KR20160085403A - Baby state real time monitoring system - Google Patents

Abstract

Provided is a system for monitoring a state of an infant in real time to prevent a suffocation risk of the infant from the age of one to three caused by turning over of the infant, and to detect an impact of infant violence, a falling accident, and other accidents. The system for monitoring a state of an infant in real time comprises: a protector terminal unit for receiving information on the state of an infant through a network; and a state of an infant monitoring terminal unit for detecting an operation state of the infant, an impulse, and a health state of the infant through a detection means attached to a body of the infant, and transmitting a warning signal to the protector terminal unit through the network in real time when the detected result is determined to be an abnormal state.

Description

BABY STATE REAL TIME MONITORING SYSTEM [0001]

The present invention relates to a baby state real-time monitoring system, and more particularly, to a baby state real-time monitoring system for detecting a baby's operation state and health state through a sensing means attached to a baby's body, By monitoring the baby condition monitoring terminal that transmits alarm in real time, it is possible to prevent the asphyxia due to the inversion of infants 1 to 3 years old and to detect the impact of violence or other accident by sensing shock, ≪ / RTI >

Generally, it is called the neonatal period until 1 to 2 weeks of age or when the belly button is dropped. This neonatal period is the period of adaptation from the life in the mother to the life outside the mother's body. It is the time when humans have the most dangerous experience in his life .

Experts recommend that babies under 3 months of age should sleep or sleep on their side and should not be tipped over, as babies may suddenly die when they are overturned for up to three months.

Indeed, recent Harvard Medical School researchers report that a disorder in the brain region that regulates reflex behavior, including breathing and arousal, has been shown to cause sudden infant death syndrome.

According to the researchers, when children are facedown and lying down, they are more likely to have a problem with turning their heads when they are in difficulty breathing and making infant reflexes such as arousal difficult, leading to death.

Because of this, parents or guardians, especially those who raise infants who can not walk, should always protect and monitor the infant.

However, parents or caregivers often need to do other things while caring for the infant, especially since the infant often watches television or watches other things after sleeping. And does not recognize whether the infant's body has been turned over and whether it has been choked.

In addition, if the visually impaired person is a guardian, he or she can not recognize that the infant is turned upside down, nor does it know whether the infant's breathing has stopped and has been choked. If the hearing impaired person is a guardian, it can not detect the infant's crying.

However, the prior art has a problem that it leads to suffocation of infants and children due to lack of a surveillance system that detects the posture or health state of infants and children in real time and informs parents or guardians of the occurrence of a situation such as inversion.

Korean Patent No. 10-1364866

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for detecting an operation state and a health state of a baby through a sensing means attached to a body of a baby, By including the baby condition monitoring terminal, it is possible to prevent the risk of asphyxiation due to the overturning of infants 1 to 3 years old and to provide a real-time monitoring system of baby condition by detecting impacts of infant assault, fall accidents and other accidents.

According to an aspect of the present invention, there is provided a childhood real-time monitoring system including a guardian terminal unit for receiving baby state information through a network; And a baby condition monitoring terminal for detecting an operation state and an amount of a baby and a health state of the baby through a sensing means attached to the baby's body and transmitting an alarm to the caregiver terminal via the network in real time Technology.

The present invention has the technical effect of preventing the risk of asphyxiation due to the inversion of infants 1 to 3 years old and detecting the impact of infant assault, fall and other accidents.

1 schematically shows a baby state real-time monitoring system according to the present invention.
FIG. 2 shows a detailed configuration of a baby condition monitoring terminal according to the present invention.
FIG. 3A shows a first embodiment in which the baby condition monitoring terminal according to the present invention is attached to a diaper.
FIG. 3B shows a second embodiment in which the baby condition monitoring terminal according to the present invention is attached to a baby outerwear.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 schematically shows a baby state real-time monitoring system according to the present invention.

Referring to FIG. 1, a baby condition monitoring system according to the present invention includes a baby condition monitoring terminal 100, a caregiver terminal 200, and a network 10.

The baby condition monitoring terminal unit 100 detects an operation state and a health state of the baby through a wearable device that can be worn on the baby's body. If the baby state monitoring terminal unit 100 determines that the baby is in an abnormal state, A detailed description thereof will be given later with reference to FIG.

The protector terminal unit 200 may be a mobile terminal carried by a protector of a baby, such as a smart phone, a tablet PC (such as an iPad, a Galaxy Tab, etc.), but is not limited thereto.

The network 10 is a module for performing wireless communication between the baby condition monitoring system 100 and the caregiver terminal 200. For example, the network 10 may include an NFC (Near Field Communication), a Bluetooth, a Zigbee, RF, and UWB (Ultra-wideband), or may be used for long distance wireless communication such as 3G, 4G, LTE, LTE-A, Wireless Broadband Internet, WiFi .

