CN116193374A - Information generation method, electronic device and readable storage medium - Google Patents

Abstract

The application provides a method for generating information applied to first equipment, which comprises the following steps: displaying a reminding frame, responding to the authorization operation, sending a request message carrying scanning information of information to a first server, and receiving the information sent by the first server; the reminding frame is obtained by the first equipment through the scanning information of the information broadcast by the second equipment and used for reminding the user of authorization to request the information, the scanning information of the information is used for requesting to generate the information, and the information is used for indicating the infection risk level of the user in the aspect of infectious diseases. It can be seen that: after the first device receives the scanning information of the information broadcast by the second device and the user inputs the authorization operation, the first device can request the information from the first server, so that the user does not need to input more complicated operation, and the information can be obtained simply and rapidly.

Description

Information generation method, electronic device and readable storage medium

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to an information generating method, an electronic device, a computer program product, and a computer readable storage medium.

Background

The identification code of the information is a tool for proving the health state of people at present, and is generally used more frequently by people. Currently, public places such as office buildings, garages, subway stations, railway stations, high-speed rail stations, airports, shopping malls, hospitals and the like are provided with scanned patterns of identification codes, and users need to scan the scanned patterns of the identification codes when entering the public places so as to present the identification codes of the users.

The user needs to execute operations for many times, and electronic equipment such as mobile phones can display the identification codes of the user, so that the operation mode is complex, the passing efficiency of the user is affected, and the user experience is poor.

Disclosure of Invention

The application provides an information generation method, electronic equipment, a program product and a computer readable storage medium, and aims to realize simple operation and provide information for users more quickly.

In order to achieve the above object, the present application provides the following technical solutions:

in a first aspect, the present application provides a method for generating information applied to a first device, where the method includes: displaying a reminding frame, responding to the authorization operation input by a user, sending a request message carrying scanning information of information to a first server, and receiving the information sent by the first server; the reminding frame is obtained by the first equipment through the scanning information of the information broadcast by the second equipment and used for reminding the user of authorization to request the information, the scanning information of the information is used for requesting to generate the information, and the information is used for indicating the infection risk level of the user in the aspect of infectious diseases.

From the above, it can be seen that: the second equipment broadcasts the scanning information of the information, and the first equipment displays a reminding frame after receiving the scanning information of the information so as to remind a user of income authorization operation. After the user inputs the authorization operation, a request message carrying the scanning information of the information is sent to the first server in response to the authorization operation input by the user, and the information sent by the first server is received. After the first device receives the scanning information of the information broadcast by the second device and the user inputs the authorization operation, the first device can request the information from the first server, so that the user does not need to input more complicated operation, and the information can be obtained simply and rapidly.

In one possible implementation manner, before the first device displays the alert frame, the method for generating information further includes: and judging that the scanning information of the information belongs to epidemic prevention related information, wherein the epidemic prevention related information is information according to the request information.

In this possible embodiment, when the scan information of the information received by the first device belongs to epidemic prevention related information, the first device displays the reminding frame, so that interference to the user caused by displaying the reminding frame after the first device receives other information can be avoided.

In one possible implementation manner, after the first device displays the alert frame, the method for generating information further includes: if the authorization operation input by the user is not received and the times of neglecting the scanning information of the information received by the first equipment in the first preset time period by the user are judged to reach the threshold value, the scanning information of the information received by the first equipment in the second preset time period is ignored.

In this possible embodiment, after the first device receives the scanning information of the information and displays the reminding frame, the user does not input the authorized operation, and in a certain period of time, the reminding frame displayed by the first device is ignored by the user, so that the first device ignores the scanning information of the information received in a period of time, and the problem that the user is disturbed because the user does not need to acquire the information and repeatedly displays the reminding frame to the user can be avoided.

In one possible implementation, sending the request message to the first server includes: the method comprises the steps that a request message is sent to an information applet, the information applet sends the request message to a big data center, and the big data center is used for managing information; or, sending a request message to the big data center.

In one possible implementation manner, receiving information sent by the first server includes: and receiving information sent by the information applet or the big data center.

In one possible implementation, the first device is configured with an application program, displays a reminder box, sends a request message to the first server in response to an authorization operation input by a user, and receives information sent by the first server, including: after the application program receives the scanning information of the information, the first electronic device is controlled to display a reminding frame, a request message is sent to the first server in response to the authorization operation input by the user, and the information sent by the first server is received.

In one possible implementation manner, after receiving the information sent by the first server, the method further includes: and displaying information and/or sending information to the large screen device, the vehicle-mounted terminal or the intelligent screen, and displaying information by the large screen device, the vehicle-mounted terminal or the intelligent screen.

In a second aspect, the present application provides a method for generating information applied to a second device, including: broadcasting information scanning information, wherein the information scanning information is used for requesting to generate information, and the information is used for indicating the infection risk level of a user in the aspect of infectious diseases; the scan information of the information may be received by the first device, which requests the information from the first server using the scan information of the information.

From the above, it can be seen that: the second device broadcasts scanning information of the information, the scanning information of the information can be received by the first device, and after the first device receives the scanning information of the information, a reminding frame is displayed so as to remind a user of income authorization operation. After the user inputs the authorization operation, a request message carrying the scanning information of the information is sent to the first server in response to the authorization operation input by the user, and the information sent by the first server is received. After the first device receives the scanning information of the information broadcast by the second device and the user inputs the authorization operation, the first device can request the information from the first server, so that the user does not need to input more complicated operation, and the information can be obtained simply and rapidly.

In one possible embodiment, before broadcasting the scan information of the information, the method for generating information further includes: the authentication second device has the right to broadcast the scanning information of the information.

In this possible embodiment, the second device is authenticated to have authority to scan the broadcast information, so that the scan of the broadcast information is allowed, and interference of the scan of the broadcast information, which is not restricted by the second device, to the user can be avoided. Moreover, the purpose of reducing the power consumption of the second device can also be achieved.

In one possible embodiment, before broadcasting the scan information of the information, the method for generating information further includes: and determining that the second device meets the requirement of the geofence by using the scanning information of the information and the geographic address information of the second device.

In this possible embodiment, the scanning information of the information is usually address information, and the second device determines that the address information and the geographical address information of the sending device meet the requirement of the geofence, so that the scanning information of the broadcasting information is allowed, and interference to the user generated by the scanning information of the broadcasting information when the second device is in a different area from the address information input by the user can be avoided. And, the power consumption of the second device can also be reduced.

In one possible embodiment, before broadcasting the scan information of the information, the method for generating information further includes: the current time is determined to be within a broadcast period of the scanned information of the information.

In this possible embodiment, the second device determines that the current time is within the broadcast time period of the broadcast information of the information, and allows the broadcast information to be scanned, so that interference of the broadcast information of the second device with the user caused by the broadcast information without the time restriction can be avoided. Moreover, the purpose of reducing the power consumption of the second device can also be achieved.

In one possible implementation, authenticating that the second device has the right to broadcast the scan information of the information includes: the identity information of the second equipment is sent to the second server, and the second server authenticates whether the second equipment has the authority of scanning information of the broadcast information or not by utilizing the identity information of the second equipment, so as to obtain an authentication result; and receiving an authentication result sent by the second server.

In one possible embodiment, determining that the second device meets the geofence requirement using the scan information of the information and the geographic address information of the second device includes: transmitting the scanning information of the information and the geographic address information of the second equipment to a second server, and judging whether the second equipment meets the requirement of the geographic fence by the second server by utilizing the scanning information of the information and the geographic address information of the second equipment to obtain a judging result; and receiving a judging result sent by the second server.

In one possible implementation, the second electronic device is configured with an application program, and the scanning information of the broadcast information includes: the application program controls the second electronic device to broadcast the scanning information of the information.

In one possible embodiment, after broadcasting the scan information of the information, the method for generating information further includes: receiving information sent by first equipment; and displaying information, controlling the opening of the access control equipment, and/or sending information to the large screen equipment, wherein the large screen equipment displays the information.

In a third aspect, the present application provides an electronic device, where the electronic device is a first electronic device or a second electronic device, and the electronic device includes: one or more processors, memory, and a wireless communication module; a memory and a wireless communication module, coupled with the one or more processors, the memory for storing computer program code, the computer program code comprising computer instructions which, when executed by the one or more processors, cause the electronic device to perform the method of generating information as in any of the first or second aspects.

In a fourth aspect, the present application provides a computer readable storage medium, for storing a computer program, which when executed is specifically configured to implement a method for generating information as in any one of the first or second aspects.

