CN111174941A - Body temperature monitoring system and method - Google Patents

Abstract

The invention relates to the technical field of infectious disease monitoring, in particular to a body temperature monitoring system and a body temperature monitoring method. According to the body temperature monitoring system and the body temperature monitoring method, the portable monitoring device can be used for acquiring the body temperature information of the user at any time, the body temperature information is sent to the remote server, and the remote server judges whether the user is in an abnormal state or not. Once the user is in an abnormal state, the remote server can send early warning information to the user or a manager in time to remind the user or the manager to start preventive measures as soon as possible so as to avoid causing larger loss.

Description

Body temperature monitoring system and method

Technical Field

The invention relates to the technical field of infectious disease monitoring, in particular to a body temperature monitoring system and a body temperature monitoring method.

Background

Body temperature is a commonly used human index in medical activities, and the timeliness, accuracy and reliability of body temperature monitoring directly influence the diagnosis and treatment effect of diseases. At present, the traditional mercury thermometer detection mode is gradually replaced by an electronic thermometer. The electronic thermometer is generally composed of a temperature sensor, a liquid crystal display, an integrated circuit and other electronic components, and has the advantages of high temperature measurement speed, non-contact, convenience in reading, high precision and the like.

Although the electronic thermometer has a qualitative improvement compared with a mercury thermometer, the current electronic thermometer only has the functions of temperature measurement, alarm and the like, and cannot meet the practical requirements. For example, in a special period such as an outbreak, the body temperature of a suspected patient needs to be closely monitored, and medical staff needs to know the body temperature dynamics of the suspected patient in real time and diagnose whether the suspected patient is attacked as soon as possible once an abnormality occurs. Therefore, it is necessary to design a system capable of monitoring the body temperature of the target person in real time.

Disclosure of Invention

In view of this, the present invention provides a body temperature monitoring system and method, which can monitor the body temperature change of a target person in real time, and provide a powerful guarantee for disease prevention and treatment under special situations.

In order to achieve the purpose, the invention provides the following technical scheme:

a body temperature monitoring system comprises a portable monitoring device and a remote server, wherein the portable monitoring device is in communication connection with the remote server; the portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the remote server every first fixed time; the remote server is used for judging whether the user is in an abnormal state or not according to the body temperature information; the portable monitoring device is also used for acquiring the geographical position information of a user and sending the geographical position information to the remote server every second fixed time length; the remote server is also used for judging whether the user is in a high-risk area or not according to the geographical position information; the first fixed duration is greater than the second fixed duration.

Further, the monitoring system further comprises a user terminal which is in communication connection with the remote server, and when the user is in an abnormal state or a high-risk area, the remote server sends early warning information to the user terminal.

Furthermore, the monitoring system also comprises a management terminal which is in communication connection with the remote server and is used for data interaction with the remote server.

Further, the portable monitoring device is worn at the ear of the user and obtains the body temperature information from within the ear canal of the user.

A body temperature monitoring system comprises a portable monitoring device and a mobile terminal, wherein the portable monitoring device is in communication connection with the mobile terminal; the portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the mobile terminal; the mobile terminal is used for displaying the body temperature information; the mobile terminal is held by the user and is also used for acquiring the geographical position information of the user; the system further comprises a remote server which is in communication connection with the mobile terminal, the mobile terminal sends the body temperature information to the remote server every first fixed time, the mobile terminal sends the geographical position information to the remote server every second fixed time, the first fixed time is longer than the second fixed time, the remote server judges whether the user is in an abnormal state or not according to the body temperature information, and the remote server judges whether the user is in a high-risk area or not according to the geographical position information.

Further, the portable monitoring device is worn at the ear of the user and obtains the body temperature information from within the ear canal of the user.

A method of body temperature monitoring comprising:

the method comprises the steps that a portable monitoring device obtains body temperature information of a user and sends the body temperature information to a remote server every first fixed time;

the portable monitoring device acquires geographical position information of a user and sends the geographical position information to a remote server every second fixed time, wherein the first fixed time is longer than the second fixed time;

the remote server judges whether the user is in an abnormal state or not according to the body temperature information, and when the user is in the abnormal state, the remote server sends early warning information to the portable monitoring device or the user terminal;

and the remote server judges whether the user is in a high-risk area or not according to the geographical position information, and when the user is in the high-risk area, the remote server sends early warning information to the portable monitoring device or the user terminal.

Further, when the user is in an abnormal state or a high risk area, the method further comprises the following steps: and the remote server sends the early warning information and the configuration parameters of the corresponding portable monitoring device to the management terminal.

Further, the method further comprises: and a manager logs in the remote server through the management terminal to set or modify the configuration parameters of the portable monitoring device.

