CN112383455A - Data generation method and execution method and equipment - Google Patents

Abstract

The embodiment of the application provides a data generation method, an execution method and equipment. In the embodiment of the application, a user can make structured data which is required by the user and can be executed by the equipment of the internet of things through the terminal equipment, and the user can make the structured data under the condition that the working principle and the instruction codes of the equipment of the internet of things are not understood only by providing object characteristic data and execution sequence data through the terminal equipment; and after the terminal equipment converts the execution sequence data into the executable state control instruction information of the Internet of things equipment, the terminal equipment provides the structural data containing the state control instruction information to the Internet of things equipment, so that the Internet of things equipment can directly execute corresponding operation according to the state control instruction in the structural data, the requirements of users are met, and meanwhile, the self-defined expansion capability of the structural data of the Internet of things equipment is also improved.

Description

Data generation method and execution method and equipment

Technical Field

The application relates to the technical field of intelligent household appliances, in particular to a data generation method, an execution method and equipment.

Background

Along with the rapid development of artificial intelligence, more and more intelligent machines are applied to the life of people, for example, an intelligent cooking machine, and a user can finish the automatic cooking process by using the intelligent cooking machine in few participation steps, so that great convenience is brought to cooking of food.

In the prior art, some recipes are preset in the intelligent cooker, a user can select a corresponding recipe from the recipes, and the intelligent cooker automatically cooks gourmet food according to the recipe selected by the user. However, the number of preset recipes in the intelligent cooker is limited, and when a user wants to cook dishes other than the preset recipes, the intelligent cooker cannot finish automatic cooking, and cannot meet the cooking requirement of the user.

Disclosure of Invention

Various aspects of the application provide a data generation method, an execution method and equipment, so that a user can provide structural data for Internet of things equipment as required, the flexibility of automatic execution is improved, and the requirements of the user are met.

The embodiment of the application provides a data generation method, which is suitable for terminal equipment and comprises the following steps: responding to input operation of a user on a data generation interface, and acquiring object characteristic data and execution sequence data; converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data; and sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

The embodiment of the application further provides a data execution method, which is applicable to the internet of things equipment, and comprises the following steps: receiving structured data sent by terminal equipment, wherein the structured data comprises object characteristic data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object characteristic data and the state control instruction; executing corresponding operation according to the state control instruction, the object characteristic data and the incidence relation between the state control instruction and the object characteristic data; and acquiring execution state prompt information corresponding to the state control instruction and outputting the execution state prompt information.

An embodiment of the present application further provides a terminal device, including: a display screen, a processor and a memory storing a computer program; the display screen is used for displaying a data generation interface; the processor to execute the computer program to: responding to input operation of a user on the data generation interface, and acquiring object characteristic data and execution sequence data; converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data; and sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

The embodiment of the application further provides an internet of things device, which includes: a display screen, a processor and a memory storing a computer program; the processor to execute the computer program to: receiving structured data sent by terminal equipment, wherein the structured data comprises object characteristic data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object characteristic data and the state control instruction; executing corresponding operation according to the state control instruction, the object characteristic data and the incidence relation between the state control instruction and the object characteristic data; and acquiring execution state prompt information corresponding to the state control instruction, and outputting the execution state prompt information to the display screen, wherein the display screen is used for displaying the execution state prompt information to a user so that the user can know the current execution state.

In the embodiment of the application, a user can make structured data which is required by the user and can be executed by the internet of things equipment through the terminal equipment, for the user, the user only needs to provide object characteristic data and execution sequence data which are familiar to the user through a data generation interface provided by the terminal equipment, the making of the structured data can be completed under the condition that the working principle and the instruction codes of the internet of things equipment are not understood, the making process is simple, and the cost is low; and after the terminal equipment converts the execution sequence data into the executable state control instruction information of the Internet of things equipment, the terminal equipment provides the structured data containing the state control instruction information to the Internet of things equipment, so that the Internet of things equipment can directly execute corresponding operation according to the state control instruction in the structured data, the cooking requirement of a user is met, and meanwhile, the self-defined expansion capability of the structured data of the Internet of things equipment is also improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1a is a block diagram of a data processing system 100 according to an embodiment of the present disclosure;

FIG. 1b is a block diagram of another data processing system 100 according to an embodiment of the present application;

FIG. 1c is a block diagram of yet another data processing system 100 according to an embodiment of the present application;

fig. 2a is a flowchart of a data generation method according to an embodiment of the present application;

fig. 2b is a flowchart of a data execution method according to an embodiment of the present application;

fig. 3a is a schematic structural diagram of a terminal device according to an embodiment of the present application;

fig. 3b is a schematic structural diagram of an internet of things device provided in the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the 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.

