KR20180068825A - A prediction and monitoring system and method for pregnancy optimization through uterus insertion or attachment sensor - Google Patents

Abstract

The present invention relates to a system and a method for predicting and monitoring an optimal time for pregnancy through a uterus-inserted or attached type sensor. The system of the present invention comprises: a temperature measuring module measuring the temperature of a uterus for predicting an optimal time for pregnancy of a female desiring the pregnancy; and a user smart device interworking with the temperature measuring module, and mounted with a childbearing period predicting application for predicting and monitoring an optimal ovulation day for pregnancy on the basis of uterus temperatures measured by the temperature measuring module. Therefore, a user is able to efficiently predict and manage the optimal time for pregnancy.

Description

TECHNICAL FIELD [0001] The present invention relates to a system and method for predicting and monitoring a pregnancy optimizer through a Uterine implantable or attachable sensor,

The present invention relates to a system and method for predicting and monitoring a pregnancy optimizer, and more particularly, to a system and method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor.

In recent years, low fertility problems are emerging as social problems in Korea. In order to solve the problem of low fertility, we are trying to provide support for childbirth incentives, increase the number of childcare facilities, and grant childcare leave to men. FIG. 1 is a graph showing the number of births and the total fertility rate of the country by year, and shows the number of births and the total fertility rate in Korea from 2002 to 2013. As shown in FIG. 1, according to the analysis of the number of births and the total fertility rate of the Ministry of Health and Welfare, the provisional statistics of 2013 showed 436,600 births, which is 4 times more than the previous year (484,600) (9.9%), respectively. This figure is the second lowest since statistics (1970), followed by 2005 (435,000), and there have been various attempts to solve low birth problems in our society for the last 10 years. However, And the lowest level.

There are many reasons for such low fertility problems. For example, the burden of child - rearing support has increased, and due to the increase in the number of women entering the society, there are fewer social conditions for women to give birth to children. In addition to these social and environmental problems, infertility, which I want to give birth to but can not give birth, also has a great impact on low fertility. Most of the infertile patients are not absolutely infertile, and if they try medically they will be able to get pregnant enough. However, women who want to get pregnant now wake up every morning to find the optimal time of pregnancy, And a basic body temperature method for checking whether or not there is a rise in body temperature immediately after.

2 is a diagram showing a temperature change of the body according to a menstrual cycle of a woman. In general, body temperature and pregnancy are correlated. The temperature is maintained at about 36.7 ° C, which is the average body temperature, and the temperature is lowered by about 1 ° C at 0.5 ° C, which is called the ovulation date. Based on this ovulation date, it is said that fertility is likely to become pregnant within 2 days ~ 4 days. In this way, the body temperature is checked based on the menstrual cycle of women to predict the fertility period. However, when checking for the increase in body temperature and making efforts for pregnancy, the ovulation has already progressed for the month, There was a problem. In other words, the conventional basic thermometry method is called the basic body temperature by measuring the body temperature measured by putting the thermometer on the mouth for 5 minutes while lying on the bed before the morning. We predict the optimal pregnancy period with the possibility of pregnancy by predicting the ovulation day through the change of the basal body temperature, but there are many errors in this method. The first is the error in the temperature measurement itself. In other words, the body temperature should be measured immediately after getting up in the morning. However, the body temperature measurement after the wakeup is severely changed even with a small movement, and the error that occurs every time the body temperature is measured can not be ignored. The second is the measurement on the day of ovulation. However, since there is no special temperature change before the ovulation day, it is difficult to predict the ovulation date and most of the temperature drop that occurs during ovulation is measured, so that the ovulation progresses and the pregnancy optimizer is missed frequently There was a problem. Korean Patent Laid-Open Publication No. 10-2004-0077258 discloses a system and method for predicting an ovulation date in the prior art.

