CN111163110A

CN111163110A - Body temperature centralized monitoring system based on wearable body temperature sensor

Info

Publication number: CN111163110A
Application number: CN202010096257.7A
Authority: CN
Inventors: 李冠华; 颜丹; 张哲�; 董青龙; 张学记
Original assignee: Shenzhen Refresh Intelligent Technology Co ltd
Current assignee: Shenzhen Refresh Intelligent Technology Co ltd
Priority date: 2020-02-17
Filing date: 2020-02-17
Publication date: 2020-05-15

Abstract

The invention relates to a body temperature centralized monitoring system based on a wearable body temperature sensor, which comprises the body temperature sensor, a repeater and a cloud platform, wherein the repeater is connected with the body temperature sensor; the body temperature sensor is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater; the repeater is used for accessing the cloud platform through the network and sending the received body temperature data to the cloud platform, and the cloud platform can simultaneously receive the access of the plurality of repeaters; the cloud platform builds file management on each body temperature sensor, and sorts, summarizes and analyzes the received body temperature data; the system does not need to frequently carry out contact type body temperature detection on the patient, can carry out body temperature monitoring on a large number of patients in real time, improves the efficiency, and reduces the risk of infection when medical staff detect the body temperature of the patient; the patient and the body temperature sensor correspond to each other one by one, so that the risk of cross infection caused by repeated use of the traditional body temperature sensor is avoided, and the work of sterilizing the body temperature sensor is avoided.

Description

Body temperature centralized monitoring system based on wearable body temperature sensor

Technical Field

The invention relates to the technical field of body temperature monitoring, in particular to a body temperature centralized monitoring system based on a wearable body temperature sensor.

Background

The spread of SARS virus in 2003 and novel coronavirus in the early 2020 has a great influence on social production and resident life. During virus abuse, if the patient or suspected patient can be subjected to non-contact and continuous body temperature monitoring, the risk of infection of medical staff or nursing relatives is greatly reduced.

In order to effectively cope with the recent new coronavirus (2019-nCoV) infection pneumonia epidemic situation and enhance the prevention and control capability of new sudden infectious diseases, the national science foundation committee, the department of science and technology, the departments of national health committee, development and reform committee and the like and the related science and technology committee of each province and city closely surround the relevant important scientific problems of the etiology, epidemiology, pathogenesis, disease prevention and control and the like of the new coronavirus infection, and basic and prospective combined research is developed.

The southern mountain academicians pointed out: the fever is still the typical symptom of the novel coronavirus infection, the monitoring of suspected patients still depends on the detection of indexes such as artificial body temperature and the like, and the monitoring is urgent for reducing the cross infection of monitoring (medical personnel), realizing the real-time, intelligent and wearable remote monitoring of individual states and mastering the spreading state of epidemic situations.

Disclosure of Invention

The invention aims to solve the technical problem of establishing a body temperature centralized monitoring system based on a wearable body temperature sensor, carrying out non-contact continuous body temperature monitoring on a large number of infectious disease patients or suspected patients, and enabling medical staff to master body temperature data of the patients in real time through the system and find fever symptoms of the patients in time.

A body temperature centralized monitoring system based on a wearable body temperature sensor comprises the body temperature sensor, a repeater and a cloud platform;

the body temperature sensor is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater;

the repeater is used for accessing the cloud platform through the network and sending the received body temperature data to the cloud platform, and the cloud platform can simultaneously receive the access of the plurality of repeaters;

the cloud platform is specially used for a body temperature sensor, builds file management on each body temperature sensor, and sorts, summarizes and analyzes received body temperature data;

the body temperature data of the patient can be stored for a long time on the cloud platform, and the work of monitoring and recording by medical staff is avoided.

Preferably, the wearable device acquires the body temperature data of the individual and the geographical location information of the individual according to a set time interval; the individuals are located in the independent units, the number of the independent units is more than 2, and the number of the individuals of each independent unit is more than 2.

