in the external device without the user being aware of it in daily life.
Even if the user of the biological information measurement communication device is in a non-contact state from the biological information management device and the transmission is interrupted while the biological information measurement communication device is transmitting the biological information to the biological information management device, the transmission is resumed after that. In some cases, information can be transmitted from the interrupted biological information. Therefore, it is not necessary to keep touching until the communication of the biometric information is completed, and efficient and convenient data communication is possible.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a biological information measurement communication system according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a functional block diagram of a biological information measurement communication system according to an embodiment of the present invention.
The biological information measurement communication system according to the present embodiment includes a biological information measurement communication device 10 and a biological information management device 20.
The biological information measurement communication device 10 includes a biological information measurement unit 101, a control unit 102, a biological information storage unit 103, and a first communication unit 104. The biological information measurement communication device 10 is worn on an arbitrary part of the user's body or carried by the user. Is done. In addition, the biological information measurement communication device 10 is not limited to a human being as long as it is a living body, and can be attached to an animal, for example. The biological information management apparatus 20 includes a contact detection unit 201, a control unit 202, a biological information management unit 203, and a second communication unit 204.
[0013]
The biological information measuring unit 101 has at least one function of measuring biological information of a user, such as operation information based on pulse, temperature, sweating, blood pressure, blood sugar level, body fat, acceleration, angular velocity, or both. .
The control unit 102 processes the biological information measured by the biological information measuring unit 101. The control unit 102 also performs control to store the biological information measured in the biological information storage unit 103. Further, the control unit 102 also controls transmission / reception of data performed by the first communication unit 104.
The first communication unit 104 transmits the biological information stored in the biological information storage unit 103 to the outside through the human body of the user wearing the biological information measurement communication device 10. In addition, the first communication unit 104 may receive a transmission request signal and a reception confirmation signal from the second communication unit 204. Here, as a means for transmitting using a human body, a circuit type, an electrostatic coupling type, a waveguide type or the like can be used, but any of them may be used.
[0014]
On the other hand, the contact detection unit 201 detects whether or not the user is in contact with the biological information management device 20.
The control unit 202 determines whether the user is in contact with the biological information management apparatus 20 by the contact detection unit 201. When the control unit 202 determines that the user is in contact with the biometric information management device 20, the biometric information received by the second communication unit 204 is sent to the biometric information management unit 203.
The biometric information management unit 203 manages the biometric information of the user wearing the biometric information measurement unit 101 sent from the control unit 202.
The second communication unit 204 receives the biological information transmitted from the first communication unit 104 through the user's human body.
[0015]
FIG. 2 is a functional block diagram of a first modification of the biological information measurement communication system according to the embodiment of the present invention. The same parts as those in the biological information measurement communication system in FIG. 1 are denoted by the same reference numerals, and detailed description thereof is omitted.
The first modification of FIG. 2 is obtained by separating the biological information measurement communication device 10 and the biological information management device 20 into two modules in the biological information measurement communication system of FIG. That is, the biological information measurement communication device 10 is separated into the biological information storage module 11 and the biological information measurement module 12, and the biological information management device 20 is separated into the contact detection module 21 and the biological information management module 22.
[0016]
The biological information storage module 11 includes a control unit 102, a biological information storage unit 103, and a first communication unit 104. The first communication unit 104 receives the biological information measured by the biological information measurement module 12 from the third communication unit 106 through the human body of the user wearing the biological information measurement module 12. The control unit 102 moves the biometric information received by the third communication unit 106 to the biometric information storage unit 103 and stores it there. Further, the first communication unit 104 transmits the biological information stored in the biological information storage unit 103 toward the contact detection module 21 through the human body of the user wearing the biological information measurement module 12. Note that transmission / reception of information between the first communication unit 104 and the third communication unit 106 may be wireless or wired.
[0017]
The biological information measurement module 12 includes a biological information measurement unit 101, a control unit 105, and a third communication unit 106. The third communication unit 106 transmits the biological information measured by the biological information measuring unit 101 of the user wearing the biological information measuring module 12 through the human body of the user wearing the biological information measuring module 12. It transmits to the communication part 104. The control unit 105 performs control such as moving the biological information measured by the biological information measuring unit 101 to the third communication unit 106.
[0018]
On the other hand, the contact detection module 21 includes a contact detection unit 201, a control unit 202, and a second communication unit 204. The contact detection unit 201 detects whether the user wearing the biological information measurement module 12 is in contact with the contact detection module 21 and outputs the information to the control unit 202. The control unit 202 determines whether or not the user is in contact with the biometric information management apparatus 20, and when it is determined that the user is in contact, the biometric information of the user is transmitted from the first communication unit 104 through the user's human body. Receive.