The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods, and includes a user smart device on which a temperature measurement module and a pregnancy prediction application are mounted and executed, The temperature of the uterus is directly measured and the cycle of the temperature change during the menstrual cycle of the woman is managed by the pregnancy prediction application executed on the smart device of the user, It is an object of the present invention to provide a system and a method for predicting and monitoring a pregnancy optimizer through an intrauterine insertion or attachment sensor that predicts when an ovulation date is predicted and which can appropriately provide an optimal ovulation date and fertility period to a user who desires pregnancy do.

It is another object of the present invention to improve the accuracy of the temperature change during the menstrual cycle of a woman by directly measuring the temperature of the uterus rather than the basic body temperature measurement of the existing basic thermometry method and to solve the problem that the menstrual cycle is not constant, It is another object of the present invention to provide a system and method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor of the uterus, which enables efficient prediction and management of the optimal period of pregnancy.

In addition, the present invention is characterized in that the temperature measurement module inserted into the uterus is composed of a temperature sensor, a wireless communication module, and a tube main body, the temperature sensor is configured to be very small, and the wireless communication module is configured by a beacon The tube body is made of a biocompatible rubber material so that it can be safely inserted into the uterus of a user who wants to be pregnant and used. In addition, the beacon- It is still another object to provide a system and method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor, which enables convenience of use where close communication with a pregnancy prediction application to be mounted and executed can be improved.

According to an aspect of the present invention, there is provided a system for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor,

A system for predicting and monitoring a pregnancy optimizer via an implantable or attachable sensor,

A temperature measurement module for measuring the uterine temperature for predicting the optimal period of pregnancy of a woman who wants to become pregnant; And

And a user smart device that is interlocked with the temperature measurement module and is equipped with a pregnancy prediction application for predicting and monitoring an optimal ovulation date for pregnancy based on the uterine temperatures measured by the temperature measurement module .

Preferably, the temperature measurement module comprises:

And can be inserted into the uterus of a woman who wants to become pregnant.

Preferably, the temperature measurement module comprises:

It may consist of an attachment type in which a part is inserted into the uterus of a woman who wants to become pregnant.

Preferably, the temperature measurement module comprises:

A temperature sensor for measuring the uterine temperature of a woman who wants to become pregnant;

A wireless communication module for transmitting the measured uterine temperatures from the temperature sensor to the user smart device in a wireless communication manner; And

And a tube main body accommodating the temperature sensor and the wireless communication module therein and inserted into the uterus.

More preferably, the temperature sensor comprises:

And it can be configured as an ultra small type using MEMS (Micro Electro Mechanical System) technology.

More preferably, the wireless communication module includes:

It can be configured as a beacon based on the Bluetooth 4.0 protocol.

More preferably, the tube main body includes:

And a biocompatible rubber material that covers the uterine body fluid to prevent a failure of the temperature sensor and the wireless communication module and can prevent a wound from being generated in the uterus.

Still more preferably, the tube main body includes:

It is composed of a biocompatible rubber material and can be formed in a circular shape as a whole so that it can be inserted into the body of the uterus.

Advantageously, the user smart device comprises:

It is possible to detect beacons of the wireless communication module and to receive and store the uterine temperatures measured by the temperature sensor only by executing the loaded pregnancy machine prediction application.

More preferably, the child-bearing-weight prediction application includes:

A monthly uterine temperature cycle is detected based on the temperature in the uterus measured from the temperature sensor of the temperature measurement module, and the ovulation date and the reproductive period based on the menstrual cycle according to the monthly uterine temperature cycle are predicted and monitored, .

Still more preferably, the child-bearing prediction application includes:

The daily temperature of the uterus measured by the temperature sensor of the temperature measurement module can be collected in real time at a preset time.

Still more preferably, the child-bearing prediction application includes:

The daily temperature of the uterus measured by the temperature sensor of the temperature measurement module is collected in real time at a predetermined time, and the daily temperature of the uterus may be configured at least once.

