CN110934345A - Electronic device, registration interaction system and registration interaction method - Google Patents

Abstract

The application relates to a registration interaction system, which comprises a server and an electronic device. The electronic device comprises a display, a wireless communication module, a control module and a storage module. A display is disposed at a first surface of the device. A wireless communication module is disposed within the device. A control module is disposed within the electronic device and is configured to control the display and the wireless communication module. A storage module is disposed within the device. One or more programs stored in the storage module that, when executed by the control module, cause the electronic device to: displaying a plurality of input boxes in the display, wherein the plurality of input boxes provide the user input user information; transmitting the user information to the server; first state information is received from the server.

Description

Electronic device, registration interaction system and registration interaction method

Technical Field

The present application relates generally to an electronic device, a system and a method of registration interaction, and more particularly to an electronic device, system and method of identifying a user identity and a user age.

Background

In modern society, automation facilities often cannot effectively identify users, for example, current registration systems only store sensitive information and non-sensitive information of users, but cannot identify whether users meet specific conditions (such as nationality or age) for using products. This can lead to the illicit use of the service or purchase of the product by an ill-conditioned user. Such a drawback would make the application of the identification system much more limited.

Accordingly, the present disclosure provides an electronic device, system and method for identifying the identity and age of a user to solve the above problems. Furthermore, the present disclosure can also be applied to pairing of electronic devices and products, thereby optimizing the user experience.

Disclosure of Invention

The disclosure provides a registration interaction system, which includes a server and an electronic device. The electronic device comprises a display, a wireless communication module, a control module and a storage module. A display is disposed at a first surface of the device. A wireless communication module is disposed within the device. A control module is disposed within the electronic device and is configured to control the display and the wireless communication module. A storage module is disposed within the electronic device. One or more programs stored in the storage module that, when executed by the control module, cause the electronic device to: displaying a plurality of input boxes in the display, wherein the plurality of input boxes provide the user input user information; transmitting the user information to the server; receiving first state information from the server, the first state information instructing the server to determine that the user information corresponds to first pre-stored information and to determine that second pre-stored information associated with the first pre-stored information is greater than a second threshold; and initiating a wireless communication procedure of the wireless communication module in response to the first status information.

The present disclosure provides an electronic device, which includes a display, a wireless communication module, a control module, and a storage module. A display is disposed at a first surface of the device. A wireless communication module is disposed within the device. A control module is disposed within the electronic device and is configured to control the display and the wireless communication module. A storage module is disposed within the device. One or more programs stored in the storage module that, when executed by the control module, cause the electronic device to: displaying a plurality of input boxes in the display, wherein the plurality of input boxes provide user input user information; transmitting the user information to an external system; receiving first state information associated with user information from the external system; and initiating a wireless communication procedure of the wireless communication module in response to the first status information.

The disclosure provides a registration interaction method, which includes: displaying a plurality of input boxes in a display of an electronic device, wherein the plurality of input boxes provide the user input user information; transmitting the user information to a server; receiving first state information from the server, the first state information instructing the server to determine that the user information corresponds to first pre-stored information and to determine that second pre-stored information associated with the first pre-stored information is greater than a second threshold; and initiating a wireless communication procedure of the wireless communication module in response to the first status information.

Drawings

Aspects of the present application are readily understood from the following detailed description when read in conjunction with the accompanying drawings. It should be noted that the various features may not be drawn to scale and that the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.

FIG. 1 illustrates a schematic diagram of an interactive system according to some embodiments of the present application.

Figure 2 is an architectural schematic diagram of an electronic cigarette according to some embodiments of the present application.

Fig. 3A-3Q illustrate schematic diagrams of a user interface of an electronic device according to some embodiments of the present application.

Fig. 4 illustrates a flow diagram of an identity recognition method according to some embodiments of the present application.

FIG. 5A illustrates a schematic diagram of a user interface of an electronic device, according to some embodiments of the present application.

Figure 5B is a schematic diagram of an interaction between an electronic cigarette and an electronic device according to some embodiments of the present application.

Fig. 5C-5H illustrate schematic diagrams of user interfaces of electronic devices according to some embodiments of the present application.

Figure 6 illustrates a flow diagram of an electronic cigarette and electronic device interaction method, in accordance with some embodiments of the present application.

Common reference numerals are used throughout the drawings and the detailed description to refer to the same or like components. The features of the present application will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

Detailed Description

The following disclosure provides many different embodiments, or examples, for implementing different features of the provided subject matter. Specific examples of components and arrangements are described below. Of course, these are merely examples and are not intended to be limiting. In addition, the present application may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

Embodiments of the present application are discussed in detail below. It should be appreciated, however, that the present application provides many applicable concepts that can be embodied in a wide variety of specific contexts. The particular embodiments discussed are merely illustrative and do not limit the scope of the application.

The existing system for identifying the identity of the user may cause the situation of wrong determination, or even cause the illegal use of the service or the purchase of the product by the user with improper conditions. Such a drawback would make the application of the identification system much more limited.

The disclosure provides an electronic device, an interactive system and a registration interaction method. The user identity is more strictly identified by judging whether the user information corresponds to the pre-stored information and whether the other pre-stored information of the pre-stored information exceeds a threshold value, so that the situation of wrong identity identification is effectively avoided.

In some embodiments of the present application, the electronic atomizer device, also referred to as an electronic cigarette, comprises an electronic atomizer device body, also referred to as a tobacco rod, and an electronic atomizer, also referred to as a cartridge. In some embodiments of the present application, the cartridge and the tobacco rod are separate, separate structural components, and the cartridge is pluggable to the tobacco rod. The cartridge and the tobacco rod are combined to form the electronic cigarette. In some embodiments of the present application, the cartridge and the tobacco rod are an integrally formed structural member.

Fig. 1 illustrates a schematic diagram of an interactive system 1 according to some embodiments of the present application. As shown in fig. 1, the interactive system 1 includes an electronic cigarette 9, an electronic device 10, a server 11, a server 12, and a database 13.

Fig. 2 is an architecture diagram of an electronic cigarette 9 according to some embodiments of the present application. The electronic cigarette 9 includes a cartridge 91 and a tobacco rod 92. The cartridge 91 comprises a heating circuit 911, the heating circuit 911 being arranged to heat the liquid smoke or similar nebulizable substance stored in the cartridge 91 into a nebulized state so that it can be drawn in by the user. The smoke rod 92 includes a main control circuit 923, an indicator light 926 and a battery 927. The battery 927 serves as a power source for supplying power to the electronic cigarette 9 when the electronic cigarette 9 is in operation.

In some embodiments of the present application, the smoke rod 92 further comprises a charging circuit 928. The charging circuit 928 is used for connecting an external power source to charge the battery 927. The charging circuit 928 may include a USB-Type C (a universal serial bus interface specification) interface through which an external power source is connected to charge the battery 927. It should be noted that the specific form of the charging circuit 928 is not limited to the above.

It should be noted that, in the embodiment of the present application, the high level and the low level are different logic levels having opposite voltage values, and are high when the voltage is between V1 and V2, and low when the voltage is between V3 and V4, where V1 is not less than V4. For example, 0 to 0.25V may be set as the low level and 3.5V to 5V as the high level, but the present invention is not limited thereto and may be determined in accordance with actual circumstances.

