KR20180107374A - Method and apparatus for measuring biometric data - Google Patents

Abstract

More particularly, the present invention relates to a biometric information measuring apparatus and a control method thereof. More specifically, the present invention relates to a biometric information measuring apparatus and a control method thereof, Information can be used to accurately determine whether the bio-information measuring device is measuring the bio-information of the patient by using the motion information, and it is controlled to operate only during the bio-information measurement, and the operation is automatically controlled without a separate operation button or switch And more particularly, to a biometric information measuring apparatus and method for controlling a sleeping state of a patient by measuring life information of a patient and motion information as well as biometric information of a patient.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bio-

More particularly, the present invention relates to an apparatus and method for measuring bio-information of an attachment type. More specifically, the bio-information measuring apparatus is made of a small and flexible material and can continuously measure biometric information by contacting a body of a child or a newborn, It is possible to accurately determine whether the bio-information measuring apparatus is measuring the bio-information of the patient by using the bio-sensing information together with the motion information, and to control the bio-information to operate only during the bio-information measurement, The present invention relates to an attachment type bio-information measuring device and a control method thereof, which can improve a working life and can measure a sleeping state and an activity state of a patient by measuring movement information as well as biometric information of a patient.

Human body temperature is known to be closely related to human health, and the process of examining a person's health condition generally begins with body temperature measurement. In general, body temperature measurement is performed by contacting a thermometer for body temperature measurement with a body part for a certain period of time and then measuring the temperature indicated by the thermometer.

In case of mercury thermometer, the body temperature is measured by touching the part where the body temperature is best maintained for a certain period of time. In order to measure accurately, it is necessary to contact the skin for a certain period of time. However, if the patient is a child or a newborn baby, There are many inconveniences in measuring body temperature because it is difficult. In recent years, a thermometer capable of easily and accurately measuring body temperature, such as an ear-type thermometer or an infrared thermometer, has been developed and widely used in hospitals and general households.

Such a thermometer can not monitor the body temperature for 24 hours by measuring the temperature directly by the person whenever it wants to measure the temperature, and it disturbs the patient's stability by stimulating the patient every time the body temperature is measured. In addition, the neonatal or infant may have higher damage due to high fever. Neonatal or infant can not express high fever or pain, and the caregiver has to monitor the condition of the patient by periodically measuring body temperature by day and night.

Korean Patent Laid-Open Publication No. 2001-0008757 (hereinafter referred to as the background art) discloses an invention that measures body temperature information, transmits body temperature measurement information to a body temperature management apparatus remotely, and notifies a caregiver when body temperature measurement information exceeds a set body temperature have. However, the background technology simply informs the caregiver with a warning sound when the body temperature information is remotely transmitted or the body temperature exceeds the set body temperature, but it is necessary to control the power on / off individually for each use of the caregiver. And thus the body temperature of the patient can not be accurately measured.

Moreover, in a home, the body temperature meter is not always used and it is used temporarily only when there is a sick person. If the thermometer for continuous measurement is stored for a long time by mistake, the battery power is exhausted It can not be done.

In addition, the conventional body temperature measuring device measures only the body temperature of the patient, and can not confirm the motion information of the patient, and it is difficult to determine whether the patient, especially infant or newborn baby, has sufficiently taken a sleep.

The object of the present invention is to solve the problems of the above-mentioned conventional body temperature measuring apparatus, and it is an object of the present invention to provide a body temperature measuring apparatus capable of continuously measuring living body information by contacting a body of a baby or a newborn baby, And a control method of the apparatus for measuring bio-information.

Another object of the present invention is to provide a control method of a biometric information measuring apparatus capable of controlling the operation of the biometric information measuring apparatus based on motion information and biometric information.

It is another object of the present invention to provide an apparatus and method for measuring bio-information of a patient, which can accurately determine whether a bio-information measuring apparatus is measuring a bio-information of a patient based on motion information and bio- And a control method of the apparatus for measuring biometric information.

