JP4537765B2 - Biological information management system, biological information management method, and biological information management program - Google Patents

Description

  The present invention relates to a biological information management system, a biological information management method, and a biological information management program.

Conventionally, there is a technique for managing a patient's health by attaching a sensor for measuring a pulse or the like to a patient at a remote place (see Patent Document 1).
JP 2002-224053 A (Claim 1 etc.)

However, the technique disclosed in Patent Document 1 has the following problems.
1) Biometric information measured by a measurement sensor, such as a pulse, is transmitted to a server. However, when managing a large number of patients, the communication load on the network increases. Also, the server side needs to prepare a large-capacity data storage device so that the biological information of each patient (measured person) can be managed.
2) A device that easily attaches a measurement sensor to the body, such as a pulse, can be a management target of the system, but a device that is difficult to attach a measurement sensor, such as a urine sugar value, to the body is Cannot be managed.

  Therefore, an object of the present invention is to provide a biological information management system that solves the above-described problems and facilitates the health management of a remote measurement subject.

In order to solve the above-described problems, a biological information management system of the present invention is mounted on a body of a person to be measured, measures a biological information of the person to be measured, stores biological information, and stores the biological information. A biological information management system comprising a home server that creates summary information indicating a summary, a center server that accumulates summary information, and a terminal device that obtains summary information and biological information. A wireless communication unit that performs wireless communication with the server, a biological information measurement unit that measures biological information of the measurement subject, a storage unit that stores identification information of the measurement subject, and reads the measured biological information from the storage unit A living body information transmitting unit that transmits to the home server together with the identification information of the measured person, the home server via a network and a wireless communication unit that performs wireless communication with the living body information measuring device A communication unit for communicating various information, a biological information storing unit for storing biometric information transmitted from the biometric information measuring apparatus for each identification information of the subject, a plurality of received from the vital information measuring device within a predetermined time Based on the biometric information, the summary information creation unit, the summary information transmission unit that transmits the created summary information to the center server via the network at predetermined time intervals, and the biometric information storage unit in response to a request from the center server A biometric information presentation unit that retrieves the biometric information of the measurement subject and transmits the retrieved biometric information to the center server. The center server includes a communication unit that communicates various information via the network, and a home server. The summary information storage unit that stores the transmitted summary information for each measurement subject identification information, and in response to a request from the terminal device, searches the summary information of the subject from the summary information storage unit, The summary information presenting unit that transmits the retrieved summary information to the terminal device via the network, and the biological information that is the basis of the summary information is retained via the network in response to a request from the terminal device. The biometric information acquisition unit is configured to acquire the biometric information from the home server and transmit the biometric information to the terminal device.
Other configurations will be described in the embodiments described later.

According to the present invention, the home server creates summary information of the biological information measured by the biological information measuring device and transmits this summary information to the center server, so that the communication load on the network can be reduced.
Further, since the center server side accumulates the outline information of the biological information, the capacity of the storage medium (hard disk or the like) for storing the measurement subject information can be reduced.
Furthermore, biological information that is difficult to wear a biological information measuring device such as a urine sugar value measuring device on the body can also be a management target of this system.

<< First Embodiment >>
The best mode for carrying out the biological information management system and the like of the present invention (hereinafter referred to as “embodiment”) will be described in detail below with reference to the drawings.
First, the outline of the first embodiment of the present invention will be described with reference to FIG. FIG. 1 is a diagram showing an outline of the biological information management system according to the first embodiment of this invention.

The living body information management system according to the first embodiment accumulates living body information and the living body information measuring apparatus 100 that measures living body information such as the pulse of the person to be measured 1 and creates summary information that is an outline of the living body information. Home server 200 that stores summary information, a center server 500 that stores summary information, a terminal device 700 that acquires summary information and biological information, and a network 600 that connects the home server 200, the center server 500, and the terminal device 700. Is done.
In the present embodiment, the biological information measuring device 100 and the home server 200 are described as being in the room 10 of the person to be measured 1.

The person to be measured 1 is, for example, a patient being treated at home or an elderly person living alone, and the confirmer 2 can be, for example, a doctor or a family of the person to be measured 1.
In addition, the biological information measuring apparatus 100 and the home server 200 include wireless communication means, and transmit and receive various types of information through wireless communication.
The home server 200, the center server 500, and the terminal device 700 are configured by, for example, a PC (Personal Computer). The network 600 is, for example, an Internet network or an IP network.

The biological information measuring device 100 is attached to the body of the person to be measured 1, measures the biological information (pulse, etc.) of the person to be measured 1, and uses the measured biological information every predetermined time (for example, every minute) as a home server. 200. The home server 200 receives this biometric information and stores / accumulates it in the biometric information storage unit 231.
At the same time, the home server 200 creates summary information indicating the summary of the received biometric information, and transmits this information to the center server 500. The center server 500 receives the summary information transmitted from the home server 200 and stores / stores it in the summary information storage unit 541.

  Further, when the center server 500 receives a request for obtaining outline information of the biological information of the person to be measured 1 from the terminal device 700 (confirmer 2), the outline information is retrieved from the outline information storage unit 541 that stores the outline information. Then, it is transmitted (presented) to the terminal device 700. In addition, when receiving an acquisition request for biometric information that is the basis of this summary information from the terminal device 700, the biometric information is acquired from the home server 200 via the network 600 and this information is transmitted to the terminal device 700. (Present).

By doing in this way, even if the person to be measured 1 is in a remote place, the confirmer 2 can view the biological information and summary information of the person to be measured 1 on the terminal device 700 and can grasp the health state. .
In addition, since the biometric information is stored in the home server 200 and the summary information of the biometric information is stored in the center server 500, the center server 500 stores the biometric information rather than storing the biometric information of each measured person 1 by itself. The disk capacity of a management storage medium (hard disk or the like) can be reduced.
The information transmitted from the home server 200 to the center server 500 is mainly summary information, and the biological information itself may be transmitted when an acquisition request is received from the terminal device 700 (center server 500). The communication load of 600 can be reduced.

Next, each component of the biometric information management system of this Embodiment is demonstrated in detail using FIG. FIG. 2 is a block diagram showing the configuration of the biological information management system of FIG. FIG. 3 is a diagram illustrating a wristband type biological information measuring apparatus.
First, the biological information measuring apparatus 100 will be described.