In some embodiments of the present application, as shown in FIG. 2, the tobacco rod 92 further includes a motor 922. The main control circuit 923 controls the motor 922 to operate in the alert mode when detecting that the cartridge 91 and the rod 92 are in the engaged state, that is, the motor 922 vibrates after time TM 1. For example, the motor 922 may be controlled to vibrate for 9 times 0.5s after the cartridge 91 and the tobacco rod 92 are in the combined state, and the vibration time is 40 ms. The time and the mode of the vibration of the motor 922 are not limited to the above, and may be selected according to actual conditions. Through the vibration of the motor 922, the user is informed and reminded that the cartridge 91 and the tobacco rod 92 are combined and can be used normally. It should be noted that the motor 922 and the indicator 926 both belong to a reminding device, and are used for reminding the user that the electronic cigarette operates in different states in different modes. The electronic cigarette 9 may also include other reminding devices, for example, a display screen may be arranged in the electronic cigarette 9 to remind the user through icons, dynamic images, or texts. In some embodiments of the present application, the reminder device further comprises a sounder and a vibrator (vibrator).

In some embodiments of the present application, the cartridge 91 further includes an authentication circuit 912. When the cartridge 91 and the cigarette rod 92 are not engaged, the main control circuit 923 is electrically disconnected from the authentication circuit 912. When the cartridge 91 is engaged with the cigarette rod 92, the main control circuit 923 is electrically connected to the authentication circuit 912. The authentication circuit 912 includes a resistor that characterizes taste information of the cartridge 91. When the cartridge 91 and the cigarette rod 92 are in a combined state, the connection pin of the main control circuit 923 forms an electrical connection loop with the resistor. According to the difference of the resistance value of the resistor in each cartridge 91, the main control circuit 923 determines the level of the connection pin corresponding to the resistor, and determines cartridges 91 with different tastes according to different levels. For example, when the resistance is 2 ohms, it is characterized that a grapefruit flavor cartridge 91 is associated with the tobacco rod 92. When the resistance is 4 ohms, it is characterized that a mint flavored cartridge 91 is associated with the tobacco rod 92. It should be noted that the resistance of the specific resistor and the corresponding taste of the cartridge 91 are not limited thereto. The determination can be made according to actual conditions.

In some embodiments of the present application, as shown in fig. 2, the tobacco rod 92 further includes an airflow sensor 921. The air flow sensor 921 is electrically connected to the main control circuit 923. In some embodiments of the present application, the air flow sensor 921 is activated when the main control circuit 923 detects that the output level of the connection circuit is a high level. In some embodiments of the present application, the air flow sensor 921 is activated when the main control circuit 923 detects that the output level of the connection circuit is low. Wherein, activating the air flow sensor 921 may be powering the air flow sensor 921. The air flow sensor 921 may be initialized so that the air flow sensor 921 is ready for normal detection operation.

In some embodiments of the present application, the user may smoke normally after the cartridge 91 and the tobacco rod 92 are in the engaged state. The airflow sensor 921 detects a change in airflow when the user performs a suction action. When the airflow sensor 921 detects an airflow, that is, when there is an airflow or a change, the airflow sensor 921 outputs a high level, that is, it indicates that the user is sucking, and at this time, the main control circuit 923 controls the heating circuit 911 to heat and atomize the tobacco tar. When the air flow sensor 921 does not detect the air flow, i.e. there is no air flow or change, the air flow sensor 921 outputs a low level, i.e. it indicates that the user has stopped sucking, and the main control circuit 923 controls the heating circuit 911 to stop heating. The main control circuit 923 records a start time TM2 at which the high level is generated when detecting a change from the low level to the high level, and a start time TM3 at which the low level is generated when detecting a next change from the high level to the low level, where a time TM2 during which the user sucks a mouth is TM3-TM2, where TM3 is greater than TM 2. The main control circuit 923 counts up and increments the count value C1, such as by 1, when TM2 is greater than a preset threshold TM 4. Where tm4 may be set to 1s, but is not limited thereto. The main control circuit 923 drives the motor 922 and the indicator lamp to operate in the alert mode when the count value C1 within the preset time TM3 is greater than the preset threshold n. The reminding mode is as follows: the motor 922 vibrates, for example, when the count value C1 of the main control circuit 923 in TM3 is 10 minutes is greater than 15, the main control circuit 923 may drive the motor 922 to vibrate for 1 time after the 15 th suction is finished for 1s, and the vibration time is 40ms, so that the user can be effectively reminded to master the smoking amount, and excessive suction is prevented.

In some embodiments of the present application, the air flow sensor 921 may also output a low level when detecting air flow and a high level when detecting no air flow. The main control circuit 923 may determine whether the user is smoking according to the level information having different logic levels output by the airflow sensor 921, and the specific determination method is not limited to the above.

In some embodiments of the present application, the power supply from the battery 927 to the heating circuit 911 is turned off when the TM2 is greater than TM5 by the main control circuit 923, causing the heating circuit 911 to stop heating. For example, when the TM2 is greater than 5s, the main control circuit 923 turns off the power supply from the battery 927 to the heating circuit 911, and stops the heating circuit 911 from heating. This avoids excessive smoking by the user.

In some embodiments of the present application, as shown in figure 1, the smoker 92 further comprises a memory 924 and wireless communication circuitry 925, the memory 924, the wireless communication circuitry 925 are both electrically connected to the main control circuitry 923. Memory 924 can be used to store information and be read from and written to. The memory 924 stores smoking information including the ID of the cartridge 91, the number of smoking ports, smoking time, and the like.

The wireless communication circuit 925 is used for performing wireless communication. The wireless communication may employ one or more of the following modes: bluetooth, Wi-Fi, 3G (the 3rd Generation, third Generation mobile communication technology), 4G (the 4th Generation, third Generation mobile communication technology), 5G (the 5th Generation, third Generation mobile communication technology), near field communication, ultrasonic communication, ZigBee (ZigBee protocol), RFID (Radio Frequency Identification), and the like. The main control circuit 923 interacts with the electronic device 10 through the wireless communication circuit 925.

The smoke rod 92 may further include an acceleration sensor 929, the acceleration sensor 929 being electrically connected to the main control circuit 923. In some embodiments of the present application, the acceleration sensor 929 is activated when the main control circuit 923 detects that the output level of the connection circuit is a high level. In some embodiments of the present application, the air flow sensor 929 is activated when the main control circuit 923 detects that the output level of the connection circuit is low. Wherein, the acceleration sensor 929 may be activated to supply power to the airflow sensor 929. The acceleration sensor 929 may be initialized so that the acceleration sensor 929 is ready to perform a normal detection operation.

In some embodiments of the present application, the main control circuit 923 obtains acceleration information of the acceleration sensor 929, and starts the wireless communication circuit 925 when an acceleration value included in the acceleration information is greater than a preset threshold value a 1. The acceleration value includes at least one of an acceleration value in an X-axis direction, an acceleration value in a Y-axis direction, or an acceleration value in a Z-axis direction in a coordinate system. The acceleration sensor 929 may be a G-sensor (gravity sensor), but is not limited thereto. Wherein the user's shaking motion of the electronic cigarette 9 can be represented by the acceleration value being greater than the preset threshold value a 1. For example, when the wireless communication circuit 925 includes a bluetooth module and performs wireless communication using the bluetooth module, the main control circuit 923 starts the bluetooth module and transmits a broadcast signal through the bluetooth module when the obtained acceleration value is greater than the preset threshold value a 1. In addition, if the user performs a shaking motion again, the indicator light 926 will flash again 15 times. At this time, the user can perform bluetooth matching with the electronic cigarette 9 through the electronic device 10, and perform bluetooth communication after matching is successful. The main control circuit 923 may transmit the smoking information stored in the memory 924 to the intelligent terminal (e.g., the electronic device 10) through bluetooth communication. The APP (Application) dedicated to the electronic device 10 performs data analysis according to the received smoking information, so as to better guide the user to control, replace, quit smoking, and the like.

