CN115730618B - Data processing method of electronic cigarette label connected with sensor - Google Patents

Abstract

The embodiment of the invention relates to a data processing method of an electronic cigarette label connected with a sensor, which comprises the following steps: the electronic cigarette tag receives a first tag instruction sent by the NFC terminal; extracting a first block identifier and first block data when the first instruction code is a block writing instruction code; and performing sensor type identification to generate a first sensor type; when the first sensor type is the first type, temperature detection is carried out to generate first return data; detecting humidity when the first sensor type is the second type to generate first return data; performing temperature and humidity detection to generate first return data when the first sensor type is a third type; when the first sensor type is other types, writing block data to generate first return data; when the first instruction code is a block reading instruction code, extracting a second block identifier; reading the block data to generate first return data; and sending the first return data back to the NFC terminal. The electronic cigarette label with the temperature and humidity detection function can be provided by the invention.

Description

Data processing method of electronic cigarette label connected with sensor

Technical Field

The invention relates to the technical field of data processing, in particular to a data processing method of an electronic cigarette label connected with a sensor.

Background

At present, most of anti-counterfeiting labels (hereinafter referred to as electronic cigarette labels) applied to electronic cigarette commodities are RFID labels based on radio frequency identification (Radio Frequency Identification, RFID) technology. The tag does not have peripheral driving capability and has monotonous product functions.

With the continued development of near field communication (Near Field Communication, NFC) technology, some NFC chips can drive an external sensor with a charge-discharge mechanism of an internal energy storage device (conventionally, using a capacitive device) in addition to conventional near field communication and data storage capability. In order to solve the problem of single function of an RFID tag, an NFC anti-counterfeiting tag is used as an electronic cigarette tag, and a temperature sensor and a humidity sensor are externally connected to the electronic cigarette tag by utilizing the peripheral driving capability of an NFC chip. Therefore, the electronic cigarette label with the temperature and humidity detection function can be provided for customers, and whether the storage condition of the electronic cigarette commodity meets the standard or not can be identified through the label.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art and provides a data processing method, electronic equipment and a computer readable storage medium of an electronic cigarette label connected with a sensor; the electronic cigarette label is arranged on the outer layer of the box package of the electronic cigarette commodity in advance, and the temperature sensor and the humidity sensor connected with the electronic cigarette label are all arranged on the inner layer of the box package of the electronic cigarette commodity; the electronic cigarette tag recognizes an instruction code of the tag instruction when receiving the tag instruction sent by the NFC terminal; when the instruction code is a block reading instruction code, reading data according to the block identifier in the instruction body of the tag instruction and returning; when the instruction code is a block writing instruction code, further confirming the type of the sensor according to the block identifier and the block data in the instruction body; and if the sensor type is of the first type, the second type and the third type, invoking a temperature sensor and a humidity sensor to perform corresponding temperature measurement, humidity measurement and temperature and humidity measurement, and writing the measured data into the designated storage data block. According to the electronic cigarette label with the temperature and humidity detection function, the electronic cigarette label with the temperature and humidity detection function can be provided for customers, so that the purposes of improving the richness of electronic cigarette label products and increasing the viscosity of customers are achieved.

To achieve the above object, a first aspect of an embodiment of the present invention provides a data processing method of an electronic cigarette tag connected to a sensor, the method including:

the electronic cigarette tag receives a first tag instruction sent by the NFC terminal; the electronic cigarette label is respectively connected with a temperature sensor and a humidity sensor; the electronic cigarette tag is an NFC tag; the electronic cigarette tag comprises a plurality of storage data blocks, each storage data block corresponds to one block identifier, and the block identifier of the storage data block for storing the measurement data of the temperature sensor and the humidity sensor is a preset special block identifier; the temperature sensor and the humidity sensor are low-power consumption sensors; the electronic cigarette label is arranged on the outer layer of the box package of the electronic cigarette commodity; the temperature sensor and the humidity sensor are both arranged on the inner layer of the box package of the electronic cigarette commodity; the first tag instruction comprises a first instruction code and a first instruction body;

when the first instruction code is a block writing instruction code, a first block identifier and first block data are extracted from the first instruction body; and performing sensor type identification according to the first block identifier and the first block data to generate a corresponding first sensor type; when the first sensor type is a first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is the second type, humidity detection processing is carried out according to the first block identifier to generate corresponding first return data; when the first sensor type is a third type, performing temperature and humidity detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is other types, performing block data writing processing according to the first block identifier and the first block data to generate corresponding first return data; the first sensor type includes a first type, a second type, a third type, and other types;

When the first instruction code is a block reading instruction code, extracting a second block identifier from the first instruction body; and performing block data reading processing according to the second block identifier to generate the corresponding first return data;

and sending the first return data back to the NFC terminal.