Still more preferably, the child-bearing prediction application includes:

The user's ovulation date and the reproductive time can be predictively determined so that the user's ovulation date and repetition period can be visually displayed and displayed on the screen of the user smart device so that the user can confirm the date.

Still more preferably, the child-bearing prediction application includes:

The user can inform the user of the ovulation date and the repetition period of the ovulation date and the repetition period through an alarm through the user smart device so that the user can confirm the ovulation date and repetition period of the corresponding user.

According to an aspect of the present invention, there is provided a method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor,

A method for predicting and monitoring a pregnancy optimizer through a womb implantable or attachable sensor,

(1) measuring the temperature of the uterus for predicting the optimal pregnancy of a woman whose temperature sensor of the temperature measuring module desires to be pregnant;

(2) the wireless communication module of the temperature measurement module transmits the temperature of the uterus measured in the step (1) to a user smart device carried by the user; And

(3) The pregnancy prediction application installed and executed in the user smart device collects and stores the temperature of the uterus transmitted in the step (2), predicts the optimal ovulation date for pregnancy based on the measured uterine temperatures, The method comprising the steps of:

Preferably,

(4) The method for providing a pregnancy prediction application, which is installed and executed in the smart smart device, may provide the user with an optimal ovulation date and a fertility period that are predicted and monitored in the step (3).

Preferably, in the step (4)

The pregnancy machine prediction application may provide an ovulation date and a repetition time for the user so that the user can visually confirm the optimal ovulation date and the repetition period, Or a combination of the two.

More preferably, the child-bearing-weight prediction application includes:

The daily temperature of the uterus measured by the temperature sensor of the temperature measurement module is collected in real time at a predetermined time, and the daily temperature of the uterus can be configured at least once.

Preferably, the temperature measurement module comprises:

The temperature sensor and the wireless communication module may be housed in a tube main body made of a biocompatible rubber material and the tube main body may be in the form of an insertion type in which the tube body is inserted into the uterus of a woman who wants to become pregnant, .

More preferably, the wireless communication module includes:

And a beacon based on the Bluetooth 4.0 protocol, and can perform wireless communication in conjunction with the pregnancy prediction application installed and executed in the user smart device.

According to the system and method for predicting and monitoring a pregnancy optimizer through the implantable or attachable type sensor according to the present invention, there is provided a user smart device mounted and executed with a temperature measurement module and a pregnancy prediction application, The temperature of the uterus is measured directly by being inserted into the uterus of the desired user and the period of the temperature change during the menstrual cycle of the woman is managed by the pregnancy prediction application executed on the smart device of the user, It is possible to predict when the ovulation date is in advance, and to appropriately provide the optimal ovulation date and fertile period to the user who wants to become pregnant.

Further, according to the present invention, the temperature of the uterus is measured directly rather than the basic body temperature measurement of the existing basic thermometry method, whereby the accuracy of the temperature change during the menstrual cycle of the woman is improved, and the problem of the ovulation date So that the optimum period of pregnancy can be efficiently predicted and managed.

In addition, the present invention is characterized in that the temperature measurement module inserted into the uterus is composed of a temperature sensor, a wireless communication module, and a tube main body, the temperature sensor is configured to be very small, and the wireless communication module is configured by a beacon The tube body is made of a biocompatible rubber material so that it can be safely inserted into the uterus of a user who wants to be pregnant and used. In addition, the beacon- It is possible to improve convenience of use in which short-range communication with the child-bearing prediction application to be mounted and executed can be performed.