In some embodiments of the present application, the authentication circuit 912 includes a cryptographic chip (not shown). The encryption chip stores encrypted data information of the cartridge 91, and the data information includes a unique ID number, a cartridge taste, a cartridge oil amount, and the like. The main control circuit 923 includes a decryption module corresponding to the encryption chip, and the decryption module includes a decryption chip. The decryption module is configured to decrypt the encrypted information when the cartridge 91 and the cartridge 92 are in a combined state, send decryption success information after decryption is successful, and send decryption failure information after decryption is failed. Upon receiving the decryption failure information, the main control circuit 923 disconnects power between the battery 927 and the heating circuit 911. If the decryption success message is received, the main control circuit 923 drives the indicator 926 to flash 3 times, and drives the motor 922 to shake 3 times. The main control circuit 923 starts the bluetooth module to transmit the broadcast signal after successfully decrypting the encrypted data information acquired from the encryption chip.

Referring to fig. 1, the electronic device 10 turns on bluetooth and matches with the electronic cigarette 9, and receives data information sent by the electronic cigarette 9 after matching is successful. The electronic device 10 transmits the data information to the server 11, and the server 11 is used for transmitting the analyzed and processed information about the electronic cigarette 9 to the electronic device 10. The electronic device 10 displays the data information of the cartridge 91, including the taste of the cartridge, the number of suction ports per day, the number of suction ports per week, the number of suction ports per month, the cumulative number of suction ports, the amount of smoke remaining, etc., through the dedicated APP, and displays the data information as a graph. The remaining amount of the smoke may be calculated from the cumulative number of the suction ports of the cartridge 91.

In some embodiments of the present application, when the electronic cigarette 9 and the electronic device 10 are in a bluetooth connection state, the "stop heating" touch control on the dedicated APP is activated by the user, the electronic device 10 obtains the "stop heating" instruction, and sends the "stop heating" instruction to the main control circuit 923 through the bluetooth communication link, after receiving the "stop heating" instruction, the main control circuit 123 disconnects the power supply of the battery 927 to the heating circuit 911, and the heating circuit 911 stops heating. Even if the airflow sensor 921 detects an airflow and outputs a high level, that is, a user performs suction, the heating circuit 911 is not powered, that is, the heating circuit 911 cannot heat the soot.

The electronic device 10 includes a display 101, an image capturing device 102, a control module 103, a storage module 104, and a wireless communication module 105. Fig. 1 is merely exemplary in nature and does not represent that the components described above must be configured in accordance with fig. 1.

The display 101 may be disposed on a surface of the electronic device 10. The display 101 may display different user interface (userinterface) modes. Display 101 may provide user input information and display 101 may display information. The electronic device 10 may provide the user with an authentication procedure. In some embodiments, the authentication procedure may be an identification procedure of the user. The display 101 may be a touch screen.

The control module 103 is disposed within the electronic device 10 and is configured to control the display 101 and the image acquisition device 102. The image capturing device 102 is located on the surface of the electronic device 10 and adjacent to the display 101. The control module 103 can execute an application program and perform image acquisition through the image acquisition device 102. The control module 103 may be communicatively coupled to the server 11. The control module 103 can be communicatively coupled to the server 11 via the wireless communication module 105. One or more programs are stored in the storage module 104, the one or more programs configured to be executed by the control module 103, the one or more programs may be associated with any action controlled, initiated or initiated, etc. by the control module 103. The execution by the control module 103 causes the electronic device 10 to perform control, initialization or startup, etc. operations. The storage module 104 is disposed within the electronic device 10 and is communicatively coupled to the control module 103. The storage module 104 may store information input by a user. The storage module 104 can store image data. The storage module 104 may store information from the server 11. In some embodiments, user information (e.g., sensitive information) entered by a user is not stored in the storage module 104. In some embodiments, the electronic device 10 comprises a cell phone, a computer, a smart wearable device (e.g., a smart watch), a tablet, or the like.

The electronic device 10 may be connected to the server 11 via a communication network. In some embodiments, the electronic device 10 and the server 11 may be connected via wired communication. In certain embodiments, the electronic device 10 and the server 11 may be connectable via wireless communication technology. The electronic device 10 and the server 11 may be connected to each other via various communication technologies including, but not limited to, for example, ethernet, fibre channel over ethernet (FCoE), peripheral component interconnect express (PCIe), Advanced Host Controller Interface (AHCI), bluetooth, WiFi, and cellular data services such as GSM, CDMA, GPRS, WCDMA, EDGE, CDMA2000, or LTE, or a combination thereof. The server 11 and the server 12 may be connected via a communication network. The server 11 may include a cache. A cache may store information. The cache of the server 11 may store information entered by a user at the user interface of the electronic device 10. The server 11 may receive image data acquired by the electronic device 10. The cache of the server 11 may store the acquired image data.

The server 12 may include an interface. The server 11 and the server 12 may be communicatively connected via an interface. The Interface of the server 12 may be an Application Programming Interface (API). The electronic device 10 may transmit the acquired image data to the server 12 via the server 11.

In certain embodiments, database 13 has stored pre-stored picture information P1 associated with the user. In certain embodiments, database 13 has stored pre-stored information PM1 associated with the user. The pre-stored information PM1 may include sensitive data for the user including name, identification number, date of birth, etc. The pre-stored information PM1 may include non-sensitive data for the user, including cell phone numbers, post office box account numbers, and the like. In some embodiments, access to the user information UM1 is required to make a data request to the database 13. In some embodiments, the image data IM1 is accessed to request data from the database 13. In some embodiments, a key access on behalf of the user information UM1 is required to make a data request to the database 13. In certain embodiments, the database 13 may be an authoritative data source. The database 13 may be connected only with the server 12 via a communication network. In some embodiments, there is no direct connection between the database 13 and the server 11.

The server 12 may request the database 13 to provide pre-stored information PM1 associated with the user. Server 12 may request database 13 to provide pre-stored picture information P1 associated with the user.

In some embodiments, the server 12 determines whether the image data IM1 obtained by the electronic device 10 is the same as or corresponds to the pre-stored picture information P1. In some embodiments, the data of the whole or partial region of the captured image data IM1 is compared with the whole or partial region of the pre-stored picture information P1, and when the error value between the two is smaller than the threshold T1 or the similarity between the two is greater than the threshold T2, it is determined that the image data IM1 is the same as or corresponding to the pre-stored picture information P1.

In some embodiments, the server 12 determines whether the user information UM1 is the same as or corresponds to the pre-stored information PM 1. When the image data IM1 is identical to or corresponds to the pre-stored picture information P1 and the user information UM1 is identical to or corresponds to the pre-stored information PM1, the server 12 transmits a status value S1 (for example, status value S1 is 1) representing "identity correspondence" to the server 11. When the status is not the same or not corresponding, the server 12 transmits the status value S2 (e.g., status value S2 is 0) representing "identity not corresponding" to the server 11.

In certain embodiments, the server 12 requests the database 13 to provide pre-stored information PM2 associated with the pre-stored information PM 1. The server 12 determines whether the pre-stored information PM2 is greater than or equal to a threshold T3. When the pre-stored information PM2 is greater than or equal to the threshold T3, the server 12 transmits a status value S3 (e.g., status value S3 is 1) representing "eligibility" to the server 11. When the pre-stored information PM2 is smaller than the threshold T3, the server 12 transmits the status value S4 (e.g., status value S4 is 0) representing "non-eligibility" to the server 11.

When the server 11 receives the status values S1 and S3, the server 11 can transmit the status information SM1 to the control module 103 of the electronic device 10 for reception. When the server 11 receives the state value S2 or the state value S4, the server 11 may transmit the state information SM2 to the control module 103 of the electronic device 10 for reception.