It is another object of the present invention to provide a control method of a bio-information measuring apparatus capable of measuring a sleep state of a patient by measuring not only bio-information but also motion information of the patient.

According to another aspect of the present invention, there is provided a method of controlling a bio-information measuring apparatus, comprising: controlling an operation of a sensor according to a first sensing signal of a motion sensor; Comparing the signal and the setting range to determine whether the size of the second sensing signal is within the setting range; and controlling the operation of the communication unit when the size of the second sensing signal is within the setting range, 2 sensing signal to a user terminal or a collection device.

Preferably, the method of controlling an attachment type bio-information measuring apparatus according to an embodiment of the present invention controls deactivation of the operation of the sensing sensor when the size of the first sensing signal is smaller than the first threshold size, The operation of the communication unit is deactivated and controlled.

Preferably, the method of controlling an attachment type bio-information measuring apparatus according to an embodiment of the present invention includes the steps of determining whether a size of a first sensing signal periodically generated is smaller than a first threshold size after the operation of the communication unit is activated Determining whether the size of the second sensing signal is a setting range when the size of the first sensing signal is smaller than the first threshold size, The method includes the steps of:

Preferably, when the magnitude of the second sensing signal is within a predetermined range after the operation of the communication unit is activated, the control method of the apparatus for measuring an attachment type bio-information according to an embodiment of the present invention includes: And generating a warning message when the elapsed time is longer than the threshold time and controlling transmission of the warning message to the user terminal or the collecting device.

Preferably, when the size of the first sensing signal is greater than the first threshold size before the operation of the communication unit is activated, the control method of the attachment type bio- Measuring a magnitude of a second sensing signal in a first measurement interval and a second measurement interval in a second measurement interval subsequent to the first measurement interval and measuring a magnitude of a second sensing signal in a first measurement interval and a magnitude of a second sensing interval in a second measurement interval, 2 sensing signal is greater than or equal to a threshold difference. If the size difference is greater than or equal to the threshold difference, it is determined whether the size of the second sensing signal in the second measurement interval exists in the setting range. And activates the operation of the communication unit when the size of the signal is within the set range.

Here, the detection sensor is any one of a temperature sensor and a humidity sensor.

According to another aspect of the present invention, there is provided an attachment type bio-information measuring apparatus comprising a sensor unit having a motion sensor and a sensor, a communication unit for communicating with a set user terminal or a collection device, And a control unit for controlling the operation of the communication unit according to the first sensing signal and the second sensing signal of the sensing sensor, and the control unit controls the operation of the communication unit based on the first sensing signal of the motion sensor, And a control unit for comparing the size of the second sensing signal of the sensing sensor with the setting range to determine whether the size of the second sensing signal is within the set range And a control unit for controlling the operation of the communication unit when the size of the second sensing signal is within the set range, And a communication controller for controlling transmission to the user terminal or the collection device. The sensor controller controls the operation of the sensor when the size of the second sensing signal is out of the setting range.

The control method of the attachment type bio-information measuring apparatus according to the present invention automatically determines that the bio-information is being measured in contact with the body of the patient and can continuously measure the bio-information during the measurement of the bio-information and inform the caregiver.

In addition, the method of controlling an attachment type bio-information measuring apparatus according to the present invention can accurately determine whether a bio-information measuring apparatus is measuring a body temperature of a patient based on motion information and bio-sensing information, So that the operating life can be improved.

In addition, the control method of the attachment type bio-information measuring apparatus according to the present invention can determine the sleep state of the patient by taking into consideration biometric information and movement of the patient by measuring not only biometric information but also motion information of the patient.

1 is a view for explaining a biometric information providing system according to the present invention.
FIG. 2 is a functional block diagram illustrating an apparatus for measuring an attachment type bio-information according to an exemplary embodiment of the present invention. Referring to FIG.
FIG. 3 is a view for explaining a control method of an apparatus for measuring an attachment type bio-information according to an embodiment of the present invention.
4 is a flowchart illustrating a method of controlling an attachment type bio-information measuring apparatus according to another embodiment of the present invention.
5 is a view for explaining an example of a method of controlling the communication unit according to the present invention.
6 is a diagram for explaining another example of a method of controlling the communication unit according to the present invention.