FIG. 1 is a graph showing the number of births and the total fertility rate in Korea by year.
FIG. 2 is a diagram showing a temperature change of a body according to a menstrual cycle of a woman; FIG.
FIG. 3 is a functional block diagram illustrating the configuration of a monitoring system for predicting and optimizing a pregnancy optimizer through an implantable or attachable type sensor according to an embodiment of the present invention. FIG.
FIG. 4 is a functional block diagram illustrating a configuration of a temperature measurement module applied to a monitoring system for predicting and optimizing a pregnancy optimizer through an implantable or attachable type sensor according to an embodiment of the present invention. FIG.
FIG. 5 is a perspective view of a temperature measurement module applied to a pregnancy optimizer predicting and monitoring system through an implantable or attachable type sensor according to an embodiment of the present invention. FIG.
FIG. 6 is a flow chart illustrating a method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor according to an embodiment of the present invention. FIG.
FIG. 7 is a calendar showing an ovulation date display date provided through a pregnancy prediction application of a pregnancy optimizer prediction and monitoring system through an insertion or attachment sensor according to an embodiment of the present invention; FIG.
FIG. 8 illustrates changes in uterine body temperature provided through a fertility prediction application in a pregnancy optimizer prediction and monitoring system using an implantable or attachable sensor according to an embodiment of the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 3 is a functional block diagram illustrating a configuration of a pregnancy optimizer predicting and monitoring system using an implantable or attachable type sensor according to an embodiment of the present invention. FIG. 5 is a functional block diagram illustrating a configuration of a temperature measurement module applied to a prediction and monitoring system of a pregnancy optimizer through an attachment type sensor. FIG. 5 is a block diagram of a temperature measurement module applied to a pregnancy optimizer prediction / And a perspective view of a temperature measurement module applied to the monitoring system. 3 to 5, a pregnancy optimizer prediction and monitoring system 100 according to an embodiment of the present invention includes a temperature measurement module 110 and a user smart device (130).

The temperature measurement module 110 is a configuration for measuring the uterine temperature for predicting the optimal pregnancy period of a woman desiring pregnancy. The temperature measurement module 110 may be of an insertion type inserted directly into the uterus of a woman who wants to be pregnant, or an attachment type in which a part of the temperature measurement module 110 is inserted into the uterus of a woman who wants to become pregnant. 4 and 5, the temperature measurement module 110 includes a temperature sensor 111 for measuring the uterine temperature of a woman who wants to become pregnant, a temperature sensor 111 for measuring the uterine temperatures measured from the temperature sensor 111, A wireless communication module 112 for transmitting the wireless communication module 112 to the user smart device 130 and a tube body 113 for receiving the temperature sensor 111 and the wireless communication module 112 therein and inserted into the uterus, can do.

In addition, the temperature sensor 111 of the temperature measurement module 110 may be configured as an ultra miniature type using a MEMS (Micro Electro Mechanical System) technology. Also, the wireless communication module 112 may be configured as a beacon based on the Bluetooth 4.0 protocol. 5, the tube main body 113 covers the temperature sensor 111 and the wireless communication module 112 so as to be prevented from being damaged by the body fluid in the uterus, And can be made of a biocompatible rubber material that can be prevented. Here, the tube main body 113 may be formed of a biocompatible rubber material, and may be formed in a circular shape as a whole so that it can be inserted into the uterus.

The user smart device 130 includes a fertility prediction application 120 interlocked with the temperature measurement module 110 and for predicting and monitoring an optimal ovulation date for pregnancy based on the uterine temperatures measured by the temperature measurement module 110 It is the configuration of a smartphone that is mounted and executed. The user smart device 130 can detect the beacon of the wireless communication module 112 only by executing the embedded child-rearing prediction application 120 and receive and store the uterine temperatures measured by the temperature sensor 111. [

The pregnancy prediction application 120 mounted on the smart device 130 detects the monthly uterine temperature cycle based on the temperature in the uterus measured by the temperature sensor 111 of the temperature measurement module 110, The ovulation date and reproductive period based on the menstrual cycle according to the monthly uterine temperature cycle can be predicted and monitored and provided for the user to check. At this time, the pregnancy period prediction application 120 can collect the daily temperature of the uterus measured by the temperature sensor 111 of the temperature measurement module 110 at a predetermined time in real time. The pregnant period prediction application 120 collects the daily temperature of the uterus measured by the temperature sensor 111 of the temperature measurement module 110 at a preset time in real time and collects the daily temperature of the uterus at least once have.