(Biometric information measuring device)
The biological information measuring device 100 is a means that is attached to the person to be measured 1, measures biological information (such as a pulse) of the person to be measured 1, and transmits this biological information to the home server 200 every predetermined time. As shown in FIG. 2, the biological information measuring device 100 includes a wireless communication unit 110, a biological information measuring unit 120, a biological information transmitting unit 130, a storage unit 140, a display control unit 150, and a response input control unit 160. It is comprised including.

  The wireless communication unit 110 is a means for performing wireless communication with the home server 200, and includes, for example, a wireless antenna or a transceiver.

The biological information measuring unit 120 is means for measuring the biological information of the person to be measured 1. The biological information is, for example, a pulse rate, etc., and the biological information measurement unit 120 uses a biological sensor S (see FIG. 3) that measures the pulse after being attached to a part of the body such as the wrist of the person 1 to be measured. Prepare.
In addition to the pulse, the biological sensor S may be a sensor that measures the number of steps taken by the person 1 to be measured, blood pressure, blood oxygen saturation, body temperature, breathing, eye movement, brain waves, and the like.

  The storage unit 140 is means for storing identification information (ID) for identifying the person to be measured 1 and temporarily storing the biological information measured by the biological information measuring unit 120.

The biological information transmitting unit 130 reads the identification information of the person to be measured 1 and the biological information of the person to be measured 1 measured by the biological information measuring unit 120 from the storage unit 140, and these information is sent to the home via the wireless communication unit 110. It is means for transmitting to the server 200.
Note that the biometric information transmission unit 130 may further include a means for encrypting transmission data so as to ensure security in transmission / reception of biometric information.
The display control unit 150 is a means for controlling information display on the display unit M (see FIG. 3) (display of a message prompting the subject 1 to take medication). The response input control unit 160 is means for receiving an input to the response input unit R (see FIG. 3).

  The shape of the biological information measuring device 100 is preferably a shape that can easily measure the biological information of the person to be measured 1 and can be easily worn on the body of the person to be measured 1. For example, a wristband type can be considered. .

  For example, as shown in FIG. 3, the biological sensor S of the wristband type biological information measuring apparatus 100 is incorporated on the wrist side (inside) of the person to be measured 1. By doing in this way, when the to-be-measured person 1 wears the biological information measuring device 100, the biological information measuring unit 120 can easily measure a pulse or the like accurately.

  In addition, as shown in FIG. 3, the biological information measuring apparatus 100 displays the message M from the confirmer 2 received via the network 600 and the home server 200 and the input of the response from the measured person 1. Is provided with a response input unit R.

For example, the display unit M displays a message from the confirmer 2 urging the person to be measured 1 to take medicine and advice on health. Displaying such information makes it easier for the person under measurement 1 to visually confirm a message regarding health management from the confirmer 2.
Further, the display unit M is composed of a liquid crystal monitor, a lamp, a speaker, a vibrator, and the like, and in addition to the above-described messages, light, sound, vibration, etc. for prompting the person to be measured 1 to input a response to the response input unit R An alarm may be output.
The response input unit R is configured with buttons, for example. When the response input control unit 160 receives a response input from the person to be measured 1 to the response input unit R (when the button is pressed), the response input control unit 160 passes information on the response to the wireless communication unit 110 (see FIG. 2). . This information is transmitted from the wireless communication unit 110 to the home server 200.

  Thereafter, the center server 500 receives the response from the person to be measured 1 input to the biological information measuring apparatus 100 via the home server 200, stores and stores the response, and the confirmer 2 is instructed to the person to be measured 1. Whether the subject 1 is alive or not. That is, by making it possible for the confirmer 2 to browse the response history of the measured person 1 stored in the center server 500 using the terminal device 700, it can be determined whether the measured person 1 is responding to the message.

  The shape of the biological information measuring device 100 may be a pendant type, a ring type, or the like in addition to the wristband type as long as the biological information of the person to be measured 1 can be easily measured and can be easily worn on the body.

  Incidentally, the biometric information measuring unit 120, the biometric information transmitting unit 130, the display control unit 150, and the response input control unit 160 are programs for managing biometric information stored in the storage unit 140 by a CPU (Central Processing Unit, not shown). This is realized by loading on a memory (not shown) and executing it.

(Home server)
Returning to FIG. 2, the home server 200 will be described.
The home server 200 is means for accumulating the biological information transmitted from the biological information measuring device 100 and creating summary information of the biological information. The home server 200 includes a wireless communication unit 211, a communication unit 212, a summary information creation unit 220, a storage unit 230, a summary information transmission unit 240, and a biological information presentation unit 250.

  The wireless communication unit 211 is a unit that performs wireless communication with the biological information measuring apparatus 100, and includes, for example, a wireless antenna or a transceiver.

  The communication unit 212 is a unit that transmits and receives various types of information to and from the center server 500 and the like via the network 600.

The summary information creation unit 220 is means for creating summary information based on the biological information received from the biological information measuring device 100.
The summary information in the present embodiment is information indicating an outline of biological information. For example, when the biological information is information on a pulse rate for one minute, the pulse rate of the person 1 to be measured calculated based on this information. An average value for one hour of (times / min) is conceivable.
When the summary information creation unit 220 creates the summary information based on the biological information, the summary information creation unit 220 passes this information to the summary information transmission unit 240 (described later).

The storage unit 230 stores a biometric information management program for performing biometric information management in the home server 200, and has a biometric information storage unit 231 in a predetermined area. The biometric information storage unit 231 is a unit that stores and accumulates the biometric information for each identification information of the person to be measured 1 when the home server 200 receives the biometric information measurement apparatus 100.
The storage unit 230 is composed of, for example, a hard disk.

Table 1 below illustrates biological information stored and accumulated in the biological information storage unit 231.
As shown in Table 1, the biological information is information indicating the acquisition date and time of biological information, the type of biological information, and the measurement value for each ID (identification information) of the person to be measured 1.
For example, the No. of the measurement subject ID “aaa” The biometric information of 1 is information acquired on “04/03/29 5:16”, and is information on “pulse rate”, and the measured value at this time is “60.2 (times / minute)”. Show.
The information related to the acquisition date and time of the biometric information may be the date and time when the home server 200 receives the biometric information, or the date and time when the biometric information measurement apparatus 100 measures (acquires) the biometric information. .

The summary information creation unit 220 reads the biological information stored in the biological information storage unit 231 and creates summary information.
For example, when the summary information creating unit 220 creates the summary information of the pulse rate from 5:00 on March 29, 2004 to 5:59 (one hour) of the measured person ID “aaa”, Among the biological information of the subject ID “aaa”, information on the pulse rate from 5:00 to 5:59 on March 29, 2004 (No. 1 “60.2 (times / min)”, No. 2 “62.6 (times / minute)”, “61.3 (times / minute)” of No. 4, etc.) are extracted, and the average value of these is calculated. Then, the summary information creation unit 220 delivers this calculation result to the summary information transmission unit 240 as summary information.

