Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, 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, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise, and "a" and "an" typically include at least two, but do not exclude the presence of at least one.
It should be understood that although the terms first, second, third, etc. may be used to describe XXX in the embodiments of the present application, these XXX should not be limited to these terms. These terms are only used to distinguish XXX from each other. For example, a first XXX may also be referred to as a second XXX, and similarly, a second XXX may also be referred to as a first XXX, without departing from the scope of embodiments of the present application. The words "if", as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to a monitoring", depending on the context. Similarly, the phrase "if it is determined" or "if it is monitored (a stated condition or event)" may be interpreted as "when determining" or "in response to determining" or "when monitoring (a stated condition or event)" or "in response to monitoring (a stated condition or event)", depending on the context.
It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.
The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.
Fig. 1 is a schematic structural diagram of a heated non-combustible tobacco product management system according to an embodiment of the present application. As shown in fig. 1, the system includes: a security chip 101 and a tobacco heating device 102. Wherein:
the anti-counterfeiting chip 101 is arranged on a tobacco product, a tobacco box containing a plurality of tobacco products, or a tobacco box;
the tobacco heating equipment 102 comprises a verification device 10211, and is used for reading data information corresponding to the anti-counterfeiting chip 101 through the verification device and verifying the data information; and configuring the tobacco product activation information when the data information is verified and a tobacco product activation instruction triggered by a user is monitored.
In specific implementation, the anti-counterfeit chip 101 may be a 13.56Mhz dynamic ID encryption NFC tag chip, and the chip has characteristics of a general NFC tag chip, and besides, a unique dynamic ID encryption/decryption algorithm and an anti-copy characteristic thereof, which can ensure the highest security of tag information. In addition, the verification device arranged in the tobacco heating equipment can be a dynamic decryption chip matched with the anti-counterfeiting chip. The system method can avoid the circulation of counterfeit and shoddy HNB tobacco products in the market, effectively protect the national revenue and the profits of tobacco manufacturers, and avoid the damage of the counterfeit and shoddy HNB tobacco products to human bodies.
It should be noted that: the anti-counterfeiting chip and the decryption chip matched with the anti-counterfeiting chip arranged in the tobacco heating equipment can be designed in a sleeve piece mode, the production serial number in the Abits UID arranged in the chip is a globally unique production serial number, and when the chip is produced, the matched anti-counterfeiting chip and the decryption chip can be recorded with the same manufacturer code (namely the manufacturer code of the tobacco product and the manufacturer code of the tobacco heating equipment), so that after the dynamic anti-counterfeiting encryption check is passed, the decryption chip can read the information in the anti-counterfeiting chip to compare and analyze, and the authenticity of the product can be confirmed or other information of the tobacco product can be recorded. The production serial number and the manufacturer code which are arranged in the anti-counterfeiting chip can be used for product traceability besides anti-counterfeiting. The anti-counterfeit chip 101 may be disposed on a single tobacco product, or may be disposed on a tobacco box or a box, which is not particularly limited in this embodiment. The tobacco heating device can be integrated in the storage bin of the tobacco heating device.
Further, referring to fig. 2, the system further includes a server device 103, configured to store the tobacco product activation information after receiving the tobacco product activation information sent by the tobacco heating device, so as to prepare for performing a subsequent statistical task on the tobacco product; correspondingly, the tobacco heating device 102 is further configured to send the tobacco product activation information to the server device 103.
The server device 103 may be set in the local, network side server, cloud, etc. The servers referred to in the embodiments herein may be physical servers or virtual servers deployed on a single server or a cluster of servers.
Further, the authentication apparatus 10211 includes: the reading module 102111 is configured to read data information corresponding to the anti-counterfeit chip in a non-contact sensing manner; and the decryption module 102112 is connected to the reading module, and is configured to decrypt the data information and verify the decrypted data to obtain a verification result.
Further, the tobacco heating apparatus 102 further comprises: a heated tobacco rod 102122 for heating the inserted tobacco product; a storage box 1021, on which a containing bin 10212 for placing the heating tobacco rod is arranged; and a charging device 10213 disposed in the storage case 1021; wherein the authentication means 10211 is provided on the cassette 1021; when the data information is verified and a user-triggered tobacco product activation instruction is monitored, the verification device 10211 sends the tobacco product activation information to the cigarette heating rod 102122 so that the cigarette heating rod 102122 performs a corresponding heating task according to the tobacco product activation information.
Wherein, be equipped with electric connection 102121 in holding storehouse 10212, when heating cigarette pole 102122 was arranged in holding storehouse 10212, heating cigarette pole 102122 is connected with electric connection 102121, charging device 10213 is through electric connection 102121 for heating cigarette pole 102122 charges.