Preferably, the identifying the sensor type according to the first block identifier and the first block data to generate a corresponding first sensor type specifically includes:

identifying whether the first block identifier is the special block identifier or not; if not, setting the corresponding first sensor type as other types; if yes, setting the corresponding first sensor type as a first type when the first block data is matched with the preset first type block data, setting the corresponding first sensor type as a second type when the first block data is matched with the preset second type block data, and setting the corresponding first sensor type as a third type when the first block data is matched with the preset third type block data.

Preferably, when the first sensor type is a first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data, which specifically includes:

When the first sensor type is a first type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding first stored data block; and calling the temperature sensor to perform temperature measurement to generate corresponding first temperature data; writing the first temperature data into the first storage data block to generate a corresponding first writing state; and if the first writing state is writing success, setting the corresponding first return data as instruction execution success, and if the first writing state is writing failure, setting the corresponding first return data as instruction execution failure.

Preferably, when the first sensor type is the second type, the humidity detection processing is performed according to the first block identifier to generate the corresponding first return data, which specifically includes:

when the first sensor type is the second type, the stored data block with the block identifier matched with the first block identifier is used as a corresponding second stored data block; and calling the humidity sensor to measure the humidity to generate corresponding first humidity data; writing the first humidity data into the second storage data block to generate a corresponding second writing state; and if the second writing state is writing success, setting the corresponding first return data as instruction execution success, and if the second writing state is writing failure, setting the corresponding first return data as instruction execution failure.

Preferably, when the first sensor type is the third type, performing temperature and humidity detection processing according to the first block identifier to generate the corresponding first return data, which specifically includes:

when the first sensor type is a third type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding third stored data block; and calling the temperature sensor to perform temperature measurement to generate corresponding second temperature data; and calling the humidity sensor to measure the humidity to generate corresponding second humidity data; and the second temperature data and the second humidity data form corresponding first temperature and humidity data; writing the first temperature and humidity data into the third storage data block to generate a corresponding third writing state; and if the third writing state is writing success, setting the corresponding first return data as instruction execution success, and if the third writing state is writing failure, setting the corresponding first return data as instruction execution failure.

Preferably, when the first sensor type is other types, performing a block data writing process according to the first block identifier and the first block data to generate the corresponding first return data, which specifically includes:

When the first sensor type is other types, the stored data block with the block identifier matched with the first block identifier is used as a corresponding fourth stored data block; writing the first block of data into the fourth storage data block to generate a corresponding fourth writing state; and if the fourth writing state is writing success, setting the corresponding first return data as instruction execution success, and if the fourth writing state is writing failure, setting the corresponding first return data as instruction execution failure.

Preferably, the block data reading processing according to the second block identifier generates the corresponding first return data, which specifically includes:

taking the stored data block with the block identifier matched with the second block identifier as a corresponding fifth stored data block; and reading the storage content of the fifth storage data block as the corresponding first return data.

A second aspect of an embodiment of the present invention provides an electronic device, including: memory, processor, and transceiver;

the processor is configured to couple to the memory, and read and execute the instructions in the memory, so as to implement the method steps described in the first aspect;

The transceiver is coupled to the processor and is controlled by the processor to transmit and receive messages.

A third aspect of the embodiments of the present invention provides a computer-readable storage medium storing computer instructions that, when executed by a computer, cause the computer to perform the method of the first aspect described above.

The embodiment of the invention provides a data processing method, electronic equipment and a computer readable storage medium of an electronic cigarette label connected with a sensor, wherein the electronic cigarette label is arranged on the outer layer of a box package of an electronic cigarette commodity in advance, and temperature and humidity sensors connected with the electronic cigarette label are arranged on the inner layer of the box package of the electronic cigarette commodity; the electronic cigarette tag recognizes an instruction code of the tag instruction when receiving the tag instruction sent by the NFC terminal; when the instruction code is a block reading instruction code, reading data according to the block identifier in the instruction body of the tag instruction and returning; when the instruction code is a block writing instruction code, further confirming the type of the sensor according to the block identifier and the block data in the instruction body; and if the sensor type is of the first type, the second type and the third type, invoking a temperature sensor and a humidity sensor to perform corresponding temperature measurement, humidity measurement and temperature and humidity measurement, and writing the measured data into the designated storage data block. According to the electronic cigarette label with the temperature and humidity detection function, the electronic cigarette label with the temperature and humidity detection function can be provided for customers, so that the richness of electronic cigarette label products is improved, and the viscosity of the customers is increased.

Drawings

Fig. 1 is a schematic diagram of a data processing method of an electronic cigarette tag connected to a sensor according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

An embodiment of the present invention provides a data processing method for an electronic cigarette tag connected to a sensor, as shown in fig. 1, which is a schematic diagram of a data processing method for an electronic cigarette tag connected to a sensor according to the embodiment of the present invention, the method mainly includes the following steps:

step 1, an electronic cigarette tag receives a first tag instruction sent by an NFC terminal;

the electronic cigarette label is respectively connected with a temperature sensor and a humidity sensor; the electronic cigarette tag is an NFC tag; the electronic cigarette tag comprises a plurality of storage data blocks, each storage data block corresponds to one block identifier, and the block identifier of the storage data block for storing the measurement data of the temperature sensor and the humidity sensor is a preset special block identifier; the temperature and humidity sensors are low-power consumption sensors; the electronic cigarette label is arranged on the outer layer of the box package of the electronic cigarette commodity; the temperature and humidity sensors are all arranged on the inner layer of the box package of the electronic cigarette commodity; the first tag instruction includes a first instruction code and a first instruction body.

