KR102626553B1 - Device and method for early detection of side effects of vaccine using human patch-type sensor based on autonomic nervous system monitoring - Google Patents

Abstract

The present invention relates to an early detection device and method for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring. More specifically, it is an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring, which detects vaccine side effects in vaccine recipients. An ECG device to measure the electrocardiogram of a user who has received the vaccine; A smart device for collecting and transmitting the measured electrocardiogram of a vaccinated user to a server in conjunction with the ECG device; And a server that analyzes the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device and determines the side effects of the vaccine accordingly.
In addition, the early detection method of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to the characteristics of the present invention is a method of early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring, which includes (1) the user who received the vaccine with an ECG device; measuring the electrocardiogram; (2) a smart device collecting the measured electrocardiogram in conjunction with the ECG device and transmitting it to the server; and (3) a step in which the server analyzes the results of the electrocardiogram transmitted from the smart device and determines the resulting vaccine side effects.
According to the device and method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring proposed in the present invention, an ECG device for measuring the electrocardiogram of a vaccinated user to detect vaccine side effects in a vaccinated person, and an ECG device. A smart device that collects and transmits the measured electrocardiogram of a vaccinated user to a server in conjunction with By including and configuring it, it is possible to detect vaccine side effects in vaccine users through monitoring of the vaccine recipient's heart disease, and based on this, warn the user to encourage him or her to undergo a detailed examination at a hospital.
In addition, according to the device and method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring of the present invention, vaccine side effects of vaccine users can be detected and warned early through monitoring of the heart disease of the vaccine recipient. , it can reduce the risk of vaccine side effects in vaccine recipients.

Description

Device and method for early detection of vaccine side effects using body patch-type sensor based on autonomic nervous system monitoring {DEVICE AND METHOD FOR EARLY DETECTION OF SIDE EFFECTS OF VACCINE USING HUMAN PATCH-TYPE SENSOR BASED ON AUTONOMIC NERVOUS SYSTEM MONITORING}

The present invention relates to an early detection device and method for vaccine side effects, and more specifically, to an early detection device and method for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring.

In general, an electrocardiogram measures the electrical signals of the heart through electrodes attached to the skin and records them as a picture, and is essential information to be measured in heart examination. Specifically, electrocardiogram testing is performed on patients with symptoms such as chest pain or difficulty breathing or patients with diseases affecting the heart such as high blood pressure, and is performed as a basic test to check cardiac function before general anesthesia in pre-operative patients. It can be.

In the case of conventional electrocardiogram measuring devices, they are attached to the patient's body and used for the purpose of diagnosing heart disease by measuring biosignals. Republic of Korea Patent Publication No. 10-2138427 is disclosed as a prior art document.

Currently, mRNA vaccines such as Pfizer and Moderna, and viral vector vaccines such as AstraZeneca and Janssen are being used as vaccines against the new coronavirus infection. However, side effects from these vaccines are showing symptoms of myocarditis or pericarditis. Unlike other side effects, side effects on the heart have a rapid onset and have a very high risk of death. In addition, it was easy to mistake it for other diseases, such as fever or difficulty breathing, making it difficult to confirm the symptoms without an electrocardiogram or X-ray test.

The present invention was proposed to solve the above problems of previously proposed methods, and includes an ECG device for measuring the electrocardiogram of a vaccinated user to detect vaccine side effects in the vaccine recipient, and a vaccine vaccine in conjunction with the ECG device. It is composed of a smart device that collects the measured electrocardiogram of a user who has been vaccinated and transmits it to the server, and a server that analyzes the results of the electrocardiogram of the user who received the vaccine received from the smart device and determines the corresponding symptoms of vaccine side effects. , a human body patch-type sensor based on autonomic nervous system monitoring that detects vaccine side effects in vaccinated users by monitoring the heart disease of vaccine recipients, and alerts users based on this to encourage them to undergo detailed examination at a hospital. The purpose is to provide a device and method for early detection of vaccine side effects.