  When the summary information transmission unit 240 receives the summary information from the summary information creation unit 220, the summary information transmission unit 240 transmits the summary information to the center server 500 via the network 600 every predetermined time (for example, every hour).

In response to a request from the center server 500, the biometric information presentation unit 250 searches the biometric information of the measurement subject 1 from the biometric information storage unit 231 and transmits the searched biometric information to the center server 500 via the network 600. Means.
Here, the search of the biometric information by the biometric information presentation unit 250 is performed using the identification information (ID) of the person to be measured 1, the type of biometric information, information on the acquisition date of biometric information, and the like as keys.
That is, when transmitting the biometric information acquisition request, the center server 500 transmits the acquisition request including information for specifying the biometric information such as the ID of the person to be measured 1. When the home server 200 receives an acquisition request including these pieces of information, the biometric information presentation unit 250 searches the biometric information storage unit 231 for the biometric information using the ID of the person to be measured 1 as a key, and the search is performed. The biological information is transmitted to the center server 500.

  Incidentally, in the summary information creation unit 220, the summary information transmission unit 240, and the biometric information presentation unit 250, the CPU (not shown) of the home server 200 loads the program stored in the storage unit 230 into the memory (not shown). This is realized by executing.

  The home server 200 may be connected to a display unit 400 such as a television monitor. That is, the message displayed on the display unit M (see FIG. 3) may be output / displayed on the display unit 400. If the message from the confirmer 2 is output to the TV monitor or the like in this way, the person to be measured 1 can easily confirm the message regarding the health management from the person to be confirmed 2, and the confirmer 2 also has It becomes easier to manage health.

(Terminal device)
The terminal device 700 is means for accessing the center server 500 via the network 600 and acquiring biometric information and summary information of the biometric information.
For example, the terminal device 700 includes a PC (Personal Computer), display means such as a monitor, and input means such as a mouse and a keyboard. When the terminal device 700 acquires the summary information from the center server 500, the terminal device 700 displays the acquired summary information on the display unit, and acquires the biological information that is the basis of the summary information in response to the information input from the input unit. And display it on the display means.

  In FIG. 2, only one biometric information measuring device 100, home server 200, center server 500, and terminal device 700 are depicted, but it may of course be composed of two or more. The same applies to the embodiments described later.

(Center server)
Next, the center server 500 will be described using FIG. 4 with reference to FIGS. 1 to 3 as appropriate. FIG. 4 is a block diagram showing the configuration of the center server of FIG.
The center server 500 receives the summary information transmitted from the home server 200 via the network 600 (see FIG. 2), accumulates this information, and presents (sends) the summary information in response to a request from the terminal device 700. To do. In addition, when a biometric information acquisition request is received from the terminal device 700, the biometric information is acquired from the home server 200 via the network 600, and this information is presented (transmitted) to the terminal device 700.
The center server 500 includes a communication unit 510, a display information creation unit 520, a summary information presentation unit 530, a storage unit 540, and a biological information acquisition unit 550. The center server 500 may include an authentication unit 560.

  The communication unit 510 is means for communicating various information with the home server 200 and the terminal device 700 via the network 600.

The display information creation unit 520 is a means for creating summary information and biological information (display information) to be transmitted to the terminal device 700 in response to a request from the terminal device 700.
For example, the display information creation unit 520 creates information in which summary information (biological information) for one week of the person to be measured 1 is graphed, or the blood pressure value of another person to be measured 1 in the graphed information, Display information with an average value such as momentum is created.
It is assumed that the average values of blood pressure values, exercise amounts, and the like of other measured persons 1 are created based on the summary information in the summary information storage unit 541.

The storage unit 540 stores a biometric information management program for the center server 500 to perform biometric information management, and has a summary information storage unit 541 in a predetermined area.
The summary information storage unit 541 is means for storing and storing the summary information of the biological information of the person to be measured 1 acquired from the home server 200 by the center server 500 for each identification information of the person to be measured 1. The storage unit 540 is composed of, for example, a hard disk.

Table 2 below illustrates summary information stored and accumulated in the summary information storage unit 541.
As shown in Table 2, the summary information includes, for each ID (identification information) of the person to be measured 1, information indicating whether the summary information is information created based on biological information from when to when, and the type of summary information And measured values.

  For example, the No. of ID “aaa” of the person to be measured 1 is displayed. The summary information 1 is information on “pulse rate” created based on the biological information from “04/03/29 5:00” to “04/03/29 5:00”, and the measurement value (biological information) The average value of information) is “61.8 (times / minute)”.

  In response to a request from the terminal device 700, the biological information acquisition unit 550 acquires the biological information that is the basis of the summary information from the home server 200. Then, the biological information acquisition unit 550 transmits (presents) this biological information to the terminal device 700 via the network 600.

For example, the biometric information acquisition unit 550 receives information (“04/03/29 5: 00-5: 59”) regarding the acquisition date and time of the biometric information from the confirmer 2 (terminal device 700), the type of biometric information (“pulse” Home server that stores and accumulates biometric information of the person to be measured 1 via the network 600 upon receiving a biometric information acquisition request including information on the number “)”, information such as the ID (“aaa”) of the person to be measured 1, etc. 200 is accessed. Then, from this home server 200, biometric information on “pulse rate” from “04/03/29 5:00” to “04/03/29 5:59” of the ID “aaa” of the person to be measured 1 is acquired. The biometric information is transmitted to the terminal device 700.
The storage unit 540 of the center server 500 indicates the biometric information (ID of the person to be measured 1 who is the owner of the biometric information) held by each home server 200 for each piece of identification information (such as an IP address) of the home server 200. The biometric information acquisition unit 550 specifies the home server 200 from which the biometric information is to be acquired with reference to this table.

  In addition, when receiving the summary information acquisition request via the communication unit 510, the authentication unit 560 determines whether or not the request is from a predetermined confirmer 2 (terminal device 700). That is, the authentication unit 560 authenticates the communication partner, and passes this authentication result to the summary information presentation unit 530 and the biometric information acquisition unit 550. Then, the center server 500 presents summary information and biometric information when it is authenticated that the inquiry is a query (summary information acquisition request) from the predetermined confirmer 2.

