JP2005304996A - Living body information monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a living body information monitoring system which does not misidentify the situation of a test subject from an abnormal output value caused by the breakdown, the lowered sensitivity by aging, and the temperature susceptibility of a sensor. <P>SOLUTION: The system uses a means 513 for diagnosing the breakdown of the sensor to diagnose the breakdown of a living body information measuring terminal unit 51, and uses a means 514 for correcting an output to correct the output of the living body information measuring terminal unit 51. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a biological information monitoring system that monitors biological information of a subject, a biological information monitoring method that monitors biological information of the subject, a biological information measurement terminal that measures biological information of the subject, and biological information reception that receives the biological information of the subject. Regarding terminals.

2. Description of the Related Art Conventionally, a system for measuring biological information of a subject and notifying the measured information to a monitor via a network such as a public line has been known. For example, information regarding the behavior state of the person to be detected is automatically transmitted to the first Internet terminal of a predetermined manager (for example, a doctor) via the Internet, and two-way communication is performed with the first Internet terminal via the Internet. By using the second Internet terminal, a technology (see Patent Document 1) that provides a behavior detection system that enables information exchange between a person to be detected or its assistant and an administrator, In a health management network system, there is a technique (see Patent Document 2) characterized by providing a system that can automatically detect a failure point of a communication network and quickly recover it.
JP 2002-149824 A (refer to FIG. 1 on page 9) Japanese Patent Laid-Open No. 2000-151621 (refer to FIG. 1 on page 5)

  In the prior art, there is one that performs network failure diagnosis as in Patent Document 2, but does not perform failure diagnosis of a sensor that measures biological information, and monitoring is performed when the sensor fails and outputs an abnormal value. The person misidentifies that an abnormality occurred in the subject. In addition, in the system for managing the behavior information of the detection target person as in Patent Document 1, since it does not take into account the effects of sensor sensitivity degradation and sensor temperature dependence over time, it is used when used for a long time. When the environment changes, the sensor outputs a value different from the true value, and the monitor cannot accurately know the condition of the subject.

  Accordingly, an object of the present invention is to provide a biological information monitoring system and a biological information monitoring method that perform a failure diagnosis of a sensor and that does not misidentify an abnormality in an output value caused by the failure of the sensor as an abnormality of a subject. It is another object of the present invention to provide a highly reliable biological information monitoring system and biological information monitoring method by correcting sensor output.

  In order to solve the above object, a biological information monitoring system of the present invention includes a biological information measuring unit that measures biological information of a subject, a storage unit that stores the biological information, and a display unit that displays the stored biological information. A biological information monitoring system comprising a failure diagnosis means for performing failure diagnosis of a sensor that measures biological information.

  A biological information monitoring system according to the present invention includes a biological information measuring unit that measures biological information of a subject, a storage unit that stores the biological information, and a transmission unit that transmits the measured biological information. A biological information monitoring system comprising: a measurement result receiving unit that receives the biological information of the subject transmitted from the biological information measurement terminal; and a storage unit that stores the received biological information. The biological information measurement terminal is a biological information monitoring system comprising failure diagnosis means for performing failure diagnosis of a sensor that measures biological information.

  The biological information measured by the biological information measuring means is behavior information of the subject.

  Further, the biological information measuring means is an acceleration sensor for measuring the behavior information of the subject, and the failure diagnosis means is a failure diagnosis means for diagnosing the acceleration sensor by applying vibration to the acceleration sensor. To do.

  In addition, the failure diagnosis unit is configured to provide a threshold value that defines an output value of the biological information measurement unit and a predetermined normal range when a predetermined vibration is applied to the biological information measurement unit using a vibrator. Is a failure diagnosis means for performing a failure diagnosis of the biological information measuring means.

  The biological information monitoring system of the present invention is a biological information monitoring system comprising biological information measuring means for measuring biological information of a subject, storage means for storing the biological information, and display means for displaying the stored biological information. A biological information monitoring system comprising sensor output correction means for correcting sensor output for measuring biological information.

  A biological information monitoring system according to the present invention includes a biological information measuring unit that measures biological information of a subject, a storage unit that stores the biological information, and a transmission unit that transmits the measured biological information. A biological information monitoring system comprising: a measurement result receiving unit that receives the biological information of the subject transmitted from the biological information measurement terminal; and a storage unit that stores the received biological information. The biological information measurement terminal is a biological information monitoring system comprising sensor output correction means for correcting sensor output for measuring biological information.