FIG. 2 shows a detailed configuration of a baby condition monitoring terminal according to the present invention.

2, the baby condition monitoring terminal 100 according to the present invention includes a power supply 110, a charger 120, a baby condition detector 130, a signal processor 140, a communication unit 150, A display unit 160, an alarm unit 170, a storage unit 180, and a control unit 190.

The power supply unit 110 supplies a constant power to the baby condition monitoring system to allow normal operation.

The recharging unit 120 preferably uses a rechargeable battery that is used as a rechargeable battery by charging a charge using a capacitor, but a non-rechargeable battery (e.g., CR2032) may be used in some cases.

The baby state sensing unit 130 includes a body temperature sensing unit 131, a living body signal sensing unit 132, a motion sensing unit 133, a pressure sensing unit 134 and an impulse sensing unit 135.

Here, the body temperature sensing unit 131 is a sensor for measuring the temperature or body temperature emitted from the baby's body. In this case, a measurement method such as a thermocouple, a thermistor, radiation detection, optical fiber detection, The chemical temperature measurement method can be used, but is not limited thereto.

The bio-signal detection unit 132 detects a bio-signal of a baby and checks the degree of difficulty of breathing caused by the baby's upside down. The bio-signal includes a blood oxygen saturation (SPO ₂ ), an electrocardiogram data (ECG) Pulse wave data (PPG), etc., and if the measured values are out of the normal range, it indicates that the baby is in a state in which it is rolled up or pressed against something and breathing is difficult.

For example, by providing the SPO ₂ sensor including the irradiation means including at least two red lights having different wavelengths and the infrared light and the receiving portion for receiving the irradiated light, the blood oxygen saturation (SPO ₂ ) of the baby is measured (SaO ₂ ) and arterial oxygen partial pressure (PaO ₂ ) values can be indirectly evaluated using the measured values.

The motion sensing unit 133 is a sensor for monitoring a baby's movement posture to detect whether the baby turns up, that is, whether to overturn, or an amount of an impact applied to the baby. For example, the motion sensing unit 133 may include a gyro sensor, an acceleration sensor, However, the present invention is not limited thereto.

Here, the gyro sensor is a sensor capable of measuring rotational inertia, and measures the rotational state of the baby when the baby turns over. The acceleration sensor is a sensor capable of measuring the mobile inertia, Measures the tilt angle of the baby when it overturns.

The pressure sensing unit 134 wears on the abdomen of the baby and measures whether the baby is rolled over by measuring the pressure applied when the baby is rolled over.

The impulse sensing unit 135 senses the amount of impact applied to the baby by using a predetermined shock sensor and informs the guardian of the dangerous state according to the degree of impact. Thus, Helps parents and guardians cope quickly with the effects and other accidents.

Here, the amount of impact applied to the child may be sensed through a separate impact detection unit 135, but may also be sensed through the motion sensing unit 133 as described above.

 The signal processing unit 140 amplifies the sensed signals measured by the baby state sensing unit 130, removes noise, and converts the analog signals into digital signals.

The communication unit 150 provides an interface for performing communication with an external parent terminal unit 200.

When the baby's body monitoring system is attached to the baby's body, the electromagnetic wave display unit 160 displays the intensity of the emitted electromagnetic wave in digital numerals or the like. In this case, depending on the degree of the electromagnetic wave tolerance, It is preferable to display green, yellow, and red colors for each step so as to make it easier for the caregiver to understand.

As a result of analyzing the signals detected by the baby state sensing unit 130, the alarm unit 170 informs the caregiver of an alarm when an abnormal state occurs. The alarm unit 170 may be an alarm method, such as an alarm, a buzzer, , A character, a social networking service (SNS), an LED light, a moving picture, etc., but the present invention is not limited thereto. The frequency of the notification and the type of the notification means can be freely adjusted depending on the severity of the alarm.

In this case, when the abnormal condition is judged to be beyond the tolerable standard which can threaten the life of the baby, for example, when the temperature exceeds the normal temperature range (37.5 degrees or more), the rollover angle (120 to 180 degrees) And an overturn duration (30 seconds or more).

The storage unit 180 stores sensed data and various processed data. In this case, a flash memory, which is a nonvolatile memory, may be used as a storage medium.

The control unit 190 includes the power unit 110, the charging unit 120, the baby condition sensing unit 130, the signal processing unit 140, the communication unit 150, the electromagnetic wave display unit 160, the alarm unit 170, ).

FIG. 3A shows a first embodiment in which the baby condition monitoring terminal according to the present invention is attached to a diaper, FIG. 3B shows a baby condition monitoring terminal according to a second embodiment of the present invention, .

