JP2003135408A - Health management terminal and health management support system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To measure biological information indicating a health state at all times and to accurately manage the health state of a user from the required sufficient biological information. SOLUTION: A health management terminal is provided with a biological information measurement part 18 for measuring the biological information for judging the health state of the user, a buffer 16 for holding the measured biological information for a prescribed period and a main memory 17 whose storage capacity is larger than the buffer 16. A CPU 11 judges whether or not the biological information measured by the biological information measurement part 18 is a normal value on the basis of preset normal value range information, stores the biological information and the biological information measured in the prescribed period before the measurement time in the main memory 17 in the case that the biological information is not the normal value, and stores only the biological information matching with a prescribed condition in the main memory 17 in the case that the biological information is the normal value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a health management terminal and a health management support system for measuring and managing biometric information for judging a user's health condition.

[0002]

2. Description of the Related Art In recent years, health data such as blood pressure and electrocardiogram measured at home and the results of medical interviews have been sent to health centers such as local governments, medical institutions and service providers using telephone lines and the Internet. By doing so, a system for supporting the health management of users is being developed.

[0003]

However, in the conventional system as described above, it is necessary to install a dedicated device at home or the like in order to use this system, and the user needs a large amount of money to purchase and construct the device. There was a problem that the cost was required. Further, according to the conventional system described above,
Since it is necessary to access the system side from the dedicated device installed at home via the Internet or the like to perform a predetermined operation, there is a problem that the user is burdened with the use of the system. Moreover, since it is preferable that measurement of biological information such as blood pressure and pulse for determining a health condition is always performed, the user is required to always carry a measuring instrument. However, in the above-described conventional system, the measuring device for measuring biological information tends to be large, and it is difficult to carry the measuring device. Therefore, the measuring place, measuring time, etc. are limited, and sufficient biological information is obtained. There was also the problem of not being able to get. Further, conventionally, since all the measured biometric information is transmitted to the system side, communication traffic increases, which may make it difficult to quickly transmit data. In addition, there is a drawback that the power consumption on the terminal side increases when the transmission data amount is large.

The present invention has been made in view of such circumstances, and it is possible to constantly measure the biometric information indicating the health condition, and it is possible to accurately manage the health condition of the user from necessary and sufficient biometric information. The purpose is to provide a health management terminal and a health management support system.

[0005]

In order to achieve the above object, the present invention provides a measuring means for measuring biometric information for judging a user's health condition, and the measured biometric information is retained for a predetermined period. First storage means, a determination means for determining whether or not the biometric information is a normal value based on preset normal value range information, and when the biometric information is determined not to be a normal value, The biometric information at the time of the determination and the biometric information measured in a predetermined period before the time of the determination are stored in the second storage means, and when the biometric information has a normal value, the predetermined conditions are met. And a data control unit for storing only biological information to be stored in the second storage unit.

The above-mentioned biological information refers to blood pressure, pulse rate (heart rate), pulse wave, body temperature and the like. The normal value range information is provided according to the biometric information. Also,
The biometric information that matches the predetermined condition is the biometric information measured at a predetermined time (for example, every 5 minutes) among the biometric information that is constantly measured, and the biometric information for every predetermined number of times (for example, every 10 times). Etc. That is, when the biometric information has a normal value, a large-capacity second memory means is required to store all the measured biometric information. Therefore, it is possible to reduce the memory capacity of the second storage unit by thinning out the biometric information that is constantly measured and storing it in the second storage unit. Further, the first storage means is F
A memory that stores data in the IFO format may be used.
As described above, by not writing all the biometric information measured by the measuring unit in the second memory, by limiting the biometric information stored in the second memory depending on whether the biometric information is normal, It is possible to reduce the storage capacity of the memory, and thereby to reduce the size and cost of the terminal itself.

The invention described in claim 2 is the same as claim 1
In the health care terminal according to [1], when the free memory capacity of the second storage means becomes less than or equal to a predetermined value, or when a preset time comes, it is stored in the second storage means. It is characterized by further comprising a transmitting means for transmitting the living body information to a health management support system that centrally manages the living body information.