  The biological information measured by the biological information measuring means is behavior information of the subject.

  The biological information measuring means is an acceleration sensor that measures the behavior information of the subject, and the sensor output correcting means is a sensor output correcting means that corrects the acceleration sensor output by applying vibration to the acceleration sensor. Features.

  Further, the sensor output correction means is a correction coefficient obtained from a theoretical output value and an actual output value of the biological information measurement means, which are obtained when a predetermined vibration is applied to the biological information measurement means using a vibrator. And the actual output value is corrected using the correction coefficient.

  The biological information monitoring system of the present invention includes a biological information measuring unit that measures biological information of a subject, a failure diagnostic unit that performs failure diagnosis of a sensor that measures biological information, and a transmission unit that transmits measured biological information. A biological information measuring terminal, a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information; A biological information monitoring system comprising: the biological information receiving terminal; and a computer connected through a public line.

The biological information monitoring system of the present invention includes biological information measuring means for measuring biological information of a subject, sensor output correcting means for correcting sensor output for measuring biological information, and transmitting means for transmitting measured biological information. A biological information measuring terminal, a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information. When,
A biological information monitoring system comprising the biological information receiving terminal and a computer connected through a public line.

  The biological information monitoring method of the present invention includes a step of measuring biological information of a subject, a step of transmitting the measured biological information, a step of receiving the biological information, a step of storing the received biological information, A biological information monitoring method comprising: a step of performing failure diagnosis of a sensor that measures information.

  The biological information monitoring method of the present invention includes a step of applying a predetermined vibration to the biological information measuring means of the biological information measuring terminal, an output value of the biological information measuring means, and a threshold value that defines a predetermined normal range. And a step of diagnosing whether or not the biological information measuring means is out of order based on the result of the comparison.

The biological information monitoring method of the present invention includes a step of measuring biological information of a subject, a step of transmitting the measured biological information, a step of receiving the biological information,
A biological information monitoring method comprising: storing received biological information; and correcting a sensor output for measuring biological information.

  The biological information monitoring method of the present invention includes a step of applying a predetermined vibration to the biological information measuring means of the biological information measuring terminal, and a correction coefficient is calculated from a theoretical output value and an actual output value of the biological information measuring means. And a step of correcting an actual output value using a correction coefficient, and performing the output correction.

  The biological information measuring terminal of the present invention includes a biological information measuring unit that measures biological information of a subject, a transmitting unit that transmits the measured biological information, a failure diagnostic unit that performs a failure diagnosis of a sensor that measures the biological information, , A biological information measuring terminal.

  The biological information measuring terminal of the present invention includes a biological information measuring means for measuring biological information of a subject, a transmitting means for transmitting the measured biological information, and a sensor output correcting means for correcting sensor output for measuring the biological information. And a biometric information measuring terminal.

  The biological information monitoring system of the present invention is transmitted from a biological information measuring terminal having a biological information measuring means for measuring biological information of a subject and a transmitting means for transmitting the measured biological information, and the biological information measuring terminal. A biological information monitoring system comprising: a measurement result receiving means for receiving the biological information of the subject; and a storage means for storing the received biological information, wherein the biological information receiving terminal A biological information monitoring system comprising failure diagnosis means for performing failure diagnosis of a sensor for measuring information.

  The biological information monitoring system of the present invention is transmitted from a biological information measuring terminal having a biological information measuring means for measuring biological information of a subject and a transmitting means for transmitting the measured biological information, and the biological information measuring terminal. A biological information monitoring system comprising: a measurement result receiving means for receiving the biological information of the subject; and a storage means for storing the received biological information, wherein the biological information receiving terminal A biological information monitoring system comprising sensor output correction means for correcting sensor output for measuring information.

  The biological information monitoring system includes a computer connected to the biological information receiving terminal through a public line.

  In addition, the biological information receiving terminal transmits information on failure diagnosis results and / or information on sensor output correction to the computer, and the computer transmits information on the failure diagnosis results and / or information on sensor output correction. It is characterized by managing.

  According to the present invention, by performing a failure diagnosis of the biological information measuring means in the biological information monitoring system, the monitor misidentifies that an abnormality has occurred in the subject when the biological information measurement terminal fails and outputs an abnormal value. Can reduce the risk of Further, by correcting the output of the biological information measuring means, it is possible to eliminate the influence of sensitivity reduction with time and sensitivity change due to temperature, and to provide a highly reliable biological information monitoring system.

