WO2017166828A1

WO2017166828A1 - Snoring monitoring device, and system and method for applying same

Info

Publication number: WO2017166828A1
Application number: PCT/CN2016/105902
Authority: WO
Inventors: 张贯京
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2016-04-01
Filing date: 2016-11-15
Publication date: 2017-10-05
Also published as: CN105769125A

Abstract

A snoring monitoring device (10) and a system for applying same, these being applied to a pillow (100). A snoring voice signal of a user is collected through a voice collector (11) to judge whether the user's snoring is mild snoring or heavy snoring. When the user's snoring is mild snoring, an air pump (13) is started and inflates or deflates a concave-convex air bag (14) so as to change the height and inclination of the pillow (100) in order to adjust a head sleeping posture of the user and eliminate snoring. When the user's snoring is heavy snoring, heart rate data of the user is collected through a heart rate sensor (5). When the user's heart rate is abnormal, alarm information is produced, and the alarm information and the heart rate data are sent to a medical monitoring platform (30) through a communication port (4). The snoring monitoring device (10) can monitor a user's sleep condition in real time, with regard to mild snoring, eliminate the user's snoring by automatically adjusting the user's head sleeping posture, thereby improving the user's quality of sleep, and with regard to heavy snoring, produce alarm information, thus preventing the user becoming critically ill due to snoring.

Description

Description: Inventive name: sleep snoring monitoring device and its application system and method

[0001] The present invention relates to the field of sleep monitoring, and more particularly to a sleep snoring monitoring device and an application system and method thereof.

Background technique

[0002] It is well known that the quality of sleep is related to the work of the human brain and nerves, directly affecting the individual's mental state, and even the quality of life. Therefore, sleep is of great significance to the health of the human body. However, modern people suffer from various factors such as environmental pollution, work stress, and irregular work and rest. It is very common to have a decline in sleep quality.

[0003] For example, common snoring, commonly known as snoring, is a phenomenon that is extremely common during sleep. In particular, some of the more serious snoring phenomena have a great impact on sleep. Because severe snoring can cause apnea, resulting in hypoxia, the quality of sleep is significantly reduced. In addition, severely snoring people often suffer from obesity, high blood pressure or heart disease. If such people have apnea during sleep, they may easily cause abnormal blood pressure or heart rate. In the most serious cases, they may even die, showing great harm. In view of the above situation, some smart products exist at this stage, which can monitor the user's sleep state during the user's sleep, so that the user can understand his or her sleep situation. For example, the current emerging smart bracelet or similar device has the function of monitoring the user's sleep, and then combined with the smart terminal, the user can be very intuitive to learn the relevant data during the nightly sleep.

[0004] However, the existing smart device has the drawback that although it has the skill to let the user understand his or her sleep situation, it cannot actually optimize and improve the user's sleep quality, and can not effectively prevent snoring. The apnea is coming, so the practical value is still relatively low.

technical problem

[0005] The main object of the present invention is to provide a sleep snoring monitoring device and an application system and method thereof, which can accurately monitor a user's sleep condition in combination with a user's heart rate data, and automatically adjust a user's head sleeping posture for a slight snoring. Eliminate the user's degree of snoring, improve the user's sleep quality, generate alarm information for severe snoring, and prevent users from dying due to snoring. Problem solution

Technical solution

[0006] In order to achieve the above object, the present invention provides a sleep snoring monitoring device, which is applied to a pillow, the sleep snoring monitoring device comprising a sound collector, a micro controller, an air pump, a concave and convex air bag, and a communication port, a sound collector, an air pump, and a communication port are connected to the microcontroller, the concave and convex air bag is connected to the air pump, and the communication port is connected with a heart rate sensor, wherein:

[0007] the sound collector is configured to collect a snore sound signal generated by a user during a sleep process, and send the snore sound signal to the microcontroller;

[0008] the microcontroller is configured to determine, according to the snoring sound signal, whether the user snoring is a mild snoring or a severe snoring, and when the user snoring is a mild snoring, the air pump is activated to inflate or deflate the embossed airbag to change The height and inclination of the pillow are used to adjust the user's head sleep position to eliminate the user's snoring degree. When the user snoring is severely snoring, the heart rate data of the user is collected by the heart rate sensor and the user's heart rate is determined to be normal. The heart rate is abnormal, an alarm message is generated, and the alarm information and heart rate data are transmitted to the medical monitoring platform set in the medical monitoring center through the communication port.