As described above, the home server 200 generates the summary information of the biological information and transmits the summary information to the center server 500. Therefore, the communication load of the network 600 is larger than the home server 200 sequentially transmits the biological information. Can be reduced.
Further, since the center server 500 accumulates the information of the person to be measured 1 as summary information (information smaller than the total data amount of the biological information), the capacity of the storage medium (hard disk or the like) rather than storing the biological information itself. Can be reduced.

  The display information creation unit 520, the summary information presentation unit 530, the biometric information acquisition unit 550, and the authentication unit 560 allow the CPU (not shown) to store the program stored in the storage unit 540 on the memory (not shown). It shall be realized by loading and executing.

(Processing procedure)
Next, the processing procedure of each component of the biological information management system of this embodiment will be described.

(Registration of biometric information, registration of summary information)
First, the biometric information storage (registration) procedure in the home server 200 and the outline information storage (registration) procedure in the center server 500 will be described with reference to FIG. 5 (see FIGS. 1 to 4 as appropriate). FIG. 5 is a flowchart showing the processing procedure of the biological information management system of FIG. 1 (processing procedure of the biological information management program).

  Here, a case where the biological information measuring apparatus 100 measures the pulse of the person 1 to be measured will be described as an example.

First, the biological information measuring apparatus 100 starts measuring the pulse of the person to be measured 1 (step S501). Here, the timing at which the biological information measuring device 100 starts measurement may be when the measurement subject 1 wears the biological information measuring device 100 or when a power switch (not shown) of the biological information measuring device 100 is turned on. good.
When a predetermined time (for example, 1 minute) has elapsed since the measurement was started (“Yes” in step S502), the biological information measuring apparatus 100 wirelessly communicates the pulse rate for the predetermined time and the ID of the person 1 to be measured. It transmits to the home server 200 (step S503).

  Specifically, the biological information measuring unit 120 counts (counts) the number of pulses of the measured person 1 for a predetermined time. Then, the biological information transmission unit 130 transmits the pulse rate data counted by the biological information measurement unit 120 to the home server 200 via the wireless communication unit 110. At this time, the biological information transmission unit 130 also transmits the ID of the person to be measured 1 read from the storage unit 140 together with the pulse rate data.

When the home server 200 receives the pulse rate data and the ID of the person to be measured 1 from the biological information measuring apparatus 100, the home server 200 stores the pulse rate data in the biological information storage unit 231 (step S511).
And when predetermined time (for example, 1 hour) passes after starting the process of step S511 ("Yes" of step S512), the outline information creation part 220 will calculate the average pulse rate per minute of the person 1 to be measured. Calculate (step S513).
That is, the summary information creation unit 220 is based on the pulse rate / minute data for a predetermined time (one hour) received from the biological information measuring device 100, and the summary information (average pulse rate / Min). Then, this summary information (average pulse rate / minute) is transferred to the summary information transmission unit 240.

When the summary information transmission unit 240 receives the summary information (average pulse rate / minute) of the person 1 to be measured from the summary information creation unit 220, the center server 500 transmits this information and the ID of the person 1 to be measured via the communication unit 212. (Step S514). When the center server 500 receives the summary information (average pulse rate / minute) via the communication unit 510, the center server 500 stores this information in the summary information storage unit 541 (step S521).
As described above, the home server 200 creates the summary information of the person to be measured 1, and the center server 500 stores and stores the summary information.

(Summary information presentation, biometric information presentation)
Next, a procedure in which the center server 500 presents the summary information to the terminal device 700 and the home server 200 presents the biological information to the terminal device 700 will be described with reference to FIGS. reference).
6 and 7 are flowcharts showing the processing procedure of the biological information management system of FIG. 1 (processing procedure of the biological information management program).
Note that the center server 500 stores the user ID (ID) of the confirmer 2 in the storage unit 230 in advance.

  When the terminal device 700 accepts the input of the confirmer 2 by an input means such as a keyboard, the terminal device 700 transmits this ID to the center server 500 (step S601). Next, the center server 500 receives the ID of the confirmer 2, and the authentication unit 560 determines (authenticates) whether or not this ID is indeed that of the confirmer 2 (step S602). Specifically, it is determined whether or not the received ID is stored in the storage unit 230.

  Here, when the authentication unit 560 determines that the ID transmitted in step S601 is surely that of the confirmer 2 (“OK” in step S602), an authentication OK message is transmitted to the terminal device 700 ( Step S603).

  When the terminal device 700 receives the authentication OK message from the center server 500, the terminal device 700 displays a screen or the like for prompting the ID input of the person to be measured 1 on the display means. When the terminal device 700 receives the input of the ID of the person to be measured 1 from an input unit such as a keyboard, the terminal device 700 transmits an outline information acquisition request to the center server 500 (step S604). The summary information acquisition request at this time includes the ID of the person to be measured 1 input from the person to be measured 1.

  On the other hand, when the authentication unit 560 determines that the received ID is not that of the confirmer 2 (“NG” in step S602), the authentication unit 560 transmits an authentication NG message to the terminal device 700 (step S611), and ends the process. To do.

  When the center server 500 receives the summary information acquisition request transmitted from the terminal device 700 in step S604, the summary information presenting unit 530 searches the summary information storage unit 541 for the summary information of the person 1 to be measured (step S605). . The search for the summary information here is performed using, for example, the ID of the person under measurement 1 included in the summary information acquisition request as a key. Then, the summary information presentation unit 530 transmits (presents) the retrieved summary information of the measured person 1 to the terminal device 700 (step S606).

  Upon receiving the summary information of the person 1 to be measured from the center server 500, the terminal device 700 displays this information on a monitor or the like (step S607).

  Subsequently, FIG. 7 will be described. The terminal device 700 inputs information (for example, information for specifying information acquisition (measurement) date and time or information type) that specifies information for which more detailed information is to be displayed from the summary information displayed on the monitor or the like. Accept.

  For example, the summary information as shown in Table 2 is displayed on the terminal device 700, and information related to the date and time of the biological information ("04/03/29 5: 00-5: 59") and the type of biological information ( Input of information related to “pulse rate”) is accepted. At this time, since the terminal device 700 requests biometric information related to these, the information related to the date and time of the biometric information, the information related to the type of biometric information, and the ID of the person to be measured 1 are transmitted to the center server 500 (step S701). .

  The information related to the date and time of the biological information may be information specifying a date and time, such as “04/03/29 5: 00-5: 59”, or “04/03/29” Information specifying only the date may be used. Moreover, you may make it designate across several date and types.

  When the center server 500 receives information requesting biometric information from the terminal device 700, the center server 500 transfers this information to the home server 200. That is, the center server 500 requests biometric information from the home server 200 (step S702).

