KR20220030856A - Body temperature monitoring system and device based on wideband communication network - Google Patents

Abstract

The present invention relates to an IoT body temperature monitoring system based on wideband communication and a device thereof which receive a measurement temperature of a subject from a remote location in a non-face-to-face manner and use the received information to actively manage a temperature change trend and movement information of the subject in real time. To this end, the present invention comprises: a body temperature measuring device configured to store identity information of the subject and transmit the measurement temperature, made by measuring a temperature of the subject, and measurement information including the identity information, measurement time, and location information to the outside in real time; and a management server configured to monitor the measurement information provided from the body temperature measuring device in real time and transmit the measurement information to a preset institution when the measurement temperature is higher than a preset temperature.

Description

IoT body temperature monitoring system and device based on broadband communication

The present invention relates to a broadband communication-based IoT body temperature monitoring system and device, and more particularly, to receive the measured temperature of a subject from a remote location in a non-face-to-face manner, and use the received information to determine the temperature change trend of the subject and the movement line It relates to a body temperature monitoring system that can actively manage information and preemptive access control in real time.

BACKGROUND ART In general, a thermometer is a device for measuring body temperature as a means of checking whether or not there is an abnormality in the body. There are various types of such a thermometer, such as a mercury thermometer, an electronic thermometer, a patch-type thermometer, or an infrared thermometer, and among them, an infrared thermometer that measures body temperature accurately in a short time while being relatively simple is preferred.

Meanwhile, coronavirus infection-19 (COVID-19) is becoming a social issue. The representative symptom of COVID-19 is a fever symptom, and the method is used to determine whether a person is symptomatic by measuring body temperature.

For example, to prevent infection, students and office workers enter their identity information before entering schools and workplaces, measure their body temperature, and enter only if they do not have a fever.

However, in the conventional method, it is difficult to prevent the visitor from inputting incorrect information because the visitor directly inputs the identity information, and it is difficult to manage the identity information because it is impossible to collect systematic data.

In addition, in the conventional method, the body temperature is measured by the manager after students and office workers visit their destination (school or workplace). Exposure control is weak, and there is a risk of infection spreading if any one of managers, students, or office workers is infected.

And in the conventional self-quarantine management system, the self-quarantine measures the temperature at regular intervals and reports it to the quarantine officer through the landline phone. . In particular, there is a problem in that regular data collection is impossible in situations where communication with self-quarantine is impossible, such as refusal to answer phone calls.

In addition, the conventional self-quarantine management system has a problem in that when the self-quarantine measures body temperature, it does not know a body temperature measurement method or a part with high body temperature accuracy, so that a temperature with low reliability is provided.

Republic of Korea Patent Publication No. 10-1576147

Therefore, the present invention has been derived to solve the above problems, and the present invention is provided with the measured temperature of the subject in a non-face-to-face manner from a remote location, and the temperature change trend of the subject, movement information and The purpose is to provide a body temperature monitoring system that can actively manage preemptive access control in real time.

Another object of the present invention is to provide a body temperature monitoring system that can increase the reliability of data because measurement information is transmitted in real time through a body temperature measuring device even if a person subject to self-quarantine does not notify the person in charge of quarantine of body temperature by wire.

Another object of the present invention is to provide a body temperature monitoring system that can minimize the spread of infection by receiving the measured temperature of a subject from a remote location in a non-face-to-face manner and preemptively controlling access based on this.

Other objects of the present invention will become clearer through the examples described below.

The body temperature monitoring system according to the first aspect of the present invention stores subject identification information, and transmits measurement information including the measurement temperature at which the body temperature of the subject is measured and the identification information, measurement time and location information to the outside in real time. Transmitting thermometer; and a management server that monitors the measurement information provided from the body temperature measuring device in real time, and transmits the measurement information to a preset institution when the measurement temperature is higher than a preset temperature.

The management server may transmit a body temperature measurement notification to the body temperature measurement device at a preset period, and monitor the temperature change trend using the measurement information returned in response to the body temperature measurement notification.

The management server may further store the quarantine area information, and if the location information included in the measurement information is different from the quarantine area information, generate quarantine area departure information and transmit it to the institution.