It is noted that the technical terms used in the present invention are used only to describe specific embodiments and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be construed in a sense generally understood by a person having ordinary skill in the art to which the present invention belongs, unless otherwise defined in the present invention, Should not be construed to mean, or be interpreted in an excessively reduced sense. In addition, when a technical term used in the present invention is an erroneous technical term that does not accurately express the concept of the present invention, it should be understood that technical terms can be understood by those skilled in the art.

Furthermore, the singular expressions used in the present invention include plural expressions unless the context clearly dictates otherwise. In the present invention, terms such as "comprising" or "comprising" and the like should not be construed as encompassing various elements or various steps of the invention, Or may further include additional components or steps.

It is to be noted that the accompanying drawings are only for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the scope of the present invention with reference to the accompanying drawings.

1 is a view for explaining a bio-information measuring system according to the present invention.

1, a living body information measuring apparatus 100 is attached to a part of a body of a patient 1. The living body information measuring apparatus 100 is attached to a patient 1 and is attached to the body 1 of the patient 1. [ It automatically detects whether the body temperature is being measured and controls the operation of the detection sensor or the communication unit. When it is judged that the body temperature of the patient 1 is being measured, the bio-information measuring apparatus 100 activates the operation of the sensor or the operation of the communication unit to measure the bio-information of the patient 1, To the user terminal 11 or the collection device 13 set through communication. Here, the bio-information measuring apparatus 100 is attached to a part of the body of the patient 1, for example, attaches to a body part capable of accurately measuring the bio-information of the patient 1, such as the hip, armpit, So that the biometric information of the patient 1 is continuously measured. Herein, the biometric information of the patient 1 refers to various indices indicating the physical condition of the patient 1 such as body temperature and momentum. Here, it is preferable that the housing of the bio-information measuring apparatus 100 is made of a flexible material such as silicone and made thin and thin so that the patient 10 is less likely to feel foreign matter even if attached to the body of the patient.

On the other hand, the user terminal 11 receives biometric information from a biometric information measurement device 100 attached to the body of the patient 1 via a short-range communication, stores the biometric information, And sends an alarm to the user when the biometric information is out of the set threshold range. On the other hand, the collecting device 13 receives the biometric information from the biometric information measuring apparatus 100 via the short distance communication and transmits the received biometric information to the user terminal 11 set via the wired or wireless network 30 The user terminal 11 can confirm the biometric information of the patient 1 through the collecting device 13 regardless of the location when the user terminal 11 is located at a location connected to the network 30. [ Herein, various types of wireless communication such as Bluetooth, NFC, etc. may be used for short-distance communication, and the network 30 may be wired or wireless Internet.

FIG. 2 is a functional block diagram for explaining a bio-information measuring apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the movement sensor unit 110 is attached to the inside or outside of the bio-information measuring device to generate a first sensing signal by sensing movement of the bio-information measuring device. The motion sensor 110 senses the motion of the bio-information measuring device and generates a first sensing signal in the active state. The motion determiner 120 compares the first sensing signal with the first threshold, When the intensity of the sensing signal is greater than the first critical magnitude, it is determined that the biometric information measuring apparatus is moving.

When it is determined that the bio-information measuring device is moving, the detection sensor controller 130 determines that the user moves the bio-information measuring device to use the bio-information measuring device, and activates and controls the operation of the detection sensor 140. Here, the detection sensor 140 includes a temperature sensor 141 and a humidity sensor 143, and various kinds of sensors capable of measuring the biometric information of the patient can be used according to the field to which the present invention is applied.

The temperature sensor 141 and the humidity sensor 143 generate a second sensing signal by measuring the body temperature or the ambient humidity of the patient under the control of the sensing sensor control unit 130 and output the generated second sensing signal to the comparison unit 150 ). The comparing unit 150 compares the size of the second sensing signal with the setting range to determine whether the size of the second sensing signal exists in the setting range and provides the comparison result to the sensing sensor controller 130 and the communication controller 160 do.