Here, the electronic cigarette tag in the embodiment of the invention is an NFC tag, and is composed of an antenna, an electromagnetic conversion module, a signal processing module, an NFC chip and an internal energy storage device; the antenna is respectively connected with the electromagnetic conversion module and the signal processing module; the electromagnetic conversion module is connected with the internal energy storage device; the internal energy storage device is respectively connected with the signal processing module, the NFC chip and the external temperature and humidity sensor; the NFC chip is connected with the signal processing module and an external temperature and humidity sensor respectively. When the electronic cigarette tag works, firstly, the electromagnetic conversion module performs electromagnetic conversion on a wireless signal sent by the NFC terminal and received by the antenna to obtain corresponding conversion current, and the conversion current is used for charging the internal energy storage device until the internal energy storage device reaches the upper charging limit; after the internal energy storage device reaches the upper charging limit, the electromagnetic conversion module does not work, and the internal energy storage device starts to supply power to the signal processing module, the NFC chip and the temperature and humidity sensor so that the electronic cigarette tag enters a reset state; when the electronic cigarette tag is in a reset state, the signal processing module carries out signaling conversion on a wireless signal sent by the NFC terminal and received by the antenna to corresponding communication data, the communication data are transmitted to the NFC chip to carry out communication data analysis to obtain a corresponding first tag instruction, the NFC chip carries out instruction analysis on the first tag instruction and carries out reading/writing operation on an internal storage module or carries out sensor calling on an external temperature sensor and an external humidity sensor according to analysis results. The NFC chip of the electronic cigarette tag is internally provided with a storage module, the storage module is composed of a plurality of storage data blocks, and each storage data block corresponds to one block identifier; the embodiment of the invention can pre-select one storage data block from which to specially store the measurement data of the temperature and humidity sensor, and pre-set the block identification of the storage data block as a very common special block identification.

Step 2, when the first instruction code is a block writing instruction code, extracting a first block identifier and first block data from a first instruction body; and performing sensor type identification according to the first block identifier and the first block data to generate a corresponding first sensor type; when the first sensor type is the first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is the second type, humidity detection processing is carried out according to the first block identifier to generate corresponding first return data; when the first sensor type is the third type, performing temperature and humidity detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is other types, performing block data writing processing according to the first block identifier and the first block data to generate corresponding first return data;

wherein the first sensor type includes a first type, a second type, a third type, and other types;

the method specifically comprises the following steps: step 21, extracting a first block identifier and first block data from a first instruction body;

here, the embodiment of the present invention provides that if the first instruction code of the first tag instruction is a block write instruction code, the first instruction body is composed of a first block identifier and first block data;

Step 22, performing sensor type identification according to the first block identifier and the first block data to generate a corresponding first sensor type;

wherein the first sensor type includes a first type, a second type, a third type, and other types;

the method specifically comprises the following steps: identifying whether the first block identifier is a special block identifier or not; if not, setting the corresponding first sensor type as other types; if yes, setting the corresponding first sensor type as a first type when the first block data is matched with the preset first type of block data, setting the corresponding first sensor type as a second type when the first block data is matched with the preset second type of block data, and setting the corresponding first sensor type as a third type when the first block data is matched with the preset third type of block data;

here, the embodiment of the invention provides that if the first block identifier is a special block identifier, the current first tag instruction is a sensor activation instruction, when the first block data is matched with the preset first type of block data, the first tag instruction is a temperature sensor activation instruction, the corresponding first sensor type is a first type, when the first block data is matched with the preset second type of block data, the first tag instruction is a humidity sensor activation instruction, the corresponding first sensor type is a second type, and when the first block data is matched with the preset third type of block data, the first tag instruction is a temperature and humidity sensor synchronous activation instruction, and the corresponding first sensor type is a third type; otherwise, if the first block identifier is not a special block identifier, the current first tag instruction is a block data writing instruction, and the corresponding first sensor type is other types; the above-mentioned first-class block data, second-class block data, and third-class block data are three predetermined data having a fixed length and being provided with respective fixed codes, for example, the first-class block data is a predetermined full 0 data string 0x 00000000000000000000 having a length of 8 bytes, the second-class block data is a predetermined full 1 data string 0x1111111111111111 having a length of 8 bytes, and the third-class block data is a predetermined full 2 data string 0x2222222222222222 having a length of 8 bytes;