[0009] Preferably, the microcontroller is further configured to generate reminder information when the heart rate of the user is normal, and send the reminder information to the mobile terminal device of the guardian through the communication port.

[0010] Preferably, the communication port is connected to the heart rate sensor by a wired connection or a wireless connection.

[0011] Preferably, the heart rate sensor is disposed in the user's pajamas pocket and is in close proximity to the chest position of the user, the heart rate sensor is configured to sense the heart rate data of the user and send the heart rate data of the user through the communication port. To the microcontroller.

[0012] Preferably, the sleep snoring monitoring device further comprises a micro battery for providing working power to the sleep snoring monitoring device, the micro battery is a rechargeable lithium battery or a button battery

[0013] In another aspect, the present invention further provides an application system for applying a sleep snoring monitoring device, the application system comprising the sleep snoring monitoring device, a mobile communication terminal, a router, and a medical monitoring platform, the sleep snoring monitoring device The mobile communication terminal and the router are connected by a wireless network, and the router is connected to the medical monitoring platform through a remote communication network.

[0014] In another aspect, the present invention also provides a sleep snoring monitoring method, which is applied to a sleep snoring supervisor In the pillow of the measuring device, the sleep snoring monitoring device comprises a sound collector, a micro controller, an air pump, a concave and convex air bag, and a communication port, and the sound collector, the air pump and the communication port are connected to the microcontroller, The concave-convex airbag is connected to the air pump, and the communication port is connected with a heart rate sensor, and the method comprises the steps of:

[0015] collecting, by the sound collector, a snore sound signal generated by a user during a sleep process, and transmitting the snore sound signal to the microcontroller;

[0016] determining, according to the snoring sound signal, whether the user snoring is mildly snoring or severe snoring;

[0017] when the user snoring is a slight snoring, the air pump is activated to inflate or deflate the embossed airbag to change the height and inclination of the pillow to adjust the user's head sleeping position to eliminate the user's snoring degree;

[0018] When the user snoring is severe snoring, the heart rate data of the user is collected by the heart rate sensor;

[0019] determining whether the user's heart rate is normal;

[0020] When the heart rate of the user is abnormal, an alarm message is generated and the alarm information and heart rate data are transmitted to the medical monitoring platform set in the medical monitoring center through the communication port.

[0021] Preferably, the sleep snoring monitoring method further comprises the steps of: when the user's heart rate is normal, generating reminder information and transmitting the reminder information to the guardian's mobile terminal device through the communication port.

[0022] Preferably, the communication port is connected to the heart rate sensor by a wired connection or a wireless connection.

Advantageous effects of the invention

Beneficial effect

Compared with the prior art, the sleep snoring monitoring device and the application system and method thereof of the present invention can monitor the sleep condition of the user in combination with the heart rate data of the user, and automatically adjust the user's head for the user who is slightly snoring. The sleeping position eliminates the user's snoring and achieves the effect of improving the user's sleep quality. The alarm message is generated for the severely snoring user and sent to an external mobile communication terminal or a remote medical monitoring platform for the guardian and the doctor to remotely track the user. The sleep condition prevents the user from apnea caused by snoring or a critical condition of myocardial infarction.

Brief description of the drawing

DRAWINGS

1 is a schematic structural view of a preferred embodiment of a smart pillow using a sleep snoring monitoring device of the present invention; 2 is a schematic diagram showing the circuit structure of a preferred embodiment of the sleep snoring monitoring device of the present invention;

3 is a structural diagram of an application system of a preferred embodiment of the sleep snoring monitoring apparatus of the present invention;

4 is a flow chart of a preferred embodiment of the sleep snoring monitoring method of the present invention.

[0028] The objects, features, and advantages of the present invention will be further described in conjunction with the embodiments.

BEST MODE FOR CARRYING OUT THE INVENTION

The specific embodiments, structures, features and utilities of the present invention are described in detail below with reference to the accompanying drawings and preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in FIG. 1, FIG. 1 is a schematic structural view of a preferred embodiment of a smart pillow to which a sleep snoring monitoring device of the present invention is applied. In this embodiment, the sleep snoring monitoring device 10 is applied to a pillow 100. The pillow 100 includes a pillow body 1 and a communication port 4 disposed on an edge of the pillow body 1. The communication port 4 is exposed on the pillow. The communication port 4 is connected to the heart rate sensor 5 by a wired connection or a wireless connection (for example, Bluetooth), and the heart rate sensor 5 is placed in the user's pajamas pocket and closely adjacent to the user's chest position. To sense the user's heart rate data.