In addition, the present invention monitors the autonomic nervous system, which reduces the risk of vaccine side effects in vaccine recipients by early detecting and warning of vaccine side effects in vaccine recipients through monitoring of the vaccine recipient's heart disease. Another purpose is to provide a device and method for early detection of vaccine side effects using a human patch-based sensor.

In order to achieve the above object, an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to the characteristics of the present invention,

It is an early detection device for vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring.

An ECG device to measure the electrocardiogram of a vaccinated user to detect vaccine side effects in the vaccinated person;

A smart device for collecting and transmitting the measured electrocardiogram of a vaccinated user to a server in conjunction with the ECG device; and

Its structural feature is that it includes a server that analyzes the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device and determines the corresponding symptoms of vaccine side effects.

Preferably, the ECG device:

It measures the electrocardiogram of a vaccinated user and may consist of a patch-type sensor attached to the chest of the vaccinated person.

More preferably, the patch type sensor,

It is attached to the chest of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and the measured electrocardiogram can be transmitted wirelessly to the smart device.

Preferably, the ECG device:

It measures the electrocardiogram of a vaccinated user and may consist of a wearable sensor worn on the wrist of the vaccinated patient.

More preferably, the wearable sensor,

It can be configured as a smartwatch that is worn on the wrist of a vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device.

Preferably, the smart device:

In conjunction with the ECG device, the measured electrocardiogram of the user who has received the vaccine is collected and transmitted to the server, and can be connected wirelessly to the ECG device.

More preferably, the smart device,

The measured electrocardiograms of users who have received the vaccine are collected and transmitted to the server, and a pre-set survey test can be performed and transmitted together.

Even more preferably, the server:

The result of the electrocardiogram of the user who received the vaccine transmitted from the smart device is analyzed, the symptoms of vaccine side effects are determined, and if it is determined to be a vaccine side effect, an alarm notification can be issued accordingly.

A method for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring according to the characteristics of the present invention to achieve the above-mentioned object is,

As a method for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring,

(1) An ECG device measures the electrocardiogram of a user who has received the vaccine;

(2) a smart device collecting the measured electrocardiogram in conjunction with the ECG device and transmitting it to the server; and

(3) Its structural feature includes a step where the server analyzes the results of the electrocardiogram transmitted from the smart device and determines the resulting vaccine side effects.

Preferably, the ECG device:

It measures the electrocardiogram of a vaccinated user and may consist of a patch-type sensor attached to the chest of the vaccinated person.

More preferably, the patch type sensor,

It is attached to the chest of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and the measured electrocardiogram can be transmitted wirelessly to the smart device.

Preferably, the ECG device:

It measures the electrocardiogram of a vaccinated user and may consist of a wearable sensor worn on the wrist of the vaccinated patient.

More preferably, the wearable sensor,

It can be configured as a smartwatch that is worn on the wrist of a vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device.

Preferably, the smart device:

In conjunction with the ECG device, the measured electrocardiogram of the user who has received the vaccine is collected and transmitted to the server, and can be connected wirelessly to the ECG device.

More preferably, the smart device,

The measured electrocardiograms of users who have received the vaccine are collected and transmitted to the server, and a pre-set survey test can be performed and transmitted together.

Even more preferably, the server:

The result of the electrocardiogram of the user who received the vaccine transmitted from the smart device is analyzed, the symptoms of vaccine side effects are determined, and if it is determined to be a vaccine side effect, an alarm notification can be issued accordingly.

According to the device and method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring proposed in the present invention, an ECG device for measuring the electrocardiogram of a vaccinated user to detect vaccine side effects in a vaccinated person, and an ECG device. A smart device that collects and transmits the measured electrocardiogram of a vaccinated user to a server in conjunction with By including and configuring it, it is possible to detect vaccine side effects in vaccine users through monitoring of the vaccine recipient's heart disease, and based on this, warn the user to encourage him or her to undergo a detailed examination at a hospital.

In addition, according to the device and method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring of the present invention, vaccine side effects of vaccine users can be detected and warned early through monitoring of the heart disease of the vaccine recipient. , it can reduce the risk of vaccine side effects in vaccine recipients.