In some embodiments, the server 11, the server 12, and the database 13 may establish a cloud system. In some embodiments, server 11 and server 12 may collectively be considered a primary server. In some embodiments, the server 11 may be a service layer (service layer) in the cloud. In some embodiments, the server 12 may be a service layer (servicelayer) in the cloud. In some embodiments, the database 13 may be a data source layer.

Fig. 3A-3Q illustrate schematic diagrams of a user interface of an electronic device according to some embodiments of the present application. Fig. 3A-3Q illustrate user interfaces 30A-30Q displayed by the display 101 of the electronic device 10.

As shown in fig. 3A, the electronic device 10 may include a display 101, an image capturing device 102, a control module 103 (not shown), a storage module 104 (not shown), a wireless communication module 105 (not shown), a housing 106, and a main button 107. The display 101 is disposed on a surface of the housing 106. The image capture device 102 is disposed on a surface of the housing 106 and adjacent to an edge of the housing 106. The control module 103 is disposed inside the electronic device 10. The storage module 104 is disposed inside the electronic device 10.

The selection image or the selection virtual button represented by the present disclosure may be an area defined by a user touching the image or the virtual button with a finger. The selection image or virtual button represented by the present disclosure may be an area defined by a user touching the image or virtual button with a stylus. The selection of an image or selection of a virtual button as represented by the present disclosure may be any means by which a user interacts with the display 101.

The control module 103 may control the display 101 to display the user interfaces 30A-30Q (shown in fig. 3A-3Q). As shown in fig. 3A, the display 101 displays a user interface 30A, the user interface 30A including an image 301 that displays a representative illustration of the proprietary APP. The user interface 30A includes a virtual button 302 and a virtual button 303, and when the user selects the virtual button 302 or the virtual button 303, the control module 103 controls the display 101 to display the user interface 30B shown in fig. 3B. User interface 30A includes image 304, image 305, and image 306. The user may stop the display 101 from displaying the user interface 30A when the user selects the image 304. In some embodiments, the user may cause the display 101 to display a default user interface of the electronic device 10 when selecting the image 304. The image 305 dynamically represents the communication quality of the electronic device 10. The image 306 dynamically represents the power of the electronic device 10. The user may cause the display 101 to display a default user interface of the electronic device when selecting the home button 107.

As shown in fig. 3B, the display 101 displays a user interface 30B, and the user interface 30B includes an input box 307, a virtual keyboard 308, virtual buttons 309, an input box 310, and virtual buttons 311. Input box 307 may include text prompting the user to enter registration information RM 1. The registration information RM1 may be non-sensitive information such as a mobile phone number, an email address, or an account number of the communication software, etc. Virtual keyboard 308 provides for the user to enter user information UM2 into input box 307. When the user selects the virtual button 309 after inputting the registration information RM1, the control module 103 transmits the registration information RM1 to the server 11, and the server 11 transmits the authentication code VC1 to the device associated with the user information UM2 in response to the registration information RM 1. In some embodiments, the device associated with the user information UM2 may be the electronic device 10. After the user inputs the authentication code VC1 into the input box 310, the user can select the virtual button 311, and the control module 103 controls the display 101 to display the user interface 30D as shown in fig. 3D.

As shown in fig. 3C, the display 101 displays a user interface 30C, which is similar to the user interface 30B except that a virtual button 312 replaces the virtual button 309. When the user selects the virtual button 312, the server 12 retransmits the authentication code VC2 to the device associated with the user information UM 1. In some embodiments, authentication code VC1 is different from authentication code VC 2.

As shown in fig. 3D, the display 101 displays a user interface 30D, the user interface 30D including an image 313, an image 314, an image 315, a virtual button 316, and a virtual button 317. Image 313 includes text alerting the user, such as "warning: the product contains nicotine with high addictive substance, and is only suitable for adult. "and the like. Image 314 shows a representative illustration of the proprietary APP. Image 315 includes text alerting the user such as privacy terms, statements, and the like. When the user has viewed the image 315 and has selected the virtual button 316, the virtual button 317 will be in a selectable state when the virtual button 316 is selected. When the virtual button 316 is not selected, the virtual button 317 is in a non-selectable state. When the user selects the virtual button 317, the control module 103 controls the display 101 to display the user interface 30E as shown in fig. 3E.

As shown in fig. 3E, the display 101 displays a user interface 30E, the user interface 30E including an image 318 and virtual buttons 319. Image 318 includes a prompt to use proprietary APP. When the user selects the virtual button 319, the control module 103 controls the display 101 to display the user interface 30F as shown in fig. 3F.

As shown in FIG. 3F, the display 101 displays a user interface 30F, the user interface 30F including input boxes 320 and 324 and a virtual button 325. The input boxes 320-324 respectively accompany the text prompt user to input the user data UD1 corresponding to the text prompt to the user data UD 5. In some embodiments, user data UD1 through user data UD5 may each include different sensitive information, such as the user's nationality, birthday, name, and so on. In certain embodiments, user data UD1 through user data UD5 may each include different non-sensitive information, such as a user's email address, home address, and so forth. After the user has entered the user data UD1 through UD5 in the corresponding input boxes 320 through 324, the virtual button 325 will be in an optional state. When the user selects the virtual button 325, the control module 103 controls the display 101 to display the user interface 30G as shown in fig. 3G. Fig. 3F is merely an example, and the user interface 3F may include more input boxes to allow the user to input more user information according to the requirement. The user interface 3F may include fewer input boxes to allow the user to input less user information on demand. In some embodiments, the combination of user data UD1 to user data UD5 may be user information UM 1. The present disclosure will be described with the user information UM1 as the main term.

As shown in fig. 3G, the display 101 displays the user interface 30G. User interface 30G is similar to user interface 30F, except that user interface 30G further includes an image 326 in the center of user interface 30G. Graph 326 may be a graph representing "in process". When the display 101 displays the user interface 30G, the control module 103 transmits the user information UM1 to the server 12 via the server 11. The server 12 may request the pre-stored information PM1 associated with the user information UM1 and the pre-stored information PM2 associated with the pre-stored information from the database 13 in response to the user information UM 1. The server 12 analyzes and compares the pre-stored information with the pre-stored information PM 1. In certain embodiments, the server 12 may select one or more of the user data UD1 through UD5 to be analytically compared with the pre-stored information PM 1.

In some embodiments, the server 11 may transmit secret information SM1 representing the user information UM1 to the server 12. The server 12 may access the database 13 by means of the secret information SM1 to request the pre-stored information PM1 associated with the user information UM 1. The server 12 may access the database 13 by means of the secret information SM1 to request the pre-stored information PM2 associated with the pre-stored information. When the server 11 receives the state value S1 and the state value S3, the control module 103 controls the display 101 to display the user interface 30H. When the server 11 receives the state value S2 or the state value S4, the server 11 may transmit the state information SM2 to the control module 103 of the electronic device 10, and the control module 103 controls the display 101 to display the user interface 30I as shown in fig. 3I.

As shown in fig. 3H, the display 101 displays a user interface 30H, the user interface 30H including an image 327 and a virtual button 328. The icon 327 includes an icon or text indicating "authentication successful". When the user selects the virtual button 328, the control module 103 controls the display 101 to display a home screen of the dedicated APP. In some embodiments, when the user selects the virtual button 328, the control module 103 controls the display 101 to display the user interface 50A as shown in FIG. 5A. In some embodiments, control module 103 may initiate a wireless communication flow of wireless communication module 105 when the user selects virtual button 328.