If the location information is different from the quarantine area information, the management server receives the location information in real time until the location information moves to a location corresponding to the quarantine area information again, and generates movement information of the subject. may be transmitted to the institution.

The body temperature measuring device includes: a camera module for photographing a measurement part; and a processing module for determining whether the measurement is completed by comparing the photographing portion photographed by the camera module with any one of a plurality of preset reference portions.

The management server is provided with the measured temperature for at least two locations corresponding to the plurality of reference parts, and if a deviation between the received measured temperatures is greater than or equal to a reference value, at least two places again after a certain time has elapsed It may be provided with the measured temperature for the above photographed portion.

The body temperature measuring device includes: a fingerprint recognition module for recognizing fingerprint information of the subject;

a registration module for mapping the fingerprint information, the identity information, and a unique code of the body temperature measuring device; a temperature measurement module for measuring the body temperature of the subject; a GPS module for detecting the location information; and a communication module for transmitting the measurement information including the identity information, the measurement time, the measurement temperature, and the location information to the management server.

The body temperature monitor uses a built-in camera module to recognize an identification code including workplace information, and transmits the measurement information and the identification code to the management server.

The management server collects movement information of subjects in the high-risk group for infection, and if the movement information of the subjects in the high-risk group for infection and the location information of the subject overlap, the corresponding subject may be notified of the possibility of contact with the subject in the high-risk group for infection. .

a temperature measurement module for measuring the body temperature of the subject in which the identity information is stored; a GPS module for detecting the location information at which the subject has measured body temperature; and an analysis module for generating monitoring information by analyzing the measurement information including the identity information, the measurement time, the measurement temperature, and the location information in real time; and a communication module for transmitting the monitoring information to a preset organization.

Further comprising a camera module for photographing the measurement portion, the analysis module may determine whether the measurement is completed by comparing the measurement portion photographed by the camera module with any one of a plurality of preset reference portions.

The body temperature monitoring system according to the present invention provides the following effects.

The present invention has the effect of being provided with the measured temperature of the subject in a non-face-to-face manner from a remote location, and using the received information to actively manage the temperature change trend and movement information of the subject in real time.

In addition, the present invention has the effect of minimizing the spread of infection by receiving the measured temperature of the subject in a non-face-to-face manner from a remote location and performing preemptive access control based on this.

In addition, the present invention has the effect of increasing the reliability of data because the measurement information is transmitted in real time through the body temperature measuring device even if the self-quarantine subject does not notify the person in charge of quarantine of body temperature by wire.

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a block diagram illustrating a body temperature monitoring system according to a first embodiment of the present invention;
2 is a schematic diagram illustrating a method of monitoring a high-risk group using the body temperature monitoring system illustrated in FIG. 1 .
3 is a schematic diagram illustrating a method of monitoring a low-risk group using the body temperature monitoring system illustrated in FIG. 1 .
Figure 4 is a schematic diagram illustrating a method of monitoring a visit to the workplace of the subject using the body temperature monitoring system illustrated in Figure 1;
5 is a block diagram illustrating an apparatus for measuring body temperature according to a second embodiment of the present invention.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

The term "MODULE" as used herein means a unit that processes a specific function or operation, which may mean hardware or software or a combination of hardware and software.

Also, terms such as first and second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numbers regardless of reference numerals, and overlapping A description will be omitted.

[First embodiment]

In the first embodiment, when the subject self-measures body temperature using the body temperature measuring device 110, the body temperature measuring device 110 transmits the identity information and measurement information of the subject to the management server 120 in real time, and the management server ( 120) is for actively managing the subject in a non-face-to-face manner using the received information.

Hereinafter, a body temperature monitoring system according to a first embodiment of the present invention will be described in detail with reference to the drawings.

1 is a block diagram illustrating a body temperature monitoring system according to a first embodiment of the present invention.

Referring to FIG. 1 , a body temperature monitoring system according to an embodiment of the present invention includes a body temperature measuring device 110 and a management server 120 .