Further, the tobacco heating apparatus further comprises: a human-computer interaction device 1022; the human-computer interaction device 1022 is used for displaying inquiry information of whether to activate the corresponding tobacco product when the data information is verified; in response to an activation operation triggered by the user for the inquiry information, generating the tobacco product activation indication, as shown in fig. 3(a), which is a simplified appearance diagram of the tobacco heating device, the human-computer interaction device 1022 may be a display screen of the tobacco heating device; fig. 3(b) is an architectural view of a tobacco heating device.
Further, the tobacco heating apparatus further comprises: an information acquisition device 1023; and an information collecting device 1023, arranged on the collecting box, for collecting the biological identification information of the user when the user is determined to activate the device. The information collecting device 1023 may be a fingerprint collecting device, a camera, an iris collecting device, a voiceprint collecting device, or the like, which is not limited in this embodiment.
In an implementation of the above, a client device 104 may be added. The tobacco heating apparatus 102 is specifically configured to send the data information to the client apparatus 104 when verifying the data information. Correspondingly, the client device 104 is configured to upload the data information to the server device 103. Correspondingly, the server device 103 is further configured to verify the data information, and feed back the verification result to the client device, so that the client device 104 feeds back the verification result to the tobacco heating device 102.
Further, the client device 104 is further configured to read data information corresponding to the anti-counterfeit chip 101 in response to a tobacco product verification operation triggered by a user; and sending the data information to the server-side device 103. Correspondingly, the server device 103 is further configured to verify the data information to obtain the verification result; sending the verification result to the client device 104, so that the client device 104 outputs prompt information perceivable by the user.
Further, in the system provided in this embodiment, the tobacco heating device 102 may be communicatively connected to the server device 103 through the client device 104; when the tobacco heating device is used to send the tobacco product activation information to the server device, the tobacco heating device may be specifically configured to: sending the tobacco product activation information to the client device for sending the tobacco product activation information to the server device by the client device.
Further, the client device 104 is further configured to output prompt information about a non-genuine tobacco product associated with the anti-counterfeit chip when the data information corresponding to the anti-counterfeit chip 101 is not successfully read within a set time period.
Further, the client device 104 is further configured to, in response to an identity information input operation triggered by a user, obtain identity information of the user; identifying whether the user is a group of people suitable for using the tobacco heating apparatus 102 based on the identity information; and acquiring the consumption code corresponding to the user when the user is a crowd suitable for using the tobacco heating equipment. The consumption code corresponding to the user may be generated by a client device or a server device, which is not specifically limited in this embodiment. Specifically, in the case where the consumption code is generated by the client device, the generation rule or policy local to the client device may be configured by the server device; after the client device generates the consumption code, the client device can send the consumption code to the server device. And under the condition that the consumption code is generated by the server equipment, the client equipment sends the identity information of the user to the server equipment, the server equipment generates the corresponding consumption code for the user according to the identity information, stores the consumption code, and can obtain the consumption code from the server equipment through the client equipment used by the user and display the consumption code on the client equipment when the user needs to use the function.
Further, the client device 104 is further configured to successfully read the data information corresponding to the anti-counterfeit chip within a set time period, and output prompt information that the tobacco product corresponding to the anti-counterfeit chip cannot be activated when the tobacco product corresponding to the anti-counterfeit chip is activated for use.
In a scenario where a consumer purchases a tobacco product and/or a tobacco heating device, the system provided by this embodiment may further include: a device 105 for use by a seller of tobacco products and/or tobacco heating devices. The apparatus used by the seller of tobacco products and/or tobacco heating apparatus may be a cash register apparatus for use by sales personnel, such as a designated point of sale, an off-line store, an e-commerce or the like. The cashier device may comprise: cash register and sweep a yard rifle or read a yard equipment etc. supporting with cash register. In this scenario, the client device 104 is further configured to obtain the consumption code from the server device in response to a purchase instruction triggered by a user, and display the consumption code. Correspondingly, the device 105 used by the seller of tobacco products and/or tobacco heating devices is used for reading the consumption code and verifying the consumption code, and if the verification result of the consumption code is that the consumption code is valid, the tobacco products and/or tobacco heating devices can be sold to the user; if the consumption code is verified to be invalid, the tobacco product and/or the tobacco heating device may not be sold to the user.
The above-mentioned content provides a scheme for storing the consumption code in the server device, and actually, the corresponding consumption code generated for each user may be dynamic or fixed, which is not limited in this embodiment. In addition, the consumption code may also be stored locally on the user's client device, which is also an implementable solution.
Further, the device 105 used by the seller of tobacco products and/or tobacco heating devices is further configured to obtain identification information of the sold tobacco products and/or tobacco heating devices, and send the identification information to the server device 103; correspondingly, the server device 103 is further configured to store the received identification information of the sold tobacco products and/or tobacco heating devices for subsequent execution of a regulatory task related to the tobacco products and/or tobacco heating devices. In specific implementation, the equipment used by the seller can be a code scanning gun or code reading equipment used by the seller. Sweep and can integrate on yard rifle or the code reading equipment and have NFC reading head module, support to read anti-fake chip information on the tobacco products and/or the NFC label information on the tobacco firing equipment.
