JP6240448B2 - Biological information management apparatus, biological information management system, and biological information management method - Google Patents

Description

  The present invention relates to a biological information management device, a biological information management system, and a biological information management method for managing biological information, for example, when a patient measures biological information such as body temperature with a thermometer or the like at home. is there.

2. Description of the Related Art Conventionally, there has been proposed a biological information collection device that reads measurement data after a patient measures biological information such as body temperature with a device such as a thermometer at home or the like (eg, Patent Document 1).
Such an apparatus is desirable to be miniaturized, for example, to be brought to a hospital or the like, and efforts are being made to make it as small as possible.
Further, when the size is reduced, the storage capacity is also reduced, and it may be necessary to store biometric information data exceeding the storage capacity.

Japanese Patent No. 3759784

  However, when a plurality of pieces of biological information are stored, in order to newly store data, it is necessary to delete one of the pieces of biological information, and which biological information is to be deleted has been a problem. . In particular, when a plurality of types of biological information are stored, how to determine the priority order for deletion or the like becomes a problem.

  Therefore, an object of the present invention is to provide a biometric information management apparatus, a biometric information management system, and a biometric information management method capable of determining an optimal priority when deleting biometric information.

In the present invention, the above object is a portable biological information management device for storing a plurality of types of biological information of a subject measured by a plurality of types of biological information measuring devices, the type of the biological information Each of the biometric information storage devices has an independent biometric information storage unit, the biometric information acquired from the biometric information measurement device is stored in the biometric information storage unit, and stored in each of the biometric information storage units. The biological information is stored in association with identification information that further classifies the same type of biological information measuring device, and whether or not the latest information amount of the biological information exceeds the remaining capacity of the storage unit classified by biological information. When the remaining amount determining unit has a remaining amount determining unit and the remaining amount determining unit determines that the remaining capacity of the biometric information storage unit is exceeded, the identification information associated with the latest biological information is the same. total-time information of the biological information of Are selected in order from the old biometric information, and the biometric information stored in the biometric information storage unit is deleted to generate a storage area and store the latest biometric information. This is achieved by a biological information management device characterized in that:

According to the said structure, it has the memory | storage part classified by biological information for every kind of biological information, such as body temperature, and the biological information acquired from biological information measuring devices, such as a thermometer, is memorize | stored in the said memory | storage part classified by biological information. It has a configuration.
In addition, when the remaining amount determination unit determines that the remaining capacity of the biometric information-specific storage unit is exceeded, the storage area is generated by deleting the biometric information stored in the biometric information-specific storage unit In addition, the latest biometric information is stored.
Therefore, when storing the biological information such as the latest body temperature information, when the existing body information needs to be deleted, the same body temperature information and the like are deleted, so other biological information such as blood glucose level is deleted. There is nothing.
Therefore, for example, even when there is little data stored in other biological information and should not be deleted, other biological information is not deleted. Therefore, when deleting the biological information, an optimal priority order can be determined.
Moreover, according to the said structure, when deleting the biometric information memorize | stored in the said memory | storage part classified by biometric information, time information, such as the date of the biometric information with the same identification information linked | related with the newest biometric information, is measured. Since the biometric information is selected and deleted in order from the oldest biometric information, the biometric information of other identification information is not deleted, and a more accurate superiority ranking can be determined.

  Preferably, the biological information management system includes the biological information management device, the biological information measurement device, and a medical worker terminal device operated by a medical worker, wherein the biological information management device is in a card shape. In addition, the biometric information measuring device and the medical staff terminal device are configured to be capable of short-range wireless communication.

According to the above configuration, since the biological information management device is in a card shape, the user can easily carry it, and easily acquire and store biological information from a biological information measurement device such as a thermometer by short-range wireless communication. Can do.
Furthermore, since the stored biometric information can be provided to a medical worker such as a doctor simply by bringing the card-like biometric information management device close to a medical staff terminal device such as a hospital, the diagnosis of the doctor or the like can be made quickly and easily. be able to.