The sensing sensor controller 130 inactivates the operation of the temperature sensor 141 or the humidity sensor 143 when the size of the second sensing signal continues to exceed the set range for a predetermined time based on the comparison result. However, when the magnitude of the second sensing signal is within the setting range, the operation of the temperature sensor 141 or the humidity sensor 143 is continuously activated.

On the other hand, if the size of the second sensing signal is within the set range based on the comparison result, the communication control unit 160 activates the operation of the communication unit 170 to transmit the second sensing signal to the user terminal or the collecting device do. However, when the size of the second sensing signal is out of the setting range, the communication control unit 160 keeps the operation of the communication unit 170 in an inactive state.

Preferably, when the magnitude of the second sensing signal is within the set range after the operation of the communication unit 170 is activated, the sensing sensor control unit 130 may determine that the magnitude of the first sensing signal is less than the first threshold magnitude, And transmits and receives a warning message through the communication unit 170. [

More preferably, the sensor control unit 130 controls the temperature sensor 141 or the humidity sensor 143 in the second measurement interval after the first measurement interval and the first measurement interval before the operation of the communication unit 170 is activated. And the communication controller 160 activates and controls the operation of the communication unit 170 based on the size difference between the first measurement interval and the second measurement interval.

3 is a view for explaining a control method of the apparatus for measuring bio-information according to an embodiment of the present invention.

More specifically, referring to FIG. 3, the motion of the bio-information measuring apparatus is sensed (S111). The bio-information measuring device is used to measure the bio-information such as the body temperature of the patient by using a limited battery power. The bio-information measuring device is not always used but is normally stored, And is used to measure the biometric information of the patient. Therefore, power is initially applied only to a motion sensor unit that detects the motion of the bio-information measuring device, and it is determined whether motion has occurred to use the bio-information measuring device through the motion sensor unit.

If the magnitude of the first sensing signal generated by the motion sensor unit is greater than or equal to the first critical magnitude, it is determined that the bio-information measuring apparatus is moving and activation of the sensing unit is controlled (S113). (S115). When the second sensing signal of the patient exists in the setting range, the operation of the communication unit is activated (S116). Since the communication unit uses a relatively large amount of power as the operating power, the movement of the bio-information measuring device is sensed and the size of the measured second sensing signal is set to a predetermined range , For example, when the biometric information is the body temperature, the biometric information is activated and controlled only when the biometric information exists in the setting range between 30 degrees and 45 degrees.

The communication unit transmits a first sensing signal generated by the motion sensor unit and a second sensing signal generated by the sensing unit to the user terminal or the collecting unit (S117).

3, when the movement of the bio-information measuring apparatus is detected and the biometric information is present in the setting range, the operation of the sensor sensing unit is automatically maintained in an activated state and the operation of the communication unit is activated and controlled, It is possible to control the operation of the bio-information measuring device without using the bio-information measuring device, and it can be used for a long period of time by saving the limited power by consuming power only when the bio-

4 is a flowchart illustrating a method of controlling a bio-information measuring apparatus according to another embodiment of the present invention.

Referring to FIG. 4, more specifically, the movement of the bio-information measuring device is sensed (S131). When the magnitude of the first sensing signal generated by the motion sensor unit is equal to or greater than the first threshold value, it is determined that the bio-information measuring apparatus is moving, and activation of the sensing sensor is controlled (S133). When the operation of the sensing sensor is activated, the second sensing signal is measured through the sensing sensors in the first measurement interval and the second measurement interval, respectively (S134). Here, the first measurement interval is a measurement interval set from the time when the motion of the biological information measurement apparatus is sensed and the operation of the detection sensor unit is activated, and the second measurement interval is a measurement interval set after the first measurement interval.