Further, the method further comprises: the remote server calculates the monitoring time of the portable monitoring device, and when the monitoring time reaches a time threshold, the remote server sends excitation information to the user terminal.

Further, the specific method for the remote server to determine whether the user is in the high risk area includes: the remote server stores high-risk area virtual electronic fence data, compares the current coordinate in the geographic position information with the virtual electronic fence data, and indicates that the user is in a high-risk area when the current coordinate is located in the virtual electronic fence.

Further, the high-risk area comprises an early warning area and a forbidden area, and the early warning area surrounds the forbidden area; the method for constructing the high-risk area virtual electronic fence comprises the following steps: and collecting longitude and latitude coordinates of fence points at the edge of the early warning area, connecting the longitude and latitude coordinates to form a fence space in a virtual mode, and enclosing the high-risk area in the fence space, so that the high-risk area virtual electronic fence is formed.

A method of body temperature monitoring comprising:

the portable monitoring device acquires body temperature information of a user and sends the body temperature information to the mobile terminal;

the mobile terminal receives and displays the body temperature information;

the mobile terminal acquires geographical position information of a user, sends the body temperature information to a remote server every other first fixed time, sends the geographical position information to the remote server every other second fixed time, and the first fixed time is longer than the second fixed time;

the remote server judges whether the user is in an abnormal state or not according to the body temperature information, the remote server judges whether the user is in a high-risk area or not according to the geographical position information, and when the user is in the abnormal state or the high-risk area, the remote server sends early warning information to the mobile terminal.

Further, still include: and the mobile terminal synchronously displays the geographical position of the user and the geographical position of the high-risk area.

The invention provides a body temperature monitoring system and a body temperature monitoring method. The portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the remote server. The remote server is used for judging whether the user is in an abnormal state or not according to the body temperature information.

According to the body temperature monitoring system and the body temperature monitoring method, the portable monitoring device can be used for acquiring the body temperature information of the user at any time, the body temperature information is sent to the remote server, and the remote server judges whether the user is in an abnormal state or not. Once the user is in an abnormal state, the remote server can send early warning information to the user or a manager in time to remind the user or the manager to start preventive measures as soon as possible so as to avoid causing larger loss. The body temperature monitoring system and the method provided by the invention are particularly suitable for the isolated monitoring of suspected patients in epidemic outbreak period, and not only can acquire the body temperature information of the suspected patients in real time and pay attention to the health condition of the suspected patients, but also can monitor the track of the suspected patients and prevent the suspected patients from leaving the isolated area without permission.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic view of a body temperature monitoring system in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of a portable monitoring device according to a first embodiment of the present invention;

FIG. 3 is an exploded view of a portable monitoring device according to a first embodiment of the present invention;

FIG. 4 is a schematic external view of a portable monitoring device according to a first embodiment of the present invention;

FIG. 5 is a schematic view of a body temperature monitoring system according to a second embodiment of the present invention;

FIG. 6 is a flow chart of a method of body temperature monitoring in a second embodiment of the present invention;

FIG. 7 is a diagram illustrating a virtual electronic fence for a high risk area according to a second embodiment of the present invention;

FIG. 8 is a schematic view of a body temperature monitoring system including a remote server according to a third embodiment of the present invention;

fig. 9 is a schematic diagram of a body temperature monitoring system including a first mobile terminal and a first mobile terminal according to a third embodiment of the present invention.

Reference numerals: 100-portable monitoring device, 110-temperature sensor module, 120-wireless communication module, 130-positioning module, 140-processor module, 150-circuit board, 160-ear canal member, 170-support member, 171-bearing, 172-load, 180-swivel joint, 190-battery, 200-remote server, 300-user terminal, 400-management terminal, 500-mobile terminal, 510-first mobile terminal, 520-second mobile terminal.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, fig. 1 is a schematic view of a body temperature monitoring system according to an embodiment of the present invention; FIG. 2 is a schematic view of a portable monitoring device according to a first embodiment of the present invention; FIG. 3 is an exploded view of a portable monitoring device according to a first embodiment of the present invention; FIG. 4 is a schematic external view of a portable monitoring device according to a first embodiment of the present invention; FIG. 5 is a schematic view of a body temperature monitoring system according to a second embodiment of the present invention; FIG. 6 is a flow chart of a method of body temperature monitoring in a second embodiment of the present invention; FIG. 7 is a diagram illustrating a virtual electronic fence for a high risk area according to a second embodiment of the present invention; FIG. 8 is a schematic view of a body temperature monitoring system including a remote server according to a third embodiment of the present invention; fig. 9 is a schematic diagram of a body temperature monitoring system including a first mobile terminal and a first mobile terminal according to a third embodiment of the present invention.

