CN113436427A

CN113436427A - Information transmission method, temperature measuring device supporting wireless transmission and server

Info

Publication number: CN113436427A
Application number: CN202010223710.6A
Authority: CN
Inventors: 李俊
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2020-03-06
Filing date: 2020-03-26
Publication date: 2021-09-24

Abstract

An information transmission method, a temperature measuring device supporting wireless transmission and a server are used for accurate human body temperature measurement and identity information identification. In the application, the temperature measuring device detects the body temperature of a person to be detected and identifies the identity information of the person to be detected; after the body temperature and the identity information of the person to be detected are determined, the temperature measuring device can send the body temperature and the identity information of the person to be detected to the server in a wireless transmission mode. The server receives the body temperature and the identity information of the person to be detected, can store the body temperature and the identity information of the person to be detected and can analyze the body temperature of the person to be detected. The operation of body temperature detection and identification information identification can be executed by a temperature measuring device, a plurality of workers are not needed to cooperate, the efficiency can be effectively improved, and the accuracy of body temperature detection and identification information identification is guaranteed. The temperature measuring device can also interact with the server, and the body temperature and the identity information of the person to be detected can be reported in time.

Description

Information transmission method, temperature measuring device supporting wireless transmission and server

Cross Reference to Related Applications

The present application claims priority from the chinese patent application entitled "a thermometry apparatus and method supporting wireless transmission" filed by the chinese patent office on 03/06/2020, application No. 202010153298.5, the entire contents of which are incorporated herein by reference.

Technical Field

The present application relates to the field of communications technologies, and in particular, to an information transmission method, a temperature measurement device supporting wireless transmission, and a server.

Background

In the epidemic situation occurrence periods such as SARS period and avian influenza period, in order to ensure the enhancement of epidemic prevention, the body temperature and identity information of people entering and leaving a certain place need to be recorded so as to screen out potential sick people.

At present, the identification of human body temperature measurement and personnel identity information usually needs at least two workers to cooperate and execute, for example, one of the workers holds a temperature detector to detect the body temperature of the personnel, the other worker verifies the identity information of the personnel, and the body temperature and the identity information of the measured personnel are recorded. The process of human body temperature measurement and personnel identity information identification needs manual participation, the efficiency is low, and errors are easy to occur.

Disclosure of Invention

The application provides an information transmission method, a temperature measuring device supporting wireless transmission and a server, which are used for accurate human body temperature measurement and identity information identification.

In a first aspect, the present application provides an information transmission method, which is performed by a temperature measuring device supporting wireless transmission, and in the method, the temperature measuring device can detect the body temperature of a person to be detected and can also identify identity information of the person to be detected; after the body temperature and the identity information of the person to be detected are determined, the temperature measuring device can send the body temperature and the identity information of the person to be detected to the server in a wireless transmission mode.

By the method, the operation of body temperature detection and identity information identification can be executed by the temperature measuring device, a plurality of workers are not required to cooperate to complete the operation, the efficiency can be effectively improved, and the accuracy of body temperature detection and identity information identification is ensured. The temperature measuring device can also interact with the server, and the body temperature and the identity information of the person to be detected can be reported in time.

In a possible implementation mode, the temperature measuring device further has a positioning function and can acquire the position information of the person to be detected; when the body temperature and the identity information of the person to be detected are sent to the server, the position information of the person to be detected can also be sent.

By the method, the temperature measuring device can send the position information to the server, so that the server can analyze the body temperature of the person to be detected based on the position information.

In a possible implementation manner, if the temperature measuring device does not recognize the identity information of the person to be detected, first warning information can be sent, the first warning information is used for prompting that the identity information of the person to be detected cannot be recognized, and the first warning information can be in the forms of voice, characters, pictures, prompt tones and the like.

By the method, the temperature measuring device sends the first warning message when the identity information of the person to be detected cannot be identified, so that the staff can be reminded in time, and the identity of the person to be detected can be accurately verified in the following process.

In a possible implementation manner, if the identity information of the person to be detected includes a first picture of the person to be detected, the temperature measuring device has a field shooting function, and a camera module in the temperature measuring device can be used for acquiring a second picture of the person to be detected; and comparing the first picture with the second picture, and sending out second warning information when the similarity between the first picture and the second picture is determined to be smaller than a threshold value, wherein the second warning information is used for prompting that the identity information is wrong, and can be in the forms of voice, characters, pictures or prompt tones and the like.

By the method, the temperature measuring device further verifies the identity of the person to be detected through comparison of the first image and the second image so as to ensure the validity of the identified identity information of the person to be detected.

In a possible implementation manner, the temperature measuring device may set a temperature threshold, after the body temperature of the person to be detected is determined, the body temperature of the person to be detected may be compared with the temperature threshold, and when the body temperature of the person to be detected is determined to be greater than the temperature threshold, third warning information is sent, where the third warning information is used to prompt that the body temperature of the person to be detected is abnormal.

By the method, the temperature measuring device can timely find and remind the person to be detected with abnormal body temperature.

In a possible implementation mode, the temperature measuring device can show an interface to a worker before detecting the body temperature of a person to be detected, the worker can trigger a first indication used for indicating the person to be detected to carry out body temperature detection through keys, voice and the like, the temperature measuring device receives the first indication, the person to be detected can be detected to carry out body temperature detection, and the body temperature of the person to be detected can be displayed after the body temperature of the person to be detected is detected.

By the method, the temperature measuring device can detect the body temperature of the person to be detected according to the requirement of the worker, and user experience is improved.

In a possible implementation manner, the temperature measuring device can display an interface to a worker before identifying the identity information of the person to be detected, the worker can trigger a second indication for indicating the identity information of the person to be detected through a key, voice and the like, the temperature measuring device can receive the second indication, identify the identity information of the person to be detected, and can also display the identity information of the person to be detected.

By the method, the temperature measuring device can identify the identity information of the personnel to be detected according to the requirements of the workers, and better user experience is guaranteed.

In a possible implementation manner, the temperature measuring device can also receive identity information of the person to be detected with the body temperature in the high temperature range from the server; when the identity information of the person to be detected with the body temperature in the high temperature range is identified again, fourth alarm information is sent, and the fourth alarm information can prompt the person to be detected that the person to be detected needs to perform key detection, because the previous body temperature record of the person to be detected shows that the previous body temperature of the person to be detected is in the high temperature range.

By the method, the temperature measuring device can acquire the identity information of the person to be detected needing key detection from the server, and timely send out warning information to remind workers.