[0019]
The biological information management module 22 includes a biological information management unit 203, a control unit 205, and a fourth communication unit 206. The fourth communication unit 206 receives the biological information received by the contact detection module 21 from the second communication unit 204. The control unit 205 moves the biological information received by the second communication unit 204 to the biological information management unit 203 and accumulates the biological information there. Note that transmission and reception of information between the second communication unit 204 and the fourth communication unit 206 may be wireless or wired. In addition, transmission / reception of information between the second communication unit 204 and the fourth communication unit 206 may be performed via a telephone line.
[0020]
FIG. 3 is a functional block diagram of a second modification of the biological information measurement communication system according to the embodiment of the present invention. The same parts as those in the biological information measuring communication system of FIGS. 1 and 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
The second modification of FIG. 3 is obtained by adding new blocks to each of the biological information measurement communication device 10 and the biological information management device 20 in the biological information measurement communication system of FIG. The functions included in the added block are newly added to the biological information measurement communication device 10 and the biological information management device 20. The devices corresponding to the biological information measurement communication device 10 and the biological information management device 20 to which new functions are added are the biological information measurement communication device 13 and the biological information management device 23 in FIG. 3, respectively. Furthermore, the biological information management device 23 can connect to the server 30 and transmit the biological information received by the biological information management device 23 from the biological information measurement communication device 13 to the server 30. The connection between the biological information management device 23 and the server 30 may be wired or wireless, for example, connected by a telephone line.
[0021]
The biological information measurement communication device 13 newly includes a contact detection unit 107 and a memory 108 in addition to the configuration of the biological information measurement communication device 10. The contact detection unit 107 detects whether or not the user wearing the biological information measurement communication device 13 is in contact with the biological information management device 23. The memory 108 stores user identification information, that is, ID, for example, and the serial number of the biological information measurement communication device 13. Further, the memory 108 stores the final position of the biological information acquired from the biological information storage unit 103 and transmitted by the first communication unit 104.
[0022]
The control unit 102 determines whether or not the user of the biological information measurement communication device 13 is in contact with the biological information management device 23, and depends on the determination result, the first communication unit 104 to the biological information storage unit 103. The transmission of the biological information stored in is controlled. When the user is in contact with the biological information management device 23, the control unit 102 controls the first communication unit 104 to transmit the biological information to the biological information management device 23. On the other hand, when the user does not contact the biological information management device 23, the control unit 102 controls the first communication unit 104 to stop the transmission of the biological information. In addition, when the user is not in contact with the biometric information management device 23, the control unit 102 controls the first communication unit 104 to stop transmitting biometric information.
[0023]
Further, when the user of the biometric information communication device 13 is in contact with the biometric information management device 23 and then stops contacting, the control unit 102 detects the biometric information transmitted when the contact is lost. The last position of the biometric information that has been transmitted is stored in the memory 108. Thereafter, when the control unit 102 determines that the biometric information communication device 13 has contacted the biometric information management device 23, the control unit 102 starts from the position immediately after the last position of the biometric information stored in the memory 108. The first communication unit 104 is controlled to transmit the biological information to the biological information management device 23.
[0024]
Therefore, even if the user of the biological information measurement communication device 13 is in a non-contact state from the biological information management device 23 while the biological information measurement communication device 13 is transmitting the biological information to the biological information management device 23, the transmission is interrupted thereafter. When transmission is resumed, information can be transmitted from the interrupted biometric information. According to the present embodiment, there is no need to keep touching until the communication of biometric information is completed, and efficient and convenient data communication is possible.
[0025]
In addition, by transmitting the identification information stored in the memory 108 to the biological information management device 23, the biological information management device 23 can manage the biological information for each identification information.
[0026]
On the other hand, in addition to the configuration of the biometric information management device 20, the biometric information management device 23 newly includes a telephone communication unit 207, a fingerprint sensor 208, an environment measurement unit 209, a clock 210, and a memory 211. The telephone communication unit 207 is connected to the server 30 and transmits the biological information managed by the biological information management unit 203 to the server 30. The fingerprint sensor 208 acquires the user's fingerprint and identifies the user from the fingerprint when the user of the biological information measurement communication device 13 contacts the biological information management device 23. The environment measurement unit 209 measures environmental information such as the temperature, humidity, and atmospheric pressure of the place where the biological information management device 23 is installed. Clock 210 indicates the current time. The memory 211 stores information related to the biological information management device 23. For example, the memory 211 stores position information of the biological information management device 23.