In practical applications, the regulatory tasks related to the tobacco product and/or the tobacco heating device may be specifically: the brand classification sales volume, price and consumer age statistics of tobacco products and tobacco heating equipment; the production and sales of the manufacturers of the individual tobacco products and/or tobacco heating apparatuses are regulated.
Further, the client device 104 is further configured to establish personal account information in response to an account registration operation triggered by a user; searching the equipment identifier of the tobacco heating equipment to be added; binding the searched equipment identification with the personal account information to complete the addition of the tobacco heating equipment; and after the adding is successful, sending corresponding message information to the added tobacco heating equipment. Correspondingly, the tobacco heating device 102 is further configured to display a prompt for whether to activate the device after receiving the message information; and when the user is determined to activate the equipment, acquiring the biological identification information of the user, and storing the biological identification information serving as sample information in the local.
In an implementable solution, the tobacco product activation information is a number of heatable tobacco products. Correspondingly, the tobacco heating device 102 is further configured to compare the biometric information with the sample information after detecting the biometric information of the user; if the comparison result is consistent, switching to an awakening state; detecting whether a tobacco product is inserted in an awakened state; if the insertion of the tobacco product is detected, heating is started; after the heating is completed, the number of heatable tobacco products is reduced by a set value.
The specific implementation principles and interaction processes of the constituent elements of the embodiments of the present application, such as the anti-counterfeit chip 101, the tobacco heating device 102, the server device 103, and the client device 104, will be described in more detail in the following embodiments, which can be referred to as the following method embodiments.
Fig. 4 is a schematic flow chart of an information processing method according to another embodiment of the present application, which is executed by the tobacco heating apparatus of fig. 1, and the tobacco heating apparatus heats tobacco products in a non-combustion heating manner; the method comprises the following steps:
401. reading data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
402. verifying the data information;
403. and configuring the tobacco product activation information when the data information is verified and a tobacco product activation instruction triggered by a user is monitored.
In 401 above, the data information may include, but is not limited to, at least one of the following: the manufacturer code of the tobacco product and the globally unique production serial number can be retrieved at the server device according to the production serial number to obtain specific information related to the tobacco product, such as: brand name of the tobacco product, grade, shelf life, manufacturer, storage environment, and number of tobacco products per box or box of tobacco. The anti-counterfeiting chip can be arranged at any position on the tobacco product, or the tobacco box containing a plurality of tobacco products, or the tobacco box.
In some practical applications, the anti-counterfeit chip may be a dynamic encryption anti-counterfeit chip, for example, a dynamic anti-counterfeit chip with an Abits UID is built in, the composition of the dynamic anti-counterfeit chip is shown in fig. 5, the anti-counterfeit chip and a verification device (such as a decryption chip) arranged on the tobacco heating device both have Abits UID, wherein the Abits manufacturer code is included to distinguish different tobacco manufacturers, the bbits function code may be used to distinguish different HNB brand tobacco products of the tobacco manufacturer, the cbits serial number is a production serial number, it is ensured that the serial number of each chip is globally unique and not repeated, and the dbits reserved bit may be used to customize other uses by the tobacco manufacturer.
Optionally, the "verifying the data information" in step 402 includes:
4021. sending the data information to client equipment, so that the client equipment sends the data information to server equipment, the server equipment verifies the data information and feeds back a verification result to the client equipment;
4022. receiving the verification result fed back by the client device;
4023. decrypting the data information to obtain decrypted data;
4024. verifying the decrypted data to obtain a verification result;
4025. when the data information is verified, showing inquiry information of whether to activate the corresponding tobacco product;
4026. generating the tobacco product activation indication in response to an activation operation triggered by a user for the query information.
In 4024, when the data information is verified, the data information can be compared with locally stored data information, and if the locally stored data information has data information consistent with the data information corresponding to the anti-counterfeit chip, the tobacco product can be determined to be genuine; if the locally stored data information does not have data information consistent with the data information corresponding to the anti-counterfeiting chip, the tobacco product can be judged to be a non-genuine product.
In 4025-4026, the inquiry information may be displayed in the form of a popup window on the display screen of the HNB heating apparatus. For example, the query message is "whether to locally activate the use of the tobacco product" displayed in the pop-up window. The user can select whether to activate or not by touching corresponding controls (such as 'activate' and 'deactivate') displayed on the display screen; or whether to activate or not by touching a physical button on the tobacco heating device. And when the verification result is obtained, the HNB heating equipment sends prompt information to prompt whether the tobacco product is a genuine product or a non-genuine product. If the verified tobacco product is a genuine product, the inquiry information can be displayed on a display screen of the tobacco heating equipment, and if the user triggers an activation control, the tobacco heating equipment can monitor a tobacco product activation indication triggered by the user, and the tobacco heating equipment configures the tobacco product activation information.