In a possible implementation manner, the temperature measuring device can receive identity information of a person to be detected with a body temperature rising trend from the server; when the identity information of the person to be detected with the body temperature rising trend is identified again, the fifth alarm information is sent, and the fifth alarm information can prompt the person to be detected to need key detection because the body temperature record before the person to be detected shows that the body temperature before the person to be detected has the rising trend.

By the method, the temperature measuring device can acquire the identity information of the person to be detected needing key detection from the server, and timely remind workers in an alarm information mode.

In a second aspect, the present application provides an information transmission method, which may be executed by a server, in which the server may obtain body temperature and identity information of a plurality of persons to be detected from a temperature measuring device; after receiving the body temperatures and the identity information of a plurality of to-be-detected personnel, the body temperatures and the identity information of the plurality of to-be-detected personnel can be stored, and the body temperatures of the plurality of to-be-detected personnel can be analyzed.

By the method, the server can store the body temperature and the identity information of the person to be detected, so that the body temperature and the identity information of the person to be detected can be called conveniently, and the server can analyze the body temperature and the identity information of the person to be detected, so that the change rule of the body temperature of the person to be detected can be found conveniently.

In a possible implementation manner, the server can also acquire the position information of a plurality of persons to be detected from the temperature measuring device, so that the body temperatures of the plurality of persons to be detected are analyzed based on the position information of the plurality of persons to be detected.

In a possible implementation manner, when the server analyzes the body temperature and the identity information of the person to be detected, the distribution condition of the body temperature of the person to be detected can be determined, and the variation trend of the body temperature of the same person to be detected can also be determined.

By the method, the server can determine the body temperature change rule of the person to be detected from different dimensions.

In one possible implementation, the server may be deployed in a central computing device system, and analyze the body temperatures of the persons to be detected in a plurality of different areas. The server can also be deployed in the edge computing system, and is used for storing the body temperature and the identity information of the person to be detected in the specific area and analyzing the body temperature and the identity information of the person to be detected in the specific area.

When the server is deployed in the edge computing system, the server can also send the analyzed body temperature and identity information of the person to be detected in the specific area to the central server, the central server can manage the servers deployed in different edge computing systems, and the server can send the analyzed body temperature and identity information of the person to be detected in the specific area to the central server, so that the central server can obtain the body temperatures and identity information of the person to be detected in the specific areas, and then the body temperatures of the person to be detected in the specific areas are analyzed.

By the method, the server can be deployed at different positions, and the application range is effectively expanded.

In a possible implementation manner, the server may determine the person to be detected whose body temperature is in the high temperature range, and send the identity information of the person to be detected whose body temperature is in the high temperature range to the temperature measuring device.

By the method, the server can send the information of the person to be detected, which needs to be subjected to the key detection, to the temperature measuring device, so that the temperature measuring device can perform body temperature detection on the person to be detected in a key manner.

In a possible implementation manner, the server may determine the person to be detected whose body temperature has an ascending trend, and send the identity information of the person to be detected whose body temperature has an ascending trend to the temperature measuring device.

By the method, the server can send the information of the person to be detected with potential danger to the temperature measuring device, so that the temperature measuring device can perform body temperature detection on the person to be detected in a repeated mode.

In a third aspect, an embodiment of the present application further provides a temperature measuring device, and beneficial effects may refer to the description of the first aspect and are not described herein again. The apparatus has functionality to implement the actions in the method instance of the first aspect described above. The functions may be implemented by hardware, or by hardware executing corresponding software. The hardware or software includes one or more modules corresponding to the above-described functions. In a possible design, the structure of the device includes a detection unit, an identification unit, and a transmission unit, and may further include an alarm unit, a shooting unit, an indication receiving unit, and a display unit, where these units may perform corresponding functions in the method example of the first aspect, for which specific reference is made to detailed description in the method example, and details are not repeated here.

In a fourth aspect, an embodiment of the present application further provides a server, and for beneficial effects, reference may be made to the description of the second aspect, which is not described herein again. The apparatus has the functionality to implement the actions in the method instance of the second aspect described above. The functions may be implemented by hardware, or by hardware executing corresponding software. The hardware or software includes one or more modules corresponding to the above-described functions. In a possible design, the structure of the device includes a transmission unit and a processing unit, and these units may perform corresponding functions in the method example of the second aspect, which is specifically referred to the detailed description in the method example, and are not described herein again.

In a fifth aspect, an embodiment of the present application further provides an apparatus, and for beneficial effects, reference may be made to the description of the first aspect, which is not described herein again. The structure of the device includes a processor, and optionally, may further include a memory, where the processor is configured to support the device to execute corresponding functions in the method of the first aspect. The memory is coupled to the processor and may hold program instructions and data necessary for the device. The structure of the device also comprises a wireless module used for communicating with other devices.

In a sixth aspect, an apparatus is further provided in the embodiments of the present application, and for beneficial effects, reference may be made to the description of the second aspect, which is not described herein again. The structure of the device comprises a processor and a memory, the processor being configured to support the device to perform the corresponding functions of the method of the second aspect. The memory is coupled to the processor and holds the program instructions and data necessary for the device. The structure of the device also comprises a communication interface used for communicating with other devices.

In a seventh aspect, the present application also provides a computer-readable storage medium having stored therein instructions, which, when executed on a computer, cause the computer to perform the method of the above-mentioned aspects.

In an eighth aspect, the present application also provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the method of the above aspects.

In a ninth aspect, the present application further provides a computer chip, where the chip is connected to a memory, and the chip is used to read and execute a software program stored in the memory, and perform the methods in the above aspects.

Drawings

FIG. 1 is a block diagram of a system according to the present application;

fig. 2 is a schematic diagram of an information transmission method provided in the present application;

FIG. 3 is a schematic external view of a temperature measuring device provided herein;

FIG. 4 is a flow chart of a key-triggered thermometry apparatus provided in the present application;

FIG. 5A is a schematic view of a display interface provided herein;

FIG. 5B is a schematic view of a display interface provided herein;

FIG. 5C is a schematic view of a display interface provided herein;

FIG. 6 is a schematic structural diagram of a temperature measuring device provided herein;

FIG. 7 is a schematic diagram of a server according to the present application;

FIG. 8 is a schematic structural diagram of a temperature measuring device provided herein;

fig. 9 is a schematic structural diagram of a server provided in the present application.

Detailed Description

Fig. 1 is a schematic structural diagram of a system provided in an embodiment of the present application, where the system includes a temperature measuring device 100 and a server 200.

In the embodiment of the present application, the temperature measuring device 100 has two functions, namely a temperature detecting function and a user identification information identifying function. The temperature measuring device 100 can detect the body temperature of a person to be detected, determine the body temperature of the person to be detected, and acquire identity information of the person to be detected. The temperature measuring device 100 can also send the detected body temperature of the person to be detected and the identified identity information to the server 200. The temperature measuring device 100 may further have a wireless transmission function, and when the body temperature of the person to be detected and the identified identity information need to be sent to the server 200, the body temperature of the person to be detected and the identified identity information may be transmitted to the server 200 in a wireless transmission manner.