The repeater is also used for analyzing and judging whether the body temperature data of the individual is consistent with the body temperature data of the epidemic situation one by one; judging the person to be suspected when the two are matched; when the patient does not coincide with the target, the patient is judged to be a temporary normal person.

The cloud platform is used for analyzing the development rules of the number of the suspected persons of each independent unit, confirming whether the development rules of the number of the suspected persons of each independent unit are consistent, and further judging whether undetected suspected persons with the disease transmission capability exist or not when the development rules are inconsistent.

The independent unit is residential quarter, hospital, hotel, train station, airport station or office building, residential quarter, hospital, hotel, train station, airport station or office building that analytic structure is similar in the cloud platform, and the cloud platform still includes:

simultaneously acquiring the building number and the room number of an individual, and establishing an epidemic situation propagation model based on different room numbers in a unit building based on the existing infectious disease cases; for example, if there is a suspected case in floor 2, floor 3 is easily infected; when the unit building is isolated, the first floor where the room number of the suspected person is found is migrated and isolated.

And a cloud platform subsection, wherein the room number to be migrated when the independent unit needs to be isolated is judged based on the epidemic situation propagation model and the room number information of the suspected person.

Preferably, the wearable device acquires the body temperature data of the individual and the geographical location information of the individual through the wearable body temperature sensor according to a set time interval; individuals are located at one isolation point in a certain time period, and the individuals leave the isolation point at other times, wherein the number of the individuals at each isolation point is more than 50;

preferably, the relay analyzes and judges whether the individual body temperature data is consistent with the body temperature data of the epidemic situation one by one; when the body temperature data of a certain individual is matched, the individual is judged to be a suspected person, the suspected person is isolated, and the suspected person is transferred to a cloud platform for four divisions; when the body temperature data of all individuals are not matched, switching to a cloud platform for three divisions;

judging whether the deviation of the body temperature data of more than 5% of individuals with the normal value is more than 0.5 ℃, if not, continuing to acquire the body temperature data of the individuals and the geographical position information of the individuals from the wearable equipment, starting the next round of monitoring, and if so, marking the individuals with the deviation of the body temperature data with the normal value being more than or equal to 0.5 ℃ and sending a prompt;

and searching suspected contact persons which are in contact with the suspected persons in each isolation point, monitoring the deviation of the body temperature data of the individuals suspected to be in contact with the suspected persons and the normal value by more than 0.3 ℃, if not, continuing the next round of monitoring, and if so, marking the individuals of which the body temperature data is deviated from the normal value by 0.3 ℃ and giving a prompt.

Preferably, the wearable device acquires the body temperature data of the individual and the geographical location information of the individual through the wearable body temperature sensor according to a set time interval; the individuals are positioned in the independent units, the number of the independent units is more than 2, and the number of the individuals of each independent unit is more than 2;

the relay analyzes and judges whether the individual body temperature data is consistent with the body temperature data of the epidemic situation one by one; when the body temperature data of a certain individual are matched, the individual is judged to be a suspected person and isolated and taken out; when all the individual body temperature data are not matched, switching to a cloud platform for operation;

generating a macroscopic thermal image map of each independent unit based on the individual body temperature data;

repeating the operation of the wearable device, the repeater and the cloud platform five-part to generate a dynamic macro thermal image map, when the fluctuation value of one macro thermal image map is larger than a set value, analyzing and obtaining the interference factor causing the fluctuation, and analyzing whether the interference factor causes the fluctuation of other macro thermal image maps.

In this embodiment, the cloud platform further includes:

a thermal spectrum connecting line between the macroscopic thermal image maps of the independent units based on the body temperature data of the individuals flowing between the independent units;

the cloud platform octant further includes: when the fluctuation value of a certain macroscopic thermal image map is larger than a set value, whether the fluctuation value of other macroscopic thermal image maps connected with the macroscopic thermal image map in a thermal spectrum manner is abnormal or not is analyzed.