[0031] The pillow body 1 is composed of a double layer conforming structure composed of a pillowcase 2 and a pillow core 3, and the pillowcase 2 is made of high sand cotton cloth or pure cotton cloth, and the pillow core 3 is made of flakes, flexible polyurethane or the like. Made of flexible cotton material. The sleep snoring monitoring device 10 is disposed between the pillowcase 2 and the pillow core 3 in a detachable configuration. When the pillow 100 becomes dirty or damaged after use, the sleep snoring monitoring device 10 can be directly detached from the pillow body 1 so that the sleep snoring monitoring device 10 can be retained twice. In use, it is environmentally friendly and cost-effective, thereby improving the practical value of the sleep snoring monitoring device 10. In this embodiment, the shape of the pillow body 1 may be, but not limited to, a rectangle, a square, an ellipse or the like. Preferably, the shape of the pillow body 1 in the present embodiment is a rectangle.

[0032]

2, FIG. 2 is a schematic diagram showing the circuit structure of a preferred embodiment of the sleep snoring monitoring apparatus 10 of the present invention.

In the present embodiment, the sleep snoring monitoring device 10 includes, but is not limited to, a sound collector 11, a microcontroller 12, an air pump 13, a concave and convex air bag 14, a communication port 4, and a micro battery 15. The sound A collector 11, an air pump 13 and a communication port 4 are connected to the microcontroller 12, the heart rate sensor 5 is connected to the microcontroller 12 via a communication port 4, and the bumper airbag 14 is connected to the inflator On the pump 13. The micro-inflator 13 is small in size and light in weight, and is capable of inflating and deflation of the concave-convex airbag 14 to change the height and inclination of the pillow 100.

[0034] The sound collector 11 is configured to collect a snore sound signal generated by a user during a sleep process, and send a snore sound signal to the microcontroller 12. The sound collector 11 may be a device such as a microphone or a sound sensor capable of collecting a snore sound signal during a user's sleep, and the snore sound signal is essentially a sound wave of a user's snore.

[0035] The microcontroller 12 is configured to determine, according to the user's snoring sound signal, whether the user snoring is a mild snoring or a severe snoring. In this embodiment, the microcontroller 12 performs sonic analysis on the snore sound signal collected by the sound collector 11 to determine whether the user is currently snoring or severely snoring. In general, a slight snoring or severe snoring, the corresponding decibel value of the sound wave and the waveform will have specific waveform characteristics. The microcontroller 12 performs acoustic wave analysis based on waveform characteristics, i.e., can distinguish between mild snoring and severe snoring. It should be noted that the above-described acoustic wave analysis method is not unique in the prior art, and is not specifically limited in this embodiment. Acoustic wave analysis techniques having the same or similar effects can be employed in conjunction with the overall technical solution of the present embodiment.

[0036] When the user snoring is a slight snoring, the microcontroller 12 activates the air pump 13 to inflate or deflate the embossed airbag 14 to change the height and inclination of the pillow 100, thereby adjusting the user's head to sleep. The posture is to eliminate the degree of snoring of the user. In this embodiment, when the concave-convex airbag 14 is inflated, the height and inclination of the pillow 100 may be increased; when the concave-convex airbag 14 is deflated, the height and inclination of the pillow 100 may be reduced. Thereby, the auxiliary user can adjust the head sleeping position to eliminate the degree of the user's snoring and improve the user's sleep quality. In general, mild snoring is not enough to cause physical harm (such as apnea), but if you do not adjust it, it is likely to turn into severe snoring. Therefore, by changing the height and inclination angle of the pillow 100, the posture of the user's head can be adjusted, thereby reducing or eliminating the degree of snoring of the user, so as to prevent the user from shifting from a mild snoring to a severe snoring.