The body temperature monitoring system provided by the invention can be applied to various situations, for example, isolated people can be monitored in epidemic outbreak, and common people (old people or patients and the like) can be monitored at ordinary times.

Under specific conditions such as epidemic outbreak and the like, strong management and control are needed to prevent further spreading of the epidemic and lay a good foundation for subsequent epidemic elimination. During an epidemic situation, not only the infected patient with confirmed diagnosis needs to be treated properly, but also the suspected patient who has contacted the patient with confirmed diagnosis needs to be isolated and monitored in time. Because of the limitation of social resources, all suspected patients cannot be isolated in a centralized way, and particularly, the centralized isolation of people who return from non-serious affected areas consumes huge social resources, so that the household isolation policy is applied to the people who return from other areas in many areas. Although the shortage of resources can be relieved by household isolation, how to monitor the isolation personnel is difficult, the personnel can not be ensured to be lost by the patrol of community workers nearby the household, and certain risks are also brought to the community workers.

In order to solve the problems caused by the above situation, the present invention provides a body temperature monitoring system, as shown in fig. 1, comprising a portable monitoring device 100 and a remote server 200, wherein the portable monitoring device 100 is communicatively connected with the remote server 200.

The portable monitoring device 100 can controllably acquire the body temperature information of the user and send the body temperature information to the remote server 200. The body temperature information includes, but is not limited to, body temperature data, and may also include time of body temperature measurement, etc.

The portable monitoring device 100 may further controllably acquire the geographic location information of the user and send the geographic location information to the remote server 200. The geographic location information includes, but is not limited to, geographic coordinates, such as longitude and latitude, and may also include the time of acquisition of the geographic coordinates, and the like.

In addition, the portable monitoring device 100 does not need to continuously send the body temperature information and the geographic position information to the remote server 200 in real time, so that power consumption can be saved and the working time of the portable monitoring device 100 can be prolonged. The portable monitoring device 100 can collect the body temperature information and the geographic location information in real time, but send the data in a time period to the remote server 200 at regular intervals. Of course, the remote server 200 may also send a command to the portable monitoring device 100 at regular time or in a controlled manner, and actively control the portable monitoring device 100 to perform data collection and transmission.

If monitoring is performed on the house isolation personnel during the epidemic outbreak, the portable monitoring device 100 can acquire the body temperature information and the geographical location information and then separately transmit the body temperature information and the geographical location information to the remote server 200. The body temperature is generally less likely to fluctuate greatly in a short time, so the time interval for sending the body temperature information can be relatively long; if the isolation personnel in the house do not comply with the isolation regulations and leave the isolation residence privately, the geographical location information of the isolation personnel can change greatly in a short time, so the time interval of sending the geographical location information can be relatively short. Thus, the remote server 200 can timely master the geographical trend of the house isolation personnel, prevent the house isolation personnel from leaving the isolation house privately, master the physical condition of the house isolation personnel, and judge whether the house isolation personnel possibly have diseases or not.

The remote server 200 may autonomously determine whether the user is in an abnormal state according to the body temperature information.

The abnormal state mainly refers to whether the body temperature of the user is abnormal or not. For example, the remote server 200 may store a normal body temperature interval, and if the body temperature data of the user acquired at a certain time is not in the normal body temperature interval, it may indicate that the body temperature of the user is abnormal. Of course, actually, the determination based on only a single body temperature data at a certain time is inaccurate, because the body temperature data at a certain time may be deviated due to various reasons, thereby causing a determination error. Preferably, the remote server 200 may determine whether the continuous body temperature data in a certain time period are all located outside the normal body temperature interval, and if so, it indicates that the body temperature of the user is abnormal.

The remote server 200 may also autonomously determine whether the user is in a high risk area according to the geographical location information.

In the present invention, the high risk area may have different explanations for different users, and in general, the high risk area is an area that the user should not step on. If the portable monitoring device 100 is used to monitor the geographic location of a suspected patient, the high risk area represents an area other than the defined isolated residence. If the portable monitoring device 100 is used to monitor the geographical location of uninfected persons, the high risk area represents an epidemic area or other area where there may be a high risk of infection. In addition, the high-risk area can be further classified and comprises an early warning area and a forbidden area, and the early warning area surrounds the forbidden area. When the remote server 200 finds that the user enters the early warning area, it can be determined that the user is in the high-risk area, and the user cannot enter a forbidden area where danger really exists.