In a fifth aspect, the present application provides a computer program product for, when run on a computer, causing the computer to perform the method of generating information as in any of the first or second aspects.

Drawings

FIG. 1 is an interface display diagram for acquiring an identification code provided in the present application;

Fig. 2 is an application scenario diagram of a method for generating information provided in an embodiment of the present application;

fig. 3 is a hardware configuration diagram of a transmitting apparatus 100 according to an embodiment of the present application;

fig. 4 is a hardware configuration diagram of a receiving device 200 according to an embodiment of the present application;

fig. 5 is a software framework diagram of a receiving device 200 provided in an embodiment of the present application;

fig. 6 is a transmission range display diagram of omni-directional antenna and directional antenna transmission signals provided in an embodiment of the present application;

fig. 7 is another application scenario diagram of the information generating method provided in the embodiment of the present application;

fig. 8 is a signaling diagram of a method for generating information according to an embodiment of the present application;

FIG. 9 is an interface display diagram of a reminder frame provided in an embodiment of the present application;

fig. 10 is a signaling diagram of a method for broadcasting address information by the transmitting device 100 according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. The terminology used in the following embodiments is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification and the appended claims, the singular forms "a," "an," "the," and "the" are intended to include, for example, "one or more" such forms of expression, unless the context clearly indicates to the contrary. It should also be understood that in embodiments of the present application, "one or more" means one, two, or more than two; "and/or", describes an association relationship of the association object, indicating that three relationships may exist; for example, a and/or B may represent: a alone, a and B together, and B alone, wherein A, B may be singular or plural. The character "/" generally indicates that the context-dependent object is an "or" relationship.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

The plurality of the embodiments of the present application refers to greater than or equal to two. It should be noted that, in the description of the embodiments of the present application, the terms "first," "second," and the like are used for distinguishing between the descriptions and not necessarily for indicating or implying a relative importance, or alternatively, for indicating or implying a sequential order.

With the demand of prevention and control, the identification code of the information becomes a tool for proving the health state of people at present, wherein the identification code A is used more frequently by people. Currently, public places such as office buildings, garages, subway stations, railway stations, high-speed rail stations, airports, shopping malls, hospitals and the like are provided with scanned patterns of identification codes, and users need to scan the scanned patterns of the identification codes when entering the public places so as to present the identification codes of the users.

Illustratively, fig. 1 illustrates a process in which a mobile phone obtains an identification code through a WeChat applet. When the user needs to show the own identification code each time, as shown in (a) in fig. 1, a pull-down operation is required to be input on a WeChat interface displayed on the display screen of the mobile phone so as to control the display screen of the mobile phone to display icons of WeChat applets. Then, as shown in (b) of fig. 1, the user clicks the icon of the first applet on the display interface of the icon of the WeChat applet to control the display screen of the mobile phone to display the interface of the first applet. Then, the user clicks the personal information scanning entry on the interface of the first applet as shown in fig. 1 (c), and the mobile phone responds to the clicking operation of the user to perform popup reminding on the personal information, and in an exemplary manner, (d) in fig. 1 shows popup of the personal information. The user inputs the click "i know" operation on the popup window interface shown in fig. 1 (d), and the mobile phone calls the camera to operate to capture the image of the scanned image of the identification code in response to the user operation, as shown in fig. 1 (e). After the mobile phone shoots an image of a scanned image of the identification code by the camera, the mobile phone analyzes the image to obtain the identification code shown in (f) in fig. 1.

It follows that: the user needs to execute operations for many times, and the mobile phone can display the identification code of the user, so that the operation mode is complicated, the passing efficiency of the user is affected, and the user experience is poor.

Based on the above problems, the embodiment of the application provides a method for generating an identification code. Fig. 2 illustrates an application scenario of the method for generating an identification code according to the embodiment of the present application.

In fig. 2, the transmitting apparatus 100 is configured to broadcast identification code scanning information (or scanning information called an identification code) for requesting generation of an identification code of a user using a wireless communication function. In some embodiments, the identification code scanning information may be address information, where the sending device 100 obtains address information of its own location, or may be address information input by a user to the sending device 100. The following description will take identification code scanning information as address information as an example.

The transmitting apparatus 100 may periodically broadcast address information. The broadcast signal of the transmitting apparatus 100 has a certain transmission distance, and the receiving apparatus 200 within the transmission distance of the broadcast signal of the transmitting apparatus 100 can receive the broadcast signal of the transmitting apparatus. Illustratively, in fig. 2, three receiving apparatuses 200 are within a transmission distance of a broadcast signal of the transmitting apparatus 100, and may receive address information broadcast by the transmitting apparatus 100.

The reception apparatus 200 is configured to receive address information broadcast by the transmission apparatus 100, and transmit request information to request the identification code of the user to the identification code applet 300 or the big data center 400 using the address information.

The identification code applet 300 may be in communication with the large data center 400 for requesting the identification code of the user from the large data center 400. After the identification code applet 300 receives the request information transmitted from the reception apparatus 200, it may forward it to the big data center 400 to request the identification code of the user. And, after the big data center 400 obtains the user's identification code, the user's identification code may be returned to the identification code applet 300. The identification code applet can be understood as an applet installed in the receiving apparatus 200, belonging to an application that can be used without downloading installation. Illustratively, the first applet illustrated in FIG. 1 is an identification code applet.

The big data center 400 belongs to an identification code management platform, and the big data center 400 can acquire a user action track and obtain the identification code of the user based on the user action track, address information and identity information of the user.

In this embodiment, the transmitting device 100 may be a mobile phone, a tablet computer, a desktop, a laptop, a notebook, an Ultra mobile personal computer (Ultra-mobile Personal Computer, UMPC), a handheld computer, a netbook, a personal digital assistant (Personal Digital Assistant, PDA), a wearable electronic device, a smart watch, or other terminal devices with a signal transmitting function.

In some embodiments, as shown in fig. 3, the transmitting device 100 includes a processor 310, an internal memory 320, one or more antennas, and a wireless communication module 330.

It is to be understood that the configuration illustrated in the present embodiment does not constitute a specific limitation on the transmitting apparatus 100. In other embodiments, the transmitting device 100 may include more or fewer components than shown, or may combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Wherein: the processor 310 may include one or more processing units, such as: the processor 310 may include an application processor (application processor, AP), a controller, a sensor hub (sensor hub), and/or a neural Network Processor (NPU), among others. Wherein the different processing units may be separate devices or may be integrated in one or more processors.

A memory may also be provided in the processor 310 for storing instructions and data. In some embodiments, the memory in the processor 310 is a cache memory. The memory may hold instructions or data that the processor 310 has just used or recycled. If the processor 310 needs to reuse the instruction or data, it may be called directly from the memory. Repeated accesses are avoided and the latency of the processor 310 is reduced, thereby improving the efficiency of the system.

The internal memory 320 may be used to store computer-executable program code that includes instructions. The processor 310 executes various functional applications of the transmitting apparatus 100 and data processing by executing instructions stored in the internal memory 320. The internal memory 320 may include a storage program area and a storage data area. The storage program area may store an operating system, an application program required for at least one function, and the like. The storage data area may store data created during use of the transmitting apparatus 100, etc. In addition, the internal memory 320 may include a high-speed random access memory, and may also include a nonvolatile memory, such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (universal flash storage, UFS), and the like. The processor 310 performs various functional applications of the transmitting apparatus 100 and data processing by executing instructions stored in the internal memory 320 and/or instructions stored in a memory provided in the processor.

The antenna is used for transmitting and receiving electromagnetic wave signals. Each antenna in the transmitting device 100 may be used to cover a single or multiple communication bands. Different antennas may also be multiplexed to improve the utilization of the antennas. In some embodiments, the antenna of the transmitting device 100 is coupled to the wireless communication module 330 such that the transmitting device 100 may communicate with a network and other devices via wireless communication techniques.

The wireless communication module 330 may provide solutions for wireless communication including wireless local area network (wireless local area networks, WLAN) (e.g., wireless fidelity (wireless fidelity, wi-Fi) network), bluetooth (BT), global navigation satellite system (global navigation satellite system, GNSS), frequency modulation (frequency modulation, FM), near field wireless communication technology (near field communication, NFC), infrared technology (IR), etc., applied on the transmitting device 100. The wireless communication module 330 may be one or more devices that integrate at least one communication processing module.