Step 23, when the first sensor type is the first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data;

the method specifically comprises the following steps: when the first sensor type is the first type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding first stored data block; and calling a temperature sensor to perform temperature measurement to generate corresponding first temperature data; writing the first temperature data into a first storage data block to generate a corresponding first writing state; if the first writing state is writing success, setting the corresponding first return data as instruction execution success, and if the first writing state is writing failure, setting the corresponding first return data as instruction execution failure;

here, the first sensor type is a first type, which means that the first tag instruction is a temperature sensor activation instruction, the corresponding first block identifier is a special block identifier, and the first storage data block is a storage data block with a block identifier being a special block identifier; at the moment, the electronic cigarette tag calls an external temperature sensor to perform temperature measurement to obtain corresponding temperature sensor measurement data, namely first temperature data, and then the first temperature data is stored in a designated first storage data block; it should be noted that, the conventional temperature sensor is provided with an input/output signal pin, when the electronic cigarette tag calls the external temperature sensor to perform temperature measurement, a specified starting signal is input through the input signal pin of the sensor according to the specification requirement of the temperature sensor, an output code in a fixed code format is obtained through the output signal pin of the sensor, and then the corresponding first temperature data can be obtained by performing temperature data conversion on the current output code based on the corresponding relation between the output code and the temperature of the known temperature sensor;

Step 24, when the first sensor type is the second type, performing humidity detection processing according to the first block identifier to generate corresponding first return data;

the method specifically comprises the following steps: when the first sensor type is the second type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding second stored data block; and calling a humidity sensor to measure humidity to generate corresponding first humidity data; writing the first humidity data into a second storage data block to generate a corresponding second writing state; if the second writing state is writing success, setting the corresponding first return data as instruction execution success, and if the second writing state is writing failure, setting the corresponding first return data as instruction execution failure;

here, the first sensor type is a second type, which indicates that the first tag instruction is a humidity sensor activation instruction, the corresponding first block identifier is a special block identifier, and the second storage data block is a storage data block with a block identifier being a special block identifier; at this time, the electronic cigarette tag calls an external humidity sensor to perform humidity measurement to obtain corresponding humidity sensor measurement data, namely first humidity data, and then stores the first humidity data into a designated storage data block, namely a second storage data block; it should be noted that, the conventional humidity sensor is provided with an input/output signal pin, when the external humidity sensor is called for humidity measurement, the electronic cigarette tag inputs a specified starting signal through the input signal pin of the sensor according to the specification requirement of the humidity sensor, obtains an output code in a fixed code format through the output signal pin of the sensor, and then obtains corresponding first humidity data by performing humidity data conversion on the current output code based on the corresponding relation between the known output code of the humidity sensor and humidity;

Step 25, performing temperature and humidity detection processing according to the first block identifier to generate corresponding first return data when the first sensor type is the third type;

the method specifically comprises the following steps: when the first sensor type is the third type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding third stored data block; and calling a temperature sensor to perform temperature measurement to generate corresponding second temperature data; and calling a humidity sensor to measure the humidity to generate corresponding second humidity data; and the second temperature data and the second humidity data form corresponding first temperature and humidity data; writing the first temperature and humidity data into a third storage data block to generate a corresponding third writing state; if the third writing state is writing success, setting the corresponding first return data as instruction execution success, and if the third writing state is writing failure, setting the corresponding first return data as instruction execution failure;

here, the first sensor type is a third type, which indicates that the first tag instruction is a synchronous activation instruction of the temperature sensor and the humidity sensor, the corresponding first block identifier is a special block identifier, and the third storage data block is a storage data block with a block identifier being a special block identifier; at this time, the electronic cigarette label can call an external temperature and humidity sensor to measure the temperature and humidity to obtain corresponding temperature and humidity sensor measurement data, namely second temperature data and second humidity data, and then store first temperature and humidity data consisting of the second temperature data and the second humidity data into a designated storage data block, namely a third storage data block; the processing procedure of the electronic cigarette label for calling the temperature and humidity sensor to measure the temperature and the humidity is consistent with the processing procedure of the temperature and the humidity measurement in the steps 23 and 24, and repeated description is not needed here;

Step 26, when the first sensor type is other types, performing block data writing processing according to the first block identifier and the first block data to generate corresponding first return data;

the method specifically comprises the following steps: when the first sensor type is other types, taking the stored data block with the block identifier matched with the first block identifier as a corresponding fourth stored data block; writing the first block of data into a fourth storage data block to generate a corresponding fourth writing state; if the fourth writing state is writing success, setting the corresponding first return data as instruction execution success, and if the fourth writing state is writing failure, setting the corresponding first return data as instruction execution failure.

Here, the first sensor type is other types, which means that the first tag instruction is a block data writing instruction, and at this time, the electronic cigarette tag directly writes the first block data into a fourth storage data block that is a storage data block matched with the first block identifier.