3A and 3B, the baby condition monitoring terminal 100 according to the present invention is implemented in the form of a wearable device attached to a baby's diaper or outerwear. In this case, a disposable sticker is used as a patch type So that it is possible to easily attach and detach to a desired site whenever and wherever the user desires.

In addition, a wearable device is inserted into a baby diaper or a jacket in a clip form to attach a body temperature sensor 131 or a living body signal sensor 132 inside the clip to minimize a measurement error in measuring a body temperature or a living body signal of a baby And the outer portion is preferably attached to the communication unit 150 to increase the signal reception rate from the external terminal.

On the other hand, a wearable device can be used in the form of wrapping an electronic tag that generates electromagnetic waves by using a specially processed electromagnetic wave shielding fabric in order to shield electromagnetic waves which may be fatal to babies under 1 to 3 years old have.

In this case, the electromagnetic wave shielding fabric is made of a mesh material, and the material thereof is plated with nickel, copper or the like to a thickness of 1.5 μm to 1.7 μm on a metal-coatable fiber (for example, polyester, nylon, acryl, , It is known that electromagnetic wave shielding effect of at least 80dB is higher than that before use.

In addition, it is preferable to emboss the electromagnetic wave shielding fabric so as to provide comfort to the baby without contact with the skin when the skin is in contact with the skin.

The electromagnetic wave shielding fabric according to the present invention is used as an embodiment for cutting off electromagnetic waves of an electronic tag whose output is more than 20 mW and whose center of emission is located within 20 cm from the baby. However, the present invention is not limited to this, For example, the structure of the antenna, the position of the feeding point, the distance between the antenna and the body, the method of adjusting the inclined angle, the attachment of the electromagnetic wave absorber, the application of zinc coating, plating, A method of imparting conductivity to the case itself, and the like.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention.

100: baby condition monitoring terminal
110: power supply unit 120:
130: baby condition detection unit
131: body temperature sensing unit 132:
133: Motion sensing unit 134: Pressure sensing unit
135:
140: Signal processor
150:
160: electromagnetic wave display unit
170:
180:
190:
200: Protector terminal unit
10: Network

Claims (9)

A guardian terminal unit for receiving baby state information through a network; And
And a baby condition monitoring terminal unit for detecting an operation state and an amount of an infant and a health state of the baby through the sensing means attached to the baby's body and transmitting an alarm to the caregiver terminal unit via the network in real time when it is determined that the baby is abnormal A baby state real time monitoring system. 2. The child health monitoring terminal according to claim 1,
A baby state detection unit for detecting an operation state and a health state of the baby;
A signal processing unit for amplifying the sensed signals measured by the baby state sensing unit, eliminating noise, and converting an analog signal into a digital signal;
A communication unit for providing an interface for performing communication with the parent terminal unit;
An alarm unit for transmitting alarms to the guardian terminal unit in real time when an abnormal state occurs in a baby as a result of analyzing signals detected from the baby state sensing unit; And
And a control unit for controlling the baby state sensing unit, the signal processing unit, the communication unit, and the alarm unit. [3] The apparatus according to claim 2,
A body temperature sensing unit for sensing heat emitted from the baby's body;
A biological signal detection unit for detecting a biological signal of a baby;
A motion detection unit for monitoring whether the baby is overturned by monitoring a baby's posture;
A pressure sensing unit for sensing a pressure applied to the abdomen of the baby when the baby is rolled over to detect whether the baby is rolled over; And
And an impulse amount sensing unit for sensing an amount of impact applied to the baby. [4] The apparatus of claim 3,
Characterized in that the system uses any one of a thermocouple, a thermistor, a radiation detection, an optical fiber detection, a radiation temperature measurement or a chemical temperature measurement method. The bio-sensor according to claim 3,
Wherein at least one of blood oxygen saturation (SPO ₂ ), electrocardiogram data (ECG) and pulse wave data (PPG) is measured. 4. The apparatus of claim 3,
A gyro sensor, an acceleration sensor, and a tilt sensor. 3. The apparatus according to claim 2,
Wherein at least one of an alarm, a buzzer, a vibration, a character, a social networking service (SNS), an LED light, and a moving picture is used. 3. The method of claim 2,
And an electromagnetic wave display unit for displaying the size of the electromagnetic wave emitted from the baby condition monitoring terminal by numerals and dividing into the safety, attention and warning steps according to the intensity of the electromagnetic wave, Baby status real-time monitoring system. 2. The child health monitoring terminal according to claim 1,
Clips or a wearable device attached to a baby's diaper or outerwear in a patch type using disposable stickers.

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