  Moreover, in the remote biological information monitoring terminal, the failure diagnosis result and output correction information of the biological information measuring terminal owned by the subject can be managed. And it becomes possible to provide various services to the subject by processing the information. For example, by continuously observing the transition of the correction coefficient for a biological information measuring terminal that is determined to be normal from the result of failure diagnosis, it is possible to predict when the biological information measuring terminal will fail. The biological information monitoring terminal can provide a highly reliable biological information monitoring system to the subject by providing the predicted information to the subject.

  In addition, the function of the biological information measuring terminal can be simplified by performing failure diagnosis and output correction at the biological information receiving terminal. For example, if the biological information measuring terminal is battery-driven, it has the effect of extending the battery life. can get.

EXAMPLES Examples will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing a basic structure of a biological information measuring terminal according to the first embodiment of the present invention. As shown in this figure, the biological information measuring terminal 11 includes a biological information measuring unit 111 that measures the biological information of the subject, a recording unit 112 that records the biological information of the subject measured by the biological information measuring unit 111, and A failure diagnosis unit 113 that performs a failure diagnosis of the biological information measurement unit 111 using an output signal of the biological information measurement unit 111 and a correction of an output of the biological information measurement unit 111 using an output signal of the biological information measurement unit 111 Output correcting means 114, and a display means 115 for displaying the diagnosis result of the failure diagnosing means 113 and the biological information of the subject corrected by the output correcting means 114.

  FIG. 2 is a block diagram of a biological information monitoring system using the biological information measuring terminal according to the embodiment of the present invention. In the present embodiment, the biological information monitoring system includes a biological information measuring terminal 21 possessed by a subject and a biological information receiving terminal 22 that communicates with the biological information measuring terminal 21. The biometric information receiving terminal 22 is used by the monitor to monitor the state of the subject in addition to the subject confirming his / her state.

  The biological information measuring terminal 21 includes behavior information measuring means 211 that measures behavior information that is a kind of biological information of a subject, storage means 212 that stores the measurement results of the behavior information measuring means 211, and the behavior information measuring means. 211, a failure diagnosis unit 213 that performs failure diagnosis of 211, an output correction unit 214 that corrects an output of the behavior information measurement unit 211, a failure diagnosis result diagnosed by the failure diagnosis unit 213, and a correction by the output correction unit 214 And transmission means 215 for transmitting the behavior information of the subject to the biological information receiving terminal 22.

  The biological information receiving terminal 22 receives a failure diagnosis result of the biological information measuring terminal and behavior information of the subject sent from the transmitting means 215, and a failure diagnosis of the received biological information measuring terminal 21. It comprises a recording means 222 for recording the result and the behavior information of the subject, and a display means 223 for displaying the failure diagnosis result stored in the storage means 222 and the behavior information of the subject.

  The behavior information measuring unit 211 measures a subject's movement, posture, and the like using, for example, an acceleration sensor, a gyro sensor, and a tilt sensor. The failure diagnosis means 213 has, for example, a vibrator that vibrates in the same direction as the sensitivity direction of the sensor, and the action information measurement means 211 when the vibration is given to the action information measurement means 211 using the vibrator. A failure diagnosis is performed based on whether the output deviates from a threshold value stored in advance in the storage unit 212. Details of the failure diagnosis method will be described later. The transmission unit 215 and the reception unit 221 perform communication using, for example, Bluetooth or weak wireless. The storage unit 222 is a CPU-equipped storage device for writing the subject's biological information received by the receiving unit 221 into a storage medium such as a flash memory or a hard disk. The output correction unit 214 includes, for example, a vibrator that vibrates in the sensitivity direction and the movement direction of the sensor, and the behavior information measurement unit 211 when a constant vibration is applied to the behavior information measurement unit 211 using the vibrator. From the output value, a correction coefficient for correcting the output value is determined, and the output value of the behavior information measuring means 211 is corrected using the correction coefficient.

  FIG. 3 is a diagram for explaining a failure diagnosis method in the failure diagnosis unit 213 and a correction method in the output correction unit 214, and a theoretical output value of the behavior information measurement unit when a vibrator is vibrated. Are an expected value (broken line), an actual measurement result (solid line) by the behavior information measuring means when the vibrator is vibrated, and a threshold value (four straight lines) stored in advance.