  When the home server 200 receives information requesting biometric information from the center server 500, the biometric information presentation unit 250 searches the biometric information storage unit 231 based on this information (step S703). For example, the biometric information presentation unit 250 relates to information on the date and time of biometric information included in the received information (“04/03/29 5: 0-5: 59”) and the type of biometric information (“pulse rate”). The biometric information is searched from the biometric information storage unit 231 using the information and the ID of the person to be measured 1 as keys.

  When the biometric information presentation unit 250 retrieves the biometric information, the biometric information presentation unit 250 transmits the biometric information to the center server 500 (step S704).

When the biometric information acquisition unit 550 of the center server 500 receives the biometric information from the home server 200, the biometric information is transmitted to the terminal device 700 (step S705).
At this time, the biological information acquisition unit 550 of the center server 500 may transmit (transfer) the biological information received from the home server 200 as it is, or the measured person 1 understands the graph of the transition of the pulse rate and the like. Information processed into a form that is easy to do may be transmitted.

  When the terminal device 700 receives the biometric information transmitted from the home server 200, the terminal device 700 displays this information on a monitor or the like (step S706), and once ends the process.

  When the center server 500 and the home server 200 perform the above processing, the confirmer 2 can easily manage the health condition of the person to be measured 1. That is, the confirmer 2 first grasps the outline of the health condition of the person 1 to be measured with the outline information, and when confirming more detailed information (biological information of the person 1 to be measured), It becomes possible to browse the biometric information.

<< Second Embodiment >>
Next, a second embodiment of the present invention will be described with reference to FIGS. 8 and 9 (see FIGS. 1 to 7 as appropriate). FIG. 8 is a diagram showing an outline of a biological information management system according to the second embodiment of this invention. FIG. 9 is a block diagram showing a configuration of the biological information management system of FIG.
First, the outline of the second embodiment of the present invention will be described with reference to FIG. Note that the same components as those in the first embodiment described above are denoted by the same reference numerals, and description thereof is omitted.

  The second embodiment is characterized in that the home server 200 of the biological information management system acquires the biological information measured by the stationary biological information measuring device 300 via the biological information measuring device 100.

  Specifically, the biological information management system is configured to further include a stationary biological information measuring device 300. In addition, the biological information measuring apparatus 100 further includes a communication control unit 170 (see FIG. 9).

The installation-type biological information measuring device 300 (see FIG. 9) includes, for example, a wireless communication unit 310 that is incorporated in a weight scale, a sphygmomanometer, or the like installed in the living room 10 and performs wireless communication with the biological information measuring device 100. .
In the installed biological information measuring device 300, the biological information measuring unit 320 measures the biological information of the person 1 to be measured, and transmits the biological information to the biological information measuring device 100 by wireless communication. Then, the biological information measuring apparatus 100 transmits this biological information to the home server 200. That is, in the present embodiment, the biological information of the person to be measured 1 is propagated in the order of the installed biological information measuring device 300 → the biological information measuring device 100 → the home server 200.

By doing in this way, if the installation-type biological information measuring device 300 is provided with a communication means (wireless communication unit 310) with the biological information measuring device 100, it can transmit the biological information to the home server 200. That is, the home server 200 can also manage biological information such as the weight and blood pressure of the person 1 to be measured.
The installed biological information measuring device 300 is connected to the home server 200 via a LAN (Local Area Network) so that the biological information is expressed as the biological information measuring device 100 → the installed biological information measuring device 300 → the home server 200. You may make it propagate to.

(Installation type biological information measuring device)
Hereinafter, the installation-type biological information measuring apparatus 300 according to the present embodiment will be described in detail with reference to FIG.
As shown in FIG. 9, the installation-type biological information measurement device 300 includes a wireless communication unit 310, a biological information measurement unit 320, and a biological information transmission unit 330.

  The wireless communication unit 310 is a means for performing wireless communication with the biological information measuring apparatus 100, and includes, for example, a wireless antenna or a transceiver. The wireless communication may be infrared communication.

  The biological information measurement unit 320 is a means that includes a biological sensor S2 that measures biological information such as the body weight and blood pressure of the person 1 to be measured. For example, the biological information measuring device 100 may be incorporated in a toilet, and the biological information measuring unit 320 may measure the urine sugar value or the like of the person 1 to be measured.

The biometric information transmission unit 330 is a biometric information measurement device within a predetermined distance (for example, within a radius of 0.5 m) of the biometric information measured by the biometric information measurement unit 320 from itself (the installed biometric information measurement device 300) by wireless communication. Means for transmitting to 100. Specifically, the biometric information is transmitted so that the radio communication unit 110 can receive radio waves within the predetermined distance.
Here, the biological information transmitting unit 330 transmits the biological information from itself to the biological information measuring device 100 within a predetermined distance because a plurality of persons 1 to be measured are located around the installed biological information measuring device 300. This is to reduce the possibility that the living body information (measurement data) of the person to be measured 1 will be erroneously transmitted to another person to be measured 1 (the living body information measuring apparatus 100).
Incidentally, the biometric information transmitted by the biometric information transmission unit 330 includes information on the type of biometric information (weight, blood pressure, etc.) as header information in addition to the measurement values such as weight and blood pressure.
The biological information measuring unit 320 and the biological information transmitting unit 330 are realized by a CPU (not shown) of the stationary biological information measuring device 300 executing a program stored in a memory (not shown). Shall.

(Biometric information measuring device)
Next, the communication control unit 170 that is a characteristic configuration of the biological information measuring apparatus 100 according to the present embodiment will be described.
The communication control unit 170 is means for causing the biological information transmitting unit 330 to transmit (transfer) this information to the home server 200 when receiving the biological information from the installation-type biological information measuring device 300.

For example, when the communication control unit 170 acquires the information [systolic blood pressure (type of biological information)] [130 mmHg (measured value)] from the installation-type biological information measurement device 300, the communication control unit 170 receives this information to the biological information transmission unit 130. hand over. Then, the communication control unit 170 attaches information related to the ID of the person to be measured 1 and the acquisition date and time (measurement date and time) to the biometric information transmission unit 130 [aaa (ID of the person to be measured 1)] [04/02. / 23 13:49 (acquisition date and time)] [systolic blood pressure (type of biological information)] [130 mmHg (measured value)] is created, and this information is transmitted to the home server 200.
Thus, by measuring the blood pressure of the person 1 to be measured with the installation-type biological information measuring device 300, it is more accurate than measuring the blood pressure of the person 1 to be measured with the wristband type biological information measuring device 100 described above. Blood pressure can be measured.

