KR102494866B1 - Infectious Disease Self-Isolator Remote Monitoring System based on ICT - Google Patents

Abstract

It is about an ICT-based remote monitoring system for self-quarantine patients with infectious diseases, which provides wearable devices to those subject to self-quarantine for infectious diseases, and allows them to remotely monitor self-quarantine patients based on ICT through location information and body temperature information through GPS in real time, Infectious disease quarantine target terminal that is worn by an infectious disease subject to self-quarantine, obtains location information and biometric information in real time to generate infectious disease monitoring information, and then transmits to a remote infectious disease monitoring server, and analyzes the infectious disease monitoring information to check the status of the infectious disease quarantine target and implements an ICT-based remote monitoring system for self-quarantined persons with infectious diseases, including a remote infectious disease management server that generates and transmits action information according to the confirmed infectious disease isolation target to the administrator's terminal and/or related agency server, remotely and in real time Infectious disease self-quarantine subjects are monitored to promote the safety of infectious disease quarantine subjects and prevent the spread of infectious diseases.

Description

ICT-based Infectious Disease Self-Isolator Remote Monitoring System based on ICT}

The present invention relates to an ICT (Information and Communications Technologies)-based remote monitoring system for self-quarantine patients with infectious diseases. It is about an ICT-based remote monitoring system for infectious disease self-quarantine people based on infectious disease self-quarantine.

In an infectious disease crisis, real-time monitoring of the situation of those subject to self-quarantine and management of contacts are very important measures to prevent the spread of an infectious disease at an early stage. The number of targets to be managed increases exponentially, making management difficult.

There are limits to mobilizing surveillance personnel to break the contact chain, and there are limits to accommodation facilities for accommodating infectious disease quarantine subjects, and there are also limitations to mobilizing surveillance personnel to monitor quarantine subjects.

Currently, ICT technology, which is the basis for disease surveillance in Korea, is world-class, but diagnostic devices for detecting various biomarkers are used only for diagnosis, treatment, and prognosis of diseases, and information for monitoring quarantine subjects for infectious diseases is It is not currently in use.

IT companies such as Google, Apple, IBM, and CoheroHealth are using ICT technology for the purpose of continuous biometric monitoring of users. Software was developed by measuring and analyzing biosignals (pulse, heart rate, body temperature) and environmental factors (light exposure, noise level) using a continuous lung function tracking technology (CoheroHealth) using a smartphone and a smart band. (google). Japan's Hitoe developed an underwear made of nanofibers that can measure bio-signals (pulse, heart rate), and an integrated system for bio-signal measurement, database establishment, and data analysis based on ICT technology was developed in conjunction with smart devices.

However, bio-signal monitoring systems using these IT devices measure only the bio-signals of the subject carrying or wearing the measuring equipment, and have limitations in real-time monitoring of location information and bio-information such as self-isolation at risk of infectious disease.

Republic of Korea Registered Patent No. 10-1885031 (registered on July 27, 2018) (apparatus and method for monitoring disease risk areas based on transportation networks and providing information)

Therefore, the present invention is proposed to solve the various problems occurring in the prior art as described above, and provides a wearable device to a person subject to self-isolation for an infectious disease, and provides real-time location information through GPS and body temperature information through ICT-based remote control. The purpose is to provide an ICT-based remote monitoring system for self-quarantine patients with infectious diseases that enables monitoring of self-quarantine patients.

In order to achieve the above object, the "ICT-based remote monitoring system for self-quarantined persons with infectious diseases" according to the present invention is worn by quarantine subjects for infectious diseases, and generates monitoring information for infectious diseases by acquiring location information and biometric information in real time. an infectious disease isolation target terminal that transmits the data to a remote infectious disease monitoring server; Remote infectious disease management that analyzes the infectious disease surveillance information transmitted from the infectious disease quarantine target terminal to check the infectious disease quarantine target status, generates action information according to the confirmed infectious disease quarantine target status, and transmits it to the administrator terminal and/or related institution server Characterized in that it includes a server.

In the above, the infectious disease quarantine target terminal is characterized by generating a warning message and transmitting the warning message to the remote infectious disease management server when the infectious disease self-quarantine target does not wear the infectious disease quarantine target terminal for a predetermined period of time or longer.