The size difference of the second sensing signal measured in the first measurement interval and the difference in magnitude of the second sensing signal measured in the second measurement interval are calculated and the size difference and the threshold difference are compared to determine whether the size difference is larger than the threshold difference S135). The motion of the bio-information measuring apparatus is detected through the motion detecting unit, and if the magnitude difference is larger than the threshold difference, the operation of the communication unit is controlled to be activated (S137). Then, the first sensing signal of the motion sensor unit and the second sensing signal To the user terminal or the collection device (S139).

As described with reference to FIG. 4, if the movement of the bio-information measuring apparatus is detected and the bio-information is present in the setting range and the operation of the sensor unit is automatically maintained and the operation of the communication unit is set to be activated, The measuring device is stored at a temperature in the set range and the biometric information measuring device is automatically operated by the impact of the biometric information measuring device without any intention of using it to consume the power. The operation of the detecting sensor portion is activated The biometric information is measured in the first measurement interval and the second measurement interval from the time point of measurement, and in the first measurement interval, the biometric information (for example, body temperature) before the biometric information measurement device is attached to the patient's body is measured, In the section, the bio-information after the bio-information measuring device is attached to the body of the patient is measured, It is possible to precisely determine whether the impact is applied to the bio-information measuring apparatus or whether the bio-information measuring apparatus is attached to the body in order to measure the bio-information of the actual patient, so that the bio- Can be prevented from operating.

5 is a view for explaining an example of a method of controlling the communication unit according to the present invention.

5, it is determined whether the operation of the communication unit is activated (S210). If the operation of the communication unit is activated, it is determined whether the size of the first sensing signal of the motion sensor unit is greater than or equal to a first threshold value (S220 ). If the operation of the communication unit is activated and the size of the first sensing signal is smaller than the first threshold size, it is determined whether the size of the second sensing signal is a setting range (S230). Here, if the operation of the communication unit is activated and the size of the first sensing signal is larger than the first threshold size, the operation of the sensing unit and the operation unit is maintained in the activated state.

When the operation of the communication unit is activated and the size of the first sensing signal is smaller than the first threshold size and the size of the second sensing signal is within the setting range, the operation of the sensing unit and the communication unit is maintained in an activated state S250). The communication unit transmits a second sensing signal generated by the sensing sensor to the user terminal or the collecting device (S270). However, when the operation of the communication unit is activated and the size of the first sensing signal is smaller than the first threshold size and the size of the second sensing signal is out of the setting range, the operation of the sensing unit and the communication unit is changed to the inactive state ).

5, when the patient is asleep on the RAM (REM) surface while wearing the bio-information measuring device, even if the magnitude of the first sensing signal generated by the motion sensing unit is smaller than the critical magnitude, If the size is within the setting range, the operation of the detection sensor unit and the communication unit is maintained in the activated state to continuously measure the biometric information of the patient.

6 is a diagram for explaining another example of a method of controlling the communication unit according to the present invention.

6, it is determined whether the operation of the communication unit is activated (S310). If the operation of the communication unit is activated, it is determined whether the size of the first sensing signal of the motion sensor unit is greater than or equal to a first threshold size ). If the operation of the communication unit is activated and the size of the first sensing signal is smaller than the first threshold size, it is determined whether the size of the second sensing signal is in a setting range (S330). Here, if the operation of the communication unit is activated and the size of the first sensing signal is larger than the first threshold size, the operation of the sensing unit and the operation unit is maintained in the activated state.

If the elapsed time in which the operation of the communication unit is activated and the size of the second sensing signal is within the setting range and the size of the first sensing signal is smaller than the first threshold size is greater than the threshold time (S350) Or transmits a warning message to the collecting device (S370).

However, when the operation of the communication unit is activated and the size of the second sensing signal is within the setting range and the elapsed time in which the size of the first sensing signal is kept smaller than the first threshold size does not exceed the threshold time, The operation of the sensor unit and the communication unit is kept active (S390).

6, when the patient is asleep while wearing the bio-information measuring device, even if the size of the first sensing signal generated by the motion sensing unit is smaller than the threshold size, the size of the second sensing signal is present in the setting range When the elapsed time in which the size of the first sensing signal is less than the critical size exceeds the threshold time, a problem occurs in the patient, or when the biometric information measuring device is operated from the body of the patient It is determined that the patient is separated and the warning message is transmitted to the user terminal or the collection device so that the patient guardian can monitor the condition of the patient or check the attachment state of the bio-information measuring device.