Step 3, when the first instruction code is a block reading instruction code, extracting a second block identifier from the first instruction body; and performing block data reading processing according to the second block identifier to generate corresponding first return data;

the method specifically comprises the following steps: step 32, extracting a second block identifier from the first instruction body;

Here, the embodiment of the present invention provides that if the first instruction code of the first tag instruction is a block read instruction code, the first instruction body is formed by one block identifier, that is, a second block identifier; the second block identifier is not limited, and when the second block identifier is a special block identifier, the stored data block corresponding to the special block identifier is read;

step 32, performing block data reading processing according to the second block identifier to generate corresponding first return data;

the method specifically comprises the following steps: taking the stored data block with the block identifier matched with the second block identifier as a corresponding fifth stored data block; and reading the storage content of the fifth storage data block as corresponding first return data.

When the first instruction code of the first tag instruction is the block reading instruction code, the electronic cigarette tag directly reads the storage content of the storage data block matched with the second block identifier as corresponding first return data.

And 4, sending the first return data back to the NFC terminal.

In summary, the embodiment of the invention can provide the electronic cigarette label with the temperature and humidity detection function and the function of being compatible with the conventional NFC anti-counterfeiting label through the steps 2-4.

It should be noted that, in addition to the above-mentioned processing flow of the electronic cigarette label, the embodiment of the present invention further provides an electronic cigarette label processing flow corresponding to the NFC terminal based on the above-mentioned processing flow of the electronic cigarette label, as shown below. The method of the embodiment of the invention further comprises the following steps:

Step A2, the NFC terminal provides an electronic cigarette tag operation interface for the staff and takes the option selection result of the staff on the electronic cigarette tag operation interface as a corresponding first option result;

the electronic cigarette tag operation interface comprises a tracing data reading option, a tracing data writing option, a box temperature reading option, a box humidity reading option and a box temperature and humidity reading option.

Here, the NFC terminal in the embodiment of the present invention provides five options (a trace data reading option, a trace data writing option, a box temperature reading option, a box humidity reading option and a box temperature and humidity reading option) on an electronic cigarette tag operation interface provided for a worker for the worker to select; a worker can generate a corresponding first option result by selecting one item from the electronic cigarette label operation interface; the first option result includes five options possibilities, respectively: the method comprises the steps of tracing data reading options, tracing data writing options, box temperature reading options, box humidity reading options and box temperature and humidity reading options.

Step A2, when the first option result is the tracing data reading option, popping up a tracing data reading interface on the electronic cigarette tag operation interface; acquiring a first traceability data block identifier input by a worker through a traceability data reading interface; the first tracing data block identifier is used as a corresponding second block identifier; setting the first instruction code as a block reading instruction code, and setting the first instruction body as a second block identifier; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; converting text information of the first returned data to generate a corresponding first display text; and displaying the first display text on the traceability data reading interface.

Here, when the first option result is the trace source data reading option, the NFC terminal in the embodiment of the present invention obtains, through the trace source data reading interface, a block identifier input by a worker, that is, a first trace source data block identifier, and thus forms a first tag instruction with a first instruction code being a block reading instruction code and a first instruction body being a second block identifier=a first trace source data block identifier, and sends the first tag instruction to the electronic cigarette tag, and after receiving the first tag instruction, the electronic cigarette tag can return, through steps 2 to 4 given in the foregoing, the storage content, that is, first return data, of the storage data block corresponding to the second block identifier to the NFC terminal; the NFC terminal performs display text conversion on the NFC terminal according to a preset text conversion rule at the moment to obtain a first display text.

Step A3, when the first option result is the trace data writing option, popping up a trace data writing interface on the electronic cigarette label operation interface; acquiring a second traceability data block identifier and first traceability data input by a worker through a traceability data writing interface; when the second tracing data block identifier is not a special block identifier, the second tracing data block identifier is used as a corresponding first block identifier, and block data conversion is performed on the first tracing data to generate corresponding first block data; setting a first instruction code as a block writing instruction code, and forming a corresponding first instruction body by a first block identifier and first block data; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; converting text information of the first returned data to generate a corresponding second display text; and displaying the second display text on the traceable data writing interface.

Here, when the first option result is the trace data writing option, the NFC terminal in the embodiment of the present invention obtains, through the trace data writing interface, a block identifier to be written, block data, that is, a second trace data block identifier, first trace data, which are input by a worker, and when the second trace data block identifier is not a special block identifier, generates a first instruction code as a block writing instruction code, and sends a first label instruction, which is formed by the first block identifier=the second trace data block identifier and the first block data=the first trace data, to the electronic cigarette label, where the electronic cigarette label can write the first block data into a storage data block corresponding to the first block identifier through steps 2 to 4 given in the foregoing after receiving the first label instruction, and returns a success or failure state of a writing operation, that is, first return data, to the NFC terminal; and the NFC terminal performs display text conversion on the NFC terminal according to a preset text conversion rule at the moment to obtain a second display text.

Step A4, when the first option result is a box temperature reading option, setting a first block identifier as a special block identifier, and setting first block data as preset block data; setting a first instruction code as a block writing instruction code, and forming a corresponding first instruction body by a first block identifier and first block data; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; when the first return data is that the instruction execution is successful, setting the second block identifier as a special block identifier; setting the first instruction code as a block reading instruction code, and setting the first instruction body as a second block identifier; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; converting text information of the first returned data to generate a corresponding third display text; ejecting a box temperature reading interface on the electronic cigarette label operation interface; and identifying whether the first returned data exceeds a preset reasonable temperature range, if not, displaying a third display text on the box temperature reading interface, if so, setting the first warning information as the temperature non-standard warning information, and displaying the third display text and the first warning information on the box temperature reading interface.