As shown in FIG. 3I, display 101 displays user interface 30I, user interface 30I including image 329 and virtual buttons 330. Image 329 includes an icon or text indicating "authentication failed". When the user selects the virtual button 330, the control module 103 controls the display 101 to display the user interface 30J as shown in fig. 3J. In some embodiments, the control module 103 may initiate an image data acquisition process of the image acquisition device 102 when the user selects the virtual button 328.

As shown in fig. 3J, the display 101 displays a user interface 30J, and the user interface 30J includes an image 331, virtual buttons 331a, 331b, 331c, and an image 332. The icon 331 includes a text or icon indicating that "the user has to select one of the buttons 331a to 331 c". The virtual buttons 331a to 331c are each accompanied by icons or characters representing different official documents. The official document may be a driver's license, an identity card or passport, etc. When the user selects one of the virtual buttons 331a to 331c, the control module 103 controls the display 101 to display the user state 30K as shown in fig. 3K. When the user selects the image 332, the control module 103 controls the display 101 to display a sub-picture for the user to select nationality.

As shown in fig. 3K, the display 101 displays a user interface 30K, and the user interface 30K includes a virtual area 333, an image 334, an image 335a, and an image 335 b. Image 334 includes an exemplary view of an official document. The image 334 is located in the virtual area 333. When the user's touch 336 occurs in the virtual area 333, the control module 103 controls the display 101 to display the user status 30L as shown in fig. 3L.

As shown in fig. 3L, the display 101 displays a user interface 30L, the user interface 30L being similar to the user interface 30K, except that the user interface 30L further includes a sub-screen 337. The sub screen 337 includes an image 337a, an image 337b, an image 337c, and a virtual button 337 d. The image 337a includes text or icons representing activation of the image capture device 102. The image 337b includes text or icons representing the collection of pictures read from the storage module 104. Image 337c includes text or icons representing data to view storage module 104. When the user selects the image 337a, the control module 103 controls the display 101 to display the user status 30M as shown in fig. 3M and starts the image capturing device 102. When the user selects the virtual button 337d, the control module 103 controls the display 101 to display the user state 30K as shown in fig. 3K.

As shown in fig. 3M, the display 101 displays a user interface 30M, the user interface 30M including a region 338, a virtual button 339, an image 340, an image 341, and an image 342. Area 338 displays the live image of image capture device 102. When the user selects the virtual button 339, the image obtaining device 102 obtains the image data IM1, and the controller controls the display 101 to display the user status 30N as shown in fig. 3N. The image 340 includes two icons, and the user can select one of the two icons to control the image capturing device 102 to switch between the photographing mode and the photographing mode by the control module 103. When the user selects the image 341, the control module 103 displays the user status 30K as shown in FIG. 3K on the display 101. When the user selects image 342, control module 103 deactivates image capture device 102 and activates another image capture device (not shown) on the other side of housing 106.

As shown in FIG. 3N, the display 101 displays a user interface 30N, the user interface 30N including a region 343, an image 344, and an image 345. Area 343 displays image data IM1 for user review. When the user selects image 344 the control module 103 controls the display 101 to display the user state 30M as shown in fig. 3M. When the user selects the image 345, the control module 103 controls the display 101 to display the user state 30O as shown in FIG. 3O.

As shown in FIG. 3O, the display 101 displays a user interface 30O, the user interface 30O including a region 346, virtual buttons 347 and 348. Area 346 displays image data IM1 for user review. When the user selects the virtual button 347, the control module 103 controls the display 101 to display the user state 30M as shown in fig. 3M. When the user selects the image 348 the control module 103 controls the display 101 to display the user state 30P as shown in fig. 3P.

As shown in fig. 3P, the display 101 displays a user interface 30P, the user interface 30P including an image 349. The image 349 may be a diagram representing "in process". When the display 101 displays the user interface 30P, the control module 103 transmits the image data IM1 to the server 11. The server 11 can transmit the image data IM1 to the server 12. After the image data IM1 is transmitted to the server 12, the server 11 sends back a command indicating "upload successful" to the control module 103. In response to the instruction representing "upload successful", the control module 103 controls the display 101 to display the user status 30Q as shown in fig. 3Q. In some embodiments, the server 11 may analyze the image data IM1 to retrieve sensitive information on the image data IM1 and transmit the sensitive information to the server 12.

As shown in fig. 3Q, the display 101 displays a user interface 30Q, the user interface 30Q including an image 350. The graph 350 may be a diagram representing "in process". When the display 101 displays the user interface 30Q, the image data IM1 and the pre-stored information PM1 and PM2 of the database 13 can be compared by an external terminal through an artificial or Artificial Intelligence (AI) method. When the comparison result is successful, the external terminal returns a "comparison success" message to the server 12 or the server 11, and the server 11 or the server 12 sends a corresponding message to the controller 13 to control the display 101 to display the user interface 30H. When the analysis result is failure, the external terminal returns the "failure to compare" message to the server 12 or the server 11, and the server 11 or the server 12 sends the corresponding message to the controller 13 to control the display 101 to display the user interface 30I shown in fig. 3I.

Fig. 4 illustrates a flow diagram of a registration interaction method 4 according to some embodiments of the present application. The flowchart of fig. 4 shows operations that are continuously performed in the interactive system 1 as described in fig. 1.

In operation 401, the user inputs registration information RM1 on the display 101 of the electronic device 10. The display 101 displays the user interface 30B. The control module 103 receives the registration information RM1 and transmits the user information UM1 to the server 11, and the server 11 transmits the authentication code VC1 to the device associated with the registration information RM1 in response to the registration information RM 1. In some embodiments, the device associated with the registration information RM1 may be the electronic device 10.

In operation 402, the user enters an authentication code VC 1' on display 101 into input box 310 of user interface 30B 2.

In operation 403, the control device confirms whether the authentication code VC 1' input by the user is identical to the authentication code VC1 transmitted by the server. When the same, the method proceeds to operation 404. When there is a difference, the method proceeds to operation 402.

In operation 404, the control module 103 controls the display 101 to display the user interface 30D. After the user has viewed the image 315 of the user interface 30D and selected the virtual button 316, the user may select the virtual button 317 and the method proceeds to operation 405.

In operation 405, the user inputs user information UM1 (user data UD1 through user data UD5) on the display 101.

In operation 406, the control module transmits the user information UM1 to the server 12 via the server 11. The server 12 requests the return of the pre-stored information PM1 associated with the user information UM1 to the database 13. In some embodiments, the pre-stored information PM1 may include sensitive information corresponding to the user information UM1, such as nationality, name and/or birthday, etc. The server 12 requests the return of the pre-stored information PM2 associated with the pre-stored information PM1 to the database 13. The pre-stored information PM2 may be sensitive information associated with the pre-stored information PM1, such as age. The server 12 determines whether the user information UM1 is the same as or corresponds to the pre-stored information PM 1. When the correspondence is determined, the server 12 transmits a status value S1 (for example, a status value S1 is 1) representing "identity correspondence" to the server 11. When the status is not the same or not corresponding, the server 12 transmits the status value S2 (e.g., status value S2 is 0) representing "identity not corresponding" to the server 11. The server 11 may transmit the state value S1 or the state value S2 to the control module 103 of the electronic device 10. The server 12 determines whether the pre-stored information PM2 is greater than or equal to a threshold T3. When the pre-stored information PM2 is greater than or equal to the threshold T3, the server 12 transmits a status value S3 (e.g., status value S3 is 1) representing "eligibility" to the server 11. When the pre-stored information PM2 is smaller than the threshold T3, the server 12 transmits the status value S4 (e.g., status value S4 is 0) representing "non-eligibility" to the server 11. The server 11 may transmit the state value S3 or the state value S4 to the control module 103 of the electronic device 10. When the server 11 receives the status values S1 and S3, the server 11 may transmit the status information SM1 to the control module 103 of the electronic device 10. When the server 11 receives the state value S2 or the state value S4, the server 11 may transmit the state information SM2 to the control module 103 of the electronic device 10. In some embodiments, the state information SM1 is associated with user information UM 1. The state information SM2 is associated with the user information UM1, where the state information SM1 is different from the state information SM 2. When both the state value S1 and the state value S3 are present, the method proceeds to operation 407. When the co-existence state value S1 and the state value S4, the co-existence state value S2 and the state value S4 are present, the method proceeds to operation 408.