In one possible embodiment, the tobacco product activation information may be the number of tobacco products that can be continuously heated by the tobacco heating device. That is, "configure tobacco product activation information" in 403, may include:
4031. determining the quantity of tobacco products according to the data information;
4032. configuring the smoking article quantity as the smoking article activation information.
The tobacco product activation information is continuously changed along with the heating quantity of the tobacco products, and the set value is reduced by the tobacco product activation information after the heating task of one tobacco product is completed.
For example, 1 box of the anti-counterfeit label of the tobacco product is read, and the number of the tobacco products in each box is 22, then "22" is the activation information of the tobacco product, that is, the tobacco heating device can heat 22 tobacco products, and the tobacco product activation information is immediately reduced by 1 for each 1 tobacco product heated by the tobacco heating device until the tobacco activation information changes to 0.
In an implementation solution, the information processing method further includes:
4033. after the biological identification information of the user is detected, locally stored sample information is obtained; 4034. comparing the biological identification information with the sample information;
4035. determining whether to switch to an awakening state based on the comparison result;
4036. after the state is determined to be switched to the awakening state, detecting whether a tobacco product is inserted;
4037. detecting the insertion of a tobacco product, a heating task of said inserted tobacco product is initiated.
Further, the information processing method further includes:
4038. establishing a communication connection with a client device;
4039. after receiving message information that the tobacco heating equipment is successfully added and sent by the client, displaying a prompt for activating the equipment;
4040. responding to a device activation instruction triggered by the prompt by the user, and acquiring the biological identification information of the user;
4041. and storing the acquired biological identification information as the sample information locally.
In the above step, the biometric information includes, but is not limited to, one of the following: a user's fingerprint, facial features, iris, voice print, etc.
Further, after the biometric information is collected and stored, the method provided by this embodiment may further include the following steps:
and sending notification information to the client device, so that the client device forwards the notification information to the server device, and then the server device associates the device identifier of the activated tobacco heating device with the identifier information of the user.
Wherein the device identification of the activated tobacco heating device and the identification information of the user can be carried in the notification information.
The above embodiments are illustrative of the present solution from the perspective of a tobacco heating apparatus. The present solution will be further described in the context of a server device. Specifically, fig. 6 is a schematic flow chart of an information processing method according to another exemplary embodiment of the present application. Specifically, the method provided by this embodiment includes:
601. receiving tobacco product activation information sent by tobacco heating equipment;
602. storing the tobacco product activation information for subsequent execution of a statistical task related to the tobacco product;
the tobacco product activation information is configured after data information corresponding to the anti-counterfeiting chip passes verification, and the anti-counterfeiting chip is arranged on a tobacco product, a tobacco box containing a plurality of tobacco products, or a tobacco box.
In the above 602, the counting task may be to count the total number of the tobacco products heated by the tobacco heating device according to the tobacco product activation information; or the tobacco heating apparatus is also used to heat the total quantity of tobacco products.
Further, in order to check whether the tobacco product is genuine, the information processing method further includes:
603. receiving data information corresponding to the anti-counterfeiting chip sent by client equipment;
604. verifying the data information to obtain a verification result;
605. and sending the verification result to the client equipment.
The received identification information of the sold tobacco products and/or tobacco heating devices is stored for subsequent execution of regulatory tasks relating to the tobacco products and/or tobacco heating devices.
The present solution is further described below from the perspective of the client device. Specifically, fig. 7 is a schematic flow chart of an information processing method according to another exemplary embodiment of the present application. Specifically, the method provided by this embodiment includes:
701. responding to the tobacco product verification operation triggered by a user, and reading data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
702. sending the data information to the server-side equipment;
703. receiving a verification result obtained by verifying the data information and fed back by the server-side equipment;
704. and outputting user-perceivable prompt information based on the verification result.
In 704, the prompt message may be divided into various forms, for example: informing the user of 'verification success' or 'verification failure' in a voice playing mode; or display "verification success" or "verification failure" in the form of a block diagram on the client display screen, and the like.
Further, the method further comprises:
705. responding to identity information input operation triggered by a user, and acquiring identity information of the user;
706. identifying whether the user is a population suitable for using the tobacco heating apparatus based on the identity information;
707. and acquiring the consumption code corresponding to the user when the user is a crowd suitable for using the tobacco heating equipment.
In 706, reference criteria may be set for applicable people. For example: males aged 18 years old or older and 50 years old or younger. If the age is not 18 to 50 years old, the tobacco is a person who forbids using the tobacco heating equipment.
In 707, the consumption mark code may have various forms, such as a two-dimensional code, a barcode, etc., and the consumption code includes various information, at least identity information of the user.
Further, the method further comprises:
708. responding to an account registration operation triggered by a user, and establishing personal account information;
709. searching the equipment identifier of the tobacco heating equipment to be added;
710. and binding the searched equipment identification with the personal account information to finish the addition of the tobacco heating equipment.