The method for judging whether the user is in the high-risk area or not by the remote server 200 according to the geographical location information can be realized by using the existing technologies such as positioning, navigation and the like. In one embodiment of the present invention, the remote server 200 utilizes a GPS virtual electronic fence technology to determine whether the user is in a high risk area. Firstly, a high-risk area is defined, longitude and latitude coordinates of fence points are collected at the edge of the high-risk area, a fence space is formed in a virtual mode, the high-risk area is enclosed in the fence space, after the remote server 200 receives the geographic position information, whether the longitude and latitude coordinates in the geographic position information are located in the virtual fence or not is judged, and if yes, the user is in the high-risk area.

In a first embodiment of the present invention, as shown in FIG. 2, the portable monitoring device 100 has a housing that encloses a temperature sensor module 110, a wireless communication module 120, and a processor module 140. The temperature sensor module 110 is positioned in the ear canal for use in acquiring body temperature data from the ear canal and converting it into an electrical signal for transmission to the processor module 140. The wireless communication module 120 is used for data communication with the remote server 200 or other mobile terminals. The processor module 140 is electrically connected to the temperature sensor module 110 and the wireless communication module 120, respectively, and is used for processing data and integrally scheduling and driving each module.

Further, the portable monitoring device 100 may further include a positioning module 130 electrically connected to the processor module 140, wherein the positioning module 130 is configured to obtain data for positioning the portable monitoring device 100. The positioning module 130 may use the existing positioning technology to obtain the relevant data, such as GPS, beidou system, etc.

As shown in fig. 3 and 4, in this embodiment, the temperature sensor module 110 is a thermopile sensor, the wireless communication module 120 is a cellular network communication module, and the positioning module 130 is a GPS module. The portable monitoring device 100 also has a battery 190 to provide power to the entire device. The cellular network communication module, the GPS module, and the processor module 140 are integrated on a circuit board 150.

In this embodiment, the portable monitoring device 100 can be positioned at the ear of the user when in use, and can be removed when not in use. The housing includes an ear canal member 160 and a support member 170. The ear canal member 160 is configured as a cylinder-like structure extending along the ear canal, and the thermopile sensor is disposed within the ear canal member 160 and at an end of the ear canal member 160 that extends into the ear canal. The support member 170 is coupled to the ear canal member 160 and is configured to be generally semi-annular and, in use, may be supported on the user's pinna for securing the portable monitoring device 100.

In this embodiment, as shown in fig. 4, the supporting member 170 includes a supporting portion 171, one end of the supporting portion 171 is connected to the ear canal member 160, and the other end extends to form a load-carrying portion 172 with a larger inner space. In use, the weight bearing portion 171 is supported on the user's pinna, the ear canal member 160 extends into the user's ear canal, and the load bearing portion 172 is located on the back of the pinna, thereby securing the entire wearable body temperature sensing device to the user's ear. The load-carrying portion 172 has a large internal space, so the cellular network communication module, the GPS module, the processor module 140 and the battery 190 are all disposed in the load-carrying portion 172, and the thermopile sensor is electrically connected to the processor module 140 through a wire.

In this embodiment, the ear canal member 160 and the support member 170 are rotatably connected, and the ear canal member 160 is rotated by 180 degrees to be respectively suitable for the left and right ears. Specifically, the ear canal member 160 is connected to the support member 170 by a rotational joint 180. The inner surface of the coupling end of the ear canal member 160 has a circular groove, and the outer surface of the coupling end of the support member 170 has a circular protrusion fitting into the circular groove, and the circular groove and the circular protrusion together constitute the rotary joint 180. When the ear canal member 160 and the support member 170 are connected, the annular protrusion is located within the annular recess and the annular protrusion is rotatable within the annular recess.

In this embodiment, as shown in fig. 3, the ear canal component 160 has a copper-made cylinder-like skeleton, the thermopile sensor is disposed in the skeleton, and the outer side wall of the skeleton is wrapped by a layer of contact layer 161 made of flexible material, so that when the ear canal component 160 enters the ear canal, the use experience of the user is improved. The flexible material may be natural or synthetic rubber, silicone rubber, or the like.

In this embodiment, the portable monitoring device 100 may further include a sound output module, such as a speaker. The portable monitoring device 100 can also be used to receive various voice commands or other prompting messages sent by the remote server 200, and the sound output module plays the voice to the user.

The portable monitoring device 100 provided in this embodiment can be conveniently worn at the ear of the user, acquire the body temperature information of the user by using the thermopile sensor extending into the ear canal, acquire the geographical location information of the user by the GPS module, and then transmit the body temperature information and the geographical location information to the remote server 200 by the cellular network communication module. The remote server 200 may determine whether the user is in an abnormal state or a high risk area according to the body temperature information and the geographical location information, and if the user is in the abnormal state or the high risk area once, the remote server 200 may further send a voice warning message to the portable monitoring device 100, so that the user can obtain related information at the first time.