In operation 407, the control module 103 controls the display to display the user state 30H in response to the state information SM 1. The control module 103 initiates a wireless communication flow of the wireless communication module 105 in response to the state information SM 1.

In operation 408, the control module 103 initiates a picture data acquisition procedure of the picture acquisition device 102 in response to the status information SM 2. The image acquisition device 103 of the electronic device 10 acquires the image data IM1 of the user, and the image data IM1 includes official documents of the user. The control module 103 transmits the image data IM1 to the server 11. The server 11 transmits the image data IM1 to the server 12.

In operation 409, the image data IM1 is analyzed by manual or AI. The server 11 may transmit the image data IM1 to the terminal device to enable a third person to perform manual comparison or AI comparison, and determine whether the sensitive information of the image data IM1 corresponds to the pre-stored information PM1 of the database 13. When corresponding, it is further determined whether the pre-stored information PM2 of the database 13 is greater than the threshold T3. In some embodiments, the server 12 may transmit the image data IM1 to the terminal device so that a third person can compare the image data IM1 with the pre-stored information PM1 of the database 13 to determine whether the sensitive information of the image data IM1 corresponds to the sensitive information. When corresponding, it is further determined whether the pre-stored information PM2 of the database 13 is greater than the threshold T3. When the sensitive information of the image data IM1 corresponds to the pre-stored information PM1 and the pre-stored information PM2 is greater than the threshold T3, the method proceeds to operation 410. When the sensitive information of the image data IM1 corresponds to the pre-stored information PM1 and the pre-stored information PM2 is greater than the threshold T3, the server 11 may transmit the state information SM1 to the control module 103 of the electronic device 10.

In operation 410, the control module 103 controls the display to display the user status 30H in response to the status information SM 1.

FIG. 5A illustrates a schematic diagram of a user interface of the electronic device 10, according to some embodiments of the present application.

As shown in fig. 5A, the electronic device 10 may include a display 101, an image capturing device 102, a control module 103 (not shown), a storage module 104 (not shown), a wireless communication module 105 (not shown), a housing 106, and a main button 107. The display 101 is disposed on a surface of the housing 106. The image capture device 102 is disposed on a surface of the housing 106 and adjacent to an edge of the housing 106. The control module 103 is disposed inside the electronic device 10. The storage module 104 is disposed inside the electronic device 10.

The control module 103 may control the display 101 to display the user interface 50A. The user interface 30A includes an image 501 and an image 502. The image 501 includes an icon representing an "e-cigarette". The image 502 includes a textual description of the step of wirelessly pairing the e-cigarette 9 with the electronic device 10.

Fig. 5B is a schematic diagram of interaction between the electronic cigarette 9 and the electronic device 10 according to some embodiments of the present application. When a user holds the electronic cigarette 9 and shakes the electronic cigarette, the acceleration sensor 929 of the electronic cigarette 9 generates acceleration information, and when an acceleration value included in the acceleration information is greater than a preset threshold a1, the wireless communication circuit 925 is started.

In some embodiments of the present application, the main control circuit 923 obtains acceleration information of the acceleration sensor 929, and starts the wireless communication circuit 925 when an acceleration value included in the acceleration information is greater than a preset threshold value a 1. Wherein the user's shaking motion of the electronic cigarette 9 can be represented by the acceleration value being greater than the preset threshold value a 1. For example, when the wireless communication circuit 925 includes a bluetooth module and performs wireless communication using the bluetooth module, the main control circuit 923 starts the bluetooth module and transmits a broadcast signal through the bluetooth module when the obtained acceleration value is greater than the preset threshold value a 1.

Fig. 5C-5H illustrate schematic views of a user interface of the electronic device 9 according to some embodiments of the present application.

As shown in figure 5C, user interface 50C is similar to user interface 50A except that when wireless communication circuit 925 is activated, user interface 50C includes an image 503 representing the serial number of the e-cigarette. The image 503 corresponds to the ID of the e-cigarette. The ID of the e-cigarette may be a media access control address (MAC address) printed on the tobacco rod 92. The user selects the image 503 and the controller controls the display to display the user interface 50D as in fig. 5D.

As shown in fig. 5D, the display 101 displays a user interface 50D, and the user interface 50D is similar to the user interface 50C, except that it further includes a sub-screen 504 for the user to confirm again whether to perform bluetooth pairing on the electronic device 10 and the electronic cigarette 9. After the user confirms that the pairing is performed, the electronic device performs bluetooth matching with the electronic cigarette 9, and performs bluetooth communication after the matching is successful, and the controller 103 controls the display 101 to display the user interface 50E.

As shown in fig. 5E, the display 101 displays a user interface 50E, the user interface 50E includes an image 505, and the controller 103 controls the display 101 to display the user interface 50F when the user selects the image 505.

As shown in fig. 5F, the display 101 displays a user interface 50F, and the user interface 50F may be a home screen of the proprietary APP, which includes an image 506, an image 507, an image 508, an image 509, and an image 510. The image 506 shows the cumulative time the user used the e-cigarette 9. Image 507 displays smoking information for the e-cigarette including taste, number of daily draws, number of weekly draws, and number of monthly draws, among others. The icon 508 includes an icon representing "unlock/lock", and the control module 103 controls the display 101 to display the user interface 50G when the user selects the icon 508. When the user selects the image 508, the control module 103 sends an instruction to the wireless communication circuit 925 of the e-cigarette. The main control circuit 923 controls the battery 927 to supply power to the heating circuit 911 or stop supplying power to the heating circuit 911 in response to the instruction. In response to the instruction, the heating function of the electronic cigarette 9 may be enabled (enable) or disabled (disable). When the heating function of the electronic cigarette 9 is disabled, the main control circuit 923 does not supply power to the heating circuit 911 even if the user inhales the electronic cigarette 9.

The icon 509 includes an icon representing "bluetooth communication," and when the user selects the icon 509, the user may selectively disable the bluetooth communication between the electronic device 10 and the electronic cigarette 9. The image 510 dynamically displays the power of the e-cigarette.

As shown in fig. 5G, the display 101 displays a user interface 50G, the user interface 50G being similar to the user interface 50F except that the user interface 50G further includes a sub-screen 511 providing a user confirmation whether to unlock the e-cigarette 9. When the user confirms to unlock the electronic cigarette 9, the controller controls the display 101 to display the user interface 50H.

As shown in fig. 5H, the control module 103 of the electronic device 10 transmits the start signal STM1 to the main control circuit 923 of the electronic cigarette 9 to control the battery 927 to supply power to the heating circuit 911. When the airflow sensor 921 of the electronic cigarette 9 senses the airflow, the main control circuit 923 controls the heating circuit 911 to heat. The display 101 displays a user interface 50G, the user interface 50G including a dynamic image 512 that displays the real-time cumulative time that the user smoked the e-cigarette.

Figure 6 illustrates a flow diagram of a method 6 of interacting an electronic cigarette 9 with an electronic device 10, according to some embodiments of the present application. The flowchart of fig. 6 shows operations continuously performed in the interactive system 1 as described in fig. 1.