After receiving the body temperature and the identity information of the person to be detected from the temperature measuring device 100, the server 200 may analyze the body temperature and the identity information of the person to be detected.

The temperature measuring device 100 is a device with wireless transceiving function, such as can be deployed on land, including indoors or outdoors, handheld or vehicle-mounted; can also be deployed on the water surface (such as a ship and the like); and may also be deployed in the air (e.g., aircraft, drones, etc.). The temperature measuring device 100 may further have a display function, such as displaying the body temperature and identity information of the person to be measured.

The server 200 has a strong data processing function and a data calculating function, and may analyze the received body temperature and identity information, collect the body temperature and identity information, perform a logical operation function based on the body temperature and identity information, and the like; the server 200 may be a super multi-core server, a large distributed computer, a cluster computer with hardware resource pooling, or a server with Artificial Intelligence (AI) analysis capability, etc.

The deployed position of the server 200 is not limited in the embodiment of the present application. Illustratively, the server 200 may be deployed in a central computing device system (including at least one cloud computing device) or in an edge computing device system (including at least one edge computing device, such as a server, a desktop computer, etc.).

The embodiment of the present application also does not limit the specific form of the server 200, for example, the server 200 may be a small device with integrated strong processing performance, or may be a blade server or a rack server cluster.

It should be noted that, in this embodiment of the present application, the functions of the server may also be implemented by a software device, specifically, a set of software systems running on a hardware computing device, where the location of the hardware computing device is not limited in this embodiment of the present application, for example, the hardware computing device may be a device in a central computing device system, a device in an edge computing device system, or various terminal computing devices, for example: notebook computers, personal desktop computers, and the like.

As a possible implementation, the functions of the server 200 are logically divided into a plurality of parts, the plurality of parts cooperate to implement the functions of the service, and each of the plurality of parts may operate in three environments, namely, a central computing device system, an edge computing device system, or a terminal computing device, or in any two of the three environments. The central computing equipment system, the edge computing equipment system and the terminal computing equipment are connected by a communication path, and can communicate and transmit data with each other.

Referring to fig. 2, a method for measuring temperature provided by an embodiment of the present application is described below with reference to the accompanying drawings, where the method includes:

step 201: the temperature measuring device 100 recognizes the identity information of the person to be detected. The embodiment of the application does not limit the type of the identity information, for example, the identity information may be data loaded on a two-dimensional code or a barcode, or may also be information recorded on an effective certificate of a person to be detected, such as an identity card of the person to be detected, or information recorded on other exclusive certificates.

Step 203: the temperature measuring device 100 detects the body temperature of a person to be detected.

Step 204: the temperature measuring device 100 sends the identity information and the body temperature of the person to be detected to the server 200. The temperature measuring device 100 can transmit the identity information and the body temperature of the person to be detected to the server 200 in a wireless transmission mode.

Step 205: after receiving the identity information and the body temperature of the person to be detected, the server 200 analyzes the body temperature of the person to be detected, and the server 200 can also store the identity information and the body temperature of the person to be detected.

In step 201, the temperature measuring device 100 may identify the identity information of the person to be detected by scanning the two-dimensional code or the barcode displayed by the person to be detected. The temperature measuring device 100 can be provided with a scanning module, the scanning module can irradiate light onto the two-dimensional code or the bar code, the light reflected by the two-dimensional code or the bar code is captured, the reflected light is converted into a binary digital signal, and then the data loaded on the two-dimensional code or the bar code is acquired through the data information, so that the identity information of the person to be detected is identified.

In the above description, the two-dimensional code or the barcode is merely used as an example, and the embodiment of the present application is not limited to the type of the pattern that can be scanned by the temperature measuring device 100.

The temperature measuring device 100 can also identify the identity information of the person to be detected through the valid certificate shown by the person to be detected. If the temperature measuring device 100 is provided with a card reading module, the card reading module can identify the authenticity of the valid certificate presented by the person to be detected, and can also acquire the information recorded in the valid certificate.

For example, the valid document may be a document including a Radio Frequency Identification (RFID) chip, in which identity information of the person to be detected is stored, the identity information including part or all of the following: social security number, identity card number, name, residence, photo, fingerprint information, iris information and other information of the person to be detected. The card reading module in the temperature measuring device 100 can read the identity information of the person to be detected in the RFID chip.

In step 201, if the temperature measuring device 100 cannot effectively identify the identity information of the person to be detected, for example, the two-dimensional code or the barcode is missing or blocked, the two-dimensional code or the barcode is invalid, the valid certificate is missing or blocked, and the valid certificate is a counterfeit certificate. The temperature measuring device 100 may send a first warning message to prompt that the identity information of the person to be detected cannot be identified.

If the temperature measuring device 100 identifies the identity information of the person to be detected, the temperature measuring device 100 can display the identified identity information of the person to be detected, such as social security number, identity card number, name, residence, photo and other information of the person to be detected. The temperature measuring device 100 is convenient for the staff holding the temperature measuring device 100 to further verify the identity information of the staff to be detected by displaying the identity information of the staff to be detected.

Optionally, the temperature measuring device 100 obtains a picture of the person to be detected by using a built-in camera module (e.g., a camera), and may also record fingerprint information or iris information of the person to be detected.

If the identity information of the to-be-detected person identified by the temperature measuring device 100 includes the photo, the fingerprint information or the iris information of the to-be-detected person, the temperature measuring device 100 can also compare the acquired photo of the to-be-detected person with the photo of the to-be-detected person in the identified identity information of the to-be-detected person, compare the recorded fingerprint information of the to-be-detected person with the fingerprint information of the to-be-detected person in the identified identity information of the to-be-detected person, and compare the recorded iris information of the to-be-detected person with the iris information of the to-be-detected person in the identified identity information of the to-be-detected person.

After the temperature measuring device 100 compares the same type of information, if the comparison result is inconsistent, if the similarity between the photo of the person to be detected obtained by shooting and the photo of the person to be detected in the identified identity information of the person to be detected, the similarity between the fingerprint information of the person to be detected recorded and the fingerprint information of the person to be detected in the identified identity information of the person to be detected, or the similarity between the iris information of the person to be detected recorded and the iris information of the person to be detected in the identified identity information of the person to be detected is lower than a threshold value, the temperature measuring device 100 may send a second warning message to prompt that the identity information is wrong.