Preferably, the interference factor is that the body temperature data of a certain individual is deviated, the individual has left the latent period and enters the onset stage, and/or the body temperature data of a plurality of individuals is deviated due to a certain factor input from the outside, such as a meal delivery person;

the body temperature data of the epidemic is: 37.3 ℃; or the body temperature data of the epidemic situation is as follows: the temperature difference between the temperature data of the individual in one time period and the temperature data of the individual in the corresponding time period of the previous period or a plurality of previous periods in a plurality of time periods is larger than a set value Z, and one period is 12 hours or more than 12 hours.

Preferably, the body temperature sensor is fixed on the body surface of the human body in a sticking way and comprises a body temperature detection unit, a first Bluetooth communication unit and a power supply unit;

the body temperature detection unit is used for detecting the body surface temperature of a human body;

the first Bluetooth unit is used for communicating with the repeater and comprises a body temperature data uploading unit and a control signal receiving unit;

the power supply unit is provided with a built-in battery and is used for continuously supplying power to the body temperature sensor;

the body temperature sensor does not need external power lines and data lines, does not influence the daily action of the patient, and is connected with the repeater through the Bluetooth to upload body temperature data in real time.

Preferably, before the body temperature sensor is started, a personal file is registered to the cloud platform, wherein the personal file comprises user personal information and a use position;

after the body temperature sensors are started, the cloud platform records the temperature data of each filed body temperature sensor in real time and forms a continuous body temperature curve graph, and medical staff can know the body temperature change condition of a patient in the service life at any time through the body temperature curve graph so as to make diagnosis and treatment strategies;

in the body temperature graph, the wearing state, the normal body temperature state and the fever body temperature state of the body temperature sensor are identified.

Preferably, the cloud platform performs grouping management according to the position area of the body temperature sensor wearer;

the cloud platform manages the body temperature sensors in groups, and corresponds to the grouping management of medical personnel on the ward;

the management interface of the cloud platform comprises a main interface and a secondary interface;

the main interface is a gathering interface, and the chart in the gathering interface displays the grouping state, so that medical personnel can comprehensively know data such as the total number of people in each group, the number of heating people and the like, and the number of heating people is highlighted, such as red marking and amplification, so that the medical personnel can follow up, contact and visit in time;

the secondary interface is a grouping interface, and the diagram in the grouping interface displays the states of the group members, including the specific position, the current body temperature and the highest body temperature within 1 hour of each group member, and highlights the states of the group members.

Preferably, the repeater is a relay base station, and the body temperature sensor uploads body temperature data through the relay base station within the Bluetooth power range of the relay base station;

the relay base station comprises a main control unit and a second Bluetooth communication unit;

the main control unit is used for controlling the relay base station;

the second Bluetooth communication unit is used for communicating with the first Bluetooth units and can be wirelessly connected with the plurality of first Bluetooth units simultaneously;

preferably, the relay base station further includes a WIFI unit;

and the WIFI unit is used for being connected with the router to enable the relay base station to be accessed to the wide area network.

Preferably, the relay base station further comprises an NB-IoT internet of things unit for accessing the cloud platform through the wireless mobile network;

through the NB-IoT Internet of things unit, the relay base station can be installed on a large vehicle, such as a bus or a ship for use.

Preferably, the relay base station further comprises a storage unit, and the storage unit is used for storing the body temperature data uploaded by the body temperature sensor when the relay base station cannot be connected with the wide area network.

Preferably, the relay base station further comprises a human-computer interaction unit;

the human-computer interaction unit is used for being connected with a mobile phone of an operator, and the operator directly inquires and manages the state data of the body temperature sensor connected with the relay base station in the signal coverage area of the relay base station through the mobile phone;

the operator refers to the medical personnel, the patient himself, the patient relative and other people who have the access right to the relay base station, and this function is very convenient for the medical personnel, for example, a doctor in a ward can directly call the body temperature data of each patient in the ward through the relay base station which is connected with the ward through a mobile phone.