The wireless communication module may receive a signal to be transmitted, such as address information, from the processor 310, frequency modulate it, amplify it, and convert it to electromagnetic waves for radiation through the antenna. The wireless communication module 330 may also receive electromagnetic waves via an antenna, frequency modulate and filter the electromagnetic wave signals, and transmit the processed signals to the processor 310.

In some embodiments, the wireless communication module 330 may also support bluetooth low energy technology (Bluetooth Low Energy, BLE). The wireless communication module 330 may employ BLE technology to broadcast the address information over the antenna.

Above the hardware components, the transmitting device 100 also runs an operating system. Such as iOS operating systems, android open source operating systems, windows operating systems, etc. An operating application may be installed on the operating system.

The transmitting device 100 may configure a system level application or a third party application. For example, the application may be referred to as an identification code scanning application. The application program is used for assisting the user in acquiring the identification code of the user. In some embodiments, the user may input address information on an interface of the application program, and the application program invokes the wireless communication module and the antenna to broadcast the address information externally in response to the user operation.

Of course, the transmitting apparatus 100 also needs to install an application program for realizing a wireless communication function such as bluetooth, WLAN, etc., and specific functions of the application program for realizing a wireless communication function such as bluetooth, WLAN, etc. will not be described here.

The receiving apparatus 200 belongs to a terminal apparatus that can be used by a user, and the receiving apparatus 200 may be an electronic apparatus such as a mobile phone, a tablet, a desktop, a laptop, a notebook, an Ultra-mobile personal computer (Ultra-mobile Personal Computer, UMPC), a handheld computer, a netbook, a personal digital assistant (Personal Digital Assistant, PDA), a wearable electronic apparatus, and a smart watch, for example.

The following describes a hardware structure of the receiving apparatus 200 according to the embodiment of the present application, taking a mobile phone as an example.

As shown in fig. 4, the receiving apparatus 200 may include a processor 410, an internal memory 420, a camera 430, a display screen 440, an antenna 1, an antenna 2, a mobile communication module 450, a wireless communication module 460, an audio module 470, and a sensor module 480, etc.

It is to be understood that the structure illustrated in the present embodiment does not constitute a specific limitation on the receiving apparatus 200. In other embodiments, the receiving device 200 may include more or fewer components than shown, or certain components may be combined, or certain components may be split, or different arrangements of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

The processor 410 may include one or more processing units, such as: the processor 410 may include an application processor (application processor, AP), a modem processor, a graphics processor (graphics processing unit, GPU), an image signal processor (image signal processor, ISP), a controller, a video codec, a digital signal processor (digital signal processor, DSP), a baseband processor, a smart sensor hub (sensor hub) and/or a neural network processor (neural-network processing unit, NPU), etc. Wherein the different processing units may be separate devices or may be integrated in one or more processors.

A memory may also be provided in the processor 410 for storing instructions and data. In some embodiments, the memory in the processor 410 is a cache memory. The memory may hold instructions or data that the processor 410 has just used or recycled. If the processor 410 needs to reuse the instruction or data, it may be called directly from the memory. Repeated accesses are avoided, reducing the latency of the processor 410 and thus improving the efficiency of the system.

The internal memory 420 may be used to store computer-executable program code that includes instructions. The processor 410 executes various functional applications of the reception apparatus 200 and data processing by executing instructions stored in the internal memory 420. The internal memory 420 may include a storage program area and a storage data area. The storage program area may store an application program (such as a sound playing function, an image playing function, etc.) required for at least one function of the operating system, etc. The storage data area may store data (e.g., audio data, phonebook, etc.) created during use of the receiving device 200, and the like. In addition, the internal memory 420 may include a high-speed random access memory, and may also include a non-volatile memory, such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (universal flash storage, UFS), and the like. The processor 410 performs various functional applications and data processing provided by the reception apparatus 200 by executing instructions stored in the internal memory 420 and/or instructions stored in a memory provided in the processor.

In some embodiments, the internal memory 420 stores instructions for the method of generating the identification code. The processor 410 may implement the retrieval of the user's identification code by executing instructions stored in the internal memory 420.

The receiving apparatus 200 may implement a photographing function through an ISP, a camera 430, a video codec, a GPU, a display screen 440, an application processor, and the like.

The ISP is used to process the data fed back by the camera 430. For example, when the receiving apparatus 200 photographs, the shutter is opened, light is transmitted to the camera photosensitive element through the lens, the optical signal is converted into an electrical signal, and the camera photosensitive element transmits the electrical signal to the ISP for processing, and is converted into an image visible to the naked eye. ISP can also optimize the noise, brightness and skin color of the image. The ISP can also optimize parameters such as exposure, color temperature and the like of a shooting scene. In some embodiments, the ISP may be provided in the camera 430.

The camera 430 is used to capture still images or video. The object generates an optical image through the lens and projects the optical image onto the photosensitive element. The photosensitive element may be a charge coupled device (charge coupled device, CCD) or a Complementary Metal Oxide Semiconductor (CMOS) phototransistor. The photosensitive element converts the optical signal into an electrical signal, which is then transferred to the ISP to be converted into a digital image signal. The ISP outputs the digital image signal to the DSP for processing. The DSP converts the digital image signal into an image signal in a standard RGB, YUV, or the like format. In some embodiments, the receiving device 200 may include 1 or N cameras 430, N being a positive integer greater than 1.

The digital signal processor is used for processing digital signals, and can process other digital signals besides digital image signals. For example, when the receiving apparatus 200 selects a frequency bin, the digital signal processor is used to fourier transform the frequency bin energy, or the like.

The receiving device 200 implements display functions through the GPU, the display screen 440, and the application processor, etc. The GPU is a microprocessor for image processing, and is connected to the display screen 440 and the application processor. The GPU is used to perform mathematical and geometric calculations for graphics rendering. Processor 410 may include one or more GPUs that execute program instructions to generate or change display information.

The display 440 is used to display images, videos, and the like. The display 440 includes a display panel. The display panel may employ a liquid crystal display (liquid crystal display, LCD), an organic light-emitting diode (OLED), an active-matrix organic light-emitting diode (AMOLED) or an active-matrix organic light-emitting diode (matrix organic light emitting diode), a flexible light-emitting diode (flex), a mini, a Micro-led, a quantum dot light-emitting diode (quantum dot light emitting diodes, QLED), or the like. In some embodiments, the receiving device 200 may include 1 or N displays 440, N being a positive integer greater than 1.

The wireless communication function of the reception apparatus 200 can be realized by the antenna 1, the antenna 2, the mobile communication module 450, the wireless communication module 460, a modem processor, a baseband processor, and the like.

The antennas 1 and 2 are used for transmitting and receiving electromagnetic wave signals. Each antenna in the receiving device 200 may be used to cover a single or multiple communication bands. Different antennas may also be multiplexed to improve the utilization of the antennas. For example: the antenna 1 may be multiplexed into a diversity antenna of a wireless local area network. In other embodiments, the antenna may be used in conjunction with a tuning switch.

The mobile communication module 450 may provide a solution for wireless communication including 2G/3G/4G/5G or the like applied on the receiving device 200. The mobile communication module 450 may include at least one filter, switch, power amplifier, low noise amplifier (low noise amplifier, LNA), etc. The mobile communication module 450 may receive electromagnetic waves from the antenna 1, perform processes such as filtering, amplifying, and the like on the received electromagnetic waves, and transmit the processed electromagnetic waves to the modem processor for demodulation. The mobile communication module 450 may amplify the signal modulated by the modem processor, and convert the signal into electromagnetic waves through the antenna 1 to radiate the electromagnetic waves. In some embodiments, at least some of the functional modules of the mobile communication module 450 may be disposed in the processor 410. In some embodiments, at least some of the functional modules of the mobile communication module 450 may be disposed in the same device as at least some of the modules of the processor 410.

The wireless communication module 460 may provide solutions for wireless communication including wireless local area network (wireless local area networks, WLAN) (e.g., wireless fidelity (wireless fidelity, wi-Fi) network), bluetooth (BT), global navigation satellite system (global navigation satellite system, GNSS), frequency modulation (frequency modulation, FM), near field wireless communication technology (near field communication, NFC), infrared technology (IR), etc., applied on the receiving device 200. The wireless communication module 460 may be one or more devices that integrate at least one communication processing module. The wireless communication module 460 receives electromagnetic waves via the antenna 2, frequency modulates and filters the electromagnetic wave signals, and transmits the processed signals to the processor 410. The wireless communication module 460 may also receive a signal to be transmitted from the processor 410, frequency modulate it, amplify it, and convert it to electromagnetic waves for radiation via the antenna 2.