The above object is a biological information management method using a portable biological information management device for storing a plurality of types of biological information of a subject measured by a plurality of types of biological information measurement devices. The biological information acquired from the biological information measuring device is stored in the biological information storage unit independent for each type of the biological information, and the biological information stored in each of the biological information storage units is: A remaining amount determination unit for storing whether or not the information amount of the latest biological information exceeds the remaining capacity of the storage unit for each biological information stored in association with identification information for further classifying the biological information measuring device of the same type Determine the remaining capacity, and when the remaining capacity determining unit determines that the remaining capacity of the storage unit classified by biometric information is exceeded, the identification information associated with the latest biometric information is the same. when the total of the biological information A configuration in which the latest biometric information is selected in order from the oldest biometric information, and the biometric information stored in the biometric information storage unit is deleted to generate a storage area and store the latest biometric information; This is achieved by a biological information management method characterized by

  As described above, according to the present invention, it is possible to provide a biometric information management apparatus, a biometric information management system, and a biometric information management method that can determine an optimal priority when deleting biometric information.

It is the schematic which shows the biometric information management system concerning embodiment of this invention. It is a schematic block diagram which shows the main structures of the doctor terminal of FIG. It is a schematic block diagram which shows the main structures of the thermometer shown in FIG. It is a schematic block diagram which shows the main structures of the data card of FIG. It is a schematic block diagram which shows the main structures of a 1st information storage part. It is a schematic block diagram which shows the main structures of a 2nd information storage part. It is a schematic block diagram which shows the main structures of a 3rd information storage part. It is a schematic flowchart which shows the process in which the thermometer of FIG. 1 measures a user's (patient) body temperature, and memorize | stores the data. It is a schematic flowchart which shows the process in which a data card acquires body temperature information etc. from a thermometer. It is another schematic flowchart which shows the process in which a data card acquires body temperature information etc. from a thermometer. It is another schematic flowchart which shows the process in which a data card acquires body temperature information etc. from a thermometer. It is a general | schematic flowchart which shows the process in which a user (patient) goes to a hospital and provides biometric information, such as an own body temperature, from the possessed data card.

DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
The embodiments described below are preferred specific examples of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. Unless otherwise stated, the present invention is not limited to these embodiments.

FIG. 1 is a schematic diagram showing a biological information management system 1 according to an embodiment of the present invention.
As shown in FIG. 1, the biological information management system 1 includes a flat card-like data card 10 that is a biological information management device, for example.
The data card 10 has a size that can be easily carried by a user, who is the subject, in a pocket or the like.
The biological information management system 1 is a biological information measuring device, for example, a thermometer 50 that measures a user's body temperature, a sphygmomanometer that measures blood pressure 3, a blood glucose meter 4 that measures blood sugar level, and body fat and muscle mass, It has a body composition meter 5 for measuring the composition of the human body such as bone mass.
These thermometers 50 and the like are devices that are placed in the user's home 6 and used by the user to measure biological information such as body temperature at home. Body temperature, blood pressure, blood sugar level, body fat, and the like are examples of biological information. It has become.

Further, as will be described later, the data card 10, the thermometer 50, and the like have a short-range wireless communication device and are configured to be able to perform data communication by electromagnetic induction or the like when arranged close to each other.
Therefore, for example, when the user measures the body temperature using the thermometer 50 and then brings the data card 10 close to the thermometer 50, data communication is started, and the body temperature information stored in the thermometer 50 is transmitted to the data card 10. It becomes the composition which is done.

Further, as shown in FIG. 1, the biological information management system 1 includes, for example, a doctor terminal (PC) 80 that is a medical worker terminal device disposed in a hospital 7.
The doctor terminal 80 is connected to the hospital server 100 or the like, and is configured to be able to refer to patient (user) data or the like.
Further, the doctor terminal 80 has a terminal reader device 81 as shown in FIG. For this reason, when the user goes to the hospital as a patient, bring the data card 10 and bring it close to the terminal reader / writer 81 so that the data such as the body temperature stored in the data card 10 can be transferred to the doctor terminal 80. Thus, the data can be input to the hospital server 100, and the data such as the body temperature can be displayed on the terminal side display 82 of the doctor terminal 80.