Preferably, the repeater is a mobile phone, and the mobile phone is provided with an APP program for controlling the body temperature sensor and accessing the cloud platform;

the body temperature sensor is connected with the mobile phone through the first Bluetooth communication unit;

body temperature sensor that the disease was worn is direct to be connected with the cell-phone through APP promptly, and the cell-phone is uploaded body temperature data to the cloud platform and supplies medical personnel unified management, and the disease can also know individual body temperature data through cell-phone APP.

The repeater comprises a relay base station mode and a mobile phone mode, wherein the relay base station mode is more suitable for centralized management of a centralized isolation patient group and can simultaneously manage a plurality of body temperature sensors; the mobile phone mode is more suitable for the management of scattered patients, can help the patients to know the body temperature condition of the patients in real time, does not need to invest the installation cost of the relay base station additionally, and is simpler and more flexible.

The invention has the beneficial effects that the body temperature centralized monitoring system based on the wearable body temperature sensor comprises the body temperature sensor, a repeater and a cloud platform; the body temperature sensor is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater; the repeater is used for accessing the cloud platform through the network and sending the received body temperature data to the cloud platform, and the cloud platform can simultaneously receive the access of the plurality of repeaters; the cloud platform builds file management on each body temperature sensor, and sorts, summarizes and analyzes the received body temperature data; this system need not frequently to carry out contact body temperature to the disease and detect to can be real-timely carry out body temperature monitoring to big patient in batches, improved efficiency, and reduced medical personnel and infected risk when detecting disease body temperature.

The body temperature centralized monitoring system based on the wearable body temperature sensor comprises the body temperature sensor, a mobile phone APP, a repeater and a cloud platform; the body temperature sensor is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater or the mobile phone APP; the repeater or the mobile phone APP is used for accessing the cloud platform through the network and sending the received body temperature data to the cloud platform, and the cloud platform can simultaneously receive access of the plurality of repeaters and the plurality of mobile phone terminals; each body temperature sensor corresponds to an individual user, the cloud platform builds file management on each user and each body temperature sensor, and the cloud platform sorts, summarizes and analyzes the received body temperature data; the system does not need to frequently carry out contact type body temperature detection on the patient, can carry out body temperature monitoring on a large number of patients in real time, improves the efficiency, and reduces the risk of infection when medical staff detect the body temperature of the patient; the patient and the body temperature sensor correspond to each other one by one, so that the risk of cross infection caused by repeated use of the traditional body temperature sensor is avoided, and the work of sterilizing the body temperature sensor is avoided. Meanwhile, the mobile phone APP and the base station can upload position information, and the system can establish an epidemic situation prevention and control big data model by analyzing body temperature data, positions and other data of a plurality of individuals and groups in multiple directions and multiple time periods.

Drawings

The body temperature centralized monitoring system based on the wearable body temperature sensor is further described with reference to fig. 1-5.

Fig. 1 is a system diagram of a body temperature centralized monitoring system based on a wearable body temperature sensor.

Fig. 2 is a diagram illustrating a scenario in which a relay base station is used as a relay according to the present invention.

Fig. 3 is a system diagram of the present invention employing a relay base station as a relay.

Fig. 4 is a diagram illustrating a scenario in which a handset is used as a repeater in accordance with the present invention.

Fig. 5 is a system diagram of the present invention employing a handset as a repeater.

In the figure:

the system comprises a body temperature sensor 1, a body temperature detection unit 11, a first Bluetooth communication unit 12, a power supply unit 13, a relay 2, a relay base station 21, a main control unit 211, a second Bluetooth communication unit 212, a WIFI unit 213, an IoT unit 214-NB-215, a storage unit 216, a human-computer interaction unit 22, a mobile phone and a cloud platform 3.