  In FIG. 3, when the maximum value (value at the positive vertex of the waveform) of the actually measured value is not less than a predetermined threshold A or less than the threshold B, or the minimum value (value at the negative vertex of the waveform). Is equal to or less than a predetermined threshold D or greater than or equal to a threshold C, it is regarded as a failure.

  As a result of the failure diagnosis, if there is a failure between the predicted value and the actually measured value, the correction coefficient is obtained so that the actually measured value becomes equal to the predicted value. This is, for example, a value obtained by dividing the expected amplitude value by the actually measured amplitude value.

  In this way, in the biological information monitoring system, by providing correction of the output of the biological information measuring means, it is possible to remove the influence of sensitivity deterioration with time and sensitivity change due to temperature, and provide a highly reliable biological information monitoring system. be able to.

  As another failure diagnosis method, there is a method of determining a failure by comparing the offset value of the output of the behavior information measuring means 211 with a predetermined threshold value. Note that any method other than the method described above may be used as long as it can perform failure diagnosis.

  The method for obtaining the correction coefficient may be other than the method described above as long as the correction can be performed accurately. In FIG. 4, the flowchart for demonstrating operation | movement of the biometric information measurement terminal 21 which concerns on embodiment of this invention is shown.

  When the biological information measuring terminal 21 starts measurement by the behavior information measuring means 211 (S41), first, the vibrator of the failure diagnosing means 213 is driven to give a constant acceleration to the acceleration sensor. The sensor output voltage at that time is compared with the threshold value stored in the storage means 212, and if it deviates from the threshold value, a failure is determined (S42). This uses the fault diagnosis method of FIG.

  When it is determined that the result behavior information measuring unit 211 is out of order, the transmitting unit 215 notifies the biological information receiving terminal 22 that the behavior information measuring unit 211 is out of order (S43). Thereby, the subject or the monitor can confirm the failure.

  When the failure diagnosis unit 213 confirms that the behavior information measuring terminal is not broken, the output correction unit 214 determines a correction coefficient for the output value (S44). For this, the correction coefficient determination method shown in FIG. 3 is used.

  Based on the correction coefficient, the measured action information is corrected (S45).

  In this way, by performing failure diagnosis of the biological information measuring means in the biological information measuring terminal, when the biological information measuring terminal fails and outputs an abnormal value, the subject or the monitor mistakenly recognizes that an abnormality has occurred in the subject. The risk of endangering can be reduced. Further, by correcting the output of the biological information measuring means, it is possible to provide a highly reliable biological information measuring terminal.

  FIG. 5 is a block diagram showing a second embodiment of the biological information monitoring system according to the present invention. In the present embodiment, the biological information monitoring system includes a biological information measuring terminal 51, a biological information receiving terminal 52, and a biological information monitoring terminal 53. This is an example in which the failure diagnosis result or output correction information of the biological information measuring terminal 51 is transmitted to and managed by the remote biological information monitoring terminal 53. The biological information monitoring terminal 53 manages the biological information measuring terminal and the biological information receiving terminal owned by all the subjects who operate this biological information monitoring system.

  The biological information measuring terminal 51 includes a behavior information measuring unit 511 that measures the behavior information of a subject, a storage unit 512 that stores a measurement result of the behavior information measuring unit 511, and a failure that performs failure diagnosis of the behavior information measuring unit 511. A diagnosis unit 513, an output correction unit 514 that corrects the output of the behavior information measurement unit 511, a transmission unit 515 that transmits the diagnosis result of the failure diagnosis unit 513 and the biological information corrected by the output correction unit 514; Consists of.

  The biological information receiving terminal 52 includes a receiving unit 521 that receives the diagnosis result and the biological information of the subject sent from the transmitting unit 515, a storage unit 522 that stores the received result, and a transmission that transmits the stored result. Means 523.

  The biological information monitoring terminal includes a receiving unit 531 that receives the diagnosis result and the biological information of the subject sent from the transmitting unit 523, and a display unit 532 that displays the reception result.

  Here, the behavior information measurement unit 511, the storage unit 512, the failure diagnosis unit 513, the output correction unit 514, the operation of the transmission unit 515, and the operation of the reception unit 521 and the storage unit 522 are the behavior information measurement unit in the first embodiment. 211, the storage unit 212, the failure diagnosis unit 213, the output correction unit 214, the operation of the transmission unit 215, and the operation of the reception unit 221 and the storage unit 222 are omitted.