The data card 10 includes a “button switch 11” that oscillates electromagnetic waves and the like when the data card 10 starts communication, a green LED lamp 12a indicating “OK”, and a red LED indicating “NG”. It has a lamp 12b.
These functions will be described later.

  The doctor terminal 80, the hospital server 100, the data card 10, the thermometer 50, the sphygmomanometer 3, the blood glucose meter 4, and the body composition meter 5 shown in FIG. 1 have a computer, and the computer is a CPU (Central Processing Unit) (not shown). RAM (Random Access Memory), ROM (Read Only Memory), etc., which are connected via a bus.

  FIG. 2 is a schematic block diagram showing the main configuration of the doctor terminal 80 of FIG. As shown in FIG. 2, the doctor terminal 80 has a terminal control unit 83, and the terminal control unit 83 controls the terminal reader device 81 and the terminal-side display 82 shown in FIG. The terminal-side input device 84 such as a keyboard for inputting and the terminal-side various information storage unit 85 for storing various information are also controlled.

FIG. 3 is a schematic block diagram showing the main configuration of the thermometer 50 shown in FIG. FIG. 1 also shows a sphygmomanometer 3, a blood glucose meter 4, and a body composition meter 5. In the present embodiment, a thermometer 50 will be described as an example.
Therefore, the other blood pressure monitors 3 are different from each other in living body information to be measured, but other information processing and the like are performed in the same manner as the thermometer 50.

As shown in FIG. 3, the thermometer 50 includes a “thermometer control unit 51”, and the thermometer control unit 51 includes a “thermometer-side communication device 52”, “power switch” for performing short-range wireless communication with the data card 10. 53 ”,“ Body temperature measuring device 54 ”having“ Sensor (thermistor) 54a ”for measuring body temperature,“ Time measuring device 55 ”for generating time information,“ Thermometer side display 56 ”for displaying numerical values such as body temperature, etc. It is the structure to control.
Moreover, although the thermometer control part 51 controls the program etc. which are the various memory | storage parts shown in FIG. 3, and a process part, these contents are mentioned later.

FIG. 4 is a schematic block diagram showing the main configuration of the data card 10 of FIG. As shown in FIG. 4, the data card 10 includes a microcomputer 13 having a timer unit 13a. The microcomputer 13 controls the “card display (LED) 12” and the “button switch 11” including the “battery 14”, the “OK” lamp 12a and the “NG” lamp 12b described above, the “power switch 15”, It is also configured to control the “data card reader / writer 16” for performing short-range wireless communication with the thermometer 50 and the terminal read / write device 81.
Further, the microcomputer 13 controls the nonvolatile memory 17, and various information such as “first information storage unit 20”, “second information storage unit 30”, and “third information storage unit” are stored in the nonvolatile memory 17. It has an information storage unit 40 ".

  FIGS. 5 to 7 are schematic block diagrams showing main configurations of the first information storage unit 20, the second information storage unit 30, and the third information storage unit 40, respectively. Each content will be described later.

FIG. 8 is a schematic flowchart showing a process in which the thermometer 50 of FIG. 1 measures the temperature of the user (patient) and stores the data.
First, in step ST (hereinafter referred to as “ST”) 1 in FIG. 8, it is determined whether or not the power switch 53 of the thermometer 50 is turned on. Specifically, the power switch 53 is automatically turned on when the cap (not shown) of the thermometer 50 is removed by the user.

Next, the process proceeds to ST2. In ST2, it is determined whether or not the body temperature measurement device 54 of FIG. 3 has calculated a predicted equilibrium temperature value (or an actually measured temperature value). If it is determined that the calculation has been performed, the process proceeds to ST3.
In ST3, the body temperature measuring device 54 stores the “predicted equilibrium temperature value (or actually measured temperature value)” in the “thermometer identification number (for example, the thermometer identification number information storage unit 58” in FIG. 12345Model: abc) ”and“ time measuring device 55 ”are associated with time information and stored in“ measured temperature information storage unit 59 ”in FIG.
Further, the predicted equilibrium temperature value (actually measured temperature value) is displayed on the thermometer-side display 56.