Figure 1 is a diagram illustrating in functional blocks the configuration of an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention.
Figure 2 is a diagram showing the configuration of an ECG device implemented with a patch-type sensor of an early detection device for vaccine side effects using a human body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention in functional blocks.
Figure 3 is a diagram showing the configuration of an ECG device implemented as a wearable sensor of an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention in function blocks.
Figure 4 is a diagram schematically showing the attachment state of the patch-type sensor of the early detection device for vaccine side effects using an autonomic nervous system monitoring-based human body patch-type sensor according to an embodiment of the present invention.
Figure 5 is a diagram schematically showing the wearing state of the wearable sensor of the early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention.
Figure 6 is a diagram illustrating the flow of a method for early detection of vaccine side effects using a human body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention.
Figure 7 is a diagram illustrating the inspection, analysis, and detection alarm notification process according to the early detection method of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention.

Hereinafter, with reference to the attached drawings, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention. However, when describing preferred embodiments of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same symbols are used throughout the drawings for parts that perform similar functions and actions.

Additionally, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case when it is 'directly connected', but also when it is 'indirectly connected' with another element in between. Includes. Additionally, ‘including’ a certain component does not mean excluding other components, but rather including other components, unless specifically stated to the contrary.

Figure 1 is a diagram showing the configuration of an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring in functional blocks according to an embodiment of the present invention. As shown in FIG. 1, the early detection device 100 for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention uses the electrocardiogram of a vaccinated user to detect vaccine side effects in a vaccine recipient. An ECG device 110 for measuring, a smart device 120 for collecting the measured electrocardiogram of a user who has received the vaccine in conjunction with the ECG device 110 and transmitting it to the server 130, and a smart device 120 It may be configured to include a server 130 that analyzes the results of the electrocardiogram of the user who received the vaccine received from and determines the symptoms of vaccine side effects accordingly. Hereinafter, with reference to the attached drawings, the specific configuration of an early detection device for vaccine side effects using an autonomic nervous system monitoring-based human body patch-type sensor according to an embodiment of the present invention will be described.

Figure 2 is a diagram showing the configuration of an ECG device implemented as a patch-type sensor of an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention, and Figure 3 is a functional block diagram of the present invention. A diagram showing the configuration of an ECG device implemented as a wearable sensor of an early detection device for vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment, as a functional block, and FIG. 4 is a diagram illustrating the configuration of an ECG device according to an embodiment of the present invention. A diagram schematically showing the attachment state of the patch-type sensor of the device for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring, and Figure 5 shows the side effects of a vaccine using a human patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention. This is a diagram schematically showing the wearing state of the wearable sensor of the early detection device.

The ECG (electrocardiogram) device 110 is configured to measure the electrocardiogram of a vaccinated user in order to detect vaccine side effects in the vaccinated user. This ECG device 110 measures the electrocardiogram of a vaccinated user and may be composed of a patch-type sensor 111 attached to the chest of the vaccinated person. Here, the patch-type sensor 111 is attached to the chest of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and can transmit the measured electrocardiogram wirelessly to the smart device 120, which will be described later. In other words, the ECG device 110 implemented as a patch-type sensor 111 can be understood as applying IoT-based short-distance wireless communication.

In addition, the ECG device 110 measures the electrocardiogram of a vaccinated user, and may also be configured as a wearable sensor 112 worn on the wrist of the vaccinated patient. This wearable sensor 112 can be configured in the form of a smartwatch that is worn on the wrist of a vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device 120. Here, the ECG device 110 of the wearable sensor 112 implemented in the form of a smart watch may be understood as having an integrated structure with the smart device 120.

The smart device 120 is configured to collect the measured electrocardiogram of a user who has received the vaccine in conjunction with the ECG device 110 and transmit it to the server 130. This smart device 120 collects the measured electrocardiogram of the vaccinated user in conjunction with the ECG device 110 and transmits it to the server 130, and can be wirelessly connected to the ECG device 110. Here, the smart device 120 may be implemented as an integrated or separate structure from the ECG device 110 depending on the patch type or wearable type of the ECG device 110.