In a second embodiment of the present invention, as shown in fig. 5, the body temperature monitoring system includes a portable monitoring device 100, a remote server 200, and a user terminal 300. The portable monitoring device 100 is communicatively connected to the remote server 200 and the user terminal 300, respectively. The portable monitoring device 100 can controllably acquire the body temperature information and the geographic location information of the user and send the body temperature information and the geographic location information to the remote server 200. The remote server 200 may determine whether the user is in an abnormal state or a high risk area according to the body temperature information and the geographical location information.

In this embodiment, the user terminal 300 is held by a user, and can acquire the body temperature information and the geographic location information from the portable monitoring device 100, so that the user can conveniently check the body temperature condition and the geographic location of the user at any time. The user terminal 300 may be any of various existing intelligent terminals, and may receive and display information to a user, such as a computer, a smart phone, a smart tablet, and other electronic devices. Corresponding APP can be designed to be installed on the user terminal 300, a user can log in a personal account through the APP, the user terminal 300 is controlled to be in communication connection with the portable monitoring device 100, and the user enters a monitoring center page to select and view various related information, including body temperature data, body temperature trend, motion trail and the like.

In this embodiment, when the user is in an abnormal state or a high risk area, the remote server 200 may further send an early warning message to the user terminal 300 to prompt the user. The early warning information can comprise abnormal body temperature, early warning of entering a high-risk area and the like. Further, the warning message may further include emergency measures to guide the user to perform preliminary emergency treatment. The emergency measures include, but are not limited to, specifying hospital locations around and providing navigation information, instructing the user how to leave the high risk area, etc.

In this embodiment, the portable monitoring device 100 further includes an alarm module, when the user is in an abnormal state or a high-risk area, the remote server 200 sends an alarm instruction to the portable monitoring device 100, and the alarm module sends an alarm signal. The alarm signal may be a specific voice signal or light signal, etc.

In this embodiment, the remote server 200 is further configured to set or change configuration parameters of the portable monitoring device 100. The configuration parameter setting method of the portable monitoring device 100 may include data acquisition parameter setting, user information setting, and associating the user information with a unique device number of the portable monitoring device 100, thereby binding the portable monitoring device 100 with a corresponding user, and finally activating the portable monitoring device 100. The data acquisition parameters can include temperature difference precision, temperature data acquisition frequency, temperature early warning value, early warning frequency, early warning distance, system damage alarm, monitoring duration and the like. The user information may include name, age, identification number, contact, address, etc.

In this embodiment, different groups, such as communities and enterprises, may implement remote monitoring of people in the jurisdiction or enterprise through the remote server 200. The monitoring system may further include a management terminal 400, communicatively connected to the remote server 200, for performing data interaction with the remote server 200. The management terminal 400 is held by a manager in a jurisdiction or an enterprise, and can acquire data from the remote server 200 or upload related data, set and modify configuration parameters of the portable monitoring device 100, and update the longitude and latitude coordinates of the virtual fence point in the high-risk area. The management terminal 400 may be various existing intelligent terminals, such as computers, smart phones, smart tablets and other electronic devices. Corresponding APP can be designed and installed on the management terminal 400, a manager can log in an enterprise account through the APP, the management terminal 400 is controlled to be in communication connection with the remote server 200, and the management terminal enters a health monitoring center page to select and view various related information, including a current monitoring person list, monitoring person data and the like. The manager can also perform operations such as starting and stopping of the portable monitoring apparatus 100 through the management terminal 400.

When the remote server 200 finds that the user is in an abnormal state or a high-risk area, the remote server 200 may further send an early warning message to the management terminal 400, and send a configuration parameter one of the related portable monitoring devices 100 to the management terminal 400, so that a manager can know the current condition in time, and a basis is provided for subsequent treatment measures.

As shown in fig. 6, the present embodiment further provides a body temperature monitoring method, which includes the following steps:

s11, the portable monitoring device 100 obtains the body temperature information and the geographical location information of the user, and sends the body temperature information and the geographical location information to the remote server 200.

S12, the remote server 200 determines whether the user is in an abnormal state or a high risk area according to the body temperature information and the geographical location information, and when the user is in the abnormal state or the high risk area, the remote server 200 sends an early warning message to the portable monitoring device 100 or the user terminal 300.

Further, after the portable monitoring device 100 or the user terminal 300 receives the warning message, the portable monitoring device 100 or the user terminal 300 may further send an alarm signal to attract the attention of the user.