The body temperature measuring device 110 is provided with an identification number such as a unique code, is registered and managed in the management server 120 by the identification number, and is provided to a plurality of subjects, respectively. The body temperature measuring device 110 stores the unique code (identification number) of the body temperature measuring device 110 and the mapped subject's identity information, and when the subject measures the body temperature using the body temperature measuring instrument 110, the measured temperature and identity information; Measurement information including measurement time and location information is transmitted to the management server 120 in real time. And the management server 120 monitors the subject in real time by using the received measurement information.

In this embodiment, the body temperature measuring device 110 may include at least one of an ear infrared thermometer, a forehead infrared thermometer, a skin surface thermometer, and a digital thermometer, and the shape of the body temperature measuring device 110 is not limited to any one.

The body temperature measuring device 110 includes a temperature measuring module 111 , a fingerprint recognition module 112 , a registration module 113 , a GPS module 114 , and a communication module 117 . And the body temperature measuring device 110 further includes a camera module 115 and a processing module 116 .

The temperature measurement module 111 is for measuring the body temperature of the subject, and measures the temperature of the measurement site using a thermal sensor or infrared rays. For example, the temperature measurement module 111 may measure body temperature by irradiating infrared rays to a measurement site through an infrared lamp, sensing heat of the measurement site with a sensor, and converting a change in wavelength into temperature.

The fingerprint recognition module 112 is a means for authenticating the subject's identity. The fingerprint recognition module 112 recognizes fingerprint information of the subject when a finger of the subject is in contact, and identifies the registered subject based on the recognized fingerprint information. For example, the fingerprint recognition module 112 may allow the use of the body temperature measuring device 110 when fingerprint information of the subject corresponding to pre-stored identity information is recognized.

The registration module 113 maps the registered fingerprint information of the subject, identity information, and the unique code of the body temperature measuring device 110 . For example, the registration module 113 directly receives the identity information of the subject from the management server 120 or the subject, and maps the received identity information, fingerprint information, and a unique code of the body temperature measurement device 110 . The identity information input to the registration module 113 may include a date of birth, name, real residence address, age, gender, region, and the like.

When the identity information, fingerprint information, and the unique code of the body temperature measurement device 110 are mapped by the registration module 113, the subject can use the body temperature measurement device 110 only after self-authentication through fingerprint recognition. Therefore, by preventing other users from using the body temperature measuring device 110, the management server 120 can accurately and easily monitor the measurement information on the subject in real time.

The GPS module 114 detects current location information of the body temperature measuring device 110 . The location information measured by the GPS module 114 is used to determine the current location where the body temperature is measured when the subject measures the body temperature using the body temperature measuring device 110 . The management server 120 may use the location information measured by the GPS module 114 to monitor the visit place of the subject, the movement line, and the departure of the quarantine zone in real time.

The communication module 117 transmits, to the management server 120 , the measurement information including the identity information of the subject stored in the body temperature measuring device 110 , the temperature measurement time, the measured temperature, and the location information at which the body temperature is measured.

The communication module 117 may transmit and receive signals through the management server 120 and broadband wireless communication (LoRa or mobile communication network). For example, LoRa communication is a low-power long-distance communication (LPWA) technology that helps objects to communicate with each other. There is this.

The communication module 117 may encrypt and transmit the measurement information when transmitting the measurement information to the management server 120 .

Meanwhile, the body temperature measuring device 110 may further include a camera module 115 and a processing module 116 .

When the subject measures the temperature of a body part (ie, the measurement part) using the body temperature measuring device 110 , the camera module 115 captures the measurement part. The portion photographed by the camera module 115 is provided to the processing module 116 .

In addition, the processing module 116 may compare the photographing portion provided from the camera module 115 with any one of a plurality of preset reference portions, and determine whether the measurement is complete through whether or not they match. The reason that the processing module 116 compares the photographed portion with the reference portion to determine the measurement completion is to increase the accuracy of temperature measurement by providing a portion that is easy to measure and has high accuracy.

For example, the processing module 116 may request re-measurement through a notification if the photographed portion provided from the camera module 115 does not match any one of the plurality of reference portions.

Here, a plurality of preset reference parts are a part of the body such as forehead, temple, cheek, neck, wrist, ankle, foot, etc. The reference part can be directly set by photographing and registering a part of the body using the camera module 115 of the body temperature measuring device 110 . This registration of the reference region may be a method of setting only the first time after receiving the body temperature measuring device 110 . When the subject directly sets the reference portion, the management server 120 may provide guidelines for the location of the reference portion and the photographing method.