[0037] When the user snoring is severe snoring, the microcontroller 12 collects the heart rate of the user through the heart rate sensor 5, and determines whether the heart rate of the user is normal. Under normal circumstances, the normal heart rate of adults is 60~100 times/min. The ideal heart rate should be 55 to 70 times per minute. If the heart rate exceeds 160 beats/min or less than 40 beats/min, the microcontroller 12 determines that the user's heart rate is abnormal, and the user may experience apnea or a heart attack (e.g., myocardial infarction). Thereafter, the microcontroller 12 generates an alarm message and transmits the alarm information and heart rate data to the medical monitoring platform 30 via the communication port 4. When the microcontroller 12 determines that the heart rate of the user is normal, generating reminder information and transmitting the reminder information to the guardian's mobile terminal device 20 through the communication port 4, to remind the guardian and the user to watch the severely snoring, to prevent Unexpected illnesses occur.

[0038] In this embodiment, the communication port 4 is a type that supports Bluetooth, WiFi, GSM, GPRS, 3G or 4

G wireless communication network communication interface, used to send the user's sleep information and heart rate data to the guardian mobile communication terminal (such as the guardian or doctor's mobile phone) or the medical monitoring center's medical monitoring platform for the guardian or doctor Really understand the user's sleep dynamically.

[0039] The micro battery 15 is used for providing the working power to the sleep snoring monitoring device 10. The micro battery 15 is a low-radiation, low-power rechargeable lithium battery or a button battery, which is not for the user. Health has an impact. The micro battery 15 is also connected to a charging port 6, which is disposed at an edge of the pillow body 1. The charging port 6 can be a USB charging interface or other standard battery charging interface, and the charging port 6 The microbattery 15 can be directly charged by plugging it into an external power source such as a computer USB data interface or a low voltage regulator. When the power of the micro battery 15 is used up, the user can charge the micro battery 15 through the charging port 6, thereby extending the life cycle of the sleep snoring monitoring device 10.

[0040]

As shown in FIG. 3, FIG. 3 is a structural diagram of an application system of a preferred embodiment of the sleep snoring monitoring apparatus 10 of the present invention.

In this embodiment, the application system includes a sleep snoring monitoring device 10, a mobile communication terminal 20, a router 21, and a medical monitoring platform 30. The sleep snoring monitoring device 10 is connected to the mobile communication terminal 20 and the router 21 via a wireless network 40, which is connected to the medical monitoring platform 30 via a remote communication network 50. The wireless network 40 includes, but is not limited to, a wireless transmission network such as Bluetooth, WiFi, etc., and the remote communication network 50 includes, but is not limited to, a wireless transmission network such as a GSM network, a GPRS network, or a CDMA. The sleep snoring monitoring device 10 is applied to the pillow 100. The mobile communication terminal 20 includes, but is not limited to, a mobile phone, a personal digital assistant device (PDA), a palmtop computer, etc. Line communication equipment. The medical monitoring platform 30 is a remote monitoring device or server disposed at a medical monitoring center.

[0042] In the embodiment, the sleep snoring monitoring device 10 is configured to monitor the user's sleep snoring information, determine whether the user snoring is mildly snoring or severe snoring, and when the user is severely snoring and the heart rate is abnormal, an alarm is generated. The information is sent to the medical monitoring platform 30 via the router 21 for emergency ambulance measures by the doctor for critically ill users (eg, apnea or myocardial infarction, etc.). When the user is severely snoring and the heart rate is normal, the reminder information is generated and sent to the guardian's mobile terminal device 20 through the router 21 to remind the guardian and the non-critical users who are severely snoring to prevent accidental diseases ( For example, apnea or myocardial infarction, etc.).

[0043] The sleep snoring monitoring device 10 of the present invention transmits the collected sleep data and heart rate to the router 21, and then is sent by the router 21 to the remote medical monitoring platform 30 for storage, thereby realizing the connection of the heart rate data and the medical monitoring center. The remote synchronization monitoring of the user's sleep condition is realized by the doctor. This allows doctors to monitor the user's sleep dynamically and continuously 24 hours a day. In addition, since the external router 21 is used as the transmission sleep data to the remote medical monitoring platform 30, the hardware configuration requirement of the sleep snoring monitoring device 10 of the present invention is reduced, which saves the cost and realizes the user's sleep situation remotely. Synchronous monitoring.