  Note that the communication control unit 170 is realized when a CPU (not shown) of the biological information measuring apparatus 100 executes a predetermined program stored in the storage unit 140.

(Processing procedure)
Hereinafter, the processing procedure of the biological information management system of the present embodiment will be described with reference to FIG. 10 (see FIGS. 1 to 9 as appropriate). FIG. 10 is a flowchart showing the processing procedure of the biological information management system of FIG. 8 (processing procedure of the biological information management program).

First, the installed biological information measuring apparatus 300 measures biological information such as the weight of the person 1 to be measured by the biological information measuring unit 320 (step S1001).
For example, in the case where the installation-type biological information measuring apparatus 300 is an apparatus that measures body weight, the measurement timing of the biological information may be started when a weight is detected by the biological sensor S2. Alternatively, the measurement may be started when it is detected by a sensor or the like (not shown) incorporated in the installation-type biological information measuring apparatus 300 that the person to be measured 1 has approached within a predetermined distance.
And the biometric information transmission part 330 will transmit this information to the biometric information measurement apparatus 100 via the wireless communication part 310, if the measured biometric information is received (step S1002).

At this time, the biological information transmitting unit 330 transmits the biological information from the stationary biological information measuring device 300 to the biological information measuring device 100 within a predetermined distance.
By doing in this way, even when there are a plurality of persons to be measured 1 in the vicinity of the installation-type biological information measuring apparatus 300, the installation-type biological information measuring apparatus 300 can store the biological information (measurement data) of the person 1 to be measured. It is possible to reduce the possibility of erroneous transmission to another person to be measured 1 (biological information measuring device 100).

For example, when the person to be measured 1a and the person to be measured 1b are in the vicinity of the installation-type biological information measuring apparatus 300, the biological information of the person to be measured 1a is measured, and the person to be measured 1b wears this biological information. Transmission to the living body information measuring apparatus 100 can be prevented.
That is, it is possible to prevent the biological information measuring apparatus 100 of the person to be measured 1b from receiving the biological information of the person to be measured 1a and adding the ID of the person to be measured 1b to this information and transmitting it to the home server 200. it can.

  When the communication control unit 170 of the biological information measuring device 100 receives the biological information from the stationary biological information measuring device 300, the biological information transmitting unit 330 sends the information to the ID of the person to be measured 1 and the time read from the storage unit 140. Information with a stamp (acquisition date and time) is created and transmitted to the home server 200 via the wireless communication unit 110 (step S1003).

  Next, when the home server 200 receives the biological information including the ID of the person to be measured 1 from the biological information measuring device 100 via the wireless communication unit 211, the home server 200 stores this information in the biological information storage unit 231 (step S1004). .

  By doing in this way, the home server 200 can acquire and manage biological information such as weight and blood pressure that is difficult to measure with the biological information measuring apparatus 100.

  In the present embodiment, the biological information transmitting unit 330 transmits biological information from itself (installed biological information measuring device 300) to the biological information measuring device 100 within a predetermined distance, but is closest to itself. The biological information may be transmitted to the biological information measuring device 100.

In the present embodiment, the installation-type biological information measuring device 300 has been described as an example of being incorporated in a weight scale or a blood pressure monitor. However, for example, it is incorporated in a toilet, a bath lighting button, a door, bedding, or the like. Also good.
That is, in the installed biological information measuring apparatus 300, whether the person 1 to be measured uses a toilet, uses a bath, enters / leaves a predetermined room, goes to bed, etc. The life event is acquired and transmitted to the home server 200 (and the center server 500). By doing in this way, the center server 500 can also manage the life event (safety information) of the person under measurement 1. That is, the confirmer 2 can grasp the state of the person to be measured 1 in more detail.

<< Third Embodiment >>
Next, a third embodiment of the present invention will be described with reference to FIGS. 11 and 12 (see FIGS. 1 to 10 as appropriate). FIG. 11 is a block diagram showing the configuration of the center server of the biological information management system according to the third embodiment of this invention.
Note that the same components as those in the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted.

In the third embodiment, the center server 500 analyzes the health condition of the person to be measured 1 from the summary information in the summary information storage unit 541 and presents (transmits) the analysis result to the terminal device 700 (confirmation person 2). It is characterized by doing so.
Specifically, as shown in FIG. 11, the center server 500 is configured to further include a health advice database (DB) unit 542 and a health condition analysis unit 570.
Note that the overall configuration of the system is the same as that of the above-described embodiment, and a description thereof will be omitted.

  The health advice database (DB) unit 542 is means for storing, for each summary information (biological information) of the person to be measured 1, information indicating health advice for the biological information (health state). The health condition analysis unit 570 is a means for searching for health advice to be given to the subject 1 from the health advice DB unit 542 based on the summary information of the subject 1.

  Table 3 below illustrates the health advice stored in the health advice DB unit 542.

  As shown in Table 3, the health advice includes items related to the conditions of the summary information and items related to the health advice for the conditions.

For example, when the health condition analysis unit 570 determines that “the number of steps per day is less than 3000 steps” for the health condition of the person 1 to be measured based on the outline information (step information) of the person 1 to be measured, The advice DB unit 542 is searched to obtain health advice “There is little exercise. Let's go for a walk on a sunny day.” Then, this information is transferred to the display information creation unit 520.
When the display information creation unit 520 receives the health advice information of the person to be measured 1 from the health condition analysis unit 570, the display information creation unit 520 creates display information including the health advice.

  FIG. 12 is a diagram illustrating display information created by the display information creation unit of FIG. For example, as illustrated in FIG. 12, the display information creation unit 520 adds the transition of the number of steps (summary information) of the measured person 1 to the health advice of the measured person 1 received from the health condition analyzing unit 570, the center Display information is added to the average number of steps of each person to be measured 1 (user of this system) calculated by the server 500.

  The center server 500 transmits this display information to the terminal device 700, and the terminal device 700 displays this information on a monitor or the like. The checker 2 browses this display information and grasps the health condition of the person to be measured 1 and the health advice to be given to the person to be measured 1.

  Here, the timing at which the display information is transmitted from the center server 500 to the terminal device 700 may be every predetermined period, or may be when there is an information acquisition request from the terminal device 700 (confirmer 2).

  Further, the center server 500 may transmit this display information to the biological information measuring apparatus 100 (measured person 1). In other words, the display information described above is displayed on the display unit M by the biological information measuring apparatus 100 so that the person to be measured 1 can easily grasp his / her health condition or can easily receive health advice. good.