If the reference part is preset by the management server 120 , the management server 120 may determine measurement completion based on the similarity between the photographed part and the preset reference part.

In this way, the processing module 116 may increase the accuracy of the measured temperature. In addition, when the subject directly sets the reference portion using the body temperature measuring device 110 , it is possible to prevent the subject from measuring the temperature using another person's body.

The management server 120 receives the measurement information from the body temperature measuring device 110 in real time, and by monitoring the measurement information in real time, it is possible to actively manage the temperature change trend of the subject, movement information, and preemptive access control in real time. . For example, the management server 120 receives measurement information of the subject corresponding to each of the plurality of body temperature measurement devices 110, and based on the measurement information, the subject's gender, age, region, quarantine period elapsed day, local government It is possible to monitor changes in body temperature information by star and local public health center.

The management server 120 may analyze the measurement information received from the body temperature measurement device 110 , and if the measurement temperature is higher than the preset temperature, transmit the measurement information to the preset institution 10 . Here, the pre-set institution 10 may be a competent local government, a competent public health center, or a Korea Centers for Disease Control and Prevention. The preset organ 10 is not limited to any one.

For example, if the subject is a student, the preset institution 10 may be a school. And, the preset organization 10 may be at least one or more. For example, when the subject is a student, the management server 120 may transmit the measurement information to all of the school, the competent local government, and the competent public health center.

The management server 120 may transmit a body temperature measurement notification to the body temperature measurement device 110 at a preset cycle. In addition, the management server 120 may use the measurement information returned in response to the body temperature measurement notification to collectively monitor the change trend of the body temperature information of the subject. If the measurement information is not returned from the body temperature measuring device 110 at a preset period, the management server 120 may generate measurement rejection information and transmit it to the institution 10 .

In this embodiment, the management server 120 may transmit information monitored based on the measurement information of the subject at all times to a preset institution 10 or transmit it when an abnormal state (ie, fever symptom) is found. .

The management server 120 receives the measurement temperatures for at least two locations to be photographed corresponding to the plurality of reference locations, and if the deviation between the received measured temperatures at the two or more locations is equal to or greater than the reference value, after a certain period of time has elapsed, two or more locations are again provided. The measurement temperature for the reference part may be provided.

The reason why the management server 120 analyzes whether the deviation between the two or more measurement temperatures provided is equal to or greater than the reference value is to prevent the subject from cheating in order to lower the body temperature. That is, even if the subject tries to temporarily lower the body temperature of two or more measurement sites by separate means (eg, ice), it is impossible to lower the temperature of two or more measurement sites to the same temperature. ) can be judged whether it is an incorrect measurement by using the deviation between the two or more measurement temperatures.

The management server 120 may collect measurement information measured from body temperature meters 110 carried by other subjects. In addition, the management server 120 may extract location information from the collected measurement information, and notify the subjects overlapping the movement of the high-risk group subject of infection of the possibility of contact with the high-risk subject. For example, the management server may extract the subject's contact information from the identity information stored in the body temperature measurement device 110 and provide the content that there is a possibility of contact with a high-risk group through a text message. The management server 120 may receive movement route information and location information for the high-risk group through the Korea Centers for Disease Control and Prevention, the competent local government, or the competent public health center.

On the other hand, the management server 120 uses the measurement information received from the body temperature measuring device 110 to integrate and manage high-risk groups such as respiratory infectious disease symptomatic, confirmed cases, and contacts with fever, or for students, daycare center students, kindergarteners, etc. Changes in body temperature information and movement information of low-risk groups such as children can be monitored in real time. This will be described below with reference to FIGS. 2 to 3 .

FIG. 2 is a schematic diagram illustrating a method of monitoring a high-risk group using the body temperature monitoring system illustrated in FIG. 1 .

Here, the subject is a high-risk group such as a person with symptoms of a respiratory infectious disease accompanied by fever, a confirmed person, or a contact, and the institution 10 may be a competent local government, a competent public health center, or the Korea Centers for Disease Control and Prevention.