In 708, when the personal account is established, similar to the operation of registering accounts from various APPs by the user at ordinary times, the user can register and log in by inputting a mobile phone number and a dynamic verification code; or inputting identity information such as name, identification card number, age and the like on a registration page for registration.
The following specifically describes each embodiment provided in the present application with reference to a specific application scenario:
the application scenario relates to the following stages of HNB novel tobacco: an admission declaration phase, a production planning phase, a production manufacturing phase, a sales phase, a verification activation phase and a use phase, which are explained in detail below.
One, admission declaration phase
As shown in fig. 8(a), the process at this stage is as follows: firstly, a tobacco management mechanism issues a production standard and an industry admission method of HNB tobacco commodities, all tobacco manufacturers registered by the tobacco management mechanism participate in admission check, and the tobacco manufacturers meeting the standard obtain corresponding production operation qualification; tobacco manufacturers at all places apply for admission qualification to tobacco management organizations; judging whether the qualification of each part of tobacco manufacturers meets the admission condition, if not, refusing the authorization and proposing the improvement suggestion by the tobacco management mechanism; if the tobacco product meets the admission standard, the tobacco management mechanism issues HNB tobacco product production operation licenses to tobacco manufacturers meeting the admission standard, and the HNB tobacco product production operation licenses enter a HNB tobacco product operation white list of the tobacco management mechanism; and the tobacco management organization formulates a white list catalogue of HNB tobacco commodity manufacturers.
Second, production planning stage
As shown in fig. 8(b), the process at this stage is as follows: a tobacco management mechanism solicits an annual production plan from HNB tobacco commodity white list manufacturers; manufacturers in the white list manufacturer catalog of the tobacco products of the HNB of the tobacco management institution declare the annual production plan of each series of HNB tobacco products; the tobacco management mechanism produces the plan according to every series of HNB tobacco products year that the producer of the white list states; the tobacco management organization compiles a production plan of the HNB tobacco commodities of the year, and plans the anti-counterfeiting chip and decryption chip quantity requirements of HNB tobacco commodities of the whole country of the year; the production schedule of the anti-counterfeiting chip is as follows: the tobacco management mechanism purchases customized NFC anti-counterfeiting chip labels from a chip original factory in batches according to a plan condition; and (4) the original chip factories deliver the NFC anti-counterfeiting chip labels to corresponding HNB tobacco product white list manufacturers in batches. The production schedule for the decryption chip is: the tobacco management mechanism purchases customized NFC decryption chips from the chip original factory in batches according to the plan condition; and the original chip factory delivers the decryption chips to HNB heating equipment white list manufacturers in batches.
Third, the production and manufacturing stage
As shown in fig. 8(c), the production process for the anti-counterfeit chip is as follows: the HNB tobacco product white list producer responsible for producing the anti-counterfeiting chip delivers the corresponding NFC chip to a production line, and the HNB tobacco product begins to be produced; the outer package of each box of tobacco products is pasted with an anti-damage NFC label with a globally unique production number; the outer package of each tobacco product is pasted with a damage-proof NFC label with a globally unique production number, and the label stores globally unique number information of all cigarette cases in the tobacco product; based on the purpose of convenient logistics storage management, a UHF RFID label is attached to the outside of each box of tobacco products, and each warehouse of a production workshop is provided with a specific reading head so as to monitor the position and the production progress of the tobacco product box in real time; and (5) after the production is finished, warehousing for sale.
For the decryption chip, the production process is as follows: HNB heating equipment white list manufacturers start to produce HNB heating equipment; the HNB heating equipment integrates a special decryption chip of the NFC label; the equipment leaves factory for detection and packaging; and (5) after the production is finished, warehousing for sale.
Fourthly, a selling stage
As shown in fig. 8(d), the process at this stage is as follows: local tobacco commodity manufacturers authorize specific tobacco product entity stores to sell various brands of HNB tobacco products and authenticated HNB heating equipment; a consumer enters a store to purchase HNB tobacco products or HNB heating equipment (which can be collectively called as 'HNB tobacco products'); judging whether the consumer is an adult or not, and if the consumer is a minor, refusing to sell HNB tobacco products to the consumer; if the HNB tobacco commodity consumption two-dimensional code is an adult, whether the consumer has the HNB tobacco commodity consumption two-dimensional code or not is continuously judged, if the consumer has the legal HNB tobacco commodity consumption two-dimensional code verified by a system, the HNB tobacco commodity can be sold to the consumer, a special scanning gun is used for reading the HNB tobacco commodity in a non-contact mode before selling, and the selling of the article is confirmed; if the consumer does not have the consumption two-dimension code of the HNB tobacco commodity, the consumer needs to use the terminal equipment to register a personal account in the HNB tobacco commodity APP and generate the consumption two-dimension code; and then, continuously repeating the step of judging whether the consumer consumes the two-dimension code or not by the HNB tobacco commodity (it needs to be explained that each tobacco commodity manufacturer can have a dedicated APP, but background data can be linked to a database of a tobacco management mechanism.