In some embodiments, the wireless communication module 460 may also support bluetooth low energy technology (Bluetooth Low Energy, BLE). The wireless communication module 460 may employ BLE technology to receive address information broadcast by the transmitting device.

The wireless communication technology used by the wireless communication module of the receiving device corresponds to the wireless communication technology used by the wireless communication module of the transmitting device. Specifically, the wireless communication module of the transmitting device adopts BLE technology to broadcast address information, and the wireless communication module of the receiving device adopts BLE technology to receive address information.

The handset may implement audio functions through an audio module 470, speaker 470A, microphone 470C, an application processor, etc. Such as music playing, recording, etc.

The audio module 470 is used to convert digital audio information into an analog audio signal output and also to convert an analog audio input into a digital audio signal. The audio module 470 may also be used to encode and decode audio signals. In some embodiments, the audio module 470 may be disposed in the processor 410, or some functional modules of the audio module 470 may be disposed in the processor 410.

Speaker 470A, also referred to as a "horn," is used to convert audio electrical signals into sound signals. The handset may listen to music through speaker 470A or to hands-free calls.

Microphone 470B, also referred to as a "microphone" or "microphone," is used to convert sound signals into electrical signals. When making a call or transmitting voice information, the user can sound near microphone 470B through the mouth, inputting a sound signal to microphone 470B. The handset may be provided with at least one microphone 470B. In other embodiments, the receiving device 200 may be provided with two microphones 470B, and may implement a noise reduction function in addition to collecting sound signals. In other embodiments, the handset may also be provided with three, four or more microphones 470B to enable collection of sound signals, noise reduction, identification of sound sources, directional recording, etc.

In the sensor module 480, a pressure sensor 480A is used to sense a pressure signal, which can be converted into an electrical signal. In some embodiments, pressure sensor 480A may be disposed on display screen 440. The pressure sensor 480A is of various types, such as a resistive pressure sensor, an inductive pressure sensor, a capacitive pressure sensor, and the like. The capacitive pressure sensor may be a capacitive pressure sensor comprising at least two parallel plates with conductive material. When a force is applied to the pressure sensor 480A, the capacitance between the electrodes changes. The receiving apparatus 200 determines the intensity of the pressure according to the change of the capacitance. When a touch operation is applied to the display 440, the reception apparatus 200 detects the touch operation intensity according to the pressure sensor 480A. The receiving apparatus 200 may also calculate the position of the touch from the detection signal of the pressure sensor 480A. In some embodiments, touch operations that act on the same touch location, but at different touch operation strengths, may correspond to different operation instructions.

Touch sensor 480B, also referred to as a "touch device". The touch sensor 480B may be disposed on the display 440, and the touch sensor 480B and the display 440 form a touch screen, which is also referred to as a "touch screen". The touch sensor 480B is used to detect a touch operation acting thereon or thereabout. The touch sensor may communicate the detected touch operation to the application processor to determine the touch event type. Visual output related to touch operations may be provided through the display 440. In other embodiments, touch sensor 480B may also be disposed on a surface of receiving device 200 at a different location than display 440.

In addition, above the above components, the receiving device runs an operating system. Such as iOS operating systems, android open source operating systems, windows operating systems, etc. An operating application may be installed on the operating system.

The operating system of the receiving device may employ a layered architecture, an event driven architecture, a microkernel architecture, a microservice architecture, or a cloud architecture. Taking an Android system with a layered architecture as an example, the embodiment of the application illustrates a software structure of the receiving device 200.

Fig. 5 is a software configuration block diagram of a receiving device of an embodiment of the present application.

The layered architecture divides the software into several layers, each with distinct roles and branches. The layers communicate with each other through a software interface. In some embodiments, the Android system is divided into four layers, from top to bottom, an application layer, an application framework layer, an Zhuoyun row (Android run) and system libraries, and a kernel layer, respectively.

The application layer may include a series of application packages. In some embodiments, as shown in FIG. 5, the application package may include applications such as a camera WLAN, bluetooth, and an identification code scanning application. The identification code scanning application is used for acquiring the identification code of the user.

It should be noted that, the identifier scanning application installed by the transmitting device and the identifier scanning application installed by the receiving device may be the same application program, and the identifier scanning application may start different functions of the identifier scanning application according to different installation devices. Illustratively, an identification code scanning application is installed on the transmitting device, the identification code scanning application is operable to broadcast address information, the identification code scanning application is installed on the receiving device, the identification code scanning application is operable to receive the address information, and to request the identification code of the user from the identification code applet or the big data center using the address information.

Of course, the identifier scanning application installed by the transmitting device and the identifier scanning application installed by the receiving device may be different application programs.

In other embodiments, the sending device may not install the identity scanning application alone, but rather will be implemented by an identity applet to receive address information and use the address information to request the user's identity from the large data center.

The application framework layer provides an application programming interface (application programming interface, API) and programming framework for application programs of the application layer. The application framework layer includes a number of predefined functions. As shown in fig. 5, the application framework layer may include a window manager, a content provider, a view system, a telephony manager, a resource manager, a notification manager, and the like.

The window manager is used for managing window programs. The window manager can acquire the size of the display screen, judge whether a status bar exists, lock the screen, intercept the screen and the like.

The content provider is used to store and retrieve data and make such data accessible to applications. The data may include video, images, audio, calls made and received, browsing history and bookmarks, phonebooks, etc.

The view system includes visual controls, such as controls to display text, controls to display pictures, and the like. The view system may be used to build applications. The display interface may be composed of one or more views.

The telephony manager is operable to provide communication functions of the receiving device. Such as the management of call status (including on, hung-up, etc.).

The resource manager provides various resources for the application program, such as localization strings, icons, pictures, layout files, video files, and the like.

The notification manager allows the application to display notification information in a status bar, can be used to communicate notification type messages, can automatically disappear after a short dwell, and does not require user interaction. Such as notification manager is used to inform that the download is complete, message alerts, etc. The notification manager may also be a notification in the form of a chart or scroll bar text that appears on the system top status bar, such as a notification of a background running application, or a notification that appears on the screen in the form of a dialog window.

Android run time includes a core library and virtual machines. Android run time is responsible for scheduling and management of the Android system.

The core library consists of two parts: one part is a function which needs to be called by java language, and the other part is a core library of android.

The application layer and the application framework layer run in a virtual machine. The virtual machine executes java files of the application program layer and the application program framework layer as binary files. The virtual machine is used for executing the functions of object life cycle management, stack management, thread management, security and exception management, garbage collection and the like.

The system library may include a plurality of functional modules. For example: surface manager (surface manager), media Libraries (Media Libraries), three-dimensional graphics processing Libraries (e.g., openGL ES), two-dimensional graphics engines (e.g., SGL), etc.

The surface manager is used to manage the display subsystem and provides a fusion of 2D and 3D layers for multiple applications.

Media libraries support a variety of commonly used audio, video format playback and recording, still image files, and the like. The media library may support a variety of audio and video encoding formats, such as MPEG4, h.264, MP3, AAC, AMR, JPG, PNG, etc.

The three-dimensional graphic processing library is used for realizing three-dimensional graphic drawing, image rendering, synthesis, layer processing and the like.

The two-dimensional graphics engine is a drawing engine for 2D drawing.

The kernel layer is a layer between hardware and software. The inner core layer at least comprises a display driver, a camera driver and a sensor driver.

Under the above four-layer architecture, the receiving device is further provided with a hardware layer, and the hardware layer may include the hardware components of the receiving device set forth above. By way of example, fig. 5 shows a display screen and a camera.

Typically, the antennas in the transmitting device are all omni-directional antennas. An omni-directional antenna exhibits a uniform radiation of 360 ° in the horizontal direction, i.e. the transmission range in the horizontal direction is a circle, and a beam having a certain width in the vertical direction, in general, the smaller the lobe width, the larger the gain.

Fig. 6 (a) shows a transmission range in which the omni-directional antenna of the transmitting apparatus transmits address information in one common area. Illustratively, the public area shown in fig. 6 (a) is a highway, the transmitting device is disposed at the garage entrance, and if the user needs to enter from the garage entrance, the user's device (receiving device) may receive the address information sent by the transmitting device after entering into the transmitting range of the omni-directional antenna of the transmitting device.

However, since the transmission range of the omni-directional antenna of the transmitting apparatus is circular, a partial area of the road can be covered. When a user does not want to enter from the garage entrance but passes through the road covered area, the user's equipment also receives the address information sent by the sending equipment, so that the user is interfered by the address information sent by the sending equipment.