The temperature measuring device 100 can further verify the identity of the person to be detected by comparing the identified identity information with the photo, the recorded fingerprint information or the iris information acquired at the current place, so as to prevent the person to be detected from providing other people or counterfeit identity information.

The embodiment of the application does not limit the way in which the temperature measuring device 100 measures the body temperature of the person to be detected, for example, the temperature measuring device 100 can measure the body temperature of the person to be detected in an infrared temperature measuring way, and can also measure the body temperature of the person to be detected in a thermistor or metal current temperature measuring way. The metal current temperature measurement mode refers to the condition that the currents of two metals are related to the contact temperature.

The temperature measuring device 100 can measure the body temperature of the person to be detected for a plurality of times, and the body temperature of the person to be detected is determined according to the body temperatures measured for a plurality of times. For example, if the temperature measuring device 100 measures the body temperature of the person to be detected by infrared ray, the temperature measuring device 100 may measure the temperatures of a plurality of portions of the person to be detected by infrared ray, and use the average value of the temperatures of the plurality of portions as the body temperature of the person to be detected. For another example, if the temperature measuring device 100 measures the body temperature of the person to be detected by a thermistor or a metal current, the temperature measuring device 100 may prompt the worker holding the temperature measuring device 100 to move the position of the temperature measuring device 100, so as to perform multiple temperature detections on the person to be detected, and use the average value of the body temperatures of the person to be detected measured, which are measured multiple times, as the body temperature of the person to be detected.

The temperature measuring device 100 may be preset with a temperature threshold, and when the body temperature detected by the temperature measuring device 100 is greater than the temperature threshold, the temperature measuring device 100 may send a third warning message to prompt that the body temperature of the person to be detected is abnormal.

The temperature threshold may be a default or may be set by a trigger of a worker holding the temperature measurement device 100. For example, the temperature measuring device 100 may be provided with a button or a touch screen, and the operator may set the temperature threshold by clicking the button or the touch screen.

Optionally, the temperature measuring device 100 may further display the measured body temperature of the person to be detected, so that the worker can check the body temperature.

For example, as shown in fig. 3, the temperature measuring device 100 may be provided with a plurality of buttons as follows: UP (UP) key, DOWN (DOWN) key, SET (SET) key.

The UP key, the DOWN key, and the SET key cooperate to SET a temperature threshold, for example, the UP key may raise the temperature by one degree or zero-point one degree, the DOWN key may lower the temperature by one degree or zero-point one degree, and the SET key may be at a fixed temperature.

Optionally, the above keys may also have other functions, such as clicking a SET key once to display a temperature unit, wherein the default temperature unit is celsius degrees (deg.c), pressing UP switches to fahrenheit degrees (deg.f), and pressing down switches to temperature c.

Clicking the SET key twice can control the state of the voice broadcast switch, tacitly turning ON (ON), switching to ON when pressing the UP key, and switching to OFF when pressing the DOWM key.

Clicking the SET key twice can delete the detected body temperature.

Clicking the UP key: the previous temperature record can also be viewed by flipping up from the current temperature record.

Clicking the DOWN key: the current body temperature record can be turned down to check the subsequent body temperature record.

It should be noted that the setting manner of the control key shown in fig. 3 is only an example, and the setting manner of the controller is not limited in the embodiment of the present application, and for example, the UP key and the DOWN key may be changed to a left key and a right key, respectively.

As shown in fig. 4, a manner of identifying the identity information of the person to be detected and detecting the body temperature of the person to be detected by the temperature measuring device 100 shown in fig. 3 is shown.

By clicking the SET key, the temperature measuring device 100 is started, and the temperature measuring device 100 prompts whether the default temperature, that is, the temperature threshold value, needs to be modified, if the current default temperature is 37.3 ℃, the worker can select "yes" or "no" through the UP key and the DOWN key, and click the SET key to confirm.

If yes, the default temperature is raised by using the UP key, the default problem is lowered by using the DOWN key, and confirmation is carried out by using the SET key. And then, the identity information of the personnel to be detected can be identified.

If the user clicks 'no', the identity information of the person to be detected can be directly identified.

And continuously clicking the SET key to trigger an indication for identifying the identity information, acquiring the identity information of the person to be detected by using the scanning module or the card reading module after the temperature measuring device 100 receives the indication, and displaying the identity information of the person to be detected on a display screen.

And continuously clicking the SET key to trigger an indication of body temperature detection, and after receiving the indication, the temperature measuring device 100 can perform body temperature test on the person to be detected to obtain the body temperature of the person to be detected.

The temperature measuring device 100 can display the body temperature of the person to be detected on the display screen, and if the body temperature of the person to be detected exceeds the default temperature or the default temperature after setting, alarm information can be sent to prompt that the body temperature is abnormal.

It should be noted that, as the flowchart shown in fig. 4 is only an example, in an actual scene, other keys may be set on the temperature measuring device 100, and the other keys trigger the temperature measuring device 100 to identify the identity information of the person to be detected and detect the body temperature of the person to be detected.

In the above description, the worker may start the temperature measuring device 100 by pressing a button, change the default temperature, measure the temperature of the person to be detected, and identify the identity information of the person to be detected. The embodiment of the application does not limit the use of other modes to trigger the temperature measuring device 100 to perform the above operations, for example, the temperature measuring device 100 may have a voice recognition function, and a worker may trigger the temperature measuring device 100 in a voice mode to change the default temperature, measure the temperature of a person to be detected, and recognize the identity information of the person to be detected.

When the temperature measuring device 100 changes the default temperature, measures the temperature of the person to be detected, and identifies the identity information of the person to be detected, the related information can be displayed through the display screen, and the following describes the manner in which the temperature measuring device 100 displays the information through the display screen.

As shown in fig. 5A, a temperature setting interface is provided for the embodiment of the present application, and in fig. 5A, a current default temperature is displayed on a display screen of the temperature measuring device 100, and a prompt message is displayed on the display screen to prompt a user whether the current default temperature is 37.3 ℃ or not.

The display screen can also display two options of 'yes' and 'no', and the staff can select 'yes' and 'no' through keys and confirm the options by using the keys.

As shown in fig. 5B, the body temperature and the identity information of the person to be detected are provided for the embodiment of the present application, and in fig. 5B, the body temperature of the person to be detected is displayed in an upper part area of the display screen of the temperature measuring device 100. The lower part area in the display screen displays the identity information of the person to be detected, such as a photo, an identity card number and the like.

As shown in fig. 5C, in order to provide a display mode of alarm information according to the embodiment of the present application, in fig. 5C, when the body temperature of the person to be detected exceeds the default temperature, the alarm information is displayed on the display screen to prompt that the body temperature is abnormal.