In the above, the infectious disease isolation target terminal monitors an infectious disease using a GPS module that obtains current location information, a body temperature sensor that measures the body temperature of an infectious disease self-quarantine subject, and location information obtained from the GPS module and body temperature information measured by the body temperature sensor. an infectious disease surveillance information generation unit that generates information and controls transmission of the generated infectious disease surveillance information; and a communication module for transmitting the infectious disease monitoring information generated by the infectious disease monitoring information generating unit to a remote infectious disease management server.

In the above, if the infectious disease monitoring information generating unit does not measure the body temperature of the infectious disease self-quarantine subject through the body temperature sensor for a predetermined first predetermined time or more, it is determined that the infectious disease quarantine subject terminal is not worn, and an alarm is generated, and the alarm is generated. If the terminal to be quarantined for an infectious disease is not worn within a second predetermined time after the occurrence, a warning message is generated and transmitted to the remote infectious disease management server;

The infectious disease isolation target terminal may further include an alarm unit generating an alarm under the control of the infectious disease monitoring information generation unit.

According to the present invention, wearable ICT-based wearable devices are provided to persons subject to self-quarantine for infectious diseases, and location information and body temperature information through GPS are provided in real time to remotely monitor self-quarantine persons for infectious diseases based on ICT.

In addition, since it is possible to monitor persons subject to self-quarantine for infectious diseases remotely and in real time based on ICT, it has the advantage of reducing the number of surveillance personnel for quarantined persons with infectious diseases.

1 is a block diagram of an ICT-based infectious disease self-quarantine monitoring system according to the present invention;
FIG. 2 is a block diagram of an exemplary embodiment of a terminal to be isolated from an infectious disease in FIG. 1 .

Hereinafter, an ICT-based infectious disease self-quarantine monitoring system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to a conventional or dictionary meaning, and the inventor may appropriately define the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical spirit of the present invention based on the principle that it can be.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents and equivalents that can replace them at the time of the present application It should be understood that variations may exist.

1 is a block diagram of an ICT-based infectious disease self-quarantine monitoring system according to a preferred embodiment of the present invention, which is worn by an infectious disease quarantine subject, obtains location information and biometric information in real time to generate infectious disease monitoring information, and then remote infectious disease The infectious disease quarantine target terminal 100 transmitted to the monitoring server 300 and the infectious disease monitoring information transmitted from the infectious disease quarantine target terminal 100 are analyzed to check the infectious disease quarantine target state, and according to the confirmed infectious disease quarantine target state It includes a remote infectious disease management server 300 that generates action information and transmits it to an administrator terminal and/or a related institution server.

Infectious disease monitoring information is transmitted and received between the infectious disease isolation target terminal 100 and the remote infectious disease management server 300 through the network 200, but the network 200 is a low-power wireless communication network (LoRa), LTE network, 5G network, and the Internet It can be implemented as a network or the like.

The infectious disease isolation target terminal 100 generates a warning message and transmits it to the remote infectious disease management server 300 when the infectious disease self-quarantine subject does not wear the infectious disease quarantine target terminal for a predetermined period of time or more.

The infectious disease isolation target terminal 100 includes a GPS module 101 that obtains current location information, a body temperature sensor 102 that measures the body temperature of a person subject to self-quarantine for an infectious disease, and the location information obtained from the GPS module 101 and the body temperature. An infectious disease monitoring information generating unit 104 that generates infectious disease monitoring information using the body temperature information measured by the sensor 102 and controls transmission of the generated infectious disease monitoring information, and the infectious disease monitoring information generating unit 104 generates infectious disease monitoring information A communication module 105 that transmits infectious disease monitoring information to the remote infectious disease management server 300, an alarm unit 106 that generates an alarm under the control of the infectious disease monitoring information generating unit 104, and stores and controls the generated information It may include a memory 103 in which a program is embedded.

The infectious disease monitoring information generation unit 104 determines that the infectious disease quarantine subject terminal 100 is not worn when the body temperature of the infectious disease self-quarantine subject is not measured for a predetermined first period or longer through the body temperature sensor 102, and Controls the occurrence of an alarm, and generates a warning message and transmits it to the remote infectious disease management server 300 if the infectious disease quarantine target terminal 100 is not worn within a second predetermined time after the alarm occurs.