  As described above, the thermometer 50 displays the body temperature information of the user together with, for example, the identification number of the thermometer 50, for example, the identification number and the time information, for example, the time information (measurement date and time). Will be memorized.

9 to 11 are schematic flowcharts showing a process in which the data card 10 acquires body temperature information and the like from the thermometer 50.
First, the user possesses the data card 10 of FIG. 1, brings it close to the thermometer 50, and presses the button switch 11 of FIG. 1 or the like to turn it on.
Therefore, in ST11 of FIG. 9, it is determined whether or not the button switch 11 has been pressed.
When the button switch 11 is pressed in ST11 and the switch is determined to be in the ON (on) state, the process proceeds to ST12.

In ST12, a self-diagnosis is executed and a nonvolatile memory or the like is checked. Next, the process proceeds to ST13, where it is determined whether or not the battery voltage of the “battery 14” of the data card 10 is sufficient. If sufficient, the process proceeds to ST14.
In ST14, it is determined whether the data card reader / writer 16 has detected the magnetic field of the thermometer-side communication device 52 or not.
If it is determined in ST13 that the “battery voltage” is insufficient, or if a magnetic field cannot be detected in ST14, the power switch 15 is turned off and the process is terminated. The equal execution unit (program) 21 "executes.

If it is determined in ST13 that the “battery voltage” is insufficient, or if a magnetic field cannot be detected in ST14, the process ends.
If the magnetic field can be detected in ST14, the process proceeds to ST15. In ST15, it communicates with the thermometer 50, acquires the “thermometer identification number (for example, 12345Model: abc)” of the thermometer 50 stored in the “thermometer identification number information storage unit 58” of FIG. This is stored in the “target device identification information storage unit 31” in FIG.
This operation is executed by the “target device identification information acquisition unit (program) 32” in FIG.

Next, the process proceeds to ST16. In ST16, the “data acquisition target device determination unit (program) 33” in FIG. 6 is executed, and the “data target device information storage unit 34” of the data card 10 is referred to.
The “data target device information storage unit 34” stores a device identification number (for example, a thermometer identification number (12345 Model: abc)) of a device such as the thermometer 50 that is the data acquisition target of the data card 10. Yes,

Accordingly, by referring to the data target device information storage unit 34, the target device (the device such as the thermometer 50 stored in the target device identification information storage unit 31) with which the data card 10 is currently communicating is excluded. Therefore, it is possible to prevent the measurement data and the like from being acquired from a device such as the thermometer 50 that is not targeted by mistake.
In this way, the data card 10 determines whether or not a device (such as a thermometer) stored in the “target device identification information storage unit 31” is included in the target device.

If it is determined in ST16 that the device is not a target device, the process proceeds to ST17, the “NG” lamp (red) in FIG.
On the other hand, when it is determined that the device is a target device, the process proceeds to ST18. In ST <b> 18, the data card 10 transmits a “data card side inquiry signal” for making an inquiry about the temperature information measured by the thermometer 50 to the thermometer 50.

  Next, the process proceeds to ST19. In ST19, for example, the latest “year / month / day (time)” of the body temperature information of the thermometer 50 (thermometer identification number 12345Model: abc) stored in the body temperature information storage area, which is a storage unit by biometric information of the data card 10, for example. A “thermometer-side inquiry signal” for inquiring data is transmitted from the thermometer 50 to the data card 10.

That is, as shown in FIG. 5, the data card 10 includes a card information storage unit 22, and the card information storage unit 22 includes body temperature, blood pressure, blood glucose level, body composition, and activity, which are biometric information stored therein. It has independent regions that differ depending on the amount.
Specifically, a data card setting information storage area and a device registration information storage area are formed as the common area. In this device registration information storage area, a thermometer identification number (12345Model: abc) of the thermometer is stored.
Further, as the data area, a body temperature information storage area, a blood pressure information storage area, a blood glucose level information storage area, a body composition information storage area, and an activity meter storage area are formed separately and communicate with the data card 10 When the thermometer 50 is the thermometer 50, the measurement data is stored in the “body temperature information storage area” and not stored in other areas.