Fig. 1a is a schematic structural diagram of a data processing system provided in an embodiment of the present application, and as shown in fig. 1a, a data processing system 100 includes a terminal device 10 and an internet of things device 20, where the terminal device 10 is provided with a structured data generation function, as shown in fig. 1a, a user may make structured data required by himself through a data generation interface provided by the terminal device 10, and on the data generation interface, the user may perform an input operation, configure object feature data, and execute sequence data. The object feature data refers to feature data of an object, and the object is an execution object involved in the operation executed by the internet of things device 20. The execution sequence data is used to describe the execution sequence of the objects by the internet of things device 20. The operation terminal device 10 can convert the object characteristic data and the execution sequence data input by the user into a state control instruction executable by the internet of things device, and generate structured data according to the state control instruction and the object characteristic data. Further, as shown in fig. 1a, the terminal device 10 may send the structured data to the internet of things device 20, so that the internet of things device 20 executes corresponding operations according to the structured data. The internet of things device 20 may receive the structured data sent by the terminal device 10, where the structured data includes object feature data, a state control instruction for the internet of things device 20, and an association relationship between the object feature data and the state control instruction. Further, as shown in fig. 1a, the networked device 20 may perform a corresponding operation according to the state control command, the object feature data, and the association relationship between the two.

In an alternative embodiment of the present application, the terminal device 10 performs storage management on the structured data partition, so that a plurality of pieces of structured data share the same state control instruction and object feature data. When the storage management is carried out on a plurality of structured data partitions, at least two ways are included as follows: a structured data area, a picture data area, a character data area, a voice data area, a video data area, each data of each area containing address data.

In an alternative embodiment of the present application, the data generation interface provided by the terminal device 10 includes an object feature configuration item and an execution sequence configuration item, and a user may perform an input operation on the data generation interface to configure the object feature data and the execution sequence data. The terminal device 10 may respond to the configuration operation of the object feature configuration item on the data generation interface by the user, and obtain the identifiers and attributes of various object features required by the structured data as object feature data; and responding to the configuration operation of the user on the execution sequence configuration items, and acquiring the contents and the description information of the plurality of execution sequence configuration items as execution sequence data.

In an alternative embodiment of the present application, the attribute of the object feature data includes at least one of: the type, the amount, the adding mode and the adding time of the object characteristics; the adding mode comprises manual adding or automatic adding. The description information of the execution order includes at least one of: and executing the object characteristic data, the execution mode and the execution parameters which are sequentially associated.

In an optional embodiment of the present application, when converting the execution sequence data into the state control instruction executable by the internet of things device, the terminal device 10 may combine the control codes and the description information corresponding to a plurality of execution sequences according to a plurality of execution sequences based on a preset correspondence between the execution sequences and the control codes to form the state control instruction. When structured data are generated according to the state control instruction and the object characteristic data information, the target object characteristics related to the execution sequence in the multiple object characteristics can be determined for each execution sequence according to the description information of the execution sequence; and further, associating the control codes and the description information of the execution sequence with the identification and the attribute of the target object characteristics to obtain structured data.

Further, under the condition of obtaining the structured data, the terminal device 10 may send the structured data to the internet of things device 20, and the internet of things device 20 may receive the structured data sent by the terminal device 10, where the structured data includes object feature data, a state control instruction for the internet of things device, and an association relationship between the object feature data and the state control instruction. The internet of things device 20 may execute corresponding operations according to the state control instruction, the object feature data, and the association relationship therebetween, acquire execution state prompt information corresponding to the state control instruction, and output the execution state prompt information.

In an optional embodiment of the present application, when the internet of things device 20 executes a corresponding operation according to the state control instruction, the object feature data, and the association relationship between the state control instruction and the object feature data, the description information and the control codes of a plurality of execution sequences may be analyzed from the state control instruction, and the identifiers and attributes of a plurality of object features may be analyzed from the object feature data; furthermore, the control codes corresponding to the execution sequences can be sequentially executed according to the description information of the execution sequences and the attributes of the associated object characteristics, so as to execute the corresponding operation.

In an optional embodiment of the present application, when the internet of things device 20 sequentially executes the control codes corresponding to the multiple execution sequences according to the description information of the multiple execution sequences and the attributes of the object features associated therewith to execute the corresponding operations, the description information corresponding to the control codes and the attributes of the object features associated therewith may be resolved into the control parameters required for executing the control codes according to the currently executed control codes; and executing the control code according to the control parameter to execute the corresponding operation. When the execution state prompt information corresponding to the state control instruction is acquired, the execution state prompt information corresponding to the currently executed control code can be acquired according to the corresponding relation between the local built-in control code and the execution state prompt information aiming at the currently executed control code.