Fifthly, verification and activation phases
In this scenario, the client device is a mobile phone. The cigarette case is provided with an anti-counterfeiting chip; the tobacco heating equipment is hereinafter collectively referred to as HNB heating equipment. The verification device arranged in the HNB heating equipment is a decryption chip matched with the anti-counterfeiting chip. The verification process comprises a verification process of HNB heating equipment and a verification process of HNB tobacco products:
1. referring to fig. 8(e), after the consumer purchases the HNB heating apparatus, the process is as follows: for the first use, HNB heating equipment needs to finish binding and activating with a personal account through HNB tobacco commodity APP; after binding and activation are completed, logging in the HNB tobacco product APP (the personal account needs to be registered first); starting mobile phone Bluetooth, searching and adding new HNB heating equipment to be activated in the HNB tobacco commodity APP, and prompting whether the equipment is activated or not by a HNB heating equipment screen if the new HNB heating equipment is successfully added; after the HNB heating equipment is activated, the HNB heating equipment acquires personal biological identification information (such as fingerprints) of a user; after the logging is finished, storing the personal biological identification information on HNB heating equipment, and normally and legally using the HNB heating equipment when a screen of the HNB heating equipment and an APP (application) of an HNB tobacco commodity prompt equipment are activated; a consumer uses HNB heating equipment to carry out non-contact NFC induction identification on preparation of HNB tobacco products; the subsequent process is the same as that in fig. 8(g) (note that, the HNB heating apparatus may be allowed to change and register under different individual accounts of the HNB tobacco products APP, and if an adult needs to take on HNB tobacco products, the adult must have the HNB heating apparatus activated thereon).
2. Referring to fig. 8(f), after the consumer purchases HNB tobacco products, the two cases are divided: (1) inquiring tobacco products by using a mobile phone NFC; (2) tobacco products are queried without using cell phone NFC.
When using the mobile phone NFC to query tobacco products, the query process is as follows: a consumer opens the HNB tobacco product APP, clicks to inquire the authenticity of the HNB tobacco product, and scans by approaching the HNB tobacco product box with the NFC of the mobile phone; judging whether the NFC scanning is overtime; if the NFC scanning is overtime, the HNB tobacco commodity APP prompts that no tobacco product is detected, and possibly buying a fake HNB tobacco product is prompted; if the NFC scanning is not overtime, reading the label information of the anti-counterfeiting chip on the cigarette case by using the mobile phone NFC, and uploading the label information to a background (i.e., the server device mentioned in the above embodiments, such as a cloud server) for analysis; comparing the analyzed data with the stored data of the background, and if the HNB tobacco commodity APP indicates that the detected tobacco product is a fake tobacco product, uploading the data to the background; if the APP indicates that the detected tobacco products are genuine tobacco products, the APP can be used safely.
When the tobacco product is inquired without using the NFC of the mobile phone, if the consumer has HNB heating equipment and the HNB heating equipment is activated in the personal account of the consumer, the consumer can use the HNB heating equipment to prepare the HNB tobacco product for non-contact NFC induction identification; if the HNB heating device is not activated in the personal account of the consumer, the HNB heating device needs to complete binding and activation with the personal account through the HNB tobacco product APP; if the consumer does not have HNB heating equipment, the consumer needs to enter a store to purchase the HNB heating equipment; and then re-entering the process of judging whether the consumer is an adult or not in the selling stage.
As shown in fig. 8(g), after the consumer uses the HNB heating device to perform the non-contact NFC induction recognition on the HNB tobacco product, the user first needs to click the "new tobacco product authentication and activation" function on the touch screen of the HNB heating device; judging whether HNB heating equipment is networked or not, if not, prompting on an equipment screen by connecting to a mobile phone through Bluetooth (or connecting to a background by utilizing a mobile data communication module of the equipment screen); then judging whether the equipment is successfully connected with the mobile phone, if not, the tobacco product can not be continuously activated; if the HNB is connected, the HNB heats the screen of the equipment to prompt that the equipment is close to the HNB tobacco product box package, and a new tobacco product is scanned.
If the HNB heating equipment is networked, prompting that the equipment is close to an HNB tobacco product box package by a screen of the HNB heating equipment, and scanning a new tobacco product; after the scanning is finished, a display screen of the HNB heating equipment can display the related information of the box of tobacco products; judging whether the scanning is overtime, if so, prompting that no tobacco product is detected on a screen of HNB heating equipment, and prompting that a fake HNB tobacco product is possibly bought; if not, the HNB heating equipment transmits the read NFC label chip UID of the tobacco product to the mobile phone through Bluetooth, uploads the UID to a background for analysis, and returns a verification result to the HNB heating equipment; and prompting whether the tobacco product is a genuine product or not by the HNB heating equipment screen.