It should be noted that the schematic diagrams of the human-computer interaction interface provided above are only examples, and do not limit the scope of protection of the present application.

Besides the temperature measuring device 100 can determine the body temperature of the person to be detected and identify the identity information of the person to be detected, the temperature measuring device 100 can also have a positioning function to identify the current position and determine the position information of the person to be detected. The position information can be embodied to the information of a district, a street, a shop, a building or the like where the person to be detected is located, and can also be embodied to the longitude and latitude where the person to be detected is located.

Usually, people who go in and go out of an area (such as a residential area and a building) are fixed, the identity information of resident people in the area to which the people belong can be stored in the temperature measuring device 100 in advance, when the identity information of the people to be detected, which is identified by the temperature measuring device 100, does not belong to the identity information of the resident people, and the temperature measuring device 100 can send out prompt information to prompt the people to be detected to be very resident people when detecting the body temperature of the people to be detected.

After determining the body temperature of the person to be detected and the identity information of the person to be detected, the temperature measuring device 100 may correlate the body temperature of the person to be detected and the identity information of the person to be detected, and send the correlated body temperature and identity information to the server 200.

Optionally, the temperature measuring device 100 may further associate the body temperature of the person to be detected, the identity information of the person to be detected, and the location information of the person to be detected, and send the association to the server 200.

The temperature measuring device 100 may associate time information when the body temperature of the person to be detected is detected with the body temperature, the identity information, and the location information, and transmit the time information to the server 200.

The temperature measuring device 100 may send the associated body temperature and identity information (optionally, may also include location information and time information) to the server 200 after detecting the body temperature of the person to be detected and identifying the identity information of the person to be detected.

The temperature measuring device 100 may also transmit the measured body temperature of the person to be detected and the identified identity information of the person to be detected to the server 200 at a fixed time.

It should be noted that, when the person to be detected goes in and out of the same place for multiple times, the temperature measuring device 100 may measure the body temperature of the person to be detected for multiple times, and identify the identity information of the person to be detected for multiple times, and the temperature measuring device 100 may only send the body temperature and the identity information of the person to be detected measured for one time to the server 200, or may send the body temperature and the identity information of the person to be detected for multiple times to the server 200.

The signal interaction between the temperature measuring device 100 and the server 200 may be wireless transmission, for example, bluetooth, WiFi transmission, or the like.

After receiving the body temperature and the identity information (optionally, the position information) of the person to be detected sent by the temperature measuring device 100, the server 200 may collect the received body temperature and the identity information of the person to be detected, and may further analyze the received body temperature and the identity information of the person to be detected.

As described above, the server 200 may be deployed in an edge computing system, and the server 200 may collect the body temperature and the identity information of the person to be detected sent by the temperature measuring device 100 in the specific area, and analyze the distribution condition of the body temperature of the person to be detected in the specific area and the variation trend of the body temperature of the same person to be detected.

For example, the server 200 is deployed in a small area or a building, the temperature measurement device 100 detects the body temperature of people who enter or exit the small area or the building and identifies the identity information of the people in the small area or the building, and the temperature measurement device 100 associates the detected body temperature of the people who enter or exit the small area or the building with the identified identity information of the people in the small area or the building and transmits the associated information to the server 200. The server 200 may store the body temperature and the identification information of the persons in the community or the building together with the body temperature and the identification information of the persons in the community or the building.

The server 200 may transmit the body temperature and the identification information of all the persons in the cell or the building to the center server, or may transmit the body temperature and the identification information of some of the persons in the cell or the building to the center server.

The central server may interact with servers 200 located in different areas to manage the servers 200 in the different areas, e.g., the central server may be a server deployed in a central computing system.

The server 200 may further analyze the distribution of the body temperature of the people in the cell or building, for example, the server 200 may determine the distribution of the body temperature of the people in the cell or building within a fixed time (e.g., one day, one week), determine the body temperature of the people in the cell or building within a high temperature range within the fixed time, where the high temperature range may be a normal body temperature (e.g., a higher temperature range of 36 ℃ to 37.3 ℃ (e.g., 37 ℃ to 37.3 ℃), or an abnormal range (greater than 37.3 ℃) higher than the normal body temperature, and report the body temperature and the identity information (optionally, location information or time information) of the people in the high temperature range to the central server.

The server 200 may also determine a trend of the body temperature of the same person to be detected, for example, the server 200 may determine a trend of the body temperature of the same person in the cell or the building within a fixed time (e.g., three days, one week), and if the server 200 determines that the body temperature of the person in the cell or the building has an increasing trend, the body temperature and the identity information (optionally, the location information or the time information) of the person in the cell or the building are continuously reported to the central server.

The server 200 may further display the analysis result after determining the distribution of the body temperature of the people in the community or the building or the variation trend of the body temperature of the same person to be detected, for example, the server 200 may display the distribution of the body temperature of the people in the community or the building or the variation trend of the body temperature of the same person to be detected through a display device.

As a possible implementation manner, the server 200 may also feed back the identity information of the person in the high temperature range among the persons to be detected to the temperature measuring device 100, and after the temperature measuring device 100 receives the identity information of the person, the identity information of the person may be stored, and after the temperature measuring device 100 recognizes the identity information of the person again, the fourth warning information may be sent to prompt that the body temperature of the person before the person to be detected is in the high temperature range, so that the worker may detect the person in a focused manner.

Similarly, the server 200 may also feed back the identity information of the person whose body temperature has an ascending trend among the persons to be detected to the temperature measuring device 100, and after the temperature measuring device 100 receives the identity information of the person, the identity information of the person may be stored, and after the temperature measuring device 100 recognizes the identity information of the person again, the fifth warning information may be sent to prompt that the body temperature detected before the person to be detected has an ascending trend, so that the worker may detect the person in a manner of being focused on the fifth warning information.

As mentioned above, the server 200 may also be deployed in a central computing system, and the server 200 may collect the body temperature and the identity information of the to-be-detected person sent by the temperature measuring device 100 in a plurality of different areas, and analyze the distribution of the body temperature of the to-be-detected person in each area and the variation trend of the body temperature of the same to-be-detected person.

The server 200 analyzes the distribution of the body temperatures of the persons to be detected in each region, and the manner of analyzing the distribution of the body temperatures of the persons in the community or building and determining the variation of the body temperature of the same person to be detected when the server 200 is deployed in the edge computing system is similar to the manner of analyzing the distribution of the body temperatures of the persons in the community or building and determining the variation of the body temperature of the same person to be detected, which can be referred to the foregoing memory specifically, and is not described here again.