In addition, at the time of predicting the user's ovulation date and the repetition period, the repetition period prediction application 120 visually displays a date so that the user can confirm the ovulation date and the repetition period of the corresponding user through the screen of the user smart device 130 can do. In addition, the child-bearing prediction application 120 may notify the user through the user smart device 130 so that the user can check the ovulation date and the child's birthday of the corresponding user at the time of predicting the user's ovulation date and repetition period. Here, the provision of the alarm of the user's ovulation date and the reproductive period informs the user that the user can confirm the optimal date for pregnancy immediately upon occurrence of the event that the pregnancy is possible.

FIG. 6 is a flow chart illustrating a method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor according to an exemplary embodiment of the present invention. FIG. FIG. 8 is a graph showing a calendar showing the date of ovulation date display provided through the pregnancy prediction application of the pregnancy optimizer prediction and monitoring system through the uterine insertion or attachment sensor according to the embodiment of the present invention. FIG. 2 is a diagram showing a change in uterine body temperature provided through a pregnancy prediction application of the monitoring system. FIG. As shown in FIG. 6, the method for predicting and monitoring a pregnancy optimal period through an implantable or attachable sensor according to an embodiment of the present invention includes measuring a temperature of a uterus (S110) (S140) of estimating and monitoring the optimal ovulation date, and providing (S140) that the user can confirm the optimal ovulation date and the optimum fertilization date. .

In step S110, the temperature sensor 111 of the temperature measurement module 110 measures the temperature of the uterus for prediction of the pregnancy optimum period of the woman who wants to become pregnant. The temperature measurement module 110 includes a temperature sensor 111 and a wireless communication module 112 housed in a tube main body 113 made of a biocompatible rubber material and a tube main body 113, It is composed of an insertion type inserted in the uterus or an attachment type in which a part is inserted so that the temperature of the user's uterus can be directly measured.

In step S120, the wireless communication module 112 of the temperature measurement module 110 transmits the temperature of the uterus measured in step S110 to the user smart device 130 carried by the user. Here, the wireless communication module 112 includes a beacon based on the Bluetooth 4.0 protocol, and is capable of performing wireless communication in conjunction with a buddy prediction application installed and executed in the user smart device.

In step S130, the postembodiment prediction application 120 mounted on and executed by the smart device 130 collects and stores the temperature of the uterus transmitted in step S120, and calculates an optimal ovulation date for pregnancy based on the measured uterine temperatures Forecast and monitor. At this time, the pregnancy period prediction application 120 collects the daily temperature of the uterus measured by the temperature sensor 111 of the temperature measurement module 110 at a predetermined time in real time, and the daily temperature of the uterus can be collected at least once .

In step S140, the child-bearing prediction application 120 mounted on and executed by the smart device 130 provides the user with an optimal ovulation date and child monitoring time predicted and monitored in step S130. That is, in step S140, the child-rearing machine predicting application 120 provides the user with an optimum ovulation date and a repetition period, and displays the ovulation date and the reproductive period on the screen of the user smart device 130 Or provide them with an alarm via the user smart device 130. In some embodiments,

FIG. 8 is a flowchart illustrating a method of predicting and monitoring a pregnancy optimizer through the implantable or attachable sensor according to an exemplary embodiment of the present invention. Referring to FIG. 8, Indicates the configuration to display as a calendar. 8 is a graph illustrating changes in the monthly uterine body temperature, which is provided through the pregnancy prediction application 120 of the pregnancy optimizer prediction and monitoring system through the insertion device of the uterus or the attachment sensor according to the embodiment of the present invention, .