In S12, when the user is in an abnormal state or a high-risk area, the remote server 200 may further send the warning information and the configuration parameters of the corresponding portable monitoring device 100 to the management terminal 400, so as to facilitate the subsequent handling by the administrator.

In this embodiment, the specific method for the remote server 200 to determine whether the user is in an abnormal state is as follows: the remote server 200 determines whether the body temperature data in the body temperature information is in a reasonable interval, and if not, the user is in an abnormal state. The reasonable interval may be set and modified by the manager logging in the remote server 200 on the configuration parameter page of the portable monitoring device 100, and in this embodiment, the reasonable interval is related to the age, sex, and other factors of a specific user, and may be set by the manager.

In this embodiment, the specific method for the remote server 200 to determine whether the user is in the high risk area includes: the remote server 200 stores high risk area virtual electronic fence data, the remote server 200 compares the current coordinate in the geographic position information with the virtual electronic fence data, and when the current coordinate is located in the virtual electronic fence, it indicates that the user is in a high risk area.

Further, as shown in fig. 7, the high-risk area includes an early-warning area and an forbidden area, the early-warning area surrounds the forbidden area, and when the user enters the early-warning area, the remote server 200 determines that the user enters the high-risk area, so as to send a prompt, so that the user is prevented from further entering the real dangerous forbidden area, and a room for detachment is left for the user. The method for constructing the high-risk area virtual electronic fence comprises the following steps: and collecting longitude and latitude coordinates of fence points at the edge of the early warning area, connecting the longitude and latitude coordinates to form a fence space in a virtual mode, and enclosing the high-risk area in the fence space, so that the high-risk area virtual electronic fence is formed.

In this embodiment, the high-risk area may be changed, and the virtual electronic fence of the high-risk area in the remote server 200 may be updated according to a situation change.

In this embodiment, the body temperature monitoring method further includes: s13, the remote server 200 calculates a monitoring duration of the portable monitoring device 100, and when the monitoring duration reaches a time threshold, the remote server 200 sends an incentive message to the user terminal 300.

For a user actively engaged in monitoring, the remote server 200 will give a certain incentive, and the judgment method for giving the incentive is as follows: when the user's monitoring duration reaches a time threshold, an incentive may be given. The monitoring duration may be a continuous uninterrupted monitoring duration or a sum of segmented monitoring durations. The time threshold may be set or modified by an administrator logging into the remote server 200.

The incentive information can be mental incentives such as incentive characters and pictures, and can also be substance incentives such as cash red packages and real objects, and after receiving the real object incentive information, the user can use the information as a certificate to get the corresponding real object to the appointed place.

In this embodiment, the remote server 200 calculates the monitoring duration of the portable monitoring device 100, and when the monitoring duration reaches the time threshold, the remote server 200 may also send the relevant information to the corresponding management terminal 400, and then the management terminal 400 sends the excitation information to the corresponding user terminal 300.

In a third embodiment of the present invention, as shown in fig. 8, the body temperature monitoring system includes a portable monitoring device 100 and a mobile terminal 500, wherein the portable monitoring device 100 is connected to the mobile terminal 500 in a communication manner. The portable monitoring device is used for acquiring body temperature information and geographical position information of a user and sending the body temperature information and the geographical position information to the mobile terminal 500; the mobile terminal 500 is configured to display the body temperature information and the geographic location information.

The mobile terminal 500 in this embodiment may be an intelligent mobile device, such as a smart phone, a smart tablet, a smart bracelet, and the like. As shown in fig. 9, the mobile terminal 500 includes a first mobile terminal 510 held by a user and/or a second mobile terminal 520 held by a manager, so that the user and/or the manager can more conveniently and directly obtain the body temperature information and the geographical location information of the user.

In this embodiment, the portable monitoring device 100 and the mobile terminal 500 belong to near field communication, and the two devices can be in communication connection by using infrared or bluetooth.

Further, the mobile terminal 500 is further configured to determine whether the user is in an abnormal state or in a high-risk area according to the body temperature information and the geographic position information. The user and/or the manager can perform subsequent treatment in time according to the judgment information without delaying the opportunity.

In this embodiment, the mobile terminal 500 is further configured to send an alarm signal to remind the user and/or a manager when the user is in an abnormal state or a high-risk area. The alarm signal may be a sound signal, a light signal, a vibration signal, or the like.

In this embodiment, the second mobile terminal 520 held by the administrator may correspond to a plurality of portable monitoring devices 100. The portable monitoring device 100 is managed by a manager through the second mobile terminal 520, and the management operations include, but are not limited to, starting, closing, configuring parameters, and the like.