In operation 601, when the server 11 may transmit the state information SM1 to the control module 103 of the electronic device 10, the control module 103 may initiate a wireless communication procedure of the wireless communication module 105. The control module 103 activates the wireless communication module 105 to detect the wireless communication signal WS1 from the electronic cigarette 9. The control module 103 of the electronic device 10 controls the display 101 to display the user interface 50A as shown in fig. 5A.

In operation 602, when the user shakes the electronic cigarette 9, the acceleration sensor 929 of the electronic cigarette 9 generates acceleration information, and when an acceleration value included in the acceleration information is greater than a preset threshold a1, the wireless communication circuit 925 is activated. Wireless communication circuit 925 may send wireless communication signal WS1 to the external environment. In some embodiments, the wireless communication signal of the e-cigarette 9 may be a bluetooth broadcast signal. For example, when the wireless communication circuit 925 includes a bluetooth module and performs wireless communication using the bluetooth module, the main control circuit 923 starts the bluetooth module and transmits a broadcast signal through the bluetooth module when the obtained acceleration value is greater than the preset threshold value a 1.

In operation 603, after the wireless communication module 105 of the electronic device 10 receives the wireless communication signal WS1, the wireless communication module 105 transmits a message indicating "received" to the control module 103, and the control module 103 controls the display to display the user interface 50C as shown in fig. 5C, and displays the serial number corresponding to the ID of the e-cigarette 9 on the display 101 for the user to select.

In operation 604, after the user selects the serial number corresponding to the ID of the electronic cigarette 9, the wireless communication process of the wireless communication module 105 is completed, and the electronic cigarette 9 and the electronic device 10 start bluetooth communication. The user must select the serial number before bluetooth communication is performed, so that the electronic device 10 is prevented from performing bluetooth communication with other electronic cigarettes belonging to other users.

In operation 605, the user may initiate a home screen of the proprietary APP (e.g., user interface 50F as shown in fig. 5F). The special APP of the electronic device 10 performs data analysis according to the received smoking information to better guide the user to control, replace, quit smoking, and the like. The smoking information may include information including a smoke cartridge taste, a daily number of puffs, a weekly number of puffs, a monthly number of puffs, an accumulated number of puffs, a remaining amount of smoke, etc., and is displayed as a graph.

In operation 606, the user can control the unlocking or locking of the electronic cigarette 9 through the home screen of the dedicated APP. When the user selects the unlock function, the control module 103 of the electronic apparatus 10 transmits the start signal STM1 to the main control circuit 923 of the electronic cigarette 9 via bluetooth communication. Main control circuit 923 responds to start signal STM1 and starts the heating function of electron cigarette, makes battery 927 to the power supply of heating circuit 911, and air flow sensor 921 detects the air current and exports the high level, and the user sucks, and main control circuit 923 control heating circuit 911 heats, atomizes the tobacco tar. When the user selects the locking function, the control module 103 of the electronic device 10 transmits the disabling signal STM2 to the main control circuit 923 of the electronic cigarette 9 via bluetooth communication, the main control circuit 923 responds to the disabling signal STM2 to disable the heating function of the electronic cigarette, the power supply of the battery 127 to the heating circuit 111 is cut off, and the heating circuit 911 stops heating. Even if the airflow sensor 921 detects the airflow and outputs a high level, that is, the user sucks, the main control circuit does not control the heating circuit to heat, and the heating circuit 911 is not powered, that is, the heating circuit 911 cannot heat the tobacco tar. In some embodiments, the state of the e-cigarette is locked by default.

In operation 607, the control module 103 controls the display 101 to display a user interface 50H as in fig. 5H, which dynamically displays the cumulative time that the user smoked the e-cigarette. The user can better guide the user to control, replace, quit smoking and the like according to the dynamically displayed accumulated time for smoking the electronic cigarette.

In some embodiments, the registration method 4 and the interaction method 6 may be combined into a registration interaction method, for example, when the registration method 4 proceeds to operation 408 or operation 410, the user may choose to start to perform operations 601-607 of the interaction method 6. The present disclosure can avoid the third person stealing the sensitive information of the user by determining whether the status value of "corresponding to identity" of the user is the status value S1 and whether the status value of "qualified" of the user is the status value S3 by the registration method 4. On the other hand, when the determination cannot be made by the server 12, the user is provided with another method to input the image data of the official document and transmit the image data to the terminal, so that the worker can perform manual authentication or machine AI authentication, and a new customer can be attracted to use the service or purchase the product. The interactive method 6 can provide the smoking information of the user to the user so that the user can effectively control smoking, replace smoking and quit smoking. The interaction method 6 enables the electronic cigarette 9 and the electronic device 10 to be unlocked for smoking only after the Bluetooth pairing is performed, and can effectively prevent a third person from misusing the electronic cigarette 9 owned by the user.

As used herein, the terms "approximately," "substantially," "essentially," and "about" are used to describe and account for minor variations. When used in conjunction with an event or circumstance, the terms can refer to an instance in which the event or circumstance occurs precisely as well as an instance in which the event or circumstance occurs in close proximity. As used herein with respect to a given value or range, the term "about" generally means within ± 10%, ± 5%, ± 1%, or ± 0.5% of the given value or range. Ranges may be expressed herein as from one end point to another end point or between two end points. Unless otherwise specified, all ranges disclosed herein are inclusive of the endpoints. The term "substantially coplanar" may refer to two surfaces located within a few micrometers (μm) along the same plane, e.g., within 10 μm, within 5 μm, within 1 μm, or within 0.5 μm located along the same plane. When referring to "substantially" the same numerical value or property, the term can refer to values that are within ± 10%, ± 5%, ± 1%, or ± 0.5% of the mean of the stated values.

As used herein, the terms "approximately," "substantially," "essentially," and "about" are used to describe and explain minor variations. When used in conjunction with an event or circumstance, the terms can refer to an instance in which the event or circumstance occurs precisely as well as an instance in which the event or circumstance occurs in close proximity. For example, when used in conjunction with numerical values, the terms can refer to a range of variation that is less than or equal to ± 10% of the stated numerical value, e.g., less than or equal to ± 5%, less than or equal to ± 4%, less than or equal to ± 3%, less than or equal to ± 2%, less than or equal to ± 1%, less than or equal to ± 0.5%, less than or equal to ± 0.1%, or less than or equal to ± 0.05%. For example, two numerical values are considered to be "substantially" or "about" the same if the difference between the two numerical values is less than or equal to ± 10% (e.g., less than or equal to ± 5%, less than or equal to ± 4%, less than or equal to ± 3%, less than or equal to ± 2%, less than or equal to ± 1%, less than or equal to ± 0.5%, less than or equal to ± 0.1%, or less than or equal to ± 0.05%) of the mean of the values. For example, "substantially" parallel may refer to a range of angular variation of less than or equal to ± 10 ° from 0 °, e.g., less than or equal to ± 5 °, less than or equal to ± 4 °, less than or equal to ± 3 °, less than or equal to ± 2 °, less than or equal to ± 1 °, less than or equal to ± 0.5 °, less than or equal to ± 0.1 °, or less than or equal to ± 0.05 °. For example, "substantially" perpendicular may refer to a range of angular variation of less than or equal to ± 10 ° from 90 °, e.g., less than or equal to ± 5 °, less than or equal to ± 4 °, less than or equal to ± 3 °, less than or equal to ± 2 °, less than or equal to ± 1 °, less than or equal to ± 0.5 °, less than or equal to ± 0.1 °, or less than or equal to ± 0.05 °.