The above predetermined value transmits the information currently stored in the second storage means to the outside before the free memory of the second storage means is exhausted and new data cannot be written. It is a value set for the purpose of If the normal value is always displayed, the second
Since there is little biometric information stored in the storage means of, the free memory capacity of the second storage means is less likely to fall below a predetermined value,
The biometric information is held in the terminal for a long time. Therefore, in order to avoid such a state, the transmission time is set in advance, and the biometric information stored in the second storage means is transmitted to the health management support system regardless of the free memory capacity. This can prevent the second storage unit from running out of memory and prevent the biometric information from staying in the terminal for a long time.

The invention described in claim 3 is the same as claim 1
Alternatively, in the health care terminal according to claim 2, the data control means deletes the biometric information stored in the second storage means after the transmission by the transmission means is completed. As described above, since the biometric information transmitted to the health management support system is managed by the health management support system side, such information can be deleted from the second storage unit to obtain the second information.
The storage means can be used efficiently.

The invention according to claim 4 is the same as claim 1
~ In the health management terminal according to claim 3,
When the determination unit determines that the biometric information is not a normal value, the determination unit further includes an abnormality notification unit that notifies the user of the abnormal value. Examples of the abnormality notifying means include a method of notifying an abnormality by sight, hearing, etc., for example, displaying a message or the like indicating that an abnormal value has been detected on the display unit, a light emitting element installed for abnormality notification, etc. May be notified by blinking, or may be notified by voice or vibration.

The invention described in claim 5 is the same as claim 1.
~ In the health management terminal according to claim 4,
It is characterized by further comprising display means for displaying the biological information measured by the measuring means. By displaying the measured biometric information in this way, the user can grasp the biometric information himself / herself, which can be used as an index for health management in daily life.

The invention according to claim 6 is the same as claim 1.
~ In the health management terminal according to claim 5,
The normal value range information is information determined by the health management support system based on the biometric information of the user and the attribute of the user, and the determination means is the latest information transmitted from the health management support system. It is characterized in that whether or not the biometric information is a normal value is determined based on the normal value range information of. In this way, the determination means determines whether or not the biometric information is normal based on the latest normal value range information optimally determined for each user transmitted from the health management support system, and therefore extremely accurate. The biological information can be judged well, and the health management can be performed precisely.

Further, the invention according to claim 7 is, for each user, receiving means for receiving biometric information transmitted from a health management terminal for measuring biometric information for judging the health condition of the user. A storage unit that stores the biometric information, and a normal value range determination unit that determines the normal value range of each user for each predetermined period based on the biometric information stored in the storage unit and / or the attribute of each user. And a transmission means for transmitting the determined normal value range to the corresponding health management terminal.

The attributes of the user include sex, age, results of regular examination, chronic illness, health condition and the like. For example,
According to the Ministry of Health, medical institutions, etc., a rough index such as what value is normal according to age etc. is determined. The normal value range determining means determines the normal value range for each user by taking these information and user attributes into consideration. As a result, for example, even in the case of biometric information where there is a large individual difference and it is difficult to determine the normal value range, or even when the normal value range is set to be extremely wide in order to consider individual differences, the By referring to the biometric information, it is possible to individually determine the optimum normal value range for each user. As a result, it is possible to judge whether the biometric information is abnormal or not with extremely high accuracy, and it is possible to perform accurate health management.

The invention described in claim 8 is the invention according to claim 7.
In the health management support system described in (1), in the biometric information of each user stored in the storage means, a detection means for detecting information of an abnormal value in a predetermined period for each user is provided, and the transmission means is It is characterized in that the information on the abnormal value is transmitted to the insurance organization to which the user has joined. In this way, by providing biometric information to an insurance organization that varies the insurance amount depending on the health status, the insurance organization can accurately grasp the health status of each user, and You can set an appropriate insurance amount.

The invention according to claim 9 is the invention according to claim 7.
Or in the health management support system according to claim 8,
The abnormal value information is information on a cumulative time when the biometric information is out of the normal value range in the predetermined period. If there is information on the cumulative time when the biometric information shows an abnormal value and the predetermined period, the insurance organization can grasp at what rate the abnormal value is detected. In this way, by providing the insurance organization with the minimum parameters necessary for determining the health condition, it is possible to reduce the amount of data handled by the insurance organization.

[0017]

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of a health management terminal 1 according to an embodiment of the present invention.