In the body temperature monitoring system provided in this embodiment, the mobile terminal 500 held by the user and/or the administrator directly displays data, so that the user and/or the administrator can know the relevant conditions in time, and can further determine whether the user is in an abnormal state or a high-risk area, thereby facilitating the user and/or the administrator to perform relevant treatment.

Further, the body temperature monitoring system may further include a remote server 200 communicatively connected to the mobile terminal 500. After receiving the body temperature information and the geographical position information, the mobile terminal 500 sends the body temperature information and the geographical position information to the remote server 200, and the remote server 200 judges whether the user is in an abnormal state or a high-risk area according to the body temperature information and the geographical position information. And if the user is in an abnormal state or a high-risk area, transmitting related early warning information to the mobile terminal 500.

The embodiment provides a body temperature monitoring method, based on the body temperature monitoring system, the body temperature monitoring system includes a portable monitoring device 100 and a first mobile terminal 510 held by a user. The method comprises the following steps:

s21, the portable monitoring device 100 obtains the body temperature information and the geographic location information of the user, and sends the body temperature information and the geographic location information to the first mobile terminal 510.

S22, the first mobile terminal 510 receives and displays the body temperature information and the geographic location information for the user to view.

Further, after receiving the body temperature information and the geographic location information, the first mobile terminal 510 further includes: the first mobile terminal 510 determines whether the user is in an abnormal state or a high-risk area, and when the user is in the abnormal state or the high-risk area, the first mobile terminal 510 sends an alarm signal to remind the user to perform treatment in time.

In this embodiment, the first mobile terminal 510 held by the user also encloses the high risk area with a virtual electronic fence, and the geographic location of the virtual electronic fence can be displayed on the first mobile terminal 510 held by the user. In the moving process, the user can avoid mistakenly entering the high-risk area by observing the position between the geographical position of the user and the geographical position of the virtual electronic fence.

The embodiment also provides a body temperature monitoring method, based on the body temperature monitoring system, the body temperature monitoring system includes the portable monitoring device 100, a first mobile terminal 510 held by a user, and a second mobile terminal 520 held by a manager. The method comprises the following steps:

s31, the portable monitoring device 100 obtains the body temperature information and the geographic location information of the user, and sends the body temperature information and the geographic location information to the first mobile terminal 510 and the second mobile terminal 520.

S32, the first mobile terminal 510 and the second mobile terminal 520 receive and display the body temperature information and the geographic location information for the user and the manager to view.

Further, after the first mobile terminal 510 and the second mobile terminal 520 receive the body temperature information and the geographic location information, the method further includes: the first mobile terminal 510 and the second mobile terminal 520 determine whether the user is in an abnormal state or a high-risk area, and when the user is in the abnormal state or the high-risk area, the first mobile terminal 510 and the second mobile terminal 520 both send out alarm signals to remind the user and a manager to handle in time.

In a fourth embodiment of the present invention, the body temperature monitoring system includes a portable monitoring device 100 and a mobile terminal 500, and the portable monitoring device 100 is connected to the mobile terminal 500 in a communication manner. The portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the mobile terminal 500; the mobile terminal 500 is configured to display the body temperature information.

In this embodiment, the mobile terminal 500 is held by a user and is further used for acquiring the geographical location information of the user.

Further, the mobile terminal 500 may further determine whether the user is in an abnormal state or a high-risk area according to the body temperature information and the geographical location information, and when the user is in the abnormal state or the high-risk area, the mobile terminal 500 sends an alarm signal; or the mobile terminal 500 may further send the body temperature information and the geographical location information to the remote server 200, the remote server 200 determines whether the user is in an abnormal state or a high-risk area, and when the user is in the abnormal state or the high-risk area, the remote server 200 sends the warning information to the mobile terminal 500.

In this embodiment, the portable monitoring device 100 acquires the body temperature information of the user, and the mobile terminal 500 held by the user acquires the geographical location information, so that the structure of the portable monitoring device 100 can be simplified, the weight of the portable monitoring device 100 is reduced, and the use experience is improved.

The embodiment also provides a body temperature monitoring method, which comprises the following steps:

s41, the portable monitoring device acquires body temperature information of a user and sends the body temperature information to the mobile terminal;

s42, the mobile terminal acquires the geographical position information of the user and sends the body temperature information and the geographical position information to a remote server;

s43, the remote server judges whether the user is in an abnormal state or a high-risk area according to the body temperature information and the geographical position information;

further, still include: and S44, when the user is in an abnormal state or a high-risk area, the remote server sends early warning information to the mobile terminal.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (14)

1. A body temperature monitoring system is characterized by comprising a portable monitoring device and a remote server, wherein the portable monitoring device is in communication connection with the remote server; the portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the remote server every first fixed time; the remote server is used for judging whether the user is in an abnormal state or not according to the body temperature information; the portable monitoring device is also used for acquiring the geographical position information of a user and sending the geographical position information to the remote server every second fixed time length; the remote server is also used for judging whether the user is in a high-risk area or not according to the geographical position information; the first fixed duration is greater than the second fixed duration.