The detailed description of the operation of the ICT-based remote monitoring system for self-quarantined persons with infectious diseases according to the present invention configured as described above is as follows.

First, a wearable device, a terminal for infectious disease quarantine, is provided to the person subject to quarantine for infectious disease to wear, and the status of the person subject to quarantine for infectious disease is monitored in real time through the network so that follow-up measures can be taken promptly when a problem occurs with the person subject to quarantine for infectious disease. Prevent it from spreading, and protect the lives of those subject to quarantine.

The present invention remotely and real-time monitors self-quarantine subjects based on ICT to prevent the spread of infectious diseases and enables quick response even in emergency situations of quarantine subjects.

More specifically, this is as follows.

First, an infectious disease quarantine subject wears an infectious disease quarantine target terminal 100, which is a wearable device provided by an infectious disease management institution.

The GPS module 101 of the infectious disease isolation target terminal 100 obtains current location information through GPS satellites in real time and transmits it to the infectious disease monitoring information generation unit 104 .

In addition, the body temperature sensor 102, which is a biometric sensor, measures the body temperature of the person subject to self-quarantine for an infectious disease in real time as biometric information and transmits it to the infectious disease monitoring information generating unit 104.

The infectious disease monitoring information generation unit 104 generates infectious disease monitoring information using the location information obtained from the GPS module 101 and the body temperature information measured by the body temperature sensor 102 . Next, the generated infectious disease monitoring information is transmitted to the remote infectious disease management server 300 through the communication module 105 .

Here, when the infectious disease quarantine target terminal 100 transmits infectious disease monitoring information in real time, the amount of data to be transmitted increases and power is wasted. Therefore, in order to efficiently transmit and manage infectious disease surveillance information while preventing such power waste or increase in data volume, it is desirable to set a certain period in advance and transmit the infectious disease surveillance information according to a certain period. It is desirable to set the schedule period to a time when there is no biological problem in monitoring the change in the status of quarantine subjects for infectious diseases.

The remote infectious disease management server 300 analyzes the infectious disease monitoring information transmitted from the infectious disease quarantine target terminal 100 to check the status of the infectious disease quarantine target. Here, the analysis of the infectious disease monitoring information compares the received body temperature information with the predetermined reference temperature information, extracts the change trend, change time, and temperature duration of the body temperature information, and analyzes it based on the change in the preset medical body temperature state. do.

As a result of analyzing the body temperature information, if it is determined that a physical problem has occurred to the subject of infectious disease isolation, action information is generated and transmitted to the management terminal and/or related institution (fire station, police station, hospital, etc.) server to prompt follow-up. action to be taken.

In addition, as a result of analyzing the location information, if it is determined that the infectious disease quarantine subject is out of the designated location, action information is generated to prevent the spread of the infectious disease, and the generated action information is transmitted to the administrator terminal and/or related institution server. send, so that follow-up can be done quickly.

In other words, if an infectious disease quarantine subject leaves the quarantine location, the movement of the person to be quarantined is quickly identified, the contact chain is identified, and countermeasures are taken accordingly to prevent the spread of the infectious disease.

On the other hand, as another feature of the present invention, if an infectious disease quarantine subject does not wear a wearable device, a warning is given and a warning message is transmitted to the remote infectious disease rights server 300, so that the wearable device can be recognized remotely in real time. it did

For example, the infectious disease monitoring information generating unit 104 checks the body temperature information measured by the body temperature sensor 102 and generates the infectious disease monitoring information, but if the body temperature information measured by the body temperature sensor 102 is not received, the body temperature information is measured. The time is measured using the internal counter from the point of time when it does not occur.

If the body temperature information is received within a first predetermined time during the measurement of the lapse of time from the time when the body temperature information is not measured, the process of generating the infectious disease surveillance information is returned. In contrast, when the time during which body temperature information is not measured exceeds the first predetermined time, it is determined that the infectious disease quarantine subject is not wearing the infectious disease quarantine target terminal 100, which is a wearable device, and through the alarm unit 106 An alarm is generated.

After the alarm is generated, if the infectious disease quarantine subject recognizing the alarm wears the wearable device within a preset second predetermined time and body temperature information is received, the process of generating the infectious disease surveillance information is returned. In contrast, if the body temperature information is not received within the second predetermined time after the alarm occurs, it is determined that the infectious disease quarantine subject is not wearing a wearable device, a warning message is generated for the wearable non-wearing, and remote control is performed through the communication module 105. It is transmitted to the infectious disease management server 300.