In addition, the storage capacity is allocated to each data area and the like, and a “distribution memory size” is defined as shown in FIG.
Therefore, the data of each biological information is stored in the data information activity unit 22 separately from other biological information without being mixed.
Also, when the amount of data, for example, each amount of activity amount information is larger than the body temperature information data, the distribution memory size of the activity amount information storage area is set larger than the body temperature information storage area in advance. Is distributed so that it is optimal.

  In addition, the information stored in each data area includes not only specific body temperature information (36.8 ° C., etc.) but also its measurement as shown in “Contents of stored information in body temperature information storage area” in FIG. For example, date and time (time) information (July 10, 2013, etc.), a thermometer identification number (12345 Model: abc, etc.) and a data size (data amount) of the thermometer 50 are stored as time information. .

Therefore, in ST19, the thermometer 50 includes the latest date (time) of the thermometer 50, for example, 12345Model: abc, among the stored information contents of the “thermometer information storage area” of the card information storage unit 22 of FIG. The thermometer 50 transmits a signal for inquiring data to the data card 10.
Specifically, the “received data inquiry unit (program) 60” in FIG. 3 executes.

  Next, the process proceeds to ST20. In ST20, the "latest measurement information transmission unit (program) 35" of FIG. 6 is executed in the data card 10, and the latest "year, month, day (time) of the temperature information of the thermometer 50 (thermometer identification number 12345Model: abc) is executed. ”Data (for example, July 15, 2013) is transmitted to the thermometer 50.

  Next, the process proceeds to ST21. In ST21, the thermometer 50 receives the latest “date (date)” data (for example, July 15, 2013) of the temperature information, and stores it in the “thermometer-side latest information storage unit 61” in FIG. .

  Next, the process proceeds to ST22. In ST22, the “latest information determination unit (program) 62” in FIG. 3 of the thermometer 10 is executed. With reference to the “thermometer-side latest information storage unit 61” and the “measured body temperature information storage unit 59” in FIG. The latest “date (date)” of the “thermometer-side latest information storage unit 61”, for example, “latest data” which is the latest data from July 15, 2013, exists in the “measured body temperature information storage unit 59”. If there is no “latest data”, the process ends.

  Therefore, in this embodiment, the thermometer 10 transmits only the latest new data without transmitting the “measured body temperature information” already transmitted to the data card 10 again, thereby preventing unnecessary transmission / reception in advance. be able to.

On the other hand, when “most recent data” exists in ST22, the process proceeds to ST23, and the thermometer transmits the latest data (for example, measurement date (time), thermometer identification number, body temperature information) to the data card.
Next, the process proceeds to ST24. In ST24, the “data size information generation unit (program) 36” of FIG. 6 of the data card 10 is executed to generate the data size information of the “most recent data” received from the thermometer 50 and associate it with the “most recent data”. , And stored in the “provisional storage unit 41” in FIG.

  Next, the process proceeds to ST25. In ST25, the “memory remaining amount calculation unit (program) 42” in FIG. 7 operates, and the “storage area name” (“card information storage unit 22” in FIG. 5 of the device (thermometer 50) to which the “most recent data” belongs ( For example, “Remaining memory size” is calculated by comparing the “distribution memory size” of “Body temperature information storage area”) with the total of “Data size” stored in “Storage information of body temperature information storage area”. , And stored in the “memory remaining amount storage unit 43”.

Next, the process proceeds to ST26. In ST26, for example, the “memory size remaining amount determining unit (program) 44” that is the remaining amount determining unit of the data card 10 operates, and the “data size” of “nearest data” in the “temporary storage unit 41” is “memory”. It is determined whether or not it is equal to or less than “memory size remaining amount data” in the “remaining amount storage unit 43”.
The “data size” of “most recent data” is an example of the information amount of the latest biological information.