NB-IoT: narrowband thing networking.

Detailed Description

Example 1

This embodiment is applicable to the scene of centralized monitoring, for example isolation observation area (hospital, hotel, family etc.), the public transit group is to the real-time supervision of bus driver body temperature, the real-time supervision of kindergarten child's body temperature etc. of epidemic situation close receiver, is particularly useful for the interim shelter hospital of wuhan.

A body temperature centralized monitoring system based on a wearable body temperature sensor comprises a body temperature sensor 1, a repeater and a cloud platform 3;

the body temperature sensor 1 is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater 2;

the relay 2 is used for accessing the cloud platform 3 through a network and sending the received body temperature data to the cloud platform 3, and the cloud platform 3 can simultaneously receive access of the plurality of relays 2;

the cloud platform 3 builds file management on each body temperature sensor 1, and sorts, summarizes and analyzes the received body temperature data.

In the embodiment, the body temperature sensor 1 is fixed on the body surface of a human body in a sticking way, and the body temperature sensor 1 comprises a body temperature detection unit 11, a first Bluetooth communication unit 12 and a power supply unit 13;

the body temperature detection unit 11 is used for detecting the body surface temperature of a human body;

the first Bluetooth unit 12 is used for communicating with the repeater 2, and comprises a body temperature data uploading unit and a control signal receiving unit;

the power supply unit 13 has a built-in battery for continuously supplying power to the body temperature sensor 1.

In this embodiment, the cloud platform 3 records the temperature data of each profiled body temperature sensor 1 in real time, and forms a continuous body temperature curve graph;

in the body temperature graph, the wearing state, the normal body temperature state, and the fever body temperature state of the body temperature sensor 1 are identified.

In this embodiment, the cloud platform 3 performs group management according to the location area of the body temperature sensor wearer;

the group member state is displayed in a chart in a grouping interface, comprises the specific position, the current body temperature and the highest body temperature within 1 hour of each group member, and is highlighted for the heating personnel;

the grouping status is graphically displayed in the summary interface, including the number of heat emitting people for each group that are highlighted.

In this embodiment, the repeater 2 is a relay base station 21;

the relay base station 21 comprises a main control unit 211 and a second bluetooth communication unit 212;

the main control unit 211 is configured to control the relay base station 21;

the second bluetooth communication unit 212 is used for communicating with the first bluetooth units 12, and the second bluetooth communication unit 212 can be wirelessly connected with a plurality of first bluetooth units 12 at the same time;

in this embodiment, the relay base station 21 further includes a WIFI unit 213;

the WIFI unit 213 is configured to connect to a router, so that the relay base station 21 accesses the wide area network.

In this embodiment, the relay base station 21 further includes an NB-IoT internet of things unit 214, configured to access the cloud platform 3 through a wireless mobile network.

In this embodiment, the relay base station 21 further includes a storage unit 215, and the storage unit 215 is configured to store the body temperature data uploaded by the body temperature sensor 1 when the wide area network cannot be connected.

In this embodiment, the relay base station 21 further includes a human-computer interaction unit 216;

the human-computer interaction unit 216 is used for connecting with a mobile phone of an operator, and the operator directly inquires and manages the state data of the body temperature sensor 1 connected with the relay base station 21 in the signal coverage area of the relay base station 21 through the mobile phone.

Example 2

The embodiment is suitable for moving scattered patient individuals or individuals needing to be monitored, such as bus drivers, take-away meal delivery staff and the like.

A body temperature centralized monitoring system based on a wearable body temperature sensor comprises a body temperature sensor 1, a repeater 2 and a cloud platform 3;

In this embodiment, the repeater 2 is a mobile phone 22, and the mobile phone 22 is provided with an APP program for controlling the body temperature sensor 1 and accessing the cloud platform 3;

the body temperature sensor 1 is connected with the mobile phone 22 through the first Bluetooth communication unit 12.