The above-described embodiments of the present invention can be embodied in a general-purpose digital computer that can be embodied as a program that can be executed by a computer and operates the program using a computer-readable recording medium.

The computer-readable recording medium may be a magnetic storage medium (e.g., ROM, floppy disk, hard disk, etc.), an optical reading medium (e.g. CD ROM, Lt; / RTI > transmission).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: patient 11: user terminal
13: collecting device 30: network
100: Biometric information measuring device 110:
120: motion determination unit 130: detection sensor control unit
140: detection sensor unit 150:
160: Communication control unit 170:

Claims (7)

Controlling an operation of the sensing sensor according to a first sensing signal of the motion sensor;
Comparing the second sensing signal generated by the sensing sensor with a setting range to determine whether the size of the second sensing signal is within a predetermined range; And
And activating the operation of the communication unit to transmit the first sensing signal or the second sensing signal to the user terminal or the collecting device when the size of the second sensing signal is within the set range, A method of controlling an attachment type biometric information measuring apparatus. The method according to claim 1, wherein the control method of the attachment type bio-
Controlling the operation of the sensing sensor to be inactivated when the size of the first sensing signal is smaller than the first critical size,
And controlling the operation of the communication unit to be deactivated when the size of the second sensing signal is out of the setting range. The method according to claim 2, wherein the control method of the attachment type bio-
Determining whether a size of the first sensing signal periodically generated is smaller than a first critical size after the operation of the communication unit is activated;
Determining whether the size of the second sensing signal is a setting range when the size of the first sensing signal is smaller than the first threshold size; And
And activating an operation of the sensing sensor and the communication unit when the size of the second sensing signal is in a set range. The method according to claim 3, wherein the control method of the attachment type bio-
Determining whether an elapsed time in which the size of the first sensing signal is smaller than the first threshold size is greater than a threshold time when the size of the second sensing signal is in a setting range after the operation of the communication unit is activated; And
And generating a warning message and controlling transmission of the warning message to the user terminal or the collecting device when the elapsed time is longer than the threshold time. The method according to any one of claims 1 to 4, wherein the control method of the attachment type bio-
When the magnitude of the first sensing signal before the activation of the communication unit is larger than the first threshold size, activates the operation of the sensing sensor to perform a first measurement period and a second measurement period after the first measurement period Measuring a magnitude of the second sensing signal; And
Determining whether a magnitude of a second sensing signal in the first measurement interval and a magnitude of a second sensing signal in the second measurement interval are greater than a threshold difference,
Determining whether the size of the second sensing signal in the second measurement interval exists in the setting range when the size difference is greater than or equal to the threshold difference and if the size of the second sensing signal is within the setting range, And controlling activation of the bio-information measuring device. The method according to any one of claims 1 to 4, wherein the sensing sensor is one of a temperature sensor and a humidity sensor. An attachment type biometric information measuring apparatus comprising:
A sensor unit having a motion sensor and a detection sensor;
A communication unit for performing communication with the set user terminal or the collection device; And
And a control unit for controlling the operation of the sensor according to the first sensing signal of the motion sensor or controlling the operation of the communication unit according to the first sensing signal and the second sensing signal of the sensing sensor,
Wherein the control unit determines that the first sensing signal is in use when the magnitude of the first sensing signal is greater than a threshold value in response to the first sensing signal of the motion sensor and turns on the operation of the sensing sensor, A comparison unit comparing the size of the sensing signal with the setting range to determine whether the size of the second sensing signal is within the setting range; And a communication controller for controlling transmission to the user terminal or the collecting device that has set the sensing signal, wherein the sensing sensor controller turns off the operation of the sensing sensor when the size of the second sensing signal is out of the setting range, Wherein the bio-information measuring device is a bio-information measuring device.

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