Here, when the first option result is a case temperature reading option, the embodiment of the invention sets the first block identifier as a special block identifier and sets the first block data as a preset block data; generating a first instruction code which is a block writing instruction code, sending a first label instruction, which is formed by a first block identifier=a special block identifier and first block data=a type of block data, to an electronic cigarette label, calling an external temperature sensor to perform temperature measurement through the step 2-4 given in the previous step after the electronic cigarette label receives the first label instruction, writing the measured temperature data into a storage data block corresponding to the special block identifier, and returning the success or failure state of the writing operation of the storage data block as first return data to an NFC terminal; the NFC terminal judges the first return data when receiving the first return data, if the instruction is successfully executed, a first instruction code is generated as a block reading instruction code, a first tag instruction of a second block identifier=special block identifier of a first instruction body is sent to the electronic cigarette tag, and the electronic cigarette tag can return temperature data stored in a storage data block corresponding to the special block identifier to the NFC terminal as new first return data through the steps 2-4 given in the foregoing after receiving the first tag instruction; the NFC terminal performs display text conversion on the NFC terminal according to a preset text conversion rule at the moment to obtain a third display text; and identifying whether the temperature data corresponding to the new first return data exceeds the set range, if not, only displaying the third display text, and if so, displaying the third display text and the first warning information.

Step A5, when the first option result is a box humidity reading option, setting a first block identifier as a special block identifier and setting first block data as preset second block data; setting a first instruction code as a block writing instruction code, and forming a corresponding first instruction body by a first block identifier and first block data; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; when the first return data is that the instruction execution is successful, setting the second block identifier as a special block identifier; setting the first instruction code as a block reading instruction code, and setting the first instruction body as a second block identifier; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; converting text information of the first returned data to generate a corresponding fourth display text; ejecting a box humidity reading interface on the electronic cigarette label operation interface; and identifying whether the first returned data exceeds a preset reasonable humidity range, if not, displaying a fourth display text on the packaged humidity reading interface, if so, setting the second warning information as a humidity non-standard warning information, and displaying the fourth display text and the second warning information on the packaged humidity reading interface.

Here, when the first option result is the box humidity reading option, the embodiment of the invention sets the first block identifier as a special block identifier and sets the first block data as preset second block data; generating a first instruction code which is a block writing instruction code, sending a first label instruction, which is formed by a first block identifier=a special block identifier and first block data=second block data, to an electronic cigarette label, calling an external humidity sensor to measure humidity through the step 2-4 given in the previous step after the electronic cigarette label receives the first label instruction, writing the measured humidity data into a storage data block corresponding to the special block identifier, and returning the success or failure state of the writing operation of the storage data block as first return data to an NFC terminal; the NFC terminal judges the first return data when receiving the first return data, if the instruction is successfully executed, a first instruction code is generated as a block reading instruction code, a first label instruction of a second block identification=special block identification of a first instruction body is sent to the electronic cigarette label, and the electronic cigarette label can return humidity data stored in a storage data block corresponding to the special block identification to the NFC terminal as new first return data through steps 2-4 given in the foregoing after receiving the first label instruction; the NFC terminal performs display text conversion on the NFC terminal according to a preset text conversion rule at the moment to obtain a fourth display text; and identifying whether the humidity data corresponding to the new first return data exceeds the set range, if not, only displaying the fourth display text, and if so, displaying the fourth display text and the second warning information.

Step A6, when the first option result is a box temperature and humidity reading option, setting a first block identifier as a special block identifier and setting first block data as preset three types of block data; setting a first instruction code as a block writing instruction code, and forming a corresponding first instruction body by a first block identifier and first block data; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; when the first return data is that the instruction execution is successful, setting the second block identifier as a special block identifier; setting the first instruction code as a block reading instruction code, and setting the first instruction body as a second block identifier; a first tag instruction composed of a first instruction code and a first instruction body is sent to the electronic cigarette tag, and first return data returned by the electronic cigarette tag is received; converting text information of the first returned data to generate a corresponding fifth display text; ejecting a box-packaged temperature and humidity reading interface on the electronic cigarette label operation interface; and extracting corresponding temperature data and humidity data from the new first return data, identifying whether the obtained temperature data and humidity data exceed respective corresponding reasonable temperature ranges and reasonable humidity ranges, displaying a fifth display text on the box temperature and humidity reading interface if the obtained temperature data and humidity data do not exceed the respective corresponding reasonable ranges, setting a third warning message as corresponding temperature and humidity non-standard warning messages if at least one of the temperature data and the humidity data exceeds the corresponding reasonable range, and displaying the fifth display text and the third warning message on the box temperature and humidity reading interface.