When it is determined in ST26 that the “data size” of “nearest data” in “temporary storage unit 41” is equal to or less than “memory size remaining data” in “memory remaining amount storage unit 43”, “nearest data” is stored. This means that the capacity to be stored does not remain in the “body temperature information storage area”.
At this time, in the present embodiment, the “most recent data” is stored in the “body temperature information storage area” without considering the remaining amount of the other blood pressure information storage area or the like in the “card information storage unit 22” of FIG. The process to make is performed.
Thereby, in the data card 10, the measurement information of each biological information is reliably stored and secured for each biological information.

If it is determined in ST26 that the “data size” of “recent data” is equal to or less than “memory size remaining data” in “memory remaining capacity storage unit 43”, the process proceeds to ST27.
In ST27, the “data size organization processing unit (program) 45” in FIG. 7 operates, and the “memory size remaining data” in the “memory remaining amount storage unit 43” in FIG. “Data size” of each data in “Body temperature information storage area” of “22” is added in ascending order of “year, month, day (time)”, and the added “virtual data size” is equal to or greater than “memory size remaining amount data” Addition is continued in order until the result becomes, and each added data is deleted.

  Therefore, when the “most recent data” stores “body temperature information” in the data card 10, the oldest data among the data of the same biological information is replaced without deleting blood pressure information or the like that is other biological information. Therefore, it is possible to determine an optimal priority order regarding deletion of biometric information and the like.

In the present embodiment, the temperature data stored in the same temperature information storage area is configured to delete the old data regardless of the “thermometer identification number (12345 Model: abc etc.)”. Not only the thermometer 50 of the “most recent data” but also the “thermometer identification number” (for example, 12345 Model: abc) of the same body temperature information, old data may be deleted.
In this case, even with the same thermometer 50, data with different thermometer identification numbers is left, so that it is possible to determine a superior ranking with higher accuracy.

  On the other hand, if it is determined in ST26 that the “data size” of “recent data” is equal to or less than “memory size remaining data” in “memory remaining capacity storage unit 43”, the process proceeds to ST28. In this case, since the capacity for storing “recent data” remains in the “body temperature information storage area”, it is stored as it is.

Although the process etc. which memorize | store the data of the thermometer 50 in the data card | curd 10 were demonstrated above, the data card | curd 10 is another living body, such as the blood pressure meter 3, the blood glucose meter 4, and the body composition meter 5 shown in FIG. Biometric information is acquired and stored from a device that acquires the information.
Then, the user with this small data card 10 goes to the hospital 7 in FIG. 1 and provides the data in the data card 10 to a doctor or the like.

FIG. 12 is a schematic flowchart showing a process in which a user (patient) goes to a hospital and provides biological information such as his / her body temperature from the data card 10 he / she has.
First, the user brings the carried data card 10 close to the terminal reader / writer 81 of the doctor terminal 80 of FIG.
Then, the process proceeds to ST41 in FIG. In ST41, the data card 10 determines whether or not the magnetic field of the terminal reader / writer device 81 of the doctor terminal 80 has been detected.

Next, the process proceeds to ST42, and the data card 10 performs “self-diagnosis execution (check of nonvolatile memory, etc.)” similarly to the above-described ST12, and proceeds to ST43.
In ST43, it is determined whether the battery voltage is sufficient as in ST13 described above. If sufficient, the process proceeds to ST44.

In ST44, the data card 10 determines whether or not a polling command has been received from the terminal reader / writer device 81. If received, the process proceeds to ST45.
In ST45, the data card 10 transmits data such as “body temperature information storage area” in the “data area” of the “card information storage unit 22” in FIG. 5 to the doctor terminal 80.

  Through the above process, the hospital can obtain the temperature information of the user (patient) at home together with information such as the date of measurement, etc. Based on these data, the hospital (doctor) Diagnosis becomes easier.