[0044]

[0045] In addition, the present invention also provides a sleep snoring monitoring method, which is applied to the sleep snoring monitoring device 10, and can monitor the user's sleep snoring situation in combination with the user's heart rate data, and automatically adjust the user for the slightly snoring user. The head sleep position eliminates the user's snoring degree, generates alarm information for the severely snoring user and sends it to the external mobile communication terminal 20 and the remote medical monitoring platform 30 for the guardian and the doctor to remotely track the user's sleep condition. Prevent users from apnea caused by snoring or a critical condition of myocardial infarction.

[0046] As shown in FIG. 4, FIG. 4 is a flow chart of a preferred embodiment of the sleep snoring monitoring method of the present invention. In this embodiment, the sleepable snoring monitoring method includes, but is not limited to, the following steps:

[0047] Step S41, the sound collector 11 collects the snore sound signal generated by the user during the sleep process, and sends the snore sound signal to the microcontroller 12. The sound collector 11 can be a microphone or a sound sensor A device such as a device is capable of collecting a snore sound signal during a user's sleep, and the snore sound signal is essentially a sound wave of a user's snoring sound.

[0048] Step S42, the microcontroller 12 determines, according to the user's snoring sound signal, whether the user snoring is a mild snoring or a severe snoring. In this embodiment, the microcontroller 12 performs sonic analysis on the snore sound signal collected by the sound collector 11 to determine whether the user is currently snoring or severely snoring. In general, mild snoring or severe snoring, the corresponding decibel value of the sound wave and the waveform will have specific waveform characteristics. The microcontroller 12 performs acoustic wave analysis based on waveform characteristics, i.e., can distinguish between mild snoring and severe snoring. If the user is snoring, the process proceeds to step S43; if the user snoring is severely snoring, the process proceeds to step S44.

[0049] Step S43, the microcontroller 12 activates the air pump 13 to inflate or deflate the concave and convex air bag 14 to change the height and inclination of the pillow 100 to adjust the user's head sleeping position to eliminate the user's snoring degree. In this embodiment, when the concave-convex airbag 14 is inflated or deflated, the height and inclination of the pillow 100 may be increased or decreased, thereby assisting the user to adjust the head sleeping posture to eliminate the degree of user snoring, and improve the user's The effect of sleep quality. In general, mild snoring is not enough to cause harm to your health (such as a pause in breathing), but if you don't adjust it, you are likely to turn into a severe snoring. Therefore, for the characteristic of mild snoring, by changing the height and inclination angle of the pillow 100, the posture of the user's head can be adjusted, thereby eliminating or eliminating the degree of snoring of the user, so as to prevent the user from shifting from a mild snoring to a severe snoring.

[0050] Step S44, the microcontroller 12 collects the heart rate data of the user through the heart rate sensor 5. In the present embodiment, the heart rate sensor 5 collects heart rate data of the user and transmits the heart rate data of the user to the microcontroller 12 through the communication port 4.

[0051] Step S45, the microcontroller 12 determines whether the heart rate of the user is normal according to the heart rate data collected by the heart rate sensor 5. Under normal circumstances, the normal heart rate of adults is 60~100 times / minute, and the ideal heart rate should be 55~70 times / minute. If the heart rate exceeds 160 beats/min or less than 40 beats/min, the microcontroller 12 determines that the user's heart rate is abnormal, and the user may experience apnea or a heart attack (e.g., myocardial infarction). If the heart rate of the user is normal, step S46 is performed; if the heart rate of the user is abnormal, step S47 is performed.

[0052] Step S46, the microcontroller 12 generates reminder information and sends the reminder information to the guardian's mobile terminal device 20 through the communication port 4 to remind the guardian and the non-critical users who are severely snoring. Prevent accidental disease conditions (such as apnea or myocardial infarction).

[0053] Step S47, the microcontroller 12 generates alarm information and sends the alarm information and heart rate data to the medical monitoring platform 30 of the medical monitoring center through the communication port 4 for the doctor to seriously smuggle critically ill users (such as apnea) Or myocardial infarction, etc.) Take emergency ambulance measures.

The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent function changes made by the description of the present invention and the contents of the drawings, or directly or indirectly applied to other related The technical field is equally included in the scope of patent protection of the present invention.