1 and 2, the management server 120 sets the quarantine area information on the place where the subject is quarantined if the subject is a high-risk group. In addition, the management server 120 may receive measurement information from the body temperature measuring device 110 at a preset period and monitor the change trend of the measurement temperature that is changed during the quarantine period. If the measurement information is not returned from the body temperature measuring device 110 at a preset period, the management server 120 may generate measurement rejection information and transmit it to the institution 10 .

The management server 120 may monitor the quarantine state of the subject by extracting location information from the received measurement information and comparing it with the quarantine area information. For example, if the location information and the quarantine area information are different, the management server 120 determines that the subject has left the quarantine area, generates departure information, and transmits it to the institution 10 .

Therefore, the body temperature monitoring system of the present invention can easily grasp the temperature change trend during the quarantine period of the subject, and it is possible to check the departure of the subject from the quarantine area in real time, so that a quick response is possible.

The management server 120 may generate departure information when the subject leaves the quarantine area, and then may further generate movement information after the subject leaves the isolation area. In addition, the management server 120 may continuously update the movement route information until the location information provided in real time from the body temperature measurement device 110 moves to a location corresponding to the quarantine area information.

Movement route information is information on the subject's arrival back to the isolation area from the moment the subject leaves the isolation area. can be used to

3 is a schematic diagram illustrating a method of monitoring a low-risk group using the body temperature monitoring system illustrated in FIG. 1 .

Here, the subject may be students, children of daycare center students, kindergarteners, etc., office workers, etc., and the institution 20 may be a school, a daycare center, a kindergarten, a workplace, a competent public health center, a local regional system or a disease control center. Hereinafter, for convenience of explanation, the subject is a student and the institution 20 is a school as an example.

1 and 3 , the management server 120 may receive measurement information from the body temperature measurement device 110 at a preset cycle. Here, the preset period may be after waking up or before going to school.

The management server 120 may extract the measured temperature from the measurement information transmitted from the body temperature measurement device 110 , and notify the institution 20 (school) when a fever symptom occurs. The management server 120 notifies the pre-stored homeroom teacher or school official of the symptoms of the student using an application or a text message, and the homeroom teacher or school official who received the notification determines whether the student is permitted to attend school and can contact the student. there is.

Accordingly, the body temperature monitoring system of the present invention has the advantage of minimizing the spread of infection by receiving the measured temperature of the subject in a non-face-to-face manner from a remote location and performing preemptive access control based on this.

4 is a schematic diagram illustrating a method of monitoring a visit to a workplace of a subject using the body temperature monitoring system illustrated in FIG. 1 .

Here, the subject may be anyone who has been provided with the body temperature measuring device 110 , the business may be a restaurant business, a performance or a movie theater business, and the institution 30 may be a competent local government, a competent public health center, or a disease control headquarters.

Referring to FIGS. 1 and 4 , a subject may have a body temperature measuring device 110 provided when visiting a business site, and may measure body temperature using the body temperature measuring device 110 possessed before entering the business place.

In this case, the workplace may be provided with an identification code (for example, a QR code) including workplace information (for example, an address).

The body temperature measuring device 110 may recognize the identification code using the camera module 115 . In addition, the body temperature measuring device 110 may measure the temperature of a preset measurement site, and then transmit measurement information and an identification code of the workplace to the management server 120 .

The management server 120 may analyze the received measurement information and the identification code of the institution 30 to monitor the visit movement of the subject or monitor information of all visitors to the workplace. For example, the measurement information stored in the management server 120 and the identification code of the workplace may be used for the purpose of tracking and managing other visitors who may be contacted when a high-risk group visits the workplace.

For example, if the management server 120 detects a measured temperature higher than the reference value in the received measurement information, transmits the measurement information and the identification code of the workplace to the institution 30, and the institution 30 takes follow-up measures to prevent the spread of infection can take

[Second embodiment]

In the second embodiment, the subject self-measures body temperature using the body temperature measuring device 210, and the analysis module 216 of the body temperature measuring device 210 analyzes the measured information of the subject in real time to actively analyze the subject. it is to manage

Hereinafter, a body temperature measuring apparatus 210 according to a second embodiment of the present invention will be described in detail with reference to the drawings.