As described above, a system and method for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor according to an embodiment of the present invention includes a user smart device on which a temperature measurement module and a fertility prediction application are mounted and executed, The temperature measurement module is inserted into the uterus of the user who wants to become pregnant and measures the temperature directly in the uterus and the period of the temperature change during the menstrual cycle of the woman is managed by the pregnancy prediction application executed on the user smart device, It is possible to predict when the ovulation date is in advance before the ovulation date of the user who wants to become pregnant, and to provide the optimal ovulation date and fertilization date accordingly to the user desiring pregnancy. In addition, by measuring the temperature of the uterus instead of measuring the basal body temperature of the existing basal body temperature method, it is possible to improve the accuracy of the temperature change during the menstrual cycle of the woman, solve the problem that the menstrual cycle is not constant, In particular, the temperature measurement module inserted into the uterus is composed of a temperature sensor, a wireless communication module, and a tube main body. The temperature sensor is configured to be very small, And a beacon interlocking with a smart device. The tube body is made of a biocompatible rubber material so that it can be safely inserted into the uterus of a user who wants to become pregnant and used. In addition, It is mounted on the user smart device in the way of mutual detection. This is convenient in the available short-range communication with the fertility prediction application can be to be enhanced.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics and scope of the invention.

100: a pregnancy optimizer prediction and monitoring system according to an embodiment of the present invention
110: Temperature measurement module
111: Temperature sensor
112: Wireless communication module
113: tube body
120: Reproductive Prediction Application
130: User smart device
S110: Measuring uterine temperature
S120: Transmit the measured uterine temperature
S130: Estimate and monitor optimal ovulation date
Step S140: Provide the user with an optimum ovulation date and fertilization date

Claims (20)