  By adopting the configuration of the biological information monitoring system as described above, the remote biological information monitoring terminal can manage the failure diagnosis result and output correction information of the biological information measuring terminal owned by the subject. And it becomes possible to provide various services to the subject by processing the information. For example, by continuously observing the transition of the correction coefficient for a biological information measuring terminal that is determined to be normal from the result of failure diagnosis, it is possible to predict when the biological information measuring terminal will fail. The biological information monitoring terminal can provide a highly reliable biological information monitoring system to the subject by providing the predicted information to the subject.

  FIG. 6 is a block diagram showing an example of the third embodiment of the biological information monitoring system according to the present invention. In the present embodiment, the biological information monitoring system includes a biological information measuring terminal 61 and a biological information receiving terminal 62. This is an example in which failure diagnosis means and output correction means are provided on the biological information receiving terminal side. However, a vibrator that applies vibration to the acceleration sensor is mounted on the biological information measuring terminal.

  The biological information measuring terminal 61 is sent from the behavior information measuring means 611 that measures the subject's behavior information, the storage means 612 that stores the measurement result, the transmission means 613 that transmits the storage result, and the biological information receiving terminal 62. It comprises receiving means 614 for receiving incoming data and display means 615 for displaying the received results.

  The biological information receiving terminal 62 includes a receiving unit 621 for receiving the behavior information of the subject sent from the transmitting unit 613, a storage unit 622 for storing the reception result, and a behavior information measuring unit 621 based on the reception result. Failure diagnosis means 623 that performs failure diagnosis, output correction means 624 that performs output correction of the measurement result of the behavior information measurement means 621, diagnosis result of the failure diagnosis means 623, and the subject corrected by the output correction means The transmission unit 625 transmits biological information to the reception unit 614.

  Here, the behavior information measurement unit 611, the storage unit 612, the failure diagnosis unit 623, the output correction unit 624, the operation of the transmission unit 615, and the operation of the reception unit 621 and the storage unit 622 are the behavior information measurement unit in the first embodiment. 211, the storage unit 212, the failure diagnosis unit 213, the output correction unit 214, the operation of the transmission unit 215, and the operation of the reception unit 221 and the storage unit 222 are omitted.

  By configuring the biological information monitoring system as described above, the function of the biological information measuring terminal can be simplified. For example, if the biological information measuring terminal is battery-driven, an effect of extending the battery life can be obtained. .

It is a block diagram which shows the Example of the biometric information measurement terminal which concerns on this invention. It is a block diagram which shows the Example of the biometric information monitoring system which concerns on this invention. It is a measurement result of the biological information measuring means which concerns on embodiment of this invention. It is a flowchart for demonstrating operation | movement of the biometric information measurement terminal which concerns on embodiment of this invention. It is a block diagram which shows the Example of the biometric information monitoring system which concerns on this invention. It is a block diagram which shows the Example of the biometric information monitoring system which concerns on this invention.

Explanation of symbols

11, 21, 51, 61 Biological information measuring terminal 12, 22, 52, 62 Biological information receiving terminal 111 Biological information measuring means 113, 213, 513, 623 Failure diagnosing means 215, 515, 523, 614, 625 Transmitting means 221521, 531, 621 Receiving means 112, 212, 222, 512, 522, 612, 622 Storage means 114, 214, 514, 624 Output correcting means 115, 223, 532, 615 Display means 211, 511, 611 Behavior information measuring means

Claims (22)