Industrial applicability

Compared with the prior art, the sleep snoring monitoring device and the application system and method thereof of the present invention can monitor the user's sleep condition in combination with the user's heart rate data, and automatically adjust the user's head for the user who is slightly snoring. The sleeping position eliminates the user's snoring and achieves the effect of improving the user's sleep quality. The alarm message is generated for the severely snoring user and sent to an external mobile communication terminal or a remote medical monitoring platform for the guardian and the doctor to remotely track the user. The sleep condition prevents the user from apnea caused by snoring or a critical condition of myocardial infarction.

[0056]

Claims

Claim

[Claim 1] A sleep snoring monitoring device is applied to a pillow, wherein the sleep snoring monitoring device comprises a sound collector, a micro controller, an air pump, a concave and convex air bag, and a communication port, and the sound collector The air pump and the communication port are connected to the microcontroller, the concave and convex air bag is connected to the air pump, and the communication port is connected with a heart rate sensor, wherein: the sound collector is used to collect the user during the sleep process Generating a snooze sound signal, and transmitting the snore sound signal to the microcontroller; the microcontroller is configured to determine, according to the snore sound signal, whether the user snore is mildly snoring or severely snoring, when the user is snoring is light The snoring starts the air pump to inflate or deflate the embossed airbag to change the height and inclination of the pillow to adjust the user's head sleeping position to eliminate the user's snoring degree, and when the user snoring is severely snoring through The heart rate sensor collects heart rate data of the user and determines whether the heart rate of the user is normal. The heart rate of the user is abnormal, the alarm information is generated, and the alarm information and heart rate data are sent to the medical monitoring platform set in the medical monitoring center through the communication port.

[Claim 2] The sleep snoring monitoring apparatus according to claim 1, wherein the microcontroller is further configured to generate reminder information and send the reminder information through the communication port when the user's heart rate is normal. Send to the guardian's mobile terminal device.

[Claim 3] The sleep snoring monitoring apparatus according to claim 1, wherein the communication port is connected to the heart rate sensor by a wired connection or a wireless connection.

[Claim 4] The sleep snoring monitoring apparatus according to claim 1, wherein the heart rate sensor is disposed in a user's pajamas pocket and is in close proximity to a chest position of the user, the heart rate sensor is configured to sense a user's heart rate Data and the heart rate data of the user is sent to the microcontroller via the communication port.

[Claim 5] The sleep snoring monitoring apparatus according to claim 1, wherein the sleep snoring monitoring device further comprises a micro battery for providing working power to the sleep snoring monitoring device, the micro battery is Rechargeable lithium battery or button battery.

[Claim 6] An application system comprising the sleep snoring monitoring device according to any one of claims 1 to 5.

The application system includes the sleep snoring monitoring device and the mobile communication terminal The terminal, the router, and the medical monitoring platform, the sleep snoring monitoring device is connected to the mobile communication terminal and the router through a wireless network, and the router is connected to the medical monitoring platform through a remote communication network.

[Claim 7] A sleep snoring monitoring method for use in a pillow equipped with a sleep snoring monitoring device, characterized in that the device comprises a sound collector, a microcontroller, an air pump, a concave-convex airbag, and a communication port, a sound collector, an air pump and a communication port are connected to the microcontroller, the concave-convex airbag is connected to the air pump, and the communication port is connected with a heart rate sensor, the method comprising the steps of: collecting by the sound Collecting a snoring sound signal generated by the user during the sleep process, and transmitting the snoring sound signal to the microcontroller; determining, according to the snoring sound signal, whether the user snoring is mildly snoring or severe snoring; when the user snoring is mild Snoring, initiating the air pump to inflate or deflate the concave and convex airbag to change the height and inclination of the pillow to adjust the user's head sleeping posture to eliminate the degree of snoring of the user; when the user snoring is severe snoring, Collecting heart rate data of the user through the heart rate sensor; determining whether the heart rate of the user is positive ; When the user's heart rate and error often inch, and generates an alarm message through said communication port and the alarm information is transmitted to the heart rate data on the medical care provided at the center of the health care internet.

[Claim 8] The sleep snoring monitoring method according to claim 7, wherein the method further comprises the steps of: generating a reminder message and transmitting the reminder information to the communication port through the communication port when the user's heart rate is normal On the guardian's mobile terminal device.

[Claim 9] The sleep snoring monitoring method according to claim 7, wherein the communication port is connected to the heart rate sensor by a wired connection or a wireless connection.