The server 200 may determine the relationship between the areas where the persons with the body temperatures in the high temperature range are located, and further determine whether the persons with the body temperatures in the high temperature range have a relationship, besides analyzing the distribution of the body temperatures of the persons to be detected in each area.

When the server 200 is deployed in the central computing system, the server 200 may also feed back the distribution of the body temperatures of the persons to be detected in each area and the analysis result of the variation trend of the body temperature of the same person to be detected (for example, the identity information of the person in the high temperature range and the identity information of the person whose body temperature has an ascending trend) to the temperature measuring devices 100 in each area.

The server 200 may feed back the identity information of the person in the high temperature range or the identity information of the person with the body temperature rising trend in each region to the temperature measuring device 100 in the corresponding region, that is, the temperature measuring device 100 receives the identity information of the person in the high temperature range or the identity information of the person with the body temperature rising trend in the region. The server 200 may also feed back the identity information of the person in the high temperature range or the identity information of the person with the body temperature rising trend in each region to the temperature measuring device 100 in each region, that is, the temperature measuring device 100 receives the identity information of the person in the high temperature range or the identity information of the person with the body temperature rising trend in each region.

After receiving the analysis result fed back by the server 200, the temperature measuring device 100 may store the analysis result, and may send out the fourth warning information or the fifth warning information after recognizing the identity information of the person in the high temperature range and the identity information of the person whose body temperature has an ascending trend. For a specific process, reference may be made to the foregoing description, which is not repeated herein.

In addition to the interaction between the temperature measuring device 100 and the server 200 with the information such as the body temperature and the identity information of the person to be detected, the temperature measuring device 100 may also request the server 200 for other information, for example, the server 200 stores the action path of the person to be detected in a past specific time period, such as information of province, city, county, district or building, which the person to be detected has passed through in the specific time period.

For example, the temperature measuring device 100 may send first request information to the server 200, where the first request information is used to request the server 200 for the action path of the person to be detected, the first request information may carry part or all of the identity information of the person to be detected, and is used to indicate the person to be detected, and after receiving the first request information, the server 200 may feed back the action path of the person to be detected to the temperature measuring device 100.

For another example, the temperature measuring device 100 may send second request information to the server 200, where the second request information is used to query whether the person to be detected passes through a target area (e.g., an epidemic situation high-occurrence area), the second request information may carry part or all of the information in the identity information of the person to be detected and is used to indicate the person to be detected, after receiving the second request information, the server 200 queries an action path of the person to be detected and determines whether the action path includes the target area, if the action path includes the target area, the temperature measuring device 100 may be notified that the person to be detected passes through the target area, and if the action path does not include the target area, the temperature measuring device 100 may be notified that the person to be detected does not pass through the target area.

In the above description, the example of interaction between the temperature measuring device 100 and the server 200 is taken as an example for explanation, in fact, the temperature measuring device 100 may also perform information interaction with other devices, for example, the temperature measuring device 100 may feed back the identity information and the body temperature of the person to be detected whose body temperature exceeds the temperature threshold value to the device deployed in the corresponding organization, for example, the identity information and the body temperature of the person to be detected whose body temperature exceeds the temperature threshold value may be sent to the device deployed in the community living committee, and the identity information and the body temperature of the person to be detected whose body temperature exceeds the temperature threshold value may also be sent to the device deployed in the police station and the community hospital.

The temperature measuring device 100 can actively feed back the identity information and the body temperature of the person to be detected with the body temperature exceeding the temperature threshold value to other equipment when detecting that the body temperature of the person to be detected exceeds the threshold value, and the temperature measuring device 100 can also feed back the identity information and the body temperature of the person to be detected with the body temperature exceeding the temperature threshold value to other equipment under the triggering of the staff. For example, a sending button may be arranged on the temperature measuring device 100, and by clicking the sending button, the temperature measuring device receives an indication, and feeds back the identity information of the person to be detected whose body temperature exceeds the temperature threshold and the body temperature to other devices under the indication.

Based on the same inventive concept as the method embodiment, the embodiment of the present application further provides a temperature measuring apparatus, which is used for executing the method executed by the temperature measuring apparatus 100 in the method embodiment shown in fig. 2, and as shown in fig. 6, the temperature measuring apparatus 600 includes a detecting unit 601, an identifying unit 602, and a transmitting unit 603.

The detection unit 601 is used for detecting the body temperature of a person to be detected; the detection unit 601 is used to perform step 202 in the embodiment shown in fig. 2.

The identification unit 602 is configured to identify identity information of a person to be detected; the identifying unit 602 is configured to perform step 201 in the embodiment shown in fig. 2.

And the transmission unit 603 is configured to send the body temperature and the identity information of the person to be detected to the server in a wireless transmission manner. The transmission unit 603 is configured to perform step 203 in the embodiment shown in fig. 2.

As a possible implementation manner, the identification unit 602 may obtain the position information of the person to be detected;

the transmission unit 603 sends the body temperature and the identity information of the person to be detected to the server, and may also send the position information of the person to be detected.

As a possible implementation manner, the apparatus further includes an alarm unit 604, and if the identification unit 602 does not identify the identity information of the person to be detected, the alarm unit 604 may send a first alarm message, where the first alarm message is used to prompt that the identity information of the person to be detected cannot be identified.

As a possible implementation manner, the identity information of the person to be detected includes a first picture of the person to be detected, and the device further includes a shooting unit, and the shooting unit can acquire a second picture of the person to be detected.

The warning unit 604 may first determine whether the similarity between the first picture and the second picture is smaller than a threshold, and send a second warning message when the similarity between the first picture and the second picture is smaller than the threshold, where the second warning message is used to prompt that the identity information is incorrect.

As a possible implementation manner, the alarm unit 604 may further determine whether the body temperature of the person to be detected is greater than a temperature threshold, and send third alarm information when the body temperature of the person to be detected is greater than the temperature threshold, where the third alarm information is used to prompt that the body temperature of the person to be detected is abnormal.

As a possible implementation, the apparatus further includes an instruction receiving unit 605 and a display unit 606;

the indication receiving unit 605 may receive a first indication before the detecting unit 601 detects the body temperature of the person to be detected, where the first indication is used to indicate that the body temperature of the person to be detected is detected. The display unit 606 may display the body temperature of the person to be detected after the body temperature of the person to be detected is detected by the detection unit 601.

As a possible implementation manner, the instruction receiving unit 605 may receive a second instruction before the identification unit 602 identifies the identity information of the person to be detected, where the second instruction is used for indicating the identity information for identifying the person to be detected. The display unit 606 may display the identity information of the person to be detected after the identification unit 602 identifies the identity information of the person to be detected.