When the remote infectious disease management server 300 receives a warning message about non-wearing of the wearable, it transmits a message about the case to the manager terminal and/or related agency server so that an action is taken.

As described above, the present invention has the advantage of being able to prevent the spread of an infectious disease by recognizing the contact chain by managing self-quarantine and contacts in real time in the event of an infectious disease crisis in a remote infectious disease management server, and responding quickly to blocking the contact chain. there is.

In addition, there is an advantage in that the safety of the quarantined person subject to infectious disease can be guaranteed by grasping the status of the subject subject to quarantine for an infectious disease in real time and promptly taking countermeasures when abnormal signs are found.

In addition, since it is possible to remotely determine whether or not the wearable device is worn by the infectious disease quarantine subject, problems that may occur due to the wearable device not being worn can be prevented in advance by responding quickly when the wearable device is not worn.

Although the invention made by the present inventors has been specifically described according to the above embodiments, the present invention is not limited to the above embodiments, and it is common knowledge in the art that various changes can be made without departing from the gist of the present invention. It is self-evident to those who have

100: Infectious disease isolation target terminal
101: GPS module
102: body temperature sensor
103; Memory
104: Infectious disease monitoring information generating unit
105: communication module
106: alarm unit
200: network
300: remote infectious disease management server

Claims (4)

An infectious disease quarantine target terminal worn by an infectious disease self-quarantine subject, acquiring location information and biometric information in real time, generating infectious disease monitoring information, and then transmitting the infectious disease monitoring server to a remote infectious disease monitoring server; and
Remote infectious disease management that analyzes the infectious disease surveillance information transmitted from the infectious disease quarantine target terminal to check the infectious disease quarantine target status, generates action information according to the confirmed infectious disease quarantine target status, and transmits it to the administrator terminal and/or related institution server including the server;
The infectious disease quarantine target terminal includes an infectious disease monitoring information generating unit that generates infectious disease monitoring information using the location information and biometric information and controls transmission of the generated infectious disease monitoring information; An alarm unit generating an alarm under the control of the infectious disease monitoring information generation unit;
The infectious disease monitoring information generating unit determines that the infectious disease quarantine subject terminal is not worn when the body temperature of the infectious disease self-quarantine subject is not measured for more than a predetermined first predetermined time through the body temperature sensor, controls the occurrence of an alarm, and controls the occurrence of the alarm. If the terminal to be quarantined against an infectious disease is not worn within a second predetermined time, a warning message is generated and transmitted to the remote infectious disease management server;
The remote infectious disease management server analyzes the infectious disease monitoring information transmitted from the infectious disease quarantine target terminal to check the status of the infectious disease quarantine target,
Comparing the received body temperature information with predetermined reference temperature information, extracting the change trend, change time, and temperature duration of the body temperature information, analyzing it based on the change in the preset medical body temperature state, and analyzing the body temperature information As a result, if it is determined that a physical problem has occurred to the infectious disease quarantine subject, action information is generated and transmitted to the management terminal and/or related institution server so that follow-up actions are carried out promptly,
As a result of analyzing the received location information, if it is determined that the infectious disease quarantine subject is out of the designated location, action information is generated to prevent the spread of the infectious disease, and the generated action information is sent to the administrator's terminal and/or related agency server. An ICT-based remote surveillance system for self-quarantined persons with infectious diseases, characterized in that transmission and prompt follow-up.
The method of claim 1, wherein the infectious disease isolation target terminal generates a warning message and transmits it to the remote infectious disease management server when the infectious disease self-quarantine subject does not wear the infectious disease isolation target terminal for a predetermined period of time or longer. Self-quarantine remote monitoring system.
The method of claim 1, wherein the infectious disease isolation target terminal transmits a GPS module for obtaining current location information, a body temperature sensor for measuring the body temperature of an infectious disease self-quarantine subject, and infectious disease monitoring information generated by the infectious disease monitoring information generation unit to a remote infectious disease management server. An ICT-based infectious disease self-quarantine remote monitoring system comprising a communication module for






delete

Images