In this figure, reference numeral 11 is a CPU (central processing unit) that controls the overall operation of the health care terminal 1, and is connected to each of the other components as shown. Reference numeral 12 is a ROM (Read Only Memory) in which a program executed by the CPU 11 is stored.
A program and the like defining the processing of are stored. Reference numeral 13 is a RAM (Rand used in the arithmetic processing of the CPU 11
(om Access Memory), and the information stored in this RAM will be described later.

Reference numeral 14 is a display unit for displaying predetermined information in accordance with a display instruction from the CPU 11. Reference numeral 15 is a clock unit that clocks the month, the day, the time, the period from the start of measurement, the period from a specific time, and the like and supplies the clock to the CPU 11. Reference numeral 16 is a FIFO (First In First Ou).
t) is a buffer for storing information, and reference numeral 17 is a main memory having a larger storage capacity than the buffer 16. The buffer 16 and the main memory 17
Can be arbitrarily determined.

Reference numeral 18 is a biometric information measuring section for measuring biometric information for judging the health condition of the user. For example, blood pressure, body temperature, heart rate (pulse rate), pulse rhythm, etc. are constantly measured and the measurement result is obtained. Is supplied to the CPU 11. It should be noted that one biometric information measuring unit 18 is provided for each biometric information. That is, if blood pressure and body temperature are to be measured, two biological information measuring units 18 for blood pressure and body temperature will be provided in the terminal. Therefore, in this case, the biological information measured by each biological information measuring unit 18 is supplied to the CPU 11. Also,
The configuration is not limited to the above example, and one biometric information measuring unit 18 may measure a plurality of biometric information. Reference numeral 19 is a communication unit that performs wireless communication, and is a standard for transmitting measured biometric information to an external device and determining whether or not the biometric information measured by the biometric information measurement unit 18 is a normal value. The normal value range information that becomes is received from the outside.

Next, various information stored in the RAM 13 will be described with reference to FIG. RAM13
2, the normal value range information 100 for determining whether or not the measured biometric information is a normal value, and the timing for storing the biometric information stored in the buffer 16 in the main memory 17 are set. The time information 101, the free space threshold 102 and the transmission time information 103 that are referred to when determining the timing of transmitting the biometric information stored in the main memory 17 to the outside are stored. The time information 101 includes an instruction to store biometric information every predetermined time (for example, every 5 minutes), a predetermined number of times (for example, one measurement information is stored every five measurements), and the like. This is the information in which the instruction is described.

Next, the operation of the health care terminal 1 having the above configuration will be described according to the processing flow shown in FIG. In addition, the process shown below is a process that is repeatedly performed at predetermined intervals, and in the case of measuring a plurality of biometric information, the following process is performed in parallel for each biometric information. Is.

First, the biological information measuring unit 18 measures biological information and supplies the measurement result to the CPU 11 (step SP1 in FIG. 3). The CPU 11 acquires the measurement result and the measurement time from the clock unit 15, and stores the information in the buffer 16 in association with each other (step SP2). Since the buffer 16 stores the data in the FIFO format as described above, the latest biometric information measured this time is stored, and at the same time, the oldest data among the biometric information stored in the buffer 16 is stored. Will be erased. continue,
The CPU 11 determines whether or not the biometric information measured this time is a normal value, the normal value range information 10 stored in the RAM 13.
The determination is made by referring to 0 (step SP3). CPU11
If the measured value is within the normal value range, it is determined to be normal, and if the measured value is out of the range, it is determined to be abnormal. In addition,
In the judgment as to whether the values are normal values or not, even if all the biometric information is within the range of normal values, if there are more than a predetermined number of values close to abnormal values, values close to these abnormal values are regarded as abnormal values. May be determined.

As a result, if the biometric information has a normal value (“YES” in step SP3), then it is determined whether the measured time of the biometric information matches the time information 101 stored in the RAM 13. Whether or not (step S
P4). As a result, if they do not match (“NO” in step SP4), the process ends. on the other hand,
If they match (in step SP4, "YE
S ”), the biometric information and the measurement time are stored in the main memory 17
(Step SP5).

If the biometric information is an abnormal value in step SP3, the CPU 11 instructs the display unit 14 to display a message notifying that the abnormal value is displayed (step SP6). . As a result, a display to that effect is displayed on the display unit 14, and the user can recognize that an abnormal value has been detected by looking at this display. Subsequently, the CPU 11 reads from the buffer 16 the biometric information measured in a past predetermined period from the measurement time of the biometric information, and stores the information in the main memory 17 (step SP7). This allows
Not only the biometric information which is an abnormal value, but also the biometric information measured during a predetermined period before the biometric information is measured is stored in the main memory 17.