In a biological information monitoring system comprising biological information measuring means for measuring biological information of a subject, storage means for storing the biological information, and display means for displaying the stored biological information,
A biological information monitoring system comprising failure diagnosis means for performing failure diagnosis of a sensor that measures biological information. A biological information measuring terminal having biological information measuring means for measuring biological information of the subject, storage means for storing the biological information, and transmitting means for transmitting the measured biological information;
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
In the biological information monitoring system consisting of
The living body information monitoring system, wherein the living body information measuring terminal has a failure diagnosis means for performing a failure diagnosis of a sensor that measures living body information.   The biological information monitoring system according to claim 1, wherein the biological information measured by the biological information measuring unit is behavior information of the subject.   The biological information measuring means is an acceleration sensor that measures the subject's behavior information, and the failure diagnosis means is a failure diagnosis means that performs vibration diagnosis on the acceleration sensor by applying vibration to the acceleration sensor. The biological information monitoring system according to claim 3.   The failure diagnosing means includes: an output value of the biological information measuring means when a predetermined vibration is applied to the biological information measuring means using a vibrator; and a threshold value that defines a predetermined normal range. 5. The biological information monitoring system according to claim 4, wherein a failure diagnosis of the biological information measuring means is performed by comparison. In a biological information monitoring system comprising biological information measuring means for measuring biological information of a subject, storage means for storing the biological information, and display means for displaying the stored biological information,
A biological information monitoring system comprising sensor output correction means for correcting sensor output for measuring biological information. A biological information measuring terminal having biological information measuring means for measuring biological information of the subject, storage means for storing the biological information, and transmitting means for transmitting the measured biological information;
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
In the biological information monitoring system consisting of
The biological information measuring system includes a sensor output correcting means for correcting sensor output for measuring biological information.   The biological information monitoring system according to claim 6 or 7, wherein the biological information measured by the biological information measuring means is behavior information of the subject.   The biological information measuring unit is an acceleration sensor that measures the behavior information of the subject, and the sensor output correcting unit is a sensor output correcting unit that corrects the acceleration sensor output by applying vibration to the acceleration sensor. The biological information monitoring system according to claim 8.     The sensor output correction unit calculates a correction coefficient from a theoretical output value and an actual output value of the biological information measurement unit obtained when a predetermined vibration is applied to the biological information measurement unit using a vibrator. The biological information monitoring system according to claim 9, wherein an actual output value is corrected using the correction coefficient. A biological information measuring terminal having biological information measuring means for measuring biological information of the subject, failure diagnostic means for performing failure diagnosis of a sensor for measuring biological information, and transmitting means for transmitting the measured biological information;
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
A computer connected to the biological information receiving terminal through a public line;
A biological information monitoring system comprising: A biological information measuring terminal having biological information measuring means for measuring biological information of a subject, sensor output correcting means for correcting sensor output for measuring biological information, and transmitting means for transmitting measured biological information; ,
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
A computer connected to the biological information receiving terminal through a public line;
A biological information monitoring system comprising: Measuring the biological information of the subject;
Transmitting the measured biological information;
Receiving the biometric information;
Storing the received biological information;
Performing a failure diagnosis of a sensor that measures biological information;
A biological information monitoring method comprising: The step of performing a failure diagnosis of the sensor includes:
Applying a predetermined vibration to the biological information measuring means of the biological information measuring terminal;
Comparing the output value of the biological information measuring means with a threshold value defining a predetermined normal range;
From the result of the comparison, diagnosing whether or not the biological information measuring means is faulty;
The biological information monitoring method according to claim 13, comprising: Measuring the biological information of the subject;
Transmitting the measured biological information;
Receiving the biometric information;
Storing the received biological information;
Correcting sensor output for measuring biological information;
A biological information monitoring method comprising: The step of correcting the sensor output includes:
Applying a predetermined vibration to the biological information measuring means of the biological information measuring terminal;
Calculating a correction coefficient from a theoretical output value and an actual output value of the biological information measuring means; correcting an actual output value using the correction coefficient;
The biological information monitoring method according to claim 15, comprising:   Biological information measuring means for measuring biological information of a subject, a transmitting means for transmitting the measured biological information, and a failure diagnosing means for diagnosing a sensor that measures the biological information Information measurement terminal.   It has biological information measuring means for measuring biological information of a subject, transmission means for transmitting the measured biological information, and sensor output correcting means for correcting sensor output for measuring biological information. Biological information measuring terminal. A biological information measuring terminal having biological information measuring means for measuring biological information of the subject, and transmitting means for transmitting the measured biological information;
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
In the biological information monitoring system consisting of
The biological information receiving system, wherein the biological information receiving terminal has a failure diagnosis means for performing a failure diagnosis of a sensor that measures biological information. A biological information measuring terminal having biological information measuring means for measuring biological information of the subject, and transmitting means for transmitting the measured biological information;
A biological information receiving terminal having a measurement result receiving means for receiving the biological information of the subject transmitted from the biological information measuring terminal, and a storage means for storing the received biological information;
In the biological information monitoring system consisting of
The biological information receiving system has a sensor output correcting means for correcting a sensor output for measuring biological information.
Detailed Description of the Invention Detailed Description of the Invention   21. The biological information monitoring system according to claim 19 or 20, further comprising a computer connected to the biological information receiving terminal through a public line. The biological information receiving terminal transmits information on failure diagnosis results and / or information on sensor output correction to the computer,
The biological information monitoring system according to claim 11, wherein the computer manages information on the failure diagnosis result and / or information on sensor output correction.

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