Based on the above-described problems, the transmitting apparatus may set a directional antenna by which address information is transmitted. Directional antennas are particularly strong in transmitting and receiving electromagnetic waves in one or more specific directions, while transmitting and receiving electromagnetic waves in other directions are zero or very small.

Fig. 6 (b) shows a directional antenna of a transmitting apparatus, and the transmission range of address information is transmitted in a common area. The public area shown in fig. 6 (b) is also a highway, and the transmitting device is arranged at the entrance of the garage, so that the transmitting device adopts the directional antenna to transmit address information, and the directional antenna can be arranged to transmit and receive electromagnetic waves in the direction of the entrance of the garage. Therefore, the scanning area of the directional antenna cannot cover a part of the area of the highway, and interference of address information received when a user does not enter the garage is avoided.

In some embodiments, the transmitting device may only be provided with a directional antenna, and of course, may also be provided with both a directional antenna and an omni-directional antenna, where the directional antenna transmits address information and the omni-directional antenna transmits other signals.

The directional antennas of the transmitting device may be set to transmit power differently in different directions. As illustrated in fig. 7, the transmission power of the transmission apparatus 100 in the direction 1 is 0dBm, the transmission power of the transmission apparatus 100 in the direction 2 is 6dBm, and the transmission power of the transmission apparatus 100 in the direction 3 is 10dBm. Since the transmission powers of the transmission apparatuses 100 in different directions are different, the reception apparatus 1 in the direction 1 does not receive the address information transmitted by the transmission apparatus 100, the reception apparatus 2 in the direction 2 and the reception apparatus 3 in the direction 3 can receive the address information transmitted by the transmission apparatus 100, and the reception apparatus 3 can be farther from the transmission apparatus 100 than the reception apparatus 2.

As described above with respect to fig. 2, the reception apparatus 2 and the reception apparatus 3 receive the address information broadcast by the transmission apparatus 100, and transmit request information to request the identification code of the user to the identification code applet 300 or the big data center 400 using the address information.

Before the transmitting device uses the directional antenna to transmit the address information, the transmitting device may set the transmitting power of the transmitting signal of the directional antenna in different directions or different angles, or may set the distance that the transmitting signal of the directional antenna in different directions or different angles can reach.

In some embodiments, a user may set the transmission power of the transmission signal of the directional antenna in different directions or different angles on the transmitting device through a man-machine interaction manner, and may also set the distance that the transmission signal of the directional antenna in different directions or different angles can reach. After the user is set, the directional antenna of the transmitting device can transmit the address information to the outside.

It should also be noted that the transmitting device is provided with both a directional antenna and an omni-directional antenna. Typically, the transmitting device transmits signals by default using an omni-directional antenna. Therefore, before the transmitting device transmits address information, it is necessary to select the directional antenna to operate.

The following describes a specific process of generating an identification code by combining a sending device, a receiving device, an identification code applet and a big data center with an application scenario diagram of the identification code generation method shown in fig. 2.

Fig. 8 shows a signaling interaction diagram of a method of generating an identification code. As shown in fig. 8, the method for generating the identification code includes the following steps:

s801, the transmitting apparatus 100 broadcasts address information.

As previously described with respect to the embodiment of fig. 2, the transmitting device 100 may broadcast address information using a wireless communication function.

In some embodiments, the transmitting device 100 installs an identification code scanning application that may periodically broadcast address information after being launched for operation.

S802, the reception apparatus 200 receives address information.

The reception apparatus 200 is within a transmission distance of the address information broadcast by the transmission apparatus 100, and the reception apparatus 200 may receive the address information broadcast by the transmission apparatus 100.

The wireless communication module of the receiving apparatus 200 may be in an operation state by default, the receiving apparatus 200 is within a transmission distance of the address information broadcast by the transmitting apparatus 100, the wireless communication module of the receiving apparatus 200 receives the address information broadcast by the transmitting apparatus 100 through the antenna, and the address information may be transmitted to the processor of the receiving apparatus 200.

S803, the reception apparatus 200 determines whether the address information belongs to the identification code related information.

The identification code related information is understood to be information to be utilized in generating the identification code.

In some embodiments, the address information includes an information header and information content, and the information header may include identification information that is used to indicate that the information is identification code related information. Therefore, after receiving the address information, the receiving apparatus 200 may parse the header of the address information, and if the header includes the identification information indicating the identification code related information, it may be determined that the address information received by the receiving apparatus 200 belongs to the identification code related information.

If the receiving apparatus 200 determines that the address information belongs to the identification code related information, steps S804 to S812 are performed. The receiving apparatus 200 may exit the present procedure if it determines that the address information does not belong to the identification code related information.

It should be further noted that, as described above, the receiving apparatus 200 may install an identification code scanning application, and after the wireless communication module of the receiving apparatus 200 receives the address information through the antenna, the identification code scanning application of the receiving apparatus 200 may be invoked to execute the steps executed by the receiving apparatus 200 in steps S804 to S812 described below.

S804, the receiving device 200 displays a reminding frame for reminding the user of authorization to request the identification code.

The reception apparatus 200 receives the address information, it may be determined that the reception apparatus 200 may request the identification code of the user using the address information, and thus, the reception apparatus 200 may generate and display a reminder frame to remind the user whether the identification code needs to be requested.

By way of example, FIG. 9 illustrates a reminder box that includes reminder information 901, a confirmation control 902, and a cancel control 903. The user clicks the confirmation control 902 and the receiving device 200 may be controlled to request an identification code. The user clicking on the cancel control 903 indicates that the user does not need to request an identification code and the receiving device 200 does not perform an operation.

It will be appreciated that after the user clicks the confirmation control 902 or the cancel control 903, the alert box displayed by the sending device 200 may disappear (the disappearance may also be understood as a hidden display). Of course, if the user does not input the operation to the reminding frame within a certain time, the reminding frame can also disappear.

S805, the receiving apparatus 200 determines whether or not an authorized operation input by the user is received.

Illustratively, when the user clicks the confirmation control 902 shown in FIG. 9, the user enters an authorization operation. Of course, the user may also input the authorization operation by pressing a specific physical key or key combination of the receiving device 200, inputting voice, a blank gesture, or the like.

The receiving apparatus 200 may determine whether an authorized operation input by the user is received through information reported by the pressure sensor and the touch sensor in the sensor module. The specific operation of the pressure sensor and the touch sensor is not described in detail herein.

The reception apparatus 200 determines that the authorization operation input by the user is received, and then performs steps S806a to S810. The reception apparatus 200 determines that the authorization operation input by the user is not received, and may perform steps S811 to S812.

It should be noted that, when the receiving apparatus 200 determines that the user inputs the authorization operation, the receiving apparatus 200 needs to request the identification code of the user. The receiving apparatus 200 may request the identification code from the large data center through the identification code applet, or may request the identification code directly from the large data center. Accordingly, for two implementations in which the receiving apparatus 200 requests the identification code, the following description will be made by steps S806a to S809a, steps S806b and S807, respectively.

S806a, the reception apparatus 200 transmits address information and user identity information to the identification code applet 300 in response to an authorization operation input by the user.

Currently, the identity code applet 300 and the big data center 400 may interact, and the identity code applet 300 requests the identity code of the user from the big data center 400 with the address information and the identity information of the user. Based on this, after the receiving apparatus 200 receives the authorization operation input by the user, the receiving apparatus may transmit address information to the identification code applet 300 to trigger the identification code applet to request the identification code of the user from the big data center 400 with the address information and the identity information of the user.

It should be noted that, as described above, the identification code applet 300 is an applet installed for the receiving apparatus 200. The identification code scanning application of the reception apparatus 200 may transmit address information and user identification information to the identification code applet 300 in response to an authorization operation input by the user.

S807a, the identification code applet 300 transmits a request message carrying address information and user identification information for requesting the identification code of the user to the big data center 400.

After the identification code applet 300 receives the address information transmitted from the reception apparatus 200, it can acquire self-identity information input by the user when the identification code applet is registered or used for the first time, generate a request message using the address information and the identity information of the user, and transmit the request message to the big data center.

In general, the identity information of the user may be information that uniquely identifies the identity of the user, such as an identification card number of the user.

S808a, the big data center 400 transmits the identification code information of the user to the identification code applet 300.

The big data center 400 receives the request message sent by the identification code applet 300, and can determine the behavior track of the user by using the identity information of the user carried by the request message, and determine the identification code information of the user by using the address information and the behavior track of the user.