If the HNB heating equipment is not genuine, the screen of the HNB heating equipment prompts that the detected fake tobacco product is not used for heating in the HNB heating equipment; if the product is genuine, prompting information (such as brand and production date) of the genuine tobacco product and whether the genuine tobacco product is activated for use by the HNB heating equipment screen; if the tobacco product is not activated and used, the HNB heating equipment screen inquires whether the tobacco product is activated and used locally or not; if the HNB heating equipment is activated, the screen prompt of the HNB heating equipment is activated and cannot be activated again. If the user triggers the non-activation instruction aiming at the fact that whether the tobacco product is activated and used in the local machine or not, prompting the HNB tobacco product information inquiry end by the HNB heating equipment screen; if the activation confirmation indication is triggered, the HNB heating equipment activates the box of HNB tobacco products, and the equipment can continuously heat N HNB tobacco products (for example, a plurality of boxes of HNB tobacco products can be continuously activated, and the quantity of the heatable HNB tobacco products added by the equipment can be integral multiple of 22); and the HNB heating equipment uploads the activation information of the related tobacco product box to the background of the tobacco management mechanism server through a wireless network.
Sixth, using stage
As shown in fig. 8(h), the process at this stage is as follows: after the HNB heating equipment activates the box of HNB tobacco products, the HNB heating equipment is normally started and is in an IDLE state; judging whether the HNB heating equipment is not operated for a long time, if so, entering a standby dormant state by the HNB heating equipment; if not, judging whether to attempt to awaken the HNB heating equipment by using the personal biological identification information, and if not, entering a standby dormant state by the HNB heating equipment; if the HNB heating equipment is awakened by the personal biological identification information, comparing and judging the input personal biological identification information by the HNB heating equipment; judging whether the comparison of the personal biological information is successful or not, and if not, stopping the operation of HNB heating equipment; if the comparison is successful, the equipment is awakened to wait for the next operation; the smoker can insert the HNB tobacco product into the baking bin of the HNB heating equipment and start heating; after heating is finished, the HNB heating equipment automatically reduces the quantity of heatable HNB tobacco products by one; judging whether the HNB heating equipment is not operated for a long time, if so, entering the HNB heating equipment into a dormant state; if not, the HNB heating equipment is awakened to wait for the next operation.
The scheme mainly improves the tobacco products from the aspects of production, manufacture, sale, verification, activation, use and the like, and has the following beneficial effects:
1. the circulation of HNB false tobacco commodities is effectively avoided (the false tobacco product box has no chip label), and if the HNB false tobacco commodities are false cigarettes, the tobacco stems cannot work.
2. The HNB tobacco products and HNB heating equipment only allow the HNB tobacco products to be purchased in HNB tobacco product exclusive shops or shops authorized by tobacco management institutions, and the shop owners need to check and register the identity information of purchasers according to requirements and verify and sell products out of the warehouse in real time during purchasing.
3. A set of perfect background management system is established, and the whole process coverage is carried out in several stages of generation, sale, user use and the like. The chip has a global unique serial number, so that the traceability of the product is realized, once a problem occurs, even the production link can be traced, and the sanitation, safety and reliability of the product are guaranteed.
4. Every adult who prepares to use HNB tobacco commodity needs to carry out age identification authentication on related HNB tobacco commodity APP, registers a personal account number, and during registration, a system extracts biological identification information such as facial features, fingerprints and the like, compares and confirms the biological identification information with background data of a tobacco management mechanism, and avoids that juveniles absorb tobacco products.
5. HNB heating equipment is not allowed to be generated and manufactured privately, and white list enterprises are required to carry out production and sale, so that the regularity of manufacturers is guaranteed. Activation and use of the HNB heating device requires registration of personal information of the adult and upload to the back office. The HNB heating equipment needs to store personal biological identification information of a registrant, such as fingerprints, so that a user is the HNB heating equipment, the biological information can be transmitted from a mobile phone terminal, and the HNB heating equipment can also be used for collecting (and uploading the biological information to a background through a wireless network) so as to prevent juveniles from smoking tobacco products;
6. each box of HNB tobacco products needs to be identified in a non-contact mode by using HNB heating equipment, if the HNB tobacco products need to be used by the current HNB heating equipment, the HNB tobacco products can be selected to be activated and bound to the HNB heating equipment for use, and the authenticity of the HNB tobacco products can be detected only by using a mobile phone or the HNB heating equipment. Before activating the tobacco product, it is necessary to determine whether the HNB tobacco product has been activated for use, and if the HNB tobacco product has been activated, the HNB tobacco product cannot be activated again.
Fig. 9 is a schematic structural diagram of a tobacco heating apparatus according to an embodiment of the present application. Specifically, the apparatus comprises: a reading module 91, a verification module 92, a configuration module 93; wherein,
the reading module 91 is used for reading data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
the verification module 92 is used for verifying the data information;
and the configuration module 93 is configured to configure the tobacco product activation information when the data information is verified and a tobacco product activation instruction triggered by a user is monitored.