By the way, the present invention is not limited to the above-described embodiment. In the present embodiment, the body temperature information is described as an example after the biological information, but other biological information such as pulse information can be handled in the same manner.
Moreover, not only the data card 10 but also a multi-function mobile phone (so-called smart phone) with a PDA function in addition to telephone / e-mail, PDA (Personal Digital Assistant), portable PC (personal computer), etc. can be applied. is there.

  DESCRIPTION OF SYMBOLS 1 ... Biological information management system, 3 ... Blood pressure monitor, 4 ... Blood glucose meter, 5 ... Body composition meter, 10 ... Data card, 11 ... Button switch, 12 ... Card Display (LED), 12a ... OK lamp, 12b ... NG lamp, 13 ... microcomputer, 13a ... timer, 14 ... battery, 15 ... power switch, 16 ... data Card reader / writer, 17 ... nonvolatile memory, 20 ... first information storage unit, 21 ... self-diagnosis execution unit (program), 22 ... card information storage unit, 30 ... Second information storage unit 31 ... Target device identification information storage unit 32 ... Target device identification information acquisition unit (program) 33 ... Data acquisition target device determination unit (program) 34 -Data target device information storage unit, 35 -Latest measurement information transmission unit (program), 36 ... data size information generation unit (program), 40 ... third information storage unit, 41 ... temporary storage unit, 42 ... memory remaining amount calculation Part (program), 43 ... remaining memory storage part, 44 ... remaining memory size judgment part (program), 45 ... data size organization processing part (program), 50 ... thermometer, 51 ..Thermometer control unit, 52... Thermometer side communication device, 53... Power switch, 54... Body temperature measuring device, 54 a... Sensor (thermistor), 55. Thermometer side display, 58... Thermometer identification information storage unit, 59... Measurement body temperature information storage unit, 60... Received data inquiry unit (program), 61. ..Most Information determination unit (program), 80 ... terminal for doctor, 81 ... terminal reader / reader device, 82 ... terminal side display, 83 ... terminal control unit, 84 ... terminal side input device, 85: Various information storage units on the terminal side, 100: Hospital server

Claims (3)

A portable biological information management device for storing a plurality of types of biological information of a subject measured by a plurality of types of biological information measuring devices,
A separate biometric information storage unit for each type of biometric information,
The biological information acquired from the biological information measuring device is stored in the biological information storage unit,
The biological information stored in each of the biological information storage units is stored in association with identification information that further classifies the same type of biological information measuring device,
A remaining amount determination unit for determining whether or not the latest information amount of the biological information exceeds a remaining capacity of the storage unit for each biological information,
The remaining amount determining unit, when it is determined to exceed the remaining capacity of the said biometric information specific storage unit, a total time of information of the identification information is identical the biometric information associated with the latest of the biological information Are selected in order from the oldest biometric information, and the biometric information stored in the biometric information storage unit is deleted, thereby generating a storage area and storing the latest biometric information. A biological information management apparatus characterized by comprising: The biological information management device;
The biological information measuring device;
A medical staff terminal device operated by a medical staff, and a biological information management system comprising:
The biometric information management device is configured in a card shape and is configured to be capable of short-range wireless communication with the biometric information measurement device and the medical staff terminal device. A biological information management system comprising the biological information management device described. A biological information management method using a portable biological information management device for storing a plurality of types of biological information of a subject measured by a plurality of types of biological information measurement devices,
The biological information acquired from the biological information measuring device is stored in the raw body information by storing unit independent for each type of the biological information,
The biological information stored in each of the biological information storage units is stored in association with identification information that further classifies the same type of biological information measuring device,
The remaining amount determination unit for determining whether or not the latest information amount of the biological information exceeds the remaining capacity of the storage unit by biological information determines the remaining capacity,
The remaining amount determining unit, when it is determined to exceed the remaining capacity of the said biometric information specific storage unit, a total time of information of the identification information is identical the biometric information associated with the latest of the biological information Are selected in order from the oldest biometric information, and the biometric information stored in the biometric information storage unit is deleted, thereby generating a storage area and storing the latest biometric information. A biological information management method characterized by comprising:

Images