5 is a block diagram illustrating a body temperature measuring apparatus 210 according to a second embodiment of the present invention.

Referring to FIG. 5 , the body temperature measuring device 210 includes a temperature measuring module 211 , a fingerprint recognition module 212 , a registration module 213 , a GPS module 214 , an analysis module 216 , and a communication module 217 . include And the body temperature measuring device 210 further includes a camera module 215 .

The temperature measurement module 211 is for measuring the body temperature of the subject, and measures the temperature of the measurement site using a thermal sensor or infrared rays. For example, the temperature measuring module 211 may measure the body temperature by irradiating infrared rays to the measurement site through an infrared lamp, detecting the heat of the measurement site with a sensor, and converting a change in the wavelength into a temperature.

The fingerprint recognition module 212 is a means for authenticating the subject's identity. The fingerprint recognition module 212 recognizes fingerprint information of the subject when a finger of the subject is in contact, and identifies the registered subject based on the recognized fingerprint information. For example, the fingerprint recognition module 212 may allow the use of the body temperature measuring device 210 when fingerprint information of the subject corresponding to pre-stored identity information is recognized.

The registration module 213 maps fingerprint information, identity information, and a unique code of the body temperature measuring device 210 of the subject. For example, the registration module 213 directly receives the identity information of the subject from the subject, and maps the received identity information, fingerprint information, and a unique code of the body temperature measuring device 210 . The identity information input to the registration module 213 may include a date of birth, name, real residence address, age, gender, region, and the like. The registration module 213 may receive the input of the subject's identity information through an application or the web when directly inputting the subject's identity information from the subject.

When the identity information, fingerprint information, and the unique code of the body temperature measuring device 210 are mapped by the registration module 213, the subject can use the body temperature measuring device 210 only after self-authentication through fingerprint recognition. , this prevents other users from using the body temperature measuring device 210, so that the analysis module 216 can accurately and easily monitor the measurement information on the subject in real time.

The GPS module 214 detects current location information of the body temperature measuring device 210 . The location information measured by the GPS module 214 is used to determine the current location where the body temperature is measured when the subject measures the body temperature using the body temperature measuring device 210 .

The analysis module 216 may monitor the measurement information including the measurement temperature, measurement time, identity information, and location information in real time, so as to identify and actively manage the temperature change trend and movement information of the subject.

As an example, the analysis module 216 may use the location information measured by the GPS module 214 to monitor the visiting place of the subject, the movement line, and the departure of the quarantine zone in real time.

As another example, the analysis module 216 may notify the body temperature measurement device 210 of the display (not shown) or the speaker (not shown) for instructing the subject to measure body temperature at a preset cycle.

In addition, the analysis module 216 may monitor the change in body temperature information of the subject using the measured temperature measured in response to the body temperature measurement notification. The analysis module 216 may generate and transmit measurement rejection information to the institution 40 if the measured temperature is not returned at a preset period.

The analysis module 216 may analyze the measurement information and, if the measurement temperature is higher than the preset temperature, transmit the measurement information to the preset institution 40 through the communication module 217 . Here, the preset institution 40 may be a competent local government, a competent public health center, or a Korea Centers for Disease Control and Prevention. The preset organ 40 is not limited to any one.

In this embodiment, the analysis module 216 always transmits the information monitored based on the measurement information of the subject to the pre-set institution 40 using the communication module 217 or abnormal information (ie, fever symptoms) can be transmitted when found.

The communication module 217 communicates with the institution 40 and may communicate with the institution 40 through broadband wireless communication (LoRa or mobile communication network). For example, LoRa communication is a low-power long-distance communication (LPWA) technology that helps objects to communicate with each other. There is this.

The communication module 217 may encrypt and transmit the measurement information when transmitting the measurement information to the institution 40 .

Meanwhile, the body temperature measuring apparatus 210 of the present embodiment may further include a camera module 215 .

When the subject measures the temperature of a body part (ie, the measuring part) using the body temperature measuring device 210 , the camera module 215 takes a picture of the measured part. And the part photographed by the camera module 215 is provided to the analysis module 216 .

In addition, the analysis module 216 may compare the photographed portion photographed by the camera module 215 with any one of a plurality of preset reference portions, and may determine the measurement completion through whether or not they match.