Further, the verification module 92 is specifically configured to: decrypting the data information to obtain decrypted data; verifying the decrypted data to obtain a verification result; when the data information is verified, showing inquiry information of whether to activate the corresponding tobacco product; generating the tobacco product activation indication in response to an activation operation triggered by a user for the query information.
Further, the configuration module 93 is specifically configured to: determining the quantity of tobacco products according to the data information; configuring the smoking article quantity as the smoking article activation information; the tobacco product activation information is continuously changed along with the heating quantity of the tobacco products, and the set value is reduced by the tobacco product activation information after the heating task of one tobacco product is completed.
Fig. 10 is a schematic structural diagram of an information processing apparatus according to an embodiment of the present application. Specifically, the apparatus comprises: a receiving module 1001 and a storage module 1002; wherein,
a receiving module 1001 for receiving tobacco product activation information sent by a tobacco heating device;
the storage module 1002 is configured to store the tobacco product activation information for subsequent execution of a statistical task related to the tobacco product;
the tobacco product activation information is configured after data information corresponding to the anti-counterfeiting chip passes verification, and the anti-counterfeiting chip is arranged on a tobacco product, a tobacco box containing a plurality of tobacco products, or a tobacco box.
Fig. 11 is a schematic structural diagram of an information processing apparatus according to an embodiment of the present application. Specifically, the apparatus comprises: a reading module 1101, a sending module 1102, a receiving module 1103, and an output module 1104; wherein
The reading module 1101 is used for responding to a tobacco product verification operation triggered by a user and reading data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
the sending module 1102 is used for sending the data information to the server-side equipment;
the receiving module 1103 receives a verification result obtained by verifying the data information, which is fed back by the server device;
the output module 1104 outputs prompt information perceivable by the user based on the verification result.
Fig. 12 shows a schematic structural diagram of a tobacco heating device provided in an embodiment of the present application. As shown in fig. 8, the apparatus includes: a memory 1201 and a processor 1202; wherein,
the memory 1201 is used for storing programs;
the processor 1202, coupled with the memory, is configured to execute the program stored in the memory to:
acquiring data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
verifying the data information;
and configuring the tobacco product activation information when the data information is verified and a tobacco product activation instruction triggered by a user is monitored.
The memory 1201 described above may be configured to store other various data to support operations on the scheduling device. Examples of such data include instructions for any application or method operating on the scheduling device. The memory 1201 may be implemented by any type or combination of volatile or non-volatile memory devices, such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disks.
When the processor 1202 executes the program in the memory 1201, other functions may be implemented in addition to the above functions, which may be specifically referred to the description of the foregoing embodiments.
Fig. 13 shows a schematic structural diagram of a server device according to an embodiment of the present application. As shown in fig. 9, the apparatus includes: a memory 1301 and a processor 1302; wherein,
the memory 1301 is used for storing programs;
the processor 1302, coupled to the memory, is configured to execute the program stored in the memory to:
acquiring data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
verifying the data information;
and configuring the tobacco product activation information when the data information is verified and a tobacco product activation instruction triggered by a user is monitored.
The processor may also implement other functions besides the above functions, and refer to the description of the foregoing embodiments.
Fig. 14 shows a schematic structural diagram of a client device according to an embodiment of the present application. As shown in fig. 14, the scheduling apparatus includes: a memory 1401 and a processor 1402; wherein,
the memory is used for storing programs;
the processor, coupled with the memory, to execute the program stored in the memory to:
receiving tobacco product activation information sent by a tobacco heating device through the communication component;
storing the tobacco product activation information for subsequent execution of a statistical task related to the tobacco product;
the tobacco product activation information is configured after data information corresponding to the anti-counterfeiting chip passes verification, and the anti-counterfeiting chip is arranged on a tobacco product, a tobacco box containing a plurality of tobacco products, or a tobacco box.
The processor may also implement other functions besides the above functions, and refer to the description of the foregoing embodiments.
Fig. 15 shows a schematic structural diagram of a client device according to an embodiment of the present application. As shown in fig. 15, the client device includes: memory 1501, processor 1502, and communications component 1503; wherein,
the memory 1501 is used for storing programs;
the processor 1502, coupled to the memory, is configured to execute the program stored in the memory to:
responding to the tobacco product verification operation triggered by a user, and reading data information corresponding to the anti-counterfeiting chip; wherein, the anti-counterfeiting chip is arranged on a tobacco product, or a tobacco box containing a plurality of tobacco products, or a tobacco box;
sending the data information to the server device through the communication component 1503;
receiving a verification result obtained by verifying the data information, which is fed back by the server device, through the communication component 1503;
and outputting user-perceivable prompt information based on the verification result.
Similarly, the processor may also implement other functions besides the above functions, and refer to the description of the foregoing embodiments specifically.
Accordingly, embodiments of the present application further provide a computer-readable storage medium storing a computer program, where the computer program, when executed by a computer, can implement the steps or functions of the service scheduling method provided in the foregoing embodiments.
The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.