In addition, the smart device 120 collects the measured electrocardiogram of the vaccinated user and transmits it to the server 130, and can also transmit it by performing a preset survey test. This smart device 120 may be configured as a user device that is loaded and executed with an app for early detection of vaccine side effects, and may provide the user with preset survey test information performed following vaccination.

Additionally, when the smart device 120 receives an alert notification from the server 130 as a side effect of the vaccine, it can warn the user of the side effect of the vaccine and encourage the user to undergo a detailed examination at a hospital.

The server 130 is configured to analyze the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device 120 and determine the resulting vaccine side effects. This server 120 analyzes the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device 120, determines the symptoms of vaccine side effects, and can perform an alarm notification accordingly if it is determined to be a vaccine side effect. . Here, the server 130 analyzes the electrocardiogram and self-questionnaire in conjunction with smart devices 120 that are loaded and run with an app for early detection of vaccine side effects, determines side effect symptoms, and sends a warning to the user when it is determined to be a side effect. Can be transmitted.

In addition, the server 130 links with smart devices 120 that are loaded and run with an app for early detection of vaccine side effects, and provides early detection of vaccine side effects in users who have received the vaccine using the linked smart devices 120. Real-time monitoring function can be performed for

Figure 6 is a diagram illustrating the flow of a method for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention, and Figure 7 is a diagram showing the flow of a method for early detection of vaccine side effects based on autonomic nervous system monitoring-based human patch-type sensor according to an embodiment of the present invention. This is a diagram showing the inspection, analysis, and detection alert notification process according to the early detection method of vaccine side effects using sensors. As shown in Figure 6, the method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention includes the step (S110) of the ECG device measuring the electrocardiogram of the user who has received the vaccine, A step in which the device collects and transmits the electrocardiogram measured in conjunction with the ECG device to the server (S120), and a step in which the server analyzes the results of the electrocardiogram transmitted from the smart device and determines the resulting vaccine side effects (S130). It can be implemented including:

In step S110, the ECG device 110 measures the electrocardiogram of the user who has received the vaccine. The ECG (electrocardiogram) device 110 in step S110 is configured to measure the electrocardiogram of the vaccinated user to detect vaccine side effects of the vaccinated user, and measures the electrocardiogram of the vaccinated user, It may be composed of a patch-type sensor 111 attached to the area. This patch-type sensor 111 is attached to the chest of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and can transmit the measured electrocardiogram wirelessly to the smart device 120, which will be described later. Here, the ECG device 110 implemented as a patch-type sensor 111 can be understood as applying IoT-based short-distance wireless communication.

In addition, the ECG device 110 measures the electrocardiogram of a vaccinated user, and may also be configured as a wearable sensor 112 worn on the wrist of the vaccinated patient. This wearable sensor 112 can be configured in the form of a smartwatch that is worn on the wrist of a vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device 120. Here, the ECG device 110 of the wearable sensor 112 implemented in the form of a smart watch may be understood as having an integrated structure with the smart device 120.

In step S120, the smart device 120 collects the measured electrocardiogram in conjunction with the ECG device 110 and transmits it to the server. The smart device 120 in this step S120 is configured to collect the measured electrocardiogram of the user who has received the vaccine in conjunction with the ECG device 110 and transmit it to the server 130. The measured electrocardiogram of the user who was hit is collected and transmitted to the server 130, and can be connected wirelessly to the ECG device 110. Here, the smart device 120 may be implemented as an integrated or separate structure from the ECG device 110 depending on the patch type or wearable type of the ECG device 110.

In addition, the smart device 120 collects the measured electrocardiogram of the vaccinated user and transmits it to the server 130, and can also transmit it by performing a preset survey test. This smart device 120 may be configured as a user device that is loaded and executed with an app for early detection of vaccine side effects, and may provide the user with preset survey test information performed following vaccination.

Additionally, when the smart device 120 receives an alert notification from the server 130 as a side effect of the vaccine, it can warn the user of the side effect of the vaccine and encourage the user to undergo a detailed examination at a hospital.