After the large data center 400 obtains the identification code information of the user, the identification code information of the user is returned to the identification code applet 300.

S809a, the identification code applet 300 transmits the identification code information of the user to the reception apparatus 200.

After the identification code applet 300 obtains the identification code information, the routine flow of the identification code applet may be performed. In some embodiments, the conventional process includes, but is not limited to, displaying the user's identification code information and voice playing the identification code.

The identity applet 300 may also return the user's identity information to the receiving device 200, generally referred to as back to an identity scanning application, which displays the user's identity information. Of course, the application of scanning the identification code can also output the identification code information of the user in various other modes such as voice playing the identification code information, motor vibration and the like.

S806b, the receiving apparatus 200 transmits a request message to the big data center 400 in response to the operation input by the user, the request message carrying address information and identity information of the user for requesting the identification code of the user.

In a scenario in which the reception apparatus 200 may communicate with the large data center 400, the reception apparatus 200 may directly transmit a request message to the large data center 400 after receiving an authorization operation input by a user.

S807b, the large data center 400 transmits the identification code information of the user to the reception apparatus 200.

The big data center 400 receives the request message sent by the receiving device 200, and can determine the behavior track of the user by using the identity information of the user carried by the request message, and determine the identification code information of the user by using the address information and the behavior track of the user.

S810, the receiving apparatus 200 displays the identification code information of the user.

As in the foregoing content of step S809a, the reception apparatus 200 may alert the user by displaying the identification code information of the user after receiving the identification code information of the user through steps S809a and S807 b.

S811, the receiving apparatus 200 determines whether the number of times the address information received in the preset period is ignored by the user reaches a threshold value.

After the receiving device 200 receives the address information and displays the alert frame, the user may click the cancel control in the alert frame, and not perform any operation on the alert frame, or ignore the alert frame displayed by the receiving device 200 by pressing a specific physical key or key combination of the receiving device 200, inputting a voice, or a blank gesture, that is, ignore the address information received by the receiving device 200.

The reception apparatus 200 may record the number of times the user ignores the address information received by the reception apparatus 200. Specifically, each time the receiving device 200 receives the address information, one is accumulated on the basis of the recorded value of the address information received last time, until the receiving device 200 determines that the timing duration reaches the requirement of the preset time period. After the receiving apparatus determines that the timing duration reaches the requirement of the preset period, the receiving apparatus 200 may perform a clear process on the recorded value of the received address information.

The preset time period may be set according to an empirical value, and may be set for several seconds or minutes, for example, and the threshold value may be set according to an empirical value, for example, may be set for several times.

The receiving apparatus 200 determines that the number of times the address information received in the preset time period is ignored by the user reaches the threshold value, and then step S812 is performed, and the receiving apparatus 200 determines that the number of times the address information received in the preset time period is ignored by the user does not reach the threshold value, and then returns to step S804.

S812, the receiving device 200 ignores the address information received in the preset period.

Since the transmitting apparatus 100 periodically broadcasts the address information, if the receiving apparatus 200 is within a transmission distance of the address information broadcast by the transmitting apparatus 100, the address information broadcast by the transmitting apparatus 100 can be periodically received.

The address information received by the transmitting device 100 for multiple times in the preset time period is ignored by the user, which means that the user does not need to acquire the identification code of the user, and the receiving device 200 ignores the address information received in the preset time period, so that the address information periodically broadcast by the transmitting device 100 can be prevented from interfering with the user.

The preset period of time may be set according to an empirical value, and may be, for example, several minutes, tens of minutes, or tens of minutes, etc., and may be generally greater than the preset period of time in step S811.

In some embodiments, the manner in which the receiving apparatus 200 ignores the address information received in the preset time period may be: discarding the address information received in the preset time period, or closing the function of receiving the address information for the preset time period, etc.

In this embodiment, after the sending device 100 broadcasts the address information and the receiving device 200 receives the address information, after receiving the authorization operation of the user, the receiving device may request the identification code information of the user from the identification code applet 300 or the big data center 400, so as to quickly generate the identification code of the user, improve the speed of the user obtaining the identification code, and solve the problems that the operation mode existing in the current mode of obtaining the identification code is complicated, affects the passing efficiency of the user, and has poor user experience.

In the foregoing embodiment, the transmission apparatus 100 periodically broadcasts address information, and in order to avoid interference of the transmission apparatus 100 with the user of the reception apparatus 200 by the broadcast address information that is not throttled by the transmission apparatus 100, conditions may be set for the transmission apparatus 100 periodically.

In general, conditions may be set for the broadcast address information of the transmission apparatus 100 periodically from the following three aspects. The first aspect is user rights setting, the second aspect is geofence setting, and the third aspect is airtime setting. All of the three aspects serve as setting conditions for the transmission apparatus 100 to periodically broadcast address information, or some of the three aspects serve as setting conditions for the transmission apparatus 100 to periodically broadcast address information.

In the following, three aspects are described as examples of setting conditions for the transmission apparatus 100 to periodically broadcast address information, with reference to fig. 10. Fig. 10 shows a flow of a method of periodically broadcasting address information by the transmitting apparatus 100. In the flow illustrated in fig. 10, step S1002a, step S1002b to step S1004b are conditions for user authority setting, step S1003a, step S1005b to step S1007b are conditions for geofence setting, and step S1004a and step S1009b are conditions for broadcasting time setting.

The transmitting apparatus 100 may set the conditions of the three aspects locally, and determine whether the transmitting apparatus 100 meets the requirements of the conditions by using the set conditions, or may set the conditions of the three aspects by a server, and determine whether the transmitting apparatus 100 meets the requirements of the conditions by the server. In some embodiments, the transmitting device 100 installs an identifier scanning application, and the server refers to a server corresponding to the identifier scanning application.

The following describes a determination process of whether the transmission apparatus 100 meets the condition by the transmission apparatus 100 and the server, respectively.

As shown in fig. 10, the method of transmitting the address information periodically by the apparatus 100 includes the steps of:

s1001, the transmitting apparatus 100 acquires address information.

The address information of the location where the transmitting device 100 may be acquired may be address information input to the transmitting device 100 by the user.

S1002a, the transmitting apparatus 100 authenticates whether the transmitting apparatus has the authority to broadcast the address information.

The transmitting device 100 may locally authenticate whether it has the right to broadcast address information. The transmitting apparatus 100 may set a password having the authority to broadcast address information, and the transmitting apparatus 100 needs to authenticate the password input by the user before broadcasting the address information. If the password is correct, the sending device 100 authenticates that the sending device has the authority of broadcasting address information; if the password is incorrect, the transmitting device 100 authenticates that the transmitting device does not have the right to broadcast the address information.

In some embodiments, the transmitting device 100 installs an identification code scanning application that can control broadcast address information. Therefore, the identification code scanning application can be configured with the account number and the password of the broadcast address information, the identification code scanning application recognizes that the account number and the password input by the user are correct, and the sending equipment 100 authenticates that the sending equipment has the authority of the broadcast address information; if the identification code scanning application recognizes that the account number and the password input by the user are incorrect, the transmitting device 100 does not have the authority of broadcasting the address information.

The transmission apparatus 100 authenticates that the transmission apparatus has the authority to broadcast the address information, and then performs step S1003a and step S1004a, and the transmission apparatus 100 authenticates that the transmission apparatus does not have the authority to broadcast the address information, and does not allow the broadcast of the address information.

It should be noted that step S1002a may be performed periodically, and after the transmitting device 100 acquires the address information, step S1002a is performed once at a certain interval, and after the transmitting device 100 authenticates that the transmitting device has the authority to broadcast the address information through step S1002a, step S1003a and step S1004a may be performed.

It should be noted that, the transmitting device 100 authenticates that the transmitting device does not have the authority of broadcasting address information, and does not allow broadcasting address information, so that interference of the broadcasting address information, which is not controlled by the transmitting device 100, to the user can be avoided. Further, the purpose of reducing the power consumption of the transmitting apparatus 100 can also be achieved.

For example, in a practical application scenario, the transmitting device 100 is placed in an entrance guard position of an office building, and a worker needs to present his own identification code before entering the office building. The manager of the office building has authority to control the transmitting apparatus 100 to play the address information. Therefore, before controlling the transmitting device 100 to play the address information, the manager of the office building inputs the management account and the password to control the transmitting device to have the authority to broadcast the address information.

S1003a, the transmitting device 100 determines whether the address information and the geographical address information of the transmitting device meet the geofence requirement.