When the predetermined information is stored in the main memory 17 in step SP5 or step SP7 in this way, subsequently, the CPU 11 determines that the free space of the main memory 17 is equal to or smaller than the predetermined free space threshold 102. It is determined whether there is any (step SP8). As a result,
If the free space is larger than the free space threshold 102 (“NO” in step SP8), then it is determined whether or not the current time matches the transmission time information 103 stored in the RAM 13 (step). SP9). As a result, if they do not match (“NO” in step SP9), the process ends. On the other hand, main memory 1
If the free space of No. 7 is less than or equal to the free space threshold 102 (“YES” in step SP8), and if the current time matches the transmission time information 103 (“YES” in step SP9), the main memory 17 is stored. A process of transmitting the stored biometric information to the outside is performed (step S
P10). When the transmission is normally completed, the CPU 11
Deletes all biometric information stored in the main memory 12 (step SP11), and ends the processing.

When a plurality of pieces of biometric information are simultaneously measured in parallel, in step SP10,
You may make it transmit several biometric information collectively.
In this way, by collectively transmitting, information can be efficiently transmitted.

In step SP10, the biometric information of the user transmitted to the outside is transmitted to the health management support system 30 that centrally manages the biometric information via the network 40 shown in FIG. Here, the health management support system 30 includes a communication unit 31 that transmits and receives information to and from the outside via the network 40, a control unit 32 that controls each unit, and a database 33. Upon receiving the biometric information transmitted from the health management terminal 1, the control unit 32 of the health management support system 30 stores the biometric information in the database 33 for each user. As a result, the database 33 stores the biometric information received so far corresponding to each user. In addition, the network 40
May be any network such as the Internet or a dedicated line such as a LAN.

Further, the control unit 32 of the health management support system 30 determines the normal value range of each user for each predetermined period based on the biometric information stored in the database 33 and the attribute of each user. Here, the attributes of the user include sex, age, chronic illness, results of regular checkups, health status, and the like. Also,
The indicators of normal values are almost determined for each age and sex by the Ministry of Health and Welfare and medical institutions. The control unit 32 determines a normal value range for each user based on these indexes, biometric information stored in the database 33, and user attributes. With this, for example, even in the case of biometric information (such as blood pressure) where individual differences are large, by referring to the results of regular examinations, it is possible to grasp the blood pressure of the user in normal times, and On the other hand, it is possible to individually determine the optimum normal value range. When the control unit 32 determines the normal value range of each user in this way, it sends this normal value range to the health management terminal 1 of each user. When the health management terminal 1 receives the normal value range information from the health management support system 30, it rewrites the normal value range information 100 stored in the RAM 13 with the latest normal value range information, and thereafter, based on this normal value range information. To determine whether the biometric information is normal.

Here, FIG. 5 shows an example of a temporal transition of the biometric information stored in the database 33. In FIG. 5, the horizontal axis represents time, and the vertical axis represents the value of certain biological information (for example, heart rate). Here, the normal value range is set to A to B in the period 1, and subsequently, at the start of the period 2 in which the predetermined period has elapsed, the control unit 32 determines the normal value range as described above. As a result, the normal value range is changed to C to D. In this way, when the normal value range is changed, the control unit 32
Transmits the normal value range to the corresponding health management terminal 1.

Further, the health management support system 30 determines the biometric information of each user at every predetermined period (for example, every period 1 and period 2 in FIG. 5), and the user joins the determination result. It transmits to the insurance organization 50 which is doing via the network 40. Here, if all the biometric information is transmitted to the insurance organization, the amount of data will be enormous and the management data will increase in the insurance organization. Therefore, to make it easier to understand the user's health condition,
Only the information regarding the biometric information detected as the abnormal value is transmitted to the insurance organization.

For example, a cumulative time that has been showing an abnormal value in a predetermined period can be cited. That is, in the temporal transition of the biometric information shown in FIG. 5, the abnormal value occurs 5 times in the period 2. In this case, the period indicating the abnormal value (for example, the period of α in the figure) is detected, and the total time of the detected times is transmitted to the insurance organization 50. Thereby, the insurance organization 50 can easily understand the health condition of each user, and can examine the insurance amount and the like according to the health condition.