[0027]
The control unit 202 identifies a user from the fingerprint acquired by the fingerprint sensor 208 and changes the control for each user. For example, the control unit 202 instructs the biometric information management unit 203 to manage biometric information for each user based on the acquired fingerprint.
In addition, the control unit 202 stores the biometric information received from the biometric information measurement communication device 13 and the environmental information measured by the environment measurement unit 209 in the biometric information management unit 203 for management. As a result, it is possible to link the biometric information of the user and the environmental information when the biometric information is acquired, and the biometric information management unit 203 acquires the biometric information of the user due to environmental changes by acquiring the biometric information for a certain period. It becomes possible to manage. Further, the control unit 202 may acquire the reception time when the biological information is received from the biological information measurement communication device 13 from the clock 210 and link the reception time to the biological information and store it in the biological information management unit 203.
[0028]
Further, the control unit 202 may link the position information in the memory 211 to the biological information and store it in the biological information management unit 203. When the biometric information management device 23 is installed in a plurality of places and the server 30 acquires biometric information from each biometric information management device 23, it is effective when used. The server 30 can manage the biological information at the position of the biological information management device 23. Further, the server 30 can also manage from the time and position to the movement status of the user.
[0029]
In addition, the biological information measurement communication device 13 can receive the environment information, time information, and position information of the biological information management device 23 from the second communication unit 204 via the first communication unit 104. It may be set. At this time, the control unit 102 links the received environmental information, time information, and position information to the measured biological information, and accumulates the linked biological information, environment information, time information, and position information in the biological information storage unit 103. It becomes possible to make it.
[0030]
Although two types of modifications have been described above, in the biological information measurement communication device 10, only the first communication unit 104 may be a separate device, or only the biological information measurement unit 101 may be a separate device. Communication is performed by wire or wireless. In addition, although only one second communication unit 204 has been described, the biological information management apparatus 20 may have a plurality of second communication units 204. In this case, the biometric information management apparatus 20 can receive data each time the user contacts each second communication unit 204. For example, the 2nd communication part 204 is arrange | positioned in various places, such as a door knob and a mouse | mouth of a personal computer, and it sets so that data may be transmitted / received automatically, while a user is contacting them.
[0031]
FIG. 4 is a flowchart in the biological information measurement communication system when the contact detection unit 107 is provided in the biological information measurement communication apparatus. The processing operation of the biological information measurement communication system will be described focusing on communication processing. Further, it is assumed that the biometric information measurement unit 101 measures biometric information according to a measurement schedule predetermined in the previous stage, and the measured biometric information is accumulated in the biometric information accumulation unit 103. .
First, the contact detection unit 107 of the biological information measurement communication device 13 and the contact detection unit 201 of the biological information management device 23 detect whether a part of the user's body is in contact with the second communication unit 204, respectively. The control unit 102 and the control unit 202 determine contact non-contact (step S1).
[0032]
If it is determined that they are in contact, data (biological information) is transmitted from the first communication unit 104 through the user's body to the second communication unit 204 (step S2). At that time, in accordance with an instruction from the control unit 102, the transmitted data position in the data accumulated in the memory 108 is stored (step S3).
[0033]
A user can be specified by setting a unique ID in advance in the biological information measurement communication device 13 and adding it to the transmission data as a header or footer. In this case, the restriction of one user per one biological information measuring communication device 13 occurs. However, for example, by installing a personal authentication sensor using the fingerprint sensor 208 on the contact surface of the second communication unit 204 with the user, the individual can be identified from the fingerprint regardless of which biological information measurement communication device the user uses. The biometric information management unit 203 can store / manage the received data by adding a personal ID.
[0034]
If transmission of all the data stored in the biometric information storage unit 103 has not been completed, the first communication unit returns to step S1 as long as a part of the user's body is in contact with the second communication unit 204. Transmission of data from 104 to the second communication unit 204 is continued (step S4). When all the data stored in the biometric information storage unit 103 is transmitted, the flow in FIG. 4 ends.
[0035]
FIG. 5 is a flowchart in the biological information measurement communication system when the biological information measurement communication device does not have a contact detection unit. Similarly to FIG. 4, the biometric information measurement unit 101 measures biometric information in accordance with the measurement schedule determined in advance in the previous stage, and the biometric information that has been measured is stored in the biometric information storage unit 103. It is assumed that
First, the contact detection unit 201 of the biological information management apparatus 20 detects whether or not a part of the user's body is in contact with the second communication unit 204, and the control unit 202 determines contact non-contact (step S11). ).