The geographical address information of the transmitting device can be understood as address information of the location where the transmitting device is located. Geofence requirements can be understood as: the distance between the address indicated by the address information and the address indicated by the geographical address information is within a threshold value. Of course, the threshold value may be set according to an empirical value, and the threshold value may be set to several meters, for example.

In general, the address information acquired by the transmitting apparatus 100 in step S1001 is: address information of the location where the device is located, or address information input by the user is transmitted. If the address information acquired by the sending device through step S1001 is the address information of the location of the sending device, the address information is the same as the geographical address information of the sending device, and the sending device 100 determines that the address information and the geographical address information of the sending device meet the requirement of the geofence.

However, if the address information acquired by the transmitting apparatus 100 in step S1001 is address information input by the user, when the transmitting apparatus 100 is placed in a different area from the address information input by the user, the geographical address information of the transmitting apparatus is not identical to the address information, the transmitting apparatus 100 calculates a distance between the address indicated by the address information and the address indicated by the geographical address information, compares the calculated distance with the threshold value, and if the transmitting apparatus 100 determines that the calculated distance is less than or equal to the threshold value, it can be determined that the address information and the geographical address information of the transmitting apparatus meet the requirement of the geofence. If the sending device 100 determines that the calculated distance is greater than the threshold value, it may be determined that the address information and the geographic address information of the sending device do not meet the geofence requirement.

The transmitting device 100 determines that the address information and the geographical address information of the transmitting device meet the requirement of the geofence, and then performs step S1004a; the transmitting device 100 determines that the address information and the geographical address information of the transmitting device do not meet the geofence requirement, and does not allow broadcasting of the address information.

It should be noted that step S1003a may be performed periodically, and after the transmitting device 100 acquires the address information and determines that the transmitting device has the authority to broadcast the address information, step S1003a is performed once at a certain time interval, and after the transmitting device 100 meets the geofence requirement through the address information of step S1003a and the geographical address information of the transmitting device, step S1004a may be performed.

Further, the transmitting device 100 may further execute step S1003a in a manner of adjusting the execution frequency according to the relationship between the address information and the geographical address information of the transmitting device.

In some embodiments, if the transmitting device 100 determines that the distance between the address information and the geographical address information of the transmitting device is continuously reduced, the frequency of the transmitting device 100 executing step S1003a is increased; the transmission apparatus 100 judges that the distance between the address information and the geographical address information of the transmission apparatus is increasing, the frequency with which the transmission apparatus 100 performs step S1003a becomes slow.

It should be noted that, when the transmitting device 100 determines that the address information and the geographical address information of the transmitting device do not meet the requirement of the geofence, the address information is not allowed to be broadcast, and interference generated by the user when the transmitting device 100 is in a different area from the address information input by the user can be avoided. Also, the power consumption of the transmitting apparatus 100 can be reduced.

In the actual application scenario, the manager of the office building inputs address information of the office building on the sending device 100, the geographic address information of the sending device 100 and the address information of the office building input by the manager of the office building are the same address, and the sending device 100 can determine that the address information and the geographic address information of the sending device meet the requirement of the geofence.

The sending device 100 is placed at a position far away from an office building, the geographic address information of the sending device is the address information of the current placement position of the sending device 100, the sending device 100 compares the address information with the geographic address information of the sending device, the calculated distance can be judged to be not in accordance with the requirement of a geofence, and the sending device 100 is not allowed to broadcast the address information, so that the situation that the sending device 100 is not in an entrance guard position of the office building, interference is generated by broadcasting the address information to other users, and the power consumption of the sending device 100 is increased can be avoided.

S1004a, the transmitting apparatus 100 determines whether the current time is within a broadcast period of the address information.

The transmitting device 100 may be prescribed a period of time for broadcasting the address information. Illustratively, the transmitting device 100 is configured to broadcast address information between 8:00-12:00 a priori. Based on this, the transmitting apparatus 100 determines that the current time is within the period of broadcasting the address information before broadcasting the address information.

The transmitting apparatus 100 determines that the current time is within the broadcasting time period of the address information, and then performs step S1010; the transmitting apparatus 100 judges that the current time is not within the broadcasting period of the address information, and does not allow broadcasting of the address information.

It should be noted that, step S1004a may be performed periodically, where the transmitting device 100 acquires the address information, determines that the transmitting device has the authority to broadcast the address information, and performs step S1004a once at a certain interval after determining that the address information and the geographical address information of the transmitting device meet the requirement of the geofence, and after the transmitting device 100 is currently in the broadcasting time period of the address information through step S1004a, step S1010 may be performed.

In this embodiment, the sending device 100 determines that the current time is not in the broadcasting time period of the address information, and does not allow broadcasting of the address information, so that interference of the broadcasting address information without time restriction of the sending device 100 to the user can be avoided. Further, the purpose of reducing the power consumption of the transmitting apparatus 100 can also be achieved.

It should be noted that the execution sequence of steps S1002a to S1004a is not limited to the manner illustrated in fig. 10, and in some embodiments, the transmitting apparatus 100 may execute steps S1002a to S1004a in parallel, or execute steps S1002a to S1004a in other sequences.

S1002b, the sending device 100 sends an authentication request to the server 500, where the authentication request carries the identity information of the sending device.

The transmitting device 100 installs an identification code scanning application, and the server 500 refers to a server corresponding to the identification code scanning application; the transmitting apparatus 100 controls the transmitting apparatus 100 to broadcast address information using the identification code applet, and the server 500 may refer to a server corresponding to the identification code applet.

The transmitting apparatus 100 transmits an authentication request to the server 500 to request the server 500 to authenticate whether the transmitting apparatus 100 has the right to broadcast address information. The identity information of the sending device may be an account number and a password configured to the sending device by the server.

The step S1002b may be performed periodically, and the step S1002b may be performed once at a certain time interval after the transmitting apparatus 100 acquires the address information.

S1003b, the server 500 uses the identity information of the transmitting device to authenticate whether the transmitting device has the authority of broadcasting address information, and obtains an authentication result.

Wherein the server 500 authenticates whether the account number and password of the transmitting device are correct. If the server 500 authenticates and identifies that the account number and the password of the sending device are correct, the sending device 100 authenticates that the sending device has the authority of broadcasting address information; if the server 500 authenticates that the account number and the password of the transmitting device are incorrect, the transmitting device 100 authenticates that the transmitting device does not have the authority to broadcast address information.

S1004b, the server 500 transmits the authentication result to the transmitting apparatus 100.

After obtaining the authentication result, the server 500 transmits the authentication result to the transmitting apparatus 100.

S1005b, the transmitting apparatus 100 transmits the address information and the geographical address information of the transmitting apparatus to the server 500.

Wherein the address information and the geographical address information of the transmitting device may be described as the content of the previous step S1003 a.

S1006b, the server 500 judges whether the address information and the geographic address information of the sending device meet the requirement of the geofence, and obtains a judging result.

The server 500 may determine whether the address information and the geographical address information of the transmitting device meet the requirement of the geofence in the manner of the aforementioned step S1003a, and obtain the determination result, which will not be described in detail herein.

S1007b, the server 500 transmits the determination result to the transmission apparatus 100.

After the server 500 obtains the judgment result, it transmits the judgment result to the transmitting apparatus 100.

S1008b, the transmitting device 100 determines whether the transmitting device has the authority to broadcast the address information according to the authentication result, and determines whether the address information and the geographic address information meet the requirement of the geofence according to the determination result.

The transmitting device 100 determines, according to the authentication result, that the transmitting device has the authority to broadcast the address information, and determines, according to the determination result, that the address information and the geographic address information meet the requirement of the geographic fence, then step S1009b is performed; the transmitting apparatus 100 determines that the transmitting apparatus does not have the authority to broadcast the address information using the authentication result, or determines that the address information and the geographical address information do not meet the requirement of the geofence using the determination result, and does not allow broadcasting the address information.

S1009b, the transmitting apparatus 100 determines whether the current time is within the broadcast period of the address information.

The specific implementation of step S1009b may refer to the content of step S1004a, which is not described herein.

The transmission apparatus 100 determines that the current time is within the broadcasting period of the address information, and then performs step S1010, and the transmission apparatus 100 determines that the current time is not within the broadcasting period of the address information, and then does not allow broadcasting of the address information.

S1010, the transmitting apparatus 100 broadcasts the address information.

The specific implementation manner of broadcasting the address information by the transmitting device 100 may be as in the content of step S801 in the foregoing embodiment, which is not described herein again.