Here, when the first option result is a case temperature and humidity reading option, the embodiment of the invention sets the first block identifier as a special block identifier and sets the first block data as preset second block data; generating a first instruction code which is a block writing instruction code, sending a first label instruction, which is formed by a first block identifier=a special block identifier and first block data=three types of block data, to an electronic cigarette label, calling an external temperature sensor and an external humidity sensor to measure temperature and humidity through the step 2-4 given in the foregoing after the electronic cigarette label receives the first label instruction, writing the measured temperature and humidity data into a storage data block corresponding to the special block identifier, and returning the success or failure state of the writing operation of the storage data block as first return data to an NFC terminal; the NFC terminal judges the first return data when receiving the first return data, if the instruction is successfully executed, a first instruction code is generated as a block reading instruction code, a first tag instruction of a second block identifier=special block identifier of a first instruction body is sent to the electronic cigarette tag, and the electronic cigarette tag can return temperature and humidity data stored in a storage data block corresponding to the special block identifier to the NFC terminal as new first return data through the steps 2-4 given in the foregoing after receiving the first tag instruction; the NFC terminal performs display text conversion on the NFC terminal according to a preset text conversion rule at the moment to obtain a fifth display text; and identifying whether the temperature and humidity data corresponding to the new first return data exceeds the set range, if the temperature and humidity data do not exceed the set range corresponding to the temperature and humidity data, only displaying a fifth display text, and if at least one of the temperature and humidity data exceeds the set range corresponding to the temperature and humidity data, displaying the fifth display text and the third warning information.

Fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present invention. The electronic device may be a terminal device or a server for implementing the method of the embodiment of the present invention, or may be a terminal device or a server for implementing the method of the embodiment of the present invention, which is connected to the foregoing terminal device or server. As shown in fig. 2, the electronic device may include: a processor 322 (e.g., CPU), a memory 322, a transceiver 323; the transceiver 323 is coupled to the processor 322, and the processor 322 controls the transceiving operation of the transceiver 323. The memory 322 may have stored therein various instructions for performing the various processing functions and implementing the processing steps described in the method embodiments previously described. Preferably, the electronic device according to the embodiment of the present invention further includes: a power supply 324, a system bus 325, and a communication port 326. The system bus 325 is used to implement communication connections between the elements. The communication ports 326 are used for connection communication between the electronic device and other peripheral devices.

The system bus 325 referred to in fig. 2 may be a peripheral component interconnect standard (Peripheral Component Interconnect, PCI) bus, or an extended industry standard architecture (Extended Industry Standard Architecture, EISA) bus, or the like. The system bus may be classified into an address bus, a data bus, a control bus, and the like. For ease of illustration, the figures are shown with only one bold line, but not with only one bus or one type of bus. The communication interface is used to enable communication between the database access apparatus and other devices (e.g., clients, read-write libraries, and read-only libraries). The Memory may comprise random access Memory (Random Access Memory, RAM) and may also include Non-Volatile Memory (Non-Volatile Memory), such as at least one disk Memory.

The processor may be a general-purpose processor, including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), a graphics processor (Graphics Processing Unit, GPU), etc.; but also digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), field programmable gate arrays (Field Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components.

It should be noted that, the embodiments of the present invention also provide a computer readable storage medium, where instructions are stored, when the computer readable storage medium runs on a computer, to cause the computer to perform the method and the process provided in the above embodiments.

The embodiment of the invention also provides a chip for running the instructions, and the chip is used for executing the processing steps described in the embodiment of the method.

The embodiment of the invention provides a data processing method, electronic equipment and a computer readable storage medium of an electronic cigarette label connected with a sensor, wherein the electronic cigarette label is arranged on the outer layer of a box package of an electronic cigarette commodity in advance, and temperature and humidity sensors connected with the electronic cigarette label are arranged on the inner layer of the box package of the electronic cigarette commodity; the electronic cigarette tag recognizes an instruction code of the tag instruction when receiving the tag instruction sent by the NFC terminal; when the instruction code is a block reading instruction code, reading data according to the block identifier in the instruction body of the tag instruction and returning; when the instruction code is a block writing instruction code, further confirming the type of the sensor according to the block identifier and the block data in the instruction body; and if the sensor type is of the first type, the second type and the third type, invoking a temperature sensor and a humidity sensor to perform corresponding temperature measurement, humidity measurement and temperature and humidity measurement, and writing the measured data into the designated storage data block. According to the electronic cigarette label with the temperature and humidity detection function, the electronic cigarette label with the temperature and humidity detection function can be provided for customers, so that the richness of electronic cigarette label products is improved, and the viscosity of the customers is increased.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of function in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (7)