The present invention is not limited to the above embodiments, and the technical solutions of the above embodiments of the present invention may be combined with each other in a crossing manner to form a new technical solution, and all technical solutions formed by using equivalent substitutions fall within the scope of the present invention.

Claims

1. A body temperature centralized monitoring system based on a wearable body temperature sensor is characterized by comprising a body temperature sensor (1), a repeater (2) and a cloud platform (3);

the body temperature sensor (1) is a wearable device and is used for collecting the body surface temperature of a human body and transmitting body temperature data to the repeater (2);

the repeater (2) is used for accessing the cloud platform (3) through a network and sending the received body temperature data to the cloud platform (3), and the cloud platform (3) can simultaneously accept the access of a plurality of repeaters (2);

the cloud platform (3) is used for filing and managing each body temperature sensor (1) and sorting, summarizing and analyzing the received body temperature data.

2. The body temperature centralized monitoring system based on the wearable body temperature sensor is characterized in that the body temperature sensor (1) is stuck and fixed on the body surface of a human body, and the body temperature sensor (1) comprises a body temperature detection unit (11) and a first Bluetooth communication unit (12);

the body temperature detection unit (11) is used for detecting the body surface temperature of a human body;

the first Bluetooth unit (12) is used for communicating with the repeater (2) and uploading body temperature data and receiving control signals.

3. The centralized body temperature monitoring system based on wearable body temperature sensors as claimed in claim 2, characterized in that the cloud platform (3) records the temperature data of each profiled body temperature sensor (1) in real time and forms a continuous body temperature profile;

and in the body temperature curve graph, the wearing state, the normal body temperature state and the fever body temperature state of the body temperature sensor (1) are identified.

4. The body temperature centralized monitoring system based on wearable body temperature sensor as claimed in claim 3 is characterized in that the cloud platform (3) is managed in groups according to the location area of the body temperature sensor wearer;

5. A body temperature centralized monitoring system based on wearable body temperature sensors as claimed in claim 4 characterized in that the relay (2) is a relay base station (21);

the relay base station (21) comprises a main control unit (211) and a second Bluetooth communication unit (212);

the main control unit (211) is used for controlling the relay base station (21);

the second Bluetooth communication unit (212) is used for communicating with the first Bluetooth unit (12), and the second Bluetooth communication unit (212) can be wirelessly connected with a plurality of the first Bluetooth units (12) at the same time.

6. The system of claim 5, wherein the relay base station (21) further comprises a WIFI unit (213);

the WIFI unit (213) is used for being connected with a router to enable the relay base station (21) to access a wide area network.

7. A centralized body temperature monitoring system based on wearable body temperature sensors according to claim 5, characterized in that the relay base station (21) further comprises an NB-IoT Internet of things unit (214) for accessing the cloud platform (3) over a wireless mobile network.

8. The centralized body temperature monitoring system based on wearable body temperature sensors as claimed in claim 5, characterized in that the relay base station (21) further comprises a storage unit (215), wherein the storage unit (215) is used for storing the body temperature data uploaded by the body temperature sensors (1) when the wide area network cannot be connected.

9. The centralized body temperature monitoring system based on wearable body temperature sensors as claimed in claim 5, characterized in that the relay base station (21) further comprises a human-computer interaction unit (216);

the human-computer interaction unit (216) is used for being connected with a mobile phone of an operator, and the operator directly inquires and manages the state data of the body temperature sensor (1) connected with the relay base station (21) in the signal coverage area of the relay base station (21) through the mobile phone.

10. The centralized body temperature monitoring system based on wearable body temperature sensors as claimed in claim 4, characterized in that the repeater (2) is a mobile phone (22), the mobile phone (22) is installed with APP program for controlling the body temperature sensors (1) and accessing the cloud platform (3);

the body temperature sensor (1) is connected with the mobile phone (22) through a first Bluetooth communication unit (12).