1. A pregnancy optimizer prediction and monitoring system (100) via a womb insertion or attachment sensor,
A temperature measurement module 110 for measuring the uterine temperature for predicting a pregnancy optimal period of a woman who wants to become pregnant; And
A user smart device (not shown), which is interlocked with the temperature measurement module 110 and is mounted with a childbirth prediction application 120 for predicting and monitoring an optimal ovulation date for pregnancy based on the uterine temperatures measured by the temperature measurement module 110 130) for monitoring a pregnancy optimizer through a Uterine implantable or attachable sensor.
The method of claim 1, wherein the temperature measurement module (110)
Wherein the pregnancy optimizer prediction and monitoring system is configured to be inserted into the uterus of a woman who wants to become pregnant.
The method of claim 1, wherein the temperature measurement module (110)
Wherein the pregnancy optimizer predicting and monitoring system comprises an attachment type in which a part of the body part is inserted into the uterus of a woman who wants to become pregnant.
The method of claim 1, wherein the temperature measurement module (110)
A temperature sensor 111 for measuring the uterine temperature of a woman who wants to become pregnant;
A wireless communication module (112) for transmitting the measured uterine temperatures from the temperature sensor (111) to the user smart device (130) in a wireless communication manner; And
And a tubular body (113) for receiving the temperature sensor (111) and the wireless communication module (112) therein and inserted into the uterine cavity. And monitoring system.
The temperature sensor according to claim 4, wherein the temperature sensor (111)
And a microelectromechanical system (MEMS) technology. The system for predicting and monitoring a pregnancy optimizer through an implantable or attachable sensor of the uterus.
5. The method of claim 4, wherein the wireless communication module (112)
And a beacon based on the Bluetooth 4.0 protocol. 2. The system of claim 1,
5. The apparatus of claim 4, wherein the tube body (113)
A cover made of a body fluid in the uterus to prevent a failure of the temperature sensor 111 and the wireless communication module 112 and a biocompatible rubber material capable of preventing a wound from occurring in the uterus A system for predicting and monitoring a pregnancy optimizer through a Uterine implantable or attachable sensor.
8. The apparatus of claim 7, wherein the tube body (113)
Wherein the body is made of a biocompatible rubber material and the overall shape is a circular ring shape so that it can be inserted into the body of the uterus.
9. A method according to any one of claims 1 to 8, wherein the user smart device (130)
Characterized in that a beacon of the wireless communication module (112) is detected only by execution of the loaded child repellent prediction application (120), and the uterine temperatures measured by the temperature sensor (111) are received and stored. Sensor - based prediction and monitoring system for pregnancy optima.
10. The method of claim 9, wherein the child-bearing prediction application (120)
The monthly uterine temperature cycle is detected based on the temperature in the uterus measured from the temperature sensor 111 of the temperature measurement module 110 and the ovulation date and reproductive period based on the menstrual cycle according to the monthly uterine temperature cycle are predicted and monitored , And provides for the user to verify. The system for predicting and monitoring the pregnancy optimizer through the implantable or attachable sensor of the uterus.
11. The method of claim 10, wherein the child-bearing prediction application (120)
Wherein the daily temperature of the uterus measured by the temperature sensor (111) of the temperature measurement module (110) is collected in real time at a preset time.
11. The method of claim 10, wherein the child-bearing prediction application (120)
Characterized in that the daily temperature of the uterus measured by the temperature sensor (111) of the temperature measurement module (110) is collected in real time at a predetermined time, and the temperature of the uterus is at least one time or more. Pregnancy optimizer prediction and monitoring system through.
11. The method of claim 10, wherein the child-bearing prediction application (120)
And displays a date visually so that the user can confirm the ovulation date and the repetition period of the corresponding user through the screen of the user smart device (130) at the time of predicting the user's ovulation date and repetition period. Or an attachment type sensor for predicting and monitoring a pregnancy optimizer.
11. The method of claim 10, wherein the child-bearing prediction application (120)
Wherein the user smart device (130) informs the user of an ovulation date and a repetition period of the user by an alarm at the time of predicting the user's ovulation date and the repetition period. Optimal prediction and monitoring system.
A method for predicting and monitoring a pregnancy optimizer through a womb implantable or attachable sensor,
(1) measuring the temperature of the uterus for the prediction of the pregnancy optimal period of the woman who desires to be pregnant by the temperature sensor 111 of the temperature measurement module 110;
(2) the wireless communication module 112 of the temperature measurement module 110 transmits the temperature of the uterus measured in the step (1) to the user smart device 130 carried by the user; And
(3) The pregnant uterine prediction application 120 mounted on and executed by the smart smart device 130 collects and stores the temperature of the uterus transmitted in the step (2), and calculates the optimum temperature for pregnancy based on the measured uterine temperatures And monitoring and monitoring the ovulation date of the pregnancy optimizer through the uterine insertion or attachment sensor.
16. The method of claim 15,
(4) The method of the present invention further includes a step of providing the user's smart device (130), which is implemented and executed by the user's predictive application (120), so that the user can check the optimal ovulation date and repetition time predicted and monitored in the step (3) Wherein the preterm implantable or attachable sensor is configured to detect and optimize the pregnancy optimizer.
17. The method according to claim 15 or 16, wherein in step (4)
The user's smart device 130 displays the date of birth and the repetition date on the screen so that the user can visually confirm the optimal ovulation date and the repetition period, Or informing them via an alarm via the smart smart device (130). A method of predicting and monitoring a pregnancy optimizer via a womb implantable or attachable sensor.
18. The method of claim 17, wherein the child-bearing prediction application (120)
Characterized in that the daily temperature of the uterus measured by the temperature sensor (111) of the temperature measurement module (110) is collected in real time at a predetermined time, and the temperature of the uterus is at least one time or more. Pregnancy Optimal Prediction and Monitoring Methods through.
16. The method of claim 15, wherein the temperature measurement module (110)
The temperature sensor 111 and the wireless communication module 112 are accommodated in a tube main body 113 made of a biocompatible rubber material and the tube main body 113 is inserted or partially inserted into a woman's uterus Is inserted into the uterine cavity of the uterus.
20. The wireless communication system of claim 19, wherein the wireless communication module (112)
And a beacon which is based on a Bluetooth 4.0 protocol and performs wireless communication in cooperation with the pregnancy prediction application installed and executed in the user smart device. Forecasting and monitoring methods.

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