1. A method for processing data of an electronic cigarette tag connected with a sensor, the method comprising:

the electronic cigarette tag receives a first tag instruction sent by the NFC terminal; the electronic cigarette label is respectively connected with a temperature sensor and a humidity sensor; the electronic cigarette tag is an NFC tag; the electronic cigarette tag comprises a plurality of storage data blocks, each storage data block corresponds to one block identifier, and the block identifier of the storage data block for storing the measurement data of the temperature sensor and the humidity sensor is a preset special block identifier; the temperature sensor and the humidity sensor are low-power consumption sensors; the electronic cigarette label is arranged on the outer layer of the box package of the electronic cigarette commodity; the temperature sensor and the humidity sensor are both arranged on the inner layer of the box package of the electronic cigarette commodity; the first tag instruction comprises a first instruction code and a first instruction body;

when the first instruction code is a block writing instruction code, a first block identifier and first block data are extracted from the first instruction body; and performing sensor type identification according to the first block identifier and the first block data to generate a corresponding first sensor type; when the first sensor type is a first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is the second type, humidity detection processing is carried out according to the first block identifier to generate corresponding first return data; when the first sensor type is a third type, performing temperature and humidity detection processing according to the first block identifier to generate corresponding first return data; when the first sensor type is other types, performing block data writing processing according to the first block identifier and the first block data to generate corresponding first return data; the first sensor type includes a first type, a second type, a third type, and other types;

When the first instruction code is a block reading instruction code, extracting a second block identifier from the first instruction body; and performing block data reading processing according to the second block identifier to generate the corresponding first return data;

the first return data is returned to the NFC terminal;

the step of identifying the sensor type according to the first block identifier and the first block data to generate a corresponding first sensor type specifically includes:

identifying whether the first block identifier is the special block identifier or not; if not, setting the corresponding first sensor type as other types; if yes, setting the corresponding first sensor type as a first type when the first block data is matched with the preset first type block data, setting the corresponding first sensor type as a second type when the first block data is matched with the preset second type block data, and setting the corresponding first sensor type as a third type when the first block data is matched with the preset third type block data;

and when the first sensor type is a third type, performing temperature and humidity detection processing according to the first block identifier to generate corresponding first return data, wherein the method specifically comprises the following steps of:

When the first sensor type is a third type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding third stored data block; and calling the temperature sensor to perform temperature measurement to generate corresponding second temperature data; and calling the humidity sensor to measure the humidity to generate corresponding second humidity data; and the second temperature data and the second humidity data form corresponding first temperature and humidity data; writing the first temperature and humidity data into the third storage data block to generate a corresponding third writing state; and if the third writing state is writing success, setting the corresponding first return data as instruction execution success, and if the third writing state is writing failure, setting the corresponding first return data as instruction execution failure.

2. The method for processing data of an electronic cigarette tag connected to a sensor according to claim 1, wherein when the first sensor type is a first type, performing temperature detection processing according to the first block identifier to generate corresponding first return data, specifically includes:

when the first sensor type is a first type, taking the stored data block with the block identifier matched with the first block identifier as a corresponding first stored data block; and calling the temperature sensor to perform temperature measurement to generate corresponding first temperature data; writing the first temperature data into the first storage data block to generate a corresponding first writing state; and if the first writing state is writing success, setting the corresponding first return data as instruction execution success, and if the first writing state is writing failure, setting the corresponding first return data as instruction execution failure.

3. The method for processing data of an electronic cigarette tag connected to a sensor according to claim 1, wherein when the first sensor type is a second type, performing humidity detection processing according to the first block identifier to generate the corresponding first return data, specifically includes:

when the first sensor type is the second type, the stored data block with the block identifier matched with the first block identifier is used as a corresponding second stored data block; and calling the humidity sensor to measure the humidity to generate corresponding first humidity data; writing the first humidity data into the second storage data block to generate a corresponding second writing state; and if the second writing state is writing success, setting the corresponding first return data as instruction execution success, and if the second writing state is writing failure, setting the corresponding first return data as instruction execution failure.

4. The method for processing data of an electronic cigarette tag connected to a sensor according to claim 1, wherein when the first sensor type is other types, performing a block data writing process according to the first block identifier and the first block data to generate the corresponding first return data, specifically includes:

When the first sensor type is other types, the stored data block with the block identifier matched with the first block identifier is used as a corresponding fourth stored data block; writing the first block of data into the fourth storage data block to generate a corresponding fourth writing state; and if the fourth writing state is writing success, setting the corresponding first return data as instruction execution success, and if the fourth writing state is writing failure, setting the corresponding first return data as instruction execution failure.

5. The method for processing data of an electronic cigarette tag connected to a sensor according to claim 1, wherein the block data reading processing according to the second block identifier generates the corresponding first return data, specifically including:

taking the stored data block with the block identifier matched with the second block identifier as a corresponding fifth stored data block; and reading the storage content of the fifth storage data block as the corresponding first return data.

6. An electronic device, comprising: memory, processor, and transceiver;

the processor being adapted to be coupled to the memory, read and execute the instructions in the memory to implement the method steps of any one of claims 1-5;

The transceiver is coupled to the processor and is controlled by the processor to transmit and receive messages.

7. A computer readable storage medium storing computer instructions which, when executed by a computer, cause the computer to perform the instructions of the method of any one of claims 1-5.