2. The body temperature monitoring system of claim 1, further comprising a user terminal in communication with the remote server, wherein the remote server sends an alert to the user terminal when the user is in an abnormal state or high risk area.

3. The body temperature monitoring system of claim 1, further comprising a management terminal communicatively coupled to the remote server for data interaction with the remote server.

4. A body temperature monitoring system as claimed in any of claims 1 to 3 wherein the portable monitoring device is worn at the ear of the user and obtains the body temperature information from within the ear canal of the user.

5. A body temperature monitoring system is characterized by comprising a portable monitoring device and a mobile terminal, wherein the portable monitoring device is in communication connection with the mobile terminal; the portable monitoring device is used for acquiring body temperature information of a user and sending the body temperature information to the mobile terminal; the mobile terminal is used for displaying the body temperature information; the mobile terminal is held by the user and is also used for acquiring the geographical position information of the user; the system further comprises a remote server which is in communication connection with the mobile terminal, the mobile terminal sends the body temperature information to the remote server every first fixed time, the mobile terminal sends the geographical position information to the remote server every second fixed time, the first fixed time is longer than the second fixed time, the remote server judges whether the user is in an abnormal state or not according to the body temperature information, and the remote server judges whether the user is in a high-risk area or not according to the geographical position information.

6. The body temperature monitoring system of claim 5, wherein the portable monitoring device is worn at the user's ear and obtains the body temperature information from within the user's ear canal.

7. A method of monitoring body temperature, comprising:

the method comprises the steps that a portable monitoring device obtains body temperature information of a user and sends the body temperature information to a remote server every first fixed time;

the portable monitoring device acquires geographical position information of a user and sends the geographical position information to a remote server every second fixed time, wherein the first fixed time is longer than the second fixed time;

the remote server judges whether the user is in an abnormal state or not according to the body temperature information, and when the user is in the abnormal state, the remote server sends early warning information to the portable monitoring device or the user terminal;

and the remote server judges whether the user is in a high-risk area or not according to the geographical position information, and when the user is in the high-risk area, the remote server sends early warning information to the portable monitoring device or the user terminal.

8. The method for monitoring body temperature according to claim 7, further comprising, when the user is in an abnormal state or high risk area: and the remote server sends the early warning information and the configuration parameters of the corresponding portable monitoring device to the management terminal.

9. The method of monitoring body temperature of claim 8, further comprising: and a manager logs in the remote server through the management terminal to set or modify the configuration parameters of the portable monitoring device.

10. The method of monitoring body temperature of claim 7, further comprising: the remote server calculates the monitoring time of the portable monitoring device, and when the monitoring time reaches a time threshold, the remote server sends excitation information to the user terminal.

11. The method for monitoring body temperature according to claim 7, wherein the specific method for the remote server to determine whether the user is in the high risk area is: the remote server stores high-risk area virtual electronic fence data, compares the current coordinate in the geographic position information with the virtual electronic fence data, and indicates that the user is in a high-risk area when the current coordinate is located in the virtual electronic fence.

12. The method for monitoring body temperature according to claim 11, wherein the high risk zone comprises an early warning zone and an forbidden zone, and the early warning zone surrounds the forbidden zone; the method for constructing the high-risk area virtual electronic fence comprises the following steps: and collecting longitude and latitude coordinates of fence points at the edge of the early warning area, connecting the longitude and latitude coordinates to form a fence space in a virtual mode, and enclosing the high-risk area in the fence space, so that the high-risk area virtual electronic fence is formed.

13. A method of monitoring body temperature, comprising:

the portable monitoring device acquires body temperature information of a user and sends the body temperature information to the mobile terminal;

the mobile terminal receives and displays the body temperature information;

the mobile terminal acquires geographical position information of a user, sends the body temperature information to a remote server every other first fixed time, sends the geographical position information to the remote server every other second fixed time, and the first fixed time is longer than the second fixed time;

the remote server judges whether the user is in an abnormal state or not according to the body temperature information, the remote server judges whether the user is in a high-risk area or not according to the geographical position information, and when the user is in the abnormal state or the high-risk area, the remote server sends early warning information to the mobile terminal.

14. The method for monitoring body temperature of claim 13, further comprising: and the mobile terminal synchronously displays the geographical position of the user and the geographical position of the high-risk area.

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