The transmitting device may be configured to perform coordinated control with other devices in addition to broadcasting the identification code scanning information by using the wireless communication function.

In some embodiments, the receiving device may interact with the access point device to achieve coordinated control. The receiving apparatus may return the identification code information of the user to the transmitting apparatus after receiving the identification code information of the user using the aforementioned step S809a or step S807 b. The receiving device identifies the identification code information of the user and judges whether the receiving device has the authority passing through the access control device. And the receiving equipment judges that the receiving equipment has the authority of passing through the access control equipment, and the receiving equipment communicates with the access control equipment to control the access control equipment to start so as to allow passage. The receiving equipment judges that the receiving equipment does not have the authority of passing through the access control equipment, the receiving equipment communicates with the access control equipment, the access control equipment is controlled not to be started so as not to allow passage, or the receiving equipment does not communicate with the access control equipment, and the access control equipment maintains the original running state.

In general, the manner in which the receiving device identifies the identification code information of the user and determines whether the receiving device has the right to pass through the access control device is as follows: the receiving device recognizes that the identification code information of the user is a normal code, such as a green code, and judges that the receiving device has the authority to pass through the access control device.

The access control device can refer to automatic gate devices in places such as parking lots, office buildings, subway stations, railway stations, high-speed rail stations, airports, shopping malls, hospitals and the like.

In other embodiments, the receiving device may interact with a large screen device to coordinate control. The receiving apparatus may return the identification code information of the user to the transmitting apparatus after receiving the identification code information of the user using the aforementioned step S809a or step S807 b. The receiving device sends the identification code information of the user to the large screen device, and the large screen device can display the identification code information of the user. The large screen device can also carry out voice broadcast on the identification code information of the user. The large screen device may refer to a smart television, a smart screen, etc.

It should be noted that the receiving device may also perform linkage control with other devices.

In some embodiments, the receiving device may interact with one or more of a vehicle terminal, a front windshield of a vehicle, a rear windshield, a front and rear door glass, a sunroof or left and right rear view mirrors, etc. to achieve coordinated control.

The receiving apparatus may communicate with the in-vehicle terminal after receiving the identification code information of the user by using the aforementioned step S809a or step S807b, and transmit the identification code information of the user to the in-vehicle terminal. The vehicle-mounted terminal can display identification code information of a user and conduct voice broadcasting.

The front windshield, the rear windshield, the front and rear doors, the sunroof and the left and right rear mirrors of the vehicle may also be used as intelligent screens, and the receiving device may communicate with the front windshield, the rear windshield, the front and rear doors, the sunroof or the left and right rear mirrors of the vehicle to control the front windshield, the rear windshield, the front and rear doors, the sunroof or the left and right rear mirrors of the vehicle to display the user identification information after receiving the user identification information by using the aforementioned step S809a or step S807 b.

It should be further noted that, in the solutions provided in the foregoing embodiments, the transmitting device, the receiving device, the identification code applet and the large data center are described by taking the generation of the identification code as an example. Of course, the transmitting device, the receiving device, the identification code applet and the big data center may also generate information such as a trip code, a location code, etc. for indicating the infection risk level of the user in terms of infectious diseases, using the scheme provided by the foregoing embodiments.

Based on this, the embodiment of the application provides a method for generating information, and a specific implementation process of the method for generating information refers to the steps of any one of the foregoing embodiments, which are not further described herein.

Another embodiment of the present application also provides a computer-readable storage medium having instructions stored therein, which when run on a computer or processor, cause the computer or processor to perform one or more steps of any of the methods described above.

The computer readable storage medium may be a non-transitory computer readable storage medium, for example, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

Another embodiment of the present application also provides a computer program product comprising instructions. The computer program product, when run on a computer or processor, causes the computer or processor to perform one or more steps of any of the methods described above.

Claims (17)

1. A method for generating information, applied to a first device, the method comprising:

displaying a reminding frame, wherein the reminding frame is obtained by the first equipment through scanning information of information broadcast by the second equipment and is used for reminding a user of authorization to request the information, the scanning information of the information is used for requesting to generate the information, and the information is used for indicating the infection risk level of the user in the aspect of infectious diseases;

responding to authorization operation input by a user, and sending a request message to a first server, wherein the request message carries scanning information of the information;

and receiving the information sent by the first server.

2. The method for generating information according to claim 1, wherein before the displaying of the reminder frame, the method for generating information further comprises:

and judging that the scanning information of the information belongs to information related information, wherein the information related information is information according to which the information is requested.

3. The method for generating information according to claim 1 or 2, characterized in that after the displaying of the reminder frame, the method for generating information further comprises:

and if the authorization operation input by the user is not received and the times of neglecting the scanning information of the information received by the first equipment in the first preset time period by the user are judged to reach a threshold value, neglecting the scanning information of the information received by the first equipment in the second preset time period.

4. A method of generating information according to any one of claims 1 to 3, wherein the sending a request message to the first server comprises:

the request message is sent to an information applet, and the information applet sends the request message to a big data center, wherein the big data center is used for managing information;

or sending the request message to the big data center.

5. The method according to any one of claims 1 to 4, wherein the receiving the information transmitted by the first server includes:

and receiving the information sent by the information applet or the big data center.

6. The method according to any one of claims 1 to 5, wherein the first device is configured with an application program, the displaying a reminder box, transmitting a request message to a first server in response to an authorization operation input by a user, and receiving the information transmitted by the first server, includes:

After the application program receives the scanning information of the information, the first electronic device is controlled to display a reminding frame, a request message is sent to a first server in response to the authorization operation input by a user, and the information sent by the first server is received.

7. The method according to any one of claims 1 to 6, characterized in that after said receiving the information transmitted by the first server, further comprising:

and displaying the information, and/or sending the information to large screen equipment, a vehicle-mounted terminal or an intelligent screen, and displaying the information by the large screen equipment, the vehicle-mounted terminal or the intelligent screen.

8. A method for generating information, applied to a second device, the method comprising:

broadcasting scan information of information for requesting generation of the information for indicating a user's infection risk level in terms of infectious diseases; the scan information of the information may be received by the first device, which requests the information from the first server using the scan information of the information.

9. The method for generating information according to claim 8, wherein before the scanning information of the broadcast information, the method for generating information further comprises:

Authenticating that the second device has the right to broadcast the scanning information of the information.

10. The method for generating information according to claim 8 or 9, wherein before the scanning information of the broadcast information, the method for generating information further comprises:

and determining that the second equipment meets the requirement of the geofence by using the scanning information of the information and the geographic address information of the second equipment.

11. The method according to any one of claims 8 to 10, characterized in that before scanning information of the broadcast information, the method further comprises:

and determining that the current moment is in the broadcasting time period of the scanning information of the information.

12. The method of claim 9, wherein authenticating that the second device has the right to broadcast the scan information of the information, comprises:

the identity information of the second equipment is sent to a second server, and the second server authenticates whether the second equipment has the authority of broadcasting the scanning information of the information by utilizing the identity information of the second equipment to obtain an authentication result;

and receiving an authentication result sent by the second server.

13. The method for generating information according to claim 10, wherein the determining that the second device meets the geofence requirement by using the scan information of the information and the geographic address information of the second device comprises:

transmitting the scanning information of the information and the geographic address information of the second equipment to a second server, and judging whether the second equipment meets the requirement of the geographic fence by using the scanning information of the information and the geographic address information of the second equipment by the second server to obtain a judging result;

and receiving the judging result sent by the second server.

14. The method according to any one of claims 8 to 13, wherein the second electronic device is configured with an application program, and the scan information of the broadcast information includes:

the application program controls the second electronic equipment to broadcast the scanning information of the information.

15. The method according to any one of claims 8 to 14, characterized in that after scanning information of the broadcast information, the method further comprises:

receiving the information sent by the first equipment;

And displaying the information, controlling the opening of the access control equipment, and/or sending the information to the large screen equipment, and displaying the information by the large screen equipment.

16. An electronic device, wherein the electronic device is a first electronic device or a second electronic device, the electronic device comprising: one or more processors, memory, and a wireless communication module;

the memory and the wireless communication module being coupled with the one or more processors, the memory being for storing computer program code comprising computer instructions which, when executed by the one or more processors, perform the method of generating information as claimed in any one of claims 1 to 15.

17. A computer-readable storage medium for storing a computer program, which, when executed, is adapted to carry out the method of generating information according to any one of claims 1 to 15.

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