The embodiment of the present invention has been described in detail above with reference to the drawings. However, the specific structure is not limited to this embodiment, and includes a design etc. within the scope not departing from the gist of the present invention. Be done. For example, in the above-described embodiment, the health management support system 1 has described the insurance institution 50 as a transmission destination to which biometric information and the like are transmitted, but the present invention is not limited to this, and medical institutions and other institutions that refer to biometric information and the like. May be transmitted to.

[0034]

As described above, according to the health management terminal of the present invention, the measuring means for measuring the biometric information for judging the health condition of the user, and the measured biometric information is retained for a predetermined period. First storage means, a determination means for determining whether or not the biometric information is a normal value based on preset normal value range information, and when the biometric information is determined not to be a normal value, The biometric information at the time of the determination and the biometric information measured in a predetermined period before the time of the determination are stored in the second storage means, and when the biometric information has a normal value, the predetermined conditions are met. And a data control means for storing only the biological information to be stored in the second storage means. As described above, by not writing all the biometric information measured by the measuring unit in the second memory, by limiting the biometric information stored in the second memory depending on whether the biometric information is normal, Since the storage capacity of the memory can be reduced, the terminal itself can be downsized and the cost can be reduced. Moreover, since the biometric information is automatically measured without the user performing a specific operation and a predetermined process is performed based on the biometric information, the burden on the user can be significantly reduced. Further, since the number of constituent elements is small, the device can be downsized and can be carried at all times, so that biological information can be constantly measured, and even a momentary abnormality can be detected without fail.

According to the health management terminal of the second aspect, when the free memory capacity of the second storage means becomes less than or equal to a predetermined value or when a preset time comes, The second storage means further includes a transmission means for transmitting the biometric information stored in the second storage means to the health management support system that centrally manages the biometric information. Therefore, the second storage means runs out of memory and the biometric data is stored in the terminal. Can be prevented from staying for a long time. Further, since all measured biometric information is not transmitted, it is possible to reduce the amount of data to be transmitted, and it is possible to reduce communication traffic and power consumption on the terminal side.

Further, according to the health management terminal of the third aspect, the data control means erases the biometric information stored in the second storage means after the transmission by the transmission means is completed. As described above, the biometric information transmitted to the health management support system is managed by the health management support system side, and therefore, the information is erased from the second storage unit, and the second storage The means can be used efficiently.

Further, according to the health management terminal of claim 4, when the judgment means judges that the biometric information is not a normal value, the abnormality notification means notifies the user of the abnormal value. By further including, the user can immediately recognize that an abnormal value has been detected.

Further, according to the health management terminal of the fifth aspect, it further comprises display means for displaying the biological information measured by the measuring means. By displaying the measured biometric information in this way, the user can grasp the biometric information himself / herself, which can be used as an index for health management in daily life.

Further, according to the health management terminal of claim 6, the normal value range information is information determined by the health management support system based on the biometric information of the user and the attribute of the user, The determination means determines whether or not the biometric information is a normal value based on the latest normal value range information transmitted from the health management support system. In this way, the determination means determines whether or not the biometric information is normal based on the latest normal value range information optimally determined for each user transmitted from the health management support system, and therefore extremely accurate. The biological information can be judged well, and the health management can be performed precisely.

Further, according to the invention described in claim 7, a receiving means for receiving the biometric information transmitted from the health management terminal for measuring the biometric information for judging the health condition of the user, and the user A storage unit that stores biometric information for each, and a normal value range determination unit that determines the normal value range of each user for each predetermined period based on the biometric information stored in the storage unit and / or the attribute of each user And, since it comprises a transmitting means for transmitting the determined normal value range to the corresponding health care terminal, for example, there is a large individual difference, it is difficult to determine the normal value range, or the normal value range to consider the individual difference Even with biometric information that is set very widely, by referring to the biometric information of the user in normal times, it is possible to determine the normal value range that seems to be optimal for each user. That. As a result, it is possible to judge whether the biometric information is abnormal or not with extremely high accuracy, and it is possible to perform accurate health management.