For example, two surfaces may be considered coplanar or substantially coplanar if the displacement between the two surfaces is equal to or less than 5 μm, equal to or less than 2 μm, equal to or less than 1 μm, or equal to or less than 0.5 μm. A surface may be considered planar or substantially planar if the displacement of the surface relative to the plane between any two points on the surface is equal to or less than 5 μm, equal to or less than 2 μm, equal to or less than 1 μm, or equal to or less than 0.5 μm.

As used herein, the singular terms "a" and "the" may include plural referents unless the context clearly dictates otherwise. In the description of some embodiments, a component provided "on" or "over" another component may encompass the case where the preceding component is directly on (e.g., in physical contact with) the succeeding component, as well as the case where one or more intervening components are located between the preceding and succeeding components.

As used herein, spatially relative terms, such as "below," "lower," "above," "upper," "lower," "left," "right," and the like, may be used herein for ease of description to describe one component or feature's relationship to another component or feature as illustrated in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present.

The foregoing summarizes features of several embodiments and detailed aspects of the present disclosure. The embodiments described in this disclosure may be readily used as a basis for designing or modifying other processes and structures for carrying out the same or similar purposes and/or obtaining the same or similar advantages of the embodiments introduced herein. Such equivalent constructions do not depart from the spirit and scope of the present disclosure and various changes, substitutions, and alterations can be made therein without departing from the spirit and scope of the present disclosure.

Claims (24)

1. A registration interaction system, comprising:

a server; and

an electronic device, comprising:

a display disposed at a first surface of the electronic device;

a wireless communication module disposed within the electronic device;

a control module disposed within the electronic device and configured to control the display and the wireless communication module; and

a storage module disposed within the electronic device;

one or more programs stored in the storage module that, when executed by the control module, cause the electronic device to:

displaying a plurality of input boxes in the display, wherein the plurality of input boxes provide user input user information;

transmitting the user information to the server;

receiving first state information from the server, the first state information instructing the server to determine that the user information corresponds to first pre-stored information and to determine that second pre-stored information associated with the first pre-stored information is greater than a second threshold; and

initiating a wireless communication procedure of the wireless communication module in response to the first status information.

2. The system of claim 1, further comprising an electronic cigarette comprising:

a main control circuit, an acceleration sensor and a wireless communication circuit,

wherein the acceleration sensor generates acceleration information and transmits the acceleration information to the main control circuit when the electronic cigarette is shaken, and

wherein the main control circuit activates the wireless communication circuit to transmit a wireless communication signal when the acceleration value included in the acceleration information is greater than a first threshold value.

3. The system of claim 2, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

receiving the wireless communication signal from the electronic cigarette with the wireless communication module;

displaying, on the display, a serial number associated with the electronic cigarette in response to the wireless communication signal;

and after the user selects the serial number, the wireless communication module completes the wireless communication process.

4. The system of claim 3, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

transmitting a first starting signal to the main control circuit to start the heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit controls the heating circuit to heat.

5. The system of claim 3, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

transmitting a first disable signal to the main control circuit to disable a heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit does not control the heating circuit to heat.

6. The system of claim 4, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

controlling the display to display a second user interface, wherein the second user interface comprises a real-time accumulated usage time of the electronic cigarette.

7. The system of claim 3, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

control the display to display a third user interface associated with smoking information of the e-cigarette,

wherein the third user interface comprises a cumulative usage time or number of uses of the electronic cigarette.

8. The system of claim 1, wherein the electronic device further comprises an image acquisition device, and wherein the electronic device further performs the following when the one or more programs are executed by the control module;

receiving second state information from the server, the second state information instructing the server to determine that the user information does not correspond to the first pre-stored information or to determine that second pre-stored information associated with the first pre-stored information is less than a second threshold;

and initiating an image data acquisition process of the image acquisition device in response to the second state information.

9. The system of claim 8, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

acquiring image data of the user by the image acquisition device, wherein the image data comprises official documents of the user; and

and transmitting the image data to the server.

10. The system of claim 9, wherein the server transmits the image data to an external terminal device for manual or Artificial Intelligence (AI) comparison.

11. An electronic device, comprising:

a display disposed at a first surface of the electronic device;

a wireless communication module disposed within the electronic device;

a control module disposed within the electronic device and configured to control the display and the wireless communication module; and

a storage module disposed within the electronic device;

one or more programs stored in the storage module that, when executed by the control module, cause the electronic device to:

displaying a plurality of input boxes in the display, wherein the plurality of input boxes provide user input user information;

transmitting the user information to an external system;

receiving first state information associated with the user information from the external system; and

initiating a wireless communication procedure of the wireless communication module in response to the first status information.

12. The device of claim 11, further comprising an electronic cigarette comprising:

a main control circuit, an acceleration sensor and a wireless communication circuit,

wherein the acceleration sensor generates acceleration information and transmits the acceleration information to the main control circuit when the electronic cigarette is shaken, and

wherein the main control circuit activates the wireless communication circuit to transmit a wireless communication signal when the acceleration value included in the acceleration information is greater than a first threshold value.

13. The device of claim 12, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

receiving the wireless communication signal from the electronic cigarette with the wireless communication module;

displaying, on the display, a serial number associated with the electronic cigarette in response to the wireless communication signal;

and after the user selects the serial number, the wireless communication module completes the wireless communication process.

14. The device of claim 13, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

transmitting a first starting signal to the main control circuit to start a heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit controls the heating circuit to heat.

15. The device of claim 13, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

transmitting a first disable signal to the main control circuit to disable a heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit does not control the heating circuit to heat.

16. The device of claim 11, wherein the electronic device further comprises an image acquisition device, and wherein the electronic device further performs the following when the one or more programs are executed by the control module;

receiving second state information associated with the user information from the external system;

initiating an image data acquisition procedure of the image acquisition device in response to the second status information,

wherein the first state information is different from the second state information.

17. The device of claim 16, wherein the electronic device further performs the following when the one or more programs are executed by the control module:

acquiring image data of the user by the image acquisition device, wherein the image data comprises official documents of the user; and

and transmitting the image data to the external system.

18. A method of registration interaction, comprising:

displaying a plurality of input boxes in a display of an electronic device, wherein the plurality of input boxes provide the user input user information;

transmitting the user information to a server;

receiving first state information from the server, the first state information instructing the server to determine that the user information corresponds to first pre-stored information and to determine that second pre-stored information associated with the first pre-stored information is greater than a second threshold; and

initiating a wireless communication procedure of the wireless communication module in response to the first status information.

19. The method of claim 18, further comprising:

receiving a wireless communication signal from an electronic cigarette with a wireless communication module of the electronic device;

displaying, on the display, a serial number associated with the electronic cigarette in response to the wireless communication signal;

and after the user selects the serial number, the wireless communication module completes the wireless communication process.

20. The method of claim 19, further comprising:

transmitting a first starting signal to a main control circuit of the electronic cigarette to start a heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit controls the heating circuit to heat.

21. The method of claim 19, further comprising:

transmitting a first disable signal to the main control circuit to disable a heating function of the electronic cigarette;

when the airflow sensor of the electronic cigarette senses airflow, the main control circuit does not control the heating circuit to heat.

22. The method as recited in claim 18, and further comprising:

receiving second state information from the server, the second state information instructing the server to determine that the user information does not correspond to the first pre-stored information or to determine that second pre-stored information associated with the first pre-stored information is less than a second threshold;

and responding to the second state information to initiate an image data acquisition process of an image acquisition device of the electronic device.

23. The method of claim 22, further comprising:

acquiring image data of the user by the image acquisition device, wherein the image data comprises official documents of the user; and

and transmitting the image data to the server.

24. The method of claim 23, wherein the server transmits the image data to an external terminal device for manual or Artificial Intelligence (AI) comparison.

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