As a possible implementation manner, the transmission unit 603 may receive, from the server, the identity information of the person to be detected whose body temperature is in the high temperature range; when the identification unit 602 identifies the identity information of the to-be-detected person whose body temperature is in the high temperature range again, the alarm unit 604 may send a fourth alarm message to prompt that the to-be-detected person needs to perform an important detection, and the previous body temperature of the to-be-detected person is in the high temperature range.

As a possible implementation, the transmission unit 603 may also receive the identity information of the person to be detected whose body temperature is trending from the server.

When the identification unit 602 identifies the identity information of the person to be detected whose body temperature has an ascending trend again, the alarm unit 604 sends fifth alarm information, where the fifth alarm information is used for the person to be detected that needs to be detected with emphasis, and the previous body temperature of the person to be detected has an ascending trend.

Based on the same inventive concept as the method embodiment, an embodiment of the present application further provides a server, configured to execute the method executed by the server 200 in the method embodiment, and related features may refer to the method embodiment described above, which are not described herein again, and as shown in fig. 7, the server 700 includes a transmission unit 701 and a processing unit 702.

The transmission unit 701 is used for acquiring the body temperatures and identity information of a plurality of persons to be detected from the temperature measuring device; the transmission unit 702 is configured to perform the receiving operation of the server 200 in step 203 in the embodiment shown in fig. 2.

The processing unit 702 is configured to store the body temperatures and the identity information of a plurality of persons to be detected, and analyze the body temperatures of the plurality of persons to be detected. The processing unit 702 is configured to perform step 204 in the embodiment shown in fig. 2.

As a possible implementation manner, the transmission unit 701 may further obtain position information of a plurality of persons to be detected from the temperature measuring device.

As a possible embodiment, when the processing unit 702 analyzes the body temperature of the person to be detected, the distribution condition of the body temperature of the person to be detected or the variation trend of the body temperature of the same person to be detected may be determined.

As a possible implementation manner, the processing unit 702 may determine the person to be detected whose body temperature is in the high temperature range, and the transmission unit 701 may send the identity information of the person to be detected whose body temperature is in the high temperature range to the temperature measurement device.

As a possible implementation manner, the processing unit 702 may determine a person to be detected whose body temperature has an ascending trend, and the transmission unit 701 sends identity information of the person to be detected whose body temperature has an ascending trend to the temperature measurement device.

It should be noted that the division of the unit in the embodiment of the present application is schematic, and is only a logic function division, and there may be another division manner in actual implementation. The functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

Based on the same inventive concept as the method embodiment, the embodiment of the present application further provides a temperature measuring apparatus, which is used for executing the method executed by the temperature measuring apparatus 100 in the method embodiment shown in fig. 2. As shown in fig. 8, the temperature measuring device 800 includes a temperature sensor 801, a display 802, a buzzer 803, a processor 804, a button 805, a scanning module 806 (and/or a card reading module 807), and a wireless module 808.

The scanning module 806 is configured to scan the two-dimensional code or the barcode to obtain information loaded by the two-dimensional code or the barcode.

The card reading module 809 is used for reading information recorded on the certificate presented by the person to be detected.

The temperature sensor 801 is used for detecting the body temperature of a person to be detected, and the embodiment of the present invention does not limit the type of the temperature sensor, and for example, the temperature sensor may be a pyroelectric type temperature sensor, a thermopile type temperature sensor, a diode type temperature sensor, a pyroelectric type temperature sensor, a thermistor type temperature sensor, and any sensor capable of measuring temperature is suitable for the embodiment of the present invention. Although not shown, the thermometry device may also include an analog-to-digital converter (ADC) 809 for converting the analog signal output by the temperature sensor to a digital signal that can be recognized by the processor.

A wireless module 808 for performing data transmission via a wireless network (e.g., WiFi, bluetooth, etc.) as a transmission medium.

The display screen 802 is used for displaying the body temperature and the identity information of a person to be detected, and can also display the measurement record before the temperature measuring device, the battery state of the temperature measuring device, the voice reminding switch state and the like.

And the buzzer 803 is used for sending out alarm information through buzzing sound, such as prompting the alarm of abnormal body temperature currently measured.

The processor 804 is a core device of the temperature measuring device 800, and can control other components in the temperature measuring device, for example, the processor 804 can trigger the temperature sensor 801 to measure the body temperature of the person to be detected, and acquire the body temperature of the person to be detected. The processor 804 may also trigger the scanning module 806 (and/or the card reading module 807) to identify identity information of the person to be detected. The processor 804 may trigger the display screen 802 to display information (such as the body temperature and the identity information of the person to be detected), and the processor 804 may also trigger the wireless module 808 to feed back the information such as the body temperature and the identity information of the person to be detected to the server. Such as the method performed by the thermometric device 100 of the embodiment shown in figure 2.

The embodiment of the present application does not limit the type of the processor 804, for example, the processor 804 may be a Micro Controller Unit (MCU), and the MCU may also be referred to as a single chip microcomputer (microchip) or a single chip microcomputer.

The thermometry device 800 further includes a memory 810, the memory 810 storing the necessary computer instructions, and the processor 804 can call the computer program instructions in the memory to execute the method executed by the thermometry device 100. Of course, the thermometry device 800 may not include memory, and the processor may be embodied with computer instructions.

The keys 805 may be physical keys or virtual keys (e.g., keys disposed on a touch screen). The user clicks the key to enable the processor 804 to receive the instruction, so that the processor 804 may perform corresponding operations, such as triggering the scanning module 806 (and/or the card reading module 807) to identify the identity information of the person to be detected, triggering the temperature sensor 801 to measure the body temperature of the person to be detected, and the like.

Although not shown, the temperature measuring device 900 may further include other components such as a camera, a microphone, an earphone, and a scanner, where the camera may be used to take a picture of the person to be detected, the scanner is used to receive and record fingerprint or iris information of the person to be detected, the microphone is used to play warning information (such as the first warning information, the second warning information, the third warning information, and the fourth warning information in the foregoing method embodiment) or prompt information, and the earphone is used to receive and record voice (such as voice sent by a worker).

The processor 804 may obtain a picture of a person to be detected from the camera, may also obtain fingerprint or iris information of the person to be detected through the scanner, may also send warning information or prompt information to the microphone, and may also receive voice through the receiver.

It should be noted that in fig. 9, the scanning module 806, the card reading module 807 and the wireless module 808 are independent modules of the processor 804 and are disposed at the periphery of the processor, and optionally, the scanning module 806, the card reading module 807 and the wireless module 808 may also be integrated in the processor as a component of the processor 808 to execute corresponding functions.

In a simple embodiment, those skilled in the art will appreciate that the server 200 in the above-described embodiment may take the form shown in fig. 9.