Further, according to the health management support system of the eighth aspect, in the biometric information of each user stored in the storage means, the detection means for detecting the abnormal value information for a predetermined period for each user. Since the transmitting means transmits the abnormal value information to the insurance institution to which the user is subscribed, the biometric information is sent to the insurance institution that changes the insurance amount depending on the health condition. By providing, the insurance organization can accurately grasp the health condition of each user, and can set an appropriate insurance amount for each user.

Further, according to the health management support system of the ninth aspect, the abnormal value information is information of a cumulative time when the biometric information is out of the normal value range in a predetermined period. In this way, if there is information on the cumulative time when the biometric information shows an abnormal value and the predetermined period, the insurance organization can grasp at what rate the abnormal value is detected. Then, by providing the insurance organization with the minimum parameters necessary for determining such a health condition, the amount of data handled by the insurance organization can be reduced.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a health management terminal according to an embodiment of the present invention.

2 is a diagram showing an example of information stored in a RAM 13 in FIG.

FIG. 3 is a flowchart showing an operation of the health management terminal according to the same embodiment.

FIG. 4 is a diagram showing a network configuration of a health management terminal and a health management support system according to an embodiment of the present invention.

FIG. 5 is a diagram showing a temporal transition of biometric information stored in the database of the health management support system according to the embodiment of the present invention.

[Explanation of symbols]

1 ... Health management terminal 11 ... CPU (determination means, data control means) 12 ... ROM 13 ... RAM 14 ... Display unit (abnormality notification means, display means) 15 ... Clock 16 ... Buffer (first storage means) 17 ... Main memory (second storage means) 18 ... Biological information measuring unit (measuring means) 19 ... Communication unit (transmitting means) 30 ... Health management support system 31 ... Communication unit (reception means, transmission means) 32 ... Control unit (detection means, normal value range determination means) 33 ... Database (storage means) 40 ... Network 50 ... Insurance company (insurance organization)

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Hidenori Oda             Kay, 2-3-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo             DDI Inc. (72) Inventor Sadao Obana             Kay, 2-3-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo             DDI Inc. (72) Inventor Yutaka Yasuda             Kay, 2-3-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo             DDI Inc.

Claims (9)

[Claims] 1. A measuring unit for measuring biometric information for determining a user's health condition, a first storage unit for holding the measured biometric information for a predetermined period, and whether or not the biometric information is a normal value. If it is determined that the biometric information is not a normal value, the determination means for determining whether or not based on the preset normal value range information, and the biometric information at the time of the determination, and in a predetermined period before the determination time. Data control for storing the measured biometric information in the second storage means, while storing only the biometric information that matches a predetermined condition in the second storage means when the biometric information has a normal value A health management terminal comprising means. 2. When the free memory capacity of the second storage means becomes less than or equal to a predetermined value, or when the current time reaches a preset time, it is stored in the second storage means. The health management terminal according to claim 1, further comprising a transmission unit that transmits the living body information that is stored to a health management support system that integrally manages the living body information. 3. The method according to claim 1, wherein the data control unit erases the biometric information stored in the second storage unit after the transmission by the transmission unit is completed. The listed health management terminal. 4. When the determination means determines that the biometric information is not a normal value, an abnormality notification means for notifying the user of the fact is further provided. The health management terminal according to any one of 3 above. 5. The health management terminal according to claim 1, further comprising display means for displaying the biological information measured by the measuring means. 6. The normal value range information is information determined by the health management support system based on the biometric information of the user and the attribute of the user, and the determination means is from the health management support system. The health management terminal according to claim 1, wherein it is determined whether or not the biometric information is a normal value based on the latest normal value range information transmitted. 7. A receiving means for receiving biometric information transmitted from a health management terminal for measuring biometric information for judging a user's health condition, and a storage means for storing the biometric information for each user. , A normal value range determining means for determining a normal value range of each user based on biometric information stored in the storage means or / and an attribute of each user, and the determined normal value range for each predetermined period. A health management support system comprising: a transmission unit that transmits the corresponding health management terminal. 8. The biometric information of each user stored in the storage means includes a detection means for detecting abnormal value information for a predetermined period for each user, and the transmission means includes:
The health management support system according to claim 7, wherein the abnormal value information is transmitted to an insurance organization to which the user has joined. 9. The health management according to claim 7, wherein the abnormal value information is information on a cumulative time during which the biometric information is out of the normal value range in the predetermined period. Support system.