In step S130, the server 130 analyzes the results of the electrocardiogram transmitted from the smart device 120 and determines the resulting vaccine side effects. The server 130 in this step S130 is configured to analyze the results of the electrocardiogram of the user who received the vaccine received from the smart device 120 and determine the corresponding symptoms of vaccine side effects, and the vaccine received from the smart device 120 It analyzes the results of the electrocardiogram of the user who received the vaccine and determines the symptoms of vaccine side effects. If it is determined to be a vaccine side effect, an alarm notification can be issued accordingly. The server 130 analyzes the electrocardiogram and self-questionnaire in conjunction with smart devices 120 running an app for early detection of vaccine side effects, determines side effect symptoms, and issues a warning to the user when it is determined to be a side effect. Can be transmitted.

In addition, the server 130 links with smart devices 120 that are loaded and run with an app for early detection of vaccine side effects, and provides early detection of vaccine side effects in users who have received the vaccine using the linked smart devices 120. Real-time monitoring function can be performed for

As described above, the device and method for early detection of vaccine side effects using a body patch-type sensor based on autonomic nervous system monitoring according to an embodiment of the present invention are used to measure the electrocardiogram of a vaccinated user to detect vaccine side effects of the vaccine recipient. An ECG device, a smart device for collecting and transmitting the measured electrocardiogram of a user who has received the vaccine to the server in conjunction with the ECG device, and analyzing the results of the electrocardiogram of the user who has received the vaccine received from the smart device, and the resulting side effects of the vaccine By configuring it to include a server that determines symptoms, it is possible to detect vaccine side effects in vaccinated users through monitoring of heart disease in vaccine recipients and warn users based on this to encourage them to undergo detailed examination at a hospital. In particular, it is possible to reduce the risk of vaccine side effects in vaccine recipients by early detecting and warning of vaccine side effects in vaccine recipients through monitoring of the vaccine recipient's heart disease.

The present invention described above can be modified or applied in various ways by those skilled in the art, and the scope of the technical idea according to the present invention should be determined by the claims below.

100: Early detection device for vaccine side effects according to an embodiment of the present invention
110: ECG device
111: patch type sensor
112: Wearable sensor
120: smart device
130: server
S110: Step where the ECG device measures the electrocardiogram of the vaccinated user
S120: A step where the smart device collects the measured electrocardiogram in conjunction with the ECG device and transmits it to the server.
S130: Step where the server analyzes the results of the electrocardiogram transmitted from the smart device and determines the resulting vaccine side effects.

Claims (16)