The device 900 shown in fig. 9 includes at least one processor 910, memory 920, and optionally a communication interface 930.

Processor 910 may be a Central Processing Unit (CPU), and memory 920 may be a volatile memory, such as a random access memory; the memory 920 may also be a non-volatile memory such as, but not limited to, a read-only memory, a flash memory, a Hard Disk Drive (HDD) or a solid-state drive (SSD), or the memory 920 may be any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer. The memory 920 may be a combination of the above memories.

The specific connection medium between the processor 910 and the memory 920 is not limited in the embodiments of the present application.

In the device of fig. 9, a communication interface 930 is further included, and the processor 910 can perform data transmission through the communication interface 930 when communicating with other devices.

When the server 200 takes the form shown in fig. 9, the processor 910 in fig. 9 may cause the apparatus 900 to perform the method performed by the server 200 in any of the above-described method embodiments by calling the computer stored in the memory 920 to execute the instructions; the device 900 may execute the method executed by the server 200 in step 203 and step 204 in the method embodiment shown in fig. 2.

In particular, the functions/implementation processes of the transmission unit and the processing unit in fig. 8 can be implemented by the processor 910 in fig. 9 calling the computer execution instructions stored in the memory 920. Alternatively, the functions/implementation procedures of the processing unit in fig. 8 may be implemented by the processor 910 in fig. 9 calling a computer executing instructions stored in the memory 920, and the functions/implementation procedures of the transmission unit in fig. 8 may be implemented by the communication interface 930 in fig. 9.

Embodiments of the present application further provide a computer-readable storage medium, in which instructions are stored, and when the instructions are executed on a computer, the computer is enabled to execute the method executed by the server or the temperature measuring device.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the embodiments of the present application without departing from the scope of the embodiments of the present application. Thus, if such modifications and variations of the embodiments of the present application fall within the scope of the claims of the present application and their equivalents, the present application is also intended to encompass such modifications and variations.

Claims

1. An information transmission method, characterized in that the method is executed by a temperature measuring device supporting wireless transmission, and the method comprises:

detecting the body temperature of a person to be detected, and identifying the identity information of the person to be detected;

and sending the body temperature and the identity information of the personnel to be detected to a server in a wireless transmission mode.

2. The method of claim 1, wherein the method further comprises:

acquiring the position information of the personnel to be detected;

and sending the position information of the personnel to be detected to the server.

3. The method of claim 1 or 2, wherein the method further comprises:

and if the identity information of the personnel to be detected is not identified, sending first alarm information, wherein the first alarm information is used for prompting that the identity information of the personnel to be detected cannot be identified.

4. The method according to claim 1 or 2, wherein the identity information of the person to be detected comprises a first picture of the person to be detected, the temperature measuring device comprises a camera module, and the method further comprises:

acquiring a second picture of the person to be detected by using the camera module;

and sending second warning information when the similarity between the first picture and the second picture is determined to be smaller than a threshold value, wherein the second warning information is used for prompting that the identity information is wrong.

5. The method of any of claims 1 to 4, further comprising:

receiving a first instruction, wherein the first instruction is used for instructing the body temperature detection of the person to be detected;

receiving a second instruction, wherein the second instruction is used for indicating and identifying identity information of a person to be detected;

after the body temperature of the person to be detected is detected and the identity information of the person to be detected is identified, the method also comprises the following steps

And displaying the body temperature and the identity information of the person to be detected.

6. An information transmission method, characterized in that the method is executed by a server, the method comprising:

acquiring body temperature and identity information of a plurality of persons to be detected from a temperature measuring device;

and storing the body temperatures and the identity information of the plurality of the persons to be detected, and analyzing the body temperatures of the plurality of the persons to be detected.

7. The method of claim 6, wherein said analyzing the body temperatures of said plurality of persons to be tested comprises:

and determining the distribution condition of the body temperatures of the plurality of persons to be detected or the variation trend of the body temperature of the same person to be detected.

8. The method according to claim 6 or 7, wherein the server is deployed in an edge computing system, and the server is used for storing the body temperature and identity information of the person to be detected in a specific area and analyzing the body temperature of the person to be detected in the specific area;

the method further comprises the following steps:

and sending the analyzed body temperature and identity information of the person to be detected in the specific area to a central server.

9. A temperature measuring device, said device comprising:

the detection unit is used for detecting the body temperature of a person to be detected;

the identification unit is used for identifying the identity information of the person to be detected;

and the transmission unit is used for sending the body temperature and the identity information of the personnel to be detected to the server in a wireless transmission mode.

10. The apparatus of claim 9, wherein the identification unit is further configured to:

acquiring the position information of the personnel to be detected;

the transmission unit is further configured to:

11. The apparatus according to claim 9 or 10, wherein the apparatus further comprises an alarm unit;

if the identification unit does not identify the identity information of the person to be detected, the alarm unit is used for sending first alarm information, and the first alarm information is used for prompting that the identity information of the person to be detected cannot be identified.

12. The apparatus according to claim 9 or 11, wherein the identity information of the person to be detected comprises a first picture of the person to be detected, the apparatus further comprising a photographing unit:

the shooting unit is used for acquiring a second picture of the person to be detected;

the alarm unit is further configured to determine whether the similarity between the first picture and the second picture is smaller than a threshold, and send a second alarm message when the similarity between the first picture and the second picture is smaller than the threshold, where the second alarm message is used to prompt that the identity information is wrong.

13. The method of any of claims 9 to 12, wherein the device further comprises an indication receiving unit and a display unit;

the indication receiving unit is used for, before the detection unit detects the body temperature of the person to be detected and the identification unit identifies the identity information of the person to be detected:

the display unit is used after the detection unit detects the body temperature of the person to be detected and the identification unit identifies the identity information of the person to be detected;

14. A server, characterized in that the server comprises:

the transmission unit is used for acquiring the body temperatures and the identity information of a plurality of persons to be detected from the temperature measuring device;

and the processing unit is used for storing the body temperatures and the identity information of the plurality of the personnel to be detected and analyzing the body temperatures of the plurality of the personnel to be detected.

15. The server according to claim 14, wherein the processing unit analyzes the body temperatures of the plurality of persons to be detected, and is specifically configured to:

16. The server according to claim 14 or 15, wherein the server is deployed in an edge computing system, and the processing unit is specifically configured to store the body temperature and the identity information of the person to be detected in a specific area, and analyze the body temperature of the person to be detected in the specific area;

the transmission unit is further configured to:

17. An apparatus, characterized in that the computing apparatus comprises a memory for storing computer instructions and a processor; the processor invokes the memory-stored computer instructions to perform the method of any of claims 1 to 8.