In the data processing system 100 of the embodiment of the application, the terminal device 10 may generate the structured data and instruct the internet of things device 20 to perform a corresponding operation based on the structured data. The structured data and the device form of the internet of things device 20 are different according to different application scenarios. For example, the data processing system 100 of the embodiment of the present application may be applied to a cooking scenario, and when the data processing system is applied to the cooking scenario, the internet of things device 20 may be a kitchen robot (such as an automatic cooker or other cooking device), and an execution object of the kitchen robot may be a seasoning in a cooking process; accordingly, the structured data having a guidance function on the internet of things device 20 may be an electronic menu, and the object feature data may be seasoning information. The following describes technical problems in the cooking scenario and how embodiments of the present application solve the technical problems in detail.

Fig. 1b is a schematic structural diagram of a data processing system 100 according to an embodiment of the present application, and as shown in fig. 1b, the data processing system 100 includes: terminal device 10 and cooking device 40. The terminal device 10 may be any terminal device capable of providing an interface operation function, and may be, for example, a mobile phone, a tablet computer, a smart watch, smart glasses, a notebook computer, a desktop computer, or the like. A cooking application corresponding to the cooking device 40 may be installed in the terminal device 10, and the cooking application may establish a communication connection with the cooking device 40 and perform data interaction.

When a user wants to cook a dish through the cooking apparatus 40 and an electronic menu corresponding to the dish is not preset in the cooking apparatus 40, the user can make an electronic menu desired by the user through a cooking application running on the terminal apparatus 10. For example, the cooking APP installed on the terminal device 10 and corresponding to the cooking device 40 includes a function of "creating a recipe", and as shown by action (r) in fig. 1b, the user can make an electronic recipe desired by the user using the cooking APP. For example, when the user uses the cooking APP, the terminal device 10 may issue alternative option information to the user to ask the user whether to compose an electronic menu or to follow up an electronic menu; or the user can find a functional module for creating a menu in the cooking APP and directly make an electronic menu; or, a function of 'creating a menu' may be included in the preset menu selection interface, and when the user cannot find the target menu in the preset menu, an electronic menu may be made through the function.

In a case where the user determines to make an electronic menu, the terminal device 10 may present a menu generation interface to the user for the user to make the electronic menu, and the user may input content information required for the electronic menu at an input operation performed at the menu generation interface.

Optionally, information selection items required for generating the electronic menu, for example, food material options, seasoning options, step options, and the like, may be displayed on the menu generation interface, and these information selection items and their corresponding selectable information are preset, so that the user only needs to select the information required by himself from the selectable information for these information selection items. For example, for food material options, the user may select tomatoes 250 grams, eggs 100 grams, etc.; according to the seasoning option, a user can select 10 ml of peanut oil, 5g of salt, 3g of sugar, 2 ml of dark soy sauce, 10g of scallion, ginger and garlic and the like; aiming at the step options, a user can select step 1 to fry eggs with peanut oil, step 2 to add salt in the process of frying the eggs, step 3 to fry the tomatoes with peanut oil and dark soy sauce, step 4 to add sugar in the process of frying the tomatoes, step 5 to mix the fried eggs into the tomatoes and fry the eggs for 4 times, and the like.

Optionally, information editing items required for generating the electronic menu, such as food material editing items, seasoning editing items, step editing items, and the like, may be displayed on the menu generation interface, and these information editing items require the user to manually edit their corresponding information. Optionally, an edit icon and/or a voice icon may be displayed next to the information items, and the user may click the edit icon to select the information items to be edited by text input through the touch screen of the terminal device 10, or may click the voice icon to start the microphone of the terminal device 10 to edit the information items by voice input. For example, for the food material editing item, the user can input potato 200g, beef 100g, and the like in a text or voice manner; for the seasoning option, the user can input 30 ml of peanut oil, 10g of salt, 3 ml of dark soy sauce and the like in a text or voice mode; aiming at the step options, a user can input the step 1 by text or voice to stir-fry the beef with peanut oil, the step 2 adds hot water into the pot, the hot water is slowly stewed for 40 minutes with small fire, the step 3 adds potatoes, the slow stewing is continued with small fire, and the step 4 adds salt and the like.