For example, the analysis module 216 may request re-measurement through a notification if the photographed portion provided from the camera module 215 does not match any one of the plurality of reference portions.

Here, a plurality of preset reference parts are stored in advance by the analysis module 216 as parts of the body such as forehead, temple, cheeks, neck, wrist, ankle, foot, etc., or the subject has been provided with the body temperature measuring device 210 When a body part of the user is photographed using the camera module 215 of the body temperature measuring device 210 and registered, the reference part can be directly set. When the subject directly sets the reference site, guidelines for the location of the reference site and the photographing method may be provided through the web or a user manual.

In the above, the present invention has been described with reference to several embodiments of the present invention, but those of ordinary skill in the art can use the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. It will be understood that various modifications and changes may be made.

10: organ
110: thermometer
111: temperature measurement module
112: fingerprint recognition module
113: registration module
114: GPS module
115: camera module
116: processing module
117: communication module
120: management server

Claims (11)

a body temperature measuring device storing subject identification information and transmitting, in real time, measurement information including a measurement temperature at which the body temperature of the subject is measured, the identification information, measurement time, and location information to the outside; and
A management server that monitors the measurement information provided from the body temperature measuring device in real time, and transmits the measurement information to a preset institution when the measured temperature is higher than a preset temperature
A broadband communication-based IoT body temperature monitoring system that includes. According to claim 1,
The management server,
A broadband communication-based IoT body temperature monitoring system that transmits a body temperature measurement notification to the body temperature measurement device at a preset cycle, and monitors the temperature change trend using the measurement information returned in response to the body temperature measurement notification. According to claim 1,
The management server,
The quarantine area information is further stored, and if the location information included in the measurement information is different from the isolation area information, the IoT body temperature monitoring system based on broadband communication generates and transmits information about leaving the quarantine area to the institution. According to claim 1,
The management server
If the location information is different from the quarantine area information, the location information is provided in real time until the location information moves to a location corresponding to the quarantine area information again, and the subject's movement information is generated and transmitted to the institution IoT body temperature monitoring system based on broadband communication. According to claim 1,
The thermometer is
a camera module for photographing the measurement site; and
The IoT body temperature monitoring system based on broadband communication further comprising a processing module for determining whether the measurement is completed by comparing the photographed portion photographed by the camera module with any one of a plurality of preset reference portions. 6. The method of claim 5,
The management server,
If the measured temperature for at least two or more locations corresponding to the plurality of reference parts is provided, and the deviation between the received measured temperatures is greater than or equal to the reference value, after a certain period of time has elapsed, at least two or more of the imaging parts are provided. A broadband communication-based IoT body temperature monitoring system that receives the measured temperature for According to claim 1,
The thermometer is
a fingerprint recognition module for recognizing the fingerprint information of the subject;
a registration module for mapping the fingerprint information, the identity information, and a unique code of the body temperature measuring device;
a temperature measurement module for measuring the body temperature of the subject;
a GPS module for detecting the location information; and
and a communication module for transmitting the measurement information including the identity information, the measurement time, the measurement temperature, and the location information to the management server. According to claim 1,
The body temperature measuring device recognizes an identification code including workplace information using a built-in camera module, and transmits the measurement information and the identification code to the management server. A broadband communication-based IoT body temperature monitoring system. According to claim 1,
The management server collects movement information of high-risk subjects for infection, and if the movement information of the high-risk subject for infection and the location information of the subject overlap, broadband communication to notify the subject of the possibility of contact with the subject in the high-risk group for infection Based IoT body temperature monitoring system. a temperature measurement module for measuring the body temperature of the subject in which the identity information is stored;
a GPS module for detecting the location information where the body temperature of the subject is measured;
an analysis module for generating monitoring information by analyzing the measurement information including the identity information, the measurement time, the measurement temperature, and the location information in real time; and
Communication module for transmitting the monitoring information to a preset organization
A broadband communication-based IoT body temperature measurement device comprising a. 11. The method of claim 10,
Further comprising a camera module for photographing the measurement portion,
The analysis module compares the measurement part photographed by the camera module with any one of a plurality of preset reference parts to determine whether the measurement is completed or not.

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