[0036]
If it is determined that they are in contact, a transmission request signal is transmitted from the second communication unit 204 to the first communication unit 104 (step S12). When the control unit 102 confirms that the transmission request signal has been received, the control unit 102 controls the first communication unit 104 to transmit data corresponding to the requested content (step S13).
[0037]
When the control unit 202 confirms that the data as requested is received, the control unit 202 transmits a reception confirmation signal to the first communication unit 104 (step S14). In accordance with an instruction from the control unit 102, the transmitted data position in the data accumulated in the memory 108 is stored (step S15). If transmission of all the data stored in the biometric information storage unit 103 has not been completed, as long as a part of the user's body is in contact with the second communication unit 204, the first communication unit 104 to the second Data transmission to the communication unit 204 is continued (step S16). When all the data stored in the biological information storage unit 103 is transmitted, the flow of FIG. 5 ends.
[0038]
In the data transmission in step S13, data may be transmitted for each data unit, and a reception confirmation signal may be received for each data unit (S14). In this case, the control unit 202 monitors the reception confirmation signal even if a predetermined period elapses after the data is transmitted in units of data, and the memory 108 stores the data only when the reception confirmation signal is not received. You may control to memorize | store a starting position.
[0039]
Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.
[0040]
【The invention's effect】
According to the biological information measurement communication system of the present invention, the biological information collected in daily life can be transmitted to an external device and stored in the external device without the user being aware of it in daily life. it can.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of a biological information measurement communication system according to an embodiment of the present invention.
FIG. 2 is a functional block diagram of a first modification of the biological information measurement communication system according to the embodiment of the present invention.
FIG. 3 is a functional block diagram of a second modification of the biological information measurement communication system according to the embodiment of the present invention.
FIG. 4 is a flowchart in a biological information measurement communication system when a contact detection unit is provided in the biological information measurement communication apparatus.
FIG. 5 is a flowchart in the biological information measurement communication system when the biological information measurement communication device does not have a contact detection unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10, 13 ... Biological information measurement communication apparatus, 11 ... Biological information storage module, 12 ... Biological information measurement module, 20 ... Biological information management apparatus, 21 ... Contact detection module, 22 ... Biometric information management module, 23 ... biometric information management device, 30 ... server, 101 ... biometric information measurement unit, 102, 105, 202, 205 ... control unit, 103 ... biometric information storage 104, first communication unit, 106, third communication unit, 107, 201, contact detection unit, 108, memory, 203, biological information management unit, 204, first. 2 communication units, 206 ... fourth communication unit, 207 ... telephone communication unit, 208 ... fingerprint sensor, 209 ... environmental measurement unit, 210 ... clock, 211 ... memory

Claims (13)

In a biological information measurement communication system comprising a biological information measurement device mounted on a living body and a biological information management device that acquires biological information from the biological information measurement device,
Measuring means for measuring biological information of the living body; first storage means for storing the biological information; detecting means for detecting whether or not the living body is in contact with the biological information management device; and When it is detected that the living body information management apparatus is in contact with the living body information management apparatus, the transmitting means for transmitting the living body information to the living body information management apparatus through the living body, and the living body is detected as not contacting the living body information management apparatus The biometric information measuring apparatus comprising: a canceling unit that cancels transmission of the biometric information, and a second storage unit that stores a data stop position of the canceled biometric information;
A biological information measurement communication system comprising: the biological information management device comprising: biological information receiving means for receiving the biological information from the biological information measuring device through a living body; and third storage means for storing the received biological information. In a biological information measurement communication system comprising a biological information measurement device mounted on a living body and a biological information management device that acquires biological information from the biological information measurement device,
Measuring means for measuring biological information of the living body, first storage means for storing the biological information, first receiving means for receiving a transmission request signal from the biological information management device through the living body, and the transmission request signal When received, the first transmission means for transmitting the biological information to the biological information management apparatus through the living body, the second receiving means for receiving a reception completion signal from the biological information management apparatus through the living body, and the transmitted biological body The biological information measuring device comprising second storage means for storing a data start position of information;
Detecting means for detecting whether or not the living body is in contact with the living body information measuring device; and when the living body is detected as being in contact with the living body information measuring device, the transmission request signal is transmitted through the living body. A second transmitting means for transmitting to the biological information measuring device; a biological information receiving means for receiving the biological information from the biological information measuring device through the living body; a third storage means for storing the received biological information; A biological information measurement communication system comprising the biological information management device comprising third transmission means for transmitting a completion signal to the biological information measurement device through a living body. The biological information measurement according to claim 1, wherein the biological information transmitted and received between the biological information measuring device and the biological information management device is transmitted and received through the living body in units of one data. Communications system. The first transmission means transmits the biological information through the living body in one data unit, and the second storage means receives the reception even if a predetermined period elapses after transmitting the biological information in one data unit. When the completion signal is not received, the data start position of the transmitted biological information is stored, and the third transmission unit sends the reception completion signal to the biological information through the living body every time the biological information of one data unit is received. The biological information measuring communication system according to claim 2, wherein the biological information measuring communication system is transmitted to a measuring device. The biological information measuring device further includes:
Storage means for storing unique identification information;
5. The apparatus according to claim 1, further comprising an adding unit configured to add the identification information to the biological information when the biological information is transmitted to the biological information management apparatus through the living body. Biological information measurement communication system. The biological information management device further includes:
6. The biological information measurement communication system according to claim 1, further comprising identification means for identifying a user of the biological information measurement device based on the identification information. The biological information management device further includes:
Detection means for detecting fingerprints;
The biological information measurement communication system according to any one of claims 1 to 6, further comprising an identification unit that identifies a user of the biological information measurement device based on the detected fingerprint. The biometric information measurement communication system according to any one of claims 1 to 7, wherein the third storage unit stores biometric information for each user corresponding to the identified user. The biological information management device further includes:
The biological information measurement communication system according to claim 1, further comprising a transmission unit that transmits the received biological information via a telephone line. The biological information management device further includes:
The biological information measurement communication system according to any one of claims 1 to 9, further comprising a positional information storage unit that stores positional information where the biological information management device is installed. The biological information measuring communication system according to any one of claims 1 to 10, wherein a plurality of the biological information receiving means are arranged. A biological information measurement system including a measurement module to be attached to a living body and a storage module for storing biological information, a living body including an acquisition module for acquiring biological information from the biological information measurement system, and a management module for managing the acquired biological information In a biological information measurement communication system comprising an information management system,
The measurement module including measurement means for measuring biological information of the living body, and first transmission means for transmitting the measured biological information to the storage module;
First receiving means for receiving the transmitted biological information; first storage means for storing the received biological information; detecting means for detecting whether or not the living body is in contact with the acquisition module; When it is detected that the living body is in contact with the acquisition module, a second transmission unit that transmits the biological information to the acquisition module through the living body, and that the living body is not in contact with the acquisition module is detected. The biometric information measurement system including the storage module including stop means for stopping the transmission of the biometric information and second storage means for storing the data stop position of the stopped biometric information;
A second receiving means for receiving the biological information from the storage module through a living body; and the acquisition module including a third transmitting means for transmitting the received biological information to the management module;
A biological information measurement communication system comprising the biological information management system including the management module including third receiving means for receiving the biological information from the acquisition module and third storage means for storing the received biological information. A biological information measurement system including a measurement module to be attached to a living body and a storage module for storing biological information, a living body including an acquisition module for acquiring biological information from the biological information measurement system, and a management module for managing the acquired biological information In a biological information measurement communication system comprising an information management system,
The measurement module including measurement means for measuring biological information of the living body, and first transmission means for transmitting the measured biological information to the storage module;
First receiving means for receiving the transmitted biological information, first storage means for storing the received biological information, second receiving means for receiving a transmission request signal from the acquisition module through the living body, When a transmission request signal is received, second transmission means for transmitting the biological information to the acquisition module through a living body, third receiving means for receiving a reception completion signal from the acquisition module through the living body, and the transmission The biological information measurement system comprising the storage module including second storage means for storing a data start position of biological information;
Detection means for detecting whether or not the living body is in contact with the measurement module; and when the living body is detected to be in contact with the measurement module, the transmission request signal is transmitted to the measurement module through the living body. Receiving third biological information, fourth receiving means for receiving the biological information from the measurement module through the living body, fourth transmitting means for transmitting the received biological information to the managing means, and receiving the biological information. The acquisition module including fifth transmission means for transmitting the reception completion signal to the measurement module through a living body every time;
A biological information measurement communication system comprising the biological information management system including the management module including fifth receiving means for receiving the biological information from the acquisition means and third storage means for storing the biological information.

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