<< Fourth Embodiment >>
Next, a fourth embodiment of the present invention will be described with reference to FIGS. 13 to 15 (see FIGS. 1 to 12 as appropriate). FIG. 13 is a diagram showing a configuration of a biological information management system according to the fourth embodiment of this invention. FIG. 14 is a diagram showing the configuration of the center server of FIG. FIG. 15 is a flowchart showing a processing procedure of the biological information management system of FIG. 13 (processing procedure of the biological information management program).
Note that the same components as those in the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted.

  In the fourth embodiment, the home server 200 transmits a message to the biological information measuring device 100 (measured person 1) every predetermined time, and the response from the biological information measuring device 100 (measured person 1) is centered. The server 500 stores the information.

Specifically, as shown in FIG. 13, the home server 200 includes a message information storage unit 232 that stores a message to be transmitted to the biological information measuring device 100 (the person to be measured 1) and a transmission timing of the message, and this message. It further includes a message transmission unit 260 that transmits a message in accordance with information in the information storage unit 232.
As shown in FIG. 14, the center server 500 further includes a response history storage unit 543 that stores a response from the biological information measuring device 100 together with the date and time when the response is input.

Note that the message transmission unit 260 is realized by a CPU (not shown) of the home server 200 loading a program stored in the storage unit 230 into a memory (not shown) and executing it.
Details of each component will be described in the section of processing procedure described later.

(Processing procedure)
The processing procedure of the biological information management system of this embodiment (the processing procedure of the biological information management program) will be described with reference to FIG. 15 (see FIGS. 1 to 14 as appropriate).
First, the terminal device 700 accepts input of message content and a message transmission schedule from the input means to the biological information measuring device 100 (measured person 1) (step S1501).
The content of the message entered here is, for example, a message prompting medication such as “Please take blood pressure medicine”, a message prompting measurement of biological information such as “Please measure blood pressure with a sphygmomanometer”, etc. Can be considered. In addition, the transmission schedule may be, for example, one in which a transmission interval such as “every three hours” is designated, or one in which a transmission date and time such as “12:00 every day (predetermined date and time)” is designated.

  Then, the terminal device 700 transmits the information to the home server 200, and when the home server 200 receives the transmitted information, the terminal device 700 stores this information in the message information storage unit 232 (step S1502).

Next, the message transmission unit 260 of the home server 200 waits for a timing for transmitting a message to the biological information measuring apparatus 100 (step S1503). When the transmission timing comes (“Yes” in step S1503), a message to the biological information measuring device 100 (measured person 1) stored in the message information storage unit 232 is transmitted (step S1504).
Note that the transmission timing of the message transmission unit 260 is determined with reference to the timer (not shown) of the home server 200 and the transmission schedule information of the message information storage unit 232.

  When the biological information measuring apparatus 100 receives a message from the home server 200, the biological information measuring apparatus 100 displays this message on the display unit M (see FIG. 3) (step S1505), and prompts the subject 1 to take medication, measure blood pressure, or the like.

  By doing so, it is possible to prevent the patient 1 from forgetting to take the medicine and forgetting to measure the blood pressure and the like. In addition, since the confirmer 2 can also promote administration of medication (medication) to the subject 1 and regular measurement of blood pressure, etc., the compliance (observation of medication etc.) of the subject 1 can be improved. it can.

  Thereafter, the biological information measuring apparatus 100 waits for a response input from the measurement subject 1 to the response input unit R (see FIG. 3) (step S1506). When there is a response input from the confirmer 2 (“Yes” in step S1506), a response is transmitted from the response input control unit 160 to the home server 200 (step S1507). At this time, the response input control unit 160 transmits, to the home server 200, information including information (time stamp) related to the response time in the response input from the response input unit R. Then, the home server 200 transmits (transfers) this response (response information) to the center server 500 (step S1508).

  When the center server 500 receives the response (response information) transmitted from the biological information measuring device 100 via the home server 200, the center server 500 stores the response information in the response history storage unit 543 (step S1509), and once ends the processing. .

Thereafter, when the center server 500 receives a response history acquisition (presentation) request from the terminal device 700, the center server 500 transmits the response history of the measured person 1 to the terminal device 700. That is, the confirmer 2 can confirm whether or not there is a response from the subject 1 after transmitting the message to the subject 1. In addition, if the person to be measured 1 confirms in advance that the confirmer 2 confirms the response history of the person to be measured 1, the compliance of the person to be measured 1 is also improved.
The response history is stored / stored in the response history storage unit 543, but may be stored / stored in a part of the summary information storage unit 541.

  When the home server 200 transmits a message to the biological information measuring apparatus 100, the transmission history at this time may be stored in the response history storage unit 543 of the home server 200 or the center server 500. In this way, for example, the confirmer 2 can check whether or not the person under test 1 has responded to the message transmitted by himself / herself.

In the above-described embodiment, the message transmission from the message transmission unit 260 to the biological information measuring device 100 is set at a preset timing. However, the confirmer 2 uses the input unit of the terminal device 700 to send a message transmission command. May be the timing at which is input.
That is, for example, the confirmer 2 inputs a message “It is better to take blood pressure medicine after meals” with the input means of the terminal device 700, and the confirmer 2 inputs a message transmission command to the input means (screen The message may be transmitted from the center server 500 at the timing when the transmission button is clicked.

<< Other Embodiments >>
The present invention is not limited to the embodiments described above, and can be applied without departing from the spirit of the invention.
For example, in the third embodiment, the health state analysis unit 570 is included in the center server 500, but may be included in the home server 200.
Further, when adding or correcting a program used by the home server 200 for the health condition analysis unit 570, the center server 500 may transmit the program to the home server 200 via the network 600.
That is, the home server 200 may have a function of downloading a program from the center server 500 via the network 600 and a function of the center server 500 distributing a program to the home server 200 via the network 600.

The biological information measuring device 100, the home server 200, the center server 500, and the terminal device 700 according to the embodiment of the present invention can be realized by a computer and a program, and the program can be read by a computer (a storage medium). CD-ROM or the like) and provided by the storage medium. It is also possible to provide the program through a network.
The computer system here includes software such as an OS (Operating System) and hardware such as peripheral devices.