An early detection device (100) for vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring,
An ECG device 110 for measuring the electrocardiogram of a vaccinated user to detect vaccine side effects in the vaccinated person;
A smart device 120 for collecting the measured electrocardiogram of a vaccinated user in conjunction with the ECG device 110 and transmitting it to the server 130; and
It includes a server 130 that analyzes the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device 120 and determines the symptoms of vaccine side effects accordingly,
The smart device 120,
The measured electrocardiogram of the vaccinated user is collected and transmitted to the server 130, and a preset survey test is performed and transmitted together,
The smart device 120,
This is a user device that is loaded and run with an app for early detection of vaccine side effects. It provides the user with information on pre-set survey tests conducted following vaccination.
The smart device 120,
When an alarm notification is received from the server 130 as a side effect of the vaccine, it functions to warn the user of the side effect of the vaccine and encourage the user to undergo a detailed examination at the hospital,
The server 130,
Analyze the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device 120, determine the symptoms of vaccine side effects accordingly, and perform an alarm notification accordingly if it is determined to be a vaccine side effect,
The server 130,
Characterized by analyzing electrocardiograms and self-questionnaire tests in conjunction with smart devices 120 running an app for early detection of vaccine side effects, determining side effect symptoms, and sending a warning to the user when it is determined to be a side effect. An early detection device for vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring.
The method of claim 1, wherein the ECG device 110:
An early detection device for vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring, which measures the electrocardiogram of a vaccinated user and consists of a patch-type sensor (111) attached to the chest area of the vaccine recipient.
The method of claim 2, wherein the patch-type sensor 111 is:
A vaccine using a human body patch-type sensor based on autonomic nervous system monitoring, which is attached to the chest of the vaccine recipient and measures the electrocardiogram of the user who received the vaccine, and transmits the measured electrocardiogram to the smart device 120 in wireless form. Early detection device for side effects.
The method of claim 1, wherein the ECG device 110:
An early detection device for vaccine side effects using a human body patch-type sensor based on autonomic nervous system monitoring, which measures the electrocardiogram of a vaccinated user and consists of a wearable sensor (112) worn on the wrist of the vaccinated patient.
The method of claim 4, wherein the wearable sensor 112,
Using a human body patch-type sensor based on autonomic nervous system monitoring, it is worn on the wrist of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device 120. Early detection device for vaccine side effects.
The method of any one of claims 1 to 5, wherein the smart device 120,
An autonomic nervous system monitoring-based human body, characterized in that the measured electrocardiogram of the user who has received the vaccine is collected and transmitted to the server 130 in conjunction with the ECG device 110, and is wirelessly connected to the ECG device 110. Early detection device for vaccine side effects using a patch-type sensor.
delete delete As a method for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring,
(1) the ECG device 110 measures the electrocardiogram of a user who has received the vaccine;
(2) the smart device 120 collects the measured electrocardiogram in conjunction with the ECG device 110 and transmits it to the server; and
(3) The server 130 analyzes the results of the electrocardiogram transmitted from the smart device 120 and determines the resulting vaccine side effects,
The smart device 120,
The measured electrocardiogram of the vaccinated user is collected and transmitted to the server 130, and a pre-set survey test is performed and transmitted together,
The smart device 120,
This is a user device that is loaded and run with an app for early detection of vaccine side effects. It provides the user with information on pre-set survey tests conducted following vaccination.
The smart device 120,
If an alarm notification is received from the server 130 as a side effect of the vaccine, it functions to warn the user of the side effect of the vaccine and encourage the user to undergo a detailed examination at the hospital,
The server 130,
Analyze the results of the electrocardiogram of the user who received the vaccine transmitted from the smart device 120, determine the symptoms of vaccine side effects accordingly, and perform an alarm notification accordingly if it is determined to be a vaccine side effect,
The server 130,
Characterized by analyzing electrocardiograms and self-questionnaire tests in conjunction with smart devices 120 running an app for early detection of vaccine side effects, determining side effect symptoms, and sending a warning to the user when it is determined to be a side effect. Early detection method of vaccine side effects using human patch-type sensor based on autonomic nervous system monitoring.
The method of claim 9, wherein the ECG device 110 is:
An early detection method of vaccine side effects using a human body patch-type sensor based on autonomic nervous system monitoring, which measures the electrocardiogram of a vaccinated user and consists of a patch-type sensor (111) attached to the chest area of the vaccine recipient.
The method of claim 10, wherein the patch-type sensor 111 is:
A vaccine using a human body patch-type sensor based on autonomic nervous system monitoring, which is attached to the chest of the vaccine recipient and measures the electrocardiogram of the user who received the vaccine, and transmits the measured electrocardiogram to the smart device 120 in wireless form. How to detect side effects early.
The method of claim 9, wherein the ECG device 110 is:
A method for early detection of vaccine side effects using a human patch-type sensor based on autonomic nervous system monitoring, which measures the electrocardiogram of a vaccinated user and consists of a wearable sensor (112) worn on the wrist of the vaccinated patient.
The method of claim 12, wherein the wearable sensor 112,
Using a human body patch-type sensor based on autonomic nervous system monitoring, it is worn on the wrist of the vaccine recipient and measures the electrocardiogram of the vaccinated user, and transmits the measured electrocardiogram to the smart device 120. Method for early detection of vaccine side effects.
The method according to any one of claims 9 to 13, wherein the smart device 120,
An autonomic nervous system monitoring-based human body, characterized in that the measured electrocardiogram of the user who has received the vaccine is collected and transmitted to the server 130 in conjunction with the ECG device 110, and is wirelessly connected to the ECG device 110. Early detection method of vaccine side effects using a patch-type sensor.
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