It is the figure which showed the outline | summary of the biometric information management system of the 1st Embodiment of this invention. It is the block diagram which showed the structure of the biometric information management system of FIG. It is the figure which illustrated the wristband type biological information measuring device. It is a block diagram which shows the structure of the center server of FIG. It is the flowchart which showed the process sequence of the biometric information management system of FIG. It is the flowchart which showed the process sequence of the biometric information management system of FIG. It is the flowchart which showed the process sequence of the biometric information management system of FIG. It is the figure which showed the outline | summary of the biometric information management system of the 2nd Embodiment of this invention. It is a block diagram which shows the structure of the biometric information management system of FIG. It is the flowchart which showed the process sequence of the biometric information management system of FIG. It is the block diagram which showed the structure of the center server of the biometric information management system of the 3rd Embodiment of this invention. It is the figure which illustrated the display information which the display information preparation part of FIG. 11 produces. It is the figure which showed the structure of the biometric information management system of the 4th Embodiment of this invention. It is the figure which showed the structure of the center server of FIG. It is a flowchart which shows the process sequence of the biometric information management system of FIG.

Explanation of symbols

1 (1a, 1b) Person to be measured 2 Confirmation person 10 Living room 100 Biometric information measurement device 110 Wireless communication unit 120 Biometric information measurement unit 130 Biological information transmission unit 140 Storage unit 150 Display control unit 160 Response input control unit 170 Communication control unit 200 Home server 211 Wireless communication unit 212 Communication unit 220 Summary information creation unit 230 Storage unit 231 Biometric information storage unit 232 Message information storage unit 240 Summary information transmission unit 250 Biological information presentation unit 260 Message transmission unit 300 Stationary biological information measurement device 310 Wireless Communication unit 320 Biometric information measurement unit 330 Biometric information transmission unit 400 Display means 500 Center server 510 Communication unit 520 Display information creation unit 530 Summary information presentation unit 540 Storage unit 541 Summary information storage unit 542 Health advice DB unit 543 Response history storage unit 550 Body information acquiring unit 560 The authentication unit 570 health state analyzer 600 network 700 terminal device M display unit R response input section S biometric sensor S2 biometric sensor

Claims (5)

A biological information measuring device mounted on the body of the subject and measuring the biological information of the subject; a home server that accumulates the biological information and creates summary information indicating an outline of the biological information; and the summary A biological information management system comprising a center server for storing information, and a terminal device for acquiring the summary information and the biological information,
The biological information measuring device includes:
A wireless communication unit for performing wireless communication with the home server;
A biological information measuring unit that measures the biological information of the measurement subject with a biological sensor;
A storage unit for storing identification information of the measurement subject;
A biometric information transmitting unit that transmits the measured biometric information to the home server together with the identification information of the measured person read from the storage unit;
The home server is
A wireless communication unit for performing wireless communication with the biological information measuring device;
A communication unit for communicating various information via a network;
A biological information storage unit that stores the biological information received from the biological information measuring device for each identification information of the person to be measured;
A summary information creating unit that creates the summary information based on a plurality of pieces of biological information received from the biological information measuring device within a predetermined time ;
A summary information transmission unit that transmits the created summary information to the center server via the network at predetermined time intervals;
In response to a request from the center server, a biometric information presenting unit that retrieves the biometric information of the measurement subject from the biometric information storage unit and transmits the retrieved biometric information to the center server via the network. And
The center server is
A communication unit for communicating various information via the network;
A summary information storage unit that stores the summary information received from the home server for each identification information of the measurement subject;
In response to a request from the terminal device, the summary information of the person to be measured is searched from the summary information storage unit, and the searched summary information is transmitted to the terminal device via the network;
In response to a request from the terminal device, the biological information that is the basis of the summary information is acquired from the home server that holds the biological information via the network, and the biological information is transmitted to the terminal device. Having a biological information acquisition unit,
A biological information management system characterized by The biological information management system according to claim 1, further comprising an installation-type biological information measuring device that is installed in a room of the measurement subject and performs wireless communication with the biological information measuring device,
The installation-type biological information measuring device includes:
A wireless communication unit for performing wireless communication with the biological information measuring device;
A biological information measuring unit that measures the biological information of the measurement subject with a biological sensor;
A biological information transmitting unit that transmits the measured biological information from the stationary biological information measuring device to a biological information measuring device within a predetermined distance;
Have
The biological information measuring device includes:
Biological information is received from the stationary biological information measuring device via the wireless communication unit of the biological information measuring device, and the biological information is transmitted to the home server together with the identification information of the measurement subject read from the storage unit. That is configured as
A biological information management system characterized by A biological information measuring device mounted on the body of the subject and measuring the biological information of the subject; a home server that accumulates the biological information and creates summary information indicating an outline of the biological information; and the summary A biological information management method used in a biological information management system comprising a center server for storing information, and a terminal device for acquiring the summary information and the biological information,
The biological information measuring device is
Measuring the biological information of the measurement subject;
Reading the measurement subject's identification information from a storage unit that stores the measurement subject's identification information, and transmitting the measured biological information together with the measurement subject's identification information to the home server by wireless communication When,
Run
The home server is
Receiving the measurement subject's identification information and the biological information from the biological information measuring device by wireless communication;
Creating the summary information based on a plurality of the biological information received within a predetermined time ;
Transmitting the created summary information to the center server via the network every predetermined time;
In response to a request from the center server, the biological information of the measured person is retrieved from a biological information storage unit that stores the biological information for each identification information of the measured person, and the retrieved biological information is stored in the center. Sending to the server;
Run
The center server is
In response to a request from the terminal device, searching the summary information of the subject from a summary information storage unit that stores the summary information for each identification information of the subject;
Transmitting the retrieved summary information to the terminal device via the network;
In response to a request from the terminal device, obtaining biometric information that is the basis of the summary information from a home server that holds the biometric information via the network;
Transmitting the acquired biometric information to the terminal device via the network;
The biological information management method characterized by performing. The biological information management system of the biological information management method according to claim 3, further comprising an installation-type biological information measurement device that is installed in a room of the measurement subject and performs wireless communication with the biological information measurement device,
The installation-type biological information measuring device includes:
Measuring the biological information of the measurement subject;
Transmitting the measured biological information of the person to be measured by wireless communication from the stationary biological information measuring device to a biological information measuring device within a predetermined distance;
Run
The biological information measuring device includes:
Receiving the biological information from the stationary biological information measuring device by wireless communication;
The identification information of the measurement subject is read from a storage unit that stores the identification information of the measurement subject, and the biological information measured by the installation-type biological information measurement device is wirelessly communicated together with the identification information of the measurement subject. Sending to the home server;
The biological information management method characterized by further executing. A biometric information management program for causing a computer to execute the biometric information management method according to claim 3 or 4.

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