As can be seen from the above examples, the content information input by the user includes cooking material information and cooking step information, and the cooking material may be cooked food materials such as tomatoes, eggs, potatoes, beef and the like, and may also be seasonings required for cooking food materials such as peanut oil, dark soy sauce, salt, pepper, anise and the like. Further optionally, the cooking material information may further include cooking attribute information of each cooking material, such as a type, a usage amount, an addition manner, an addition time, and the like of the cooking material. In the present embodiment, the cooking apparatus 40 supports both manual addition of cooking materials and automatic addition of cooking materials. The cooking step information is some information for describing the cooking steps, and includes, for example, an execution order between the cooking steps and description information thereof. Included in the description information are, but not limited to: the cooking step is related to cooking materials (such as potatoes or beef), cooking modes (such as stewing or frying), cooking parameters (such as slow stewing time with small fire, stir-frying times) and the like.

The terminal device 10 may acquire the cooking material information and the cooking step information input by the user in response to the input operation of the user on the recipe generation interface, and convert the cooking step information into the state control instruction executable by the cooking device 40. The state control instruction executable by the cooking apparatus 40 may be understood as a sum of control codes corresponding to each cooking step executed by the cooking apparatus 40, and is a code instruction set directly executable by the cooking apparatus 40. Since there is a certain association between the cooking step and the cooking material, after converting the cooking step into the state control command, the terminal device 10 may generate an electronic recipe according to the state control command and the cooking material information, here, it is mainly a process of converting the association between the cooking step and the cooking material into the association between the state control command and the cooking material information. The electronic menu not only comprises the state control instruction and the cooking materials, but also comprises the association relationship between the state control instruction and the cooking materials. Further, in the case of generating an electronic menu, as shown in fig. 1b, the terminal device 10 and the cooking device 40 interact with each other as shown in (c), the terminal device 10 may send the generated electronic menu to the cooking device 40, so that the cooking device 40 performs a cooking operation according to the electronic menu to cook a food corresponding to the electronic menu made by the user. Alternatively, the terminal device 10 may transmit the generated electronic recipe to the cooking device 40 in response to an operation issued by the user to confirm completion of the making of the electronic recipe, or may transmit the generated electronic recipe to the cooking device 40 in response to an operation issued by the user to cook a dish in accordance with the made electronic recipe, but is not limited thereto. For example, the terminal device 10 may also transmit the electronic recipe to the cooking device 40 by default after generating the electronic recipe.

In the embodiment of the present application, the recipe generation interface includes a cooking material configuration item and a cooking step configuration item, and when the terminal device 10 acquires the cooking material information and the cooking step information in response to the input operation of the user on the recipe generation interface, it may acquire the identifications and cooking attributes of a plurality of cooking materials required by the electronic recipe as the cooking material information in response to the configuration operation of the user on the cooking material configuration item; and responding to the configuration operation of the user on the cooking step configuration item, and acquiring the execution sequence and description information of a plurality of cooking steps required for cooking a plurality of cooking materials as cooking step information. The cooking material configuration item is a configuration item for configuring the identification and cooking attribute of the cooking material, and the cooking step configuration item is a configuration item for configuring the execution sequence and description information of a plurality of cooking steps. In implementation forms, the configuration items may be editable text input items (such as various editing items mentioned in the foregoing examples), or selection items such as drop-down lists or check boxes (such as various options mentioned in the foregoing examples), which can be flexibly set according to specific needs, and are not limited herein.

In an embodiment of the present application, the identifier of the cooking material may be a name of the cooking material, and the cooking attribute of the cooking material may include: at least one of type, amount, manner of addition, and time of addition of the cooking material; the type of cooking material refers to currently prepared cooking materials, including food materials or seasonings, for example, chicken, fish, egg, cabbage, etc. belong to food material types, and oil, salt, sauce, vinegar, chicken essence, zanthoxylum, etc. belong to seasoning types. Optionally, the adding manner may include manual adding or automatic adding, and if the adding manner of the cooking material configured by the user is manual adding, the cooking device 40 prompts the user to manually add the cooking material when the cooking material needs to be added in the process of executing the cooking operation; if the cooking material configured by the user is added automatically, the cooking device 40 automatically adds the cooking material to the cooking pot when the cooking material needs to be added during the cooking operation.

In the embodiment of the present application, the description information of the cooking step may include at least one of a cooking material, a cooking manner, and a cooking parameter associated with the cooking step. The cooking mode may include steaming, boiling, frying, stewing and the like, and the cooking parameter refers to a control parameter, such as cooking times, duration, power, temperature and the like, according to which the cooking device 40 performs a cooking operation in a certain cooking mode. For example, if the food to be made by the user is a steam-pot chicken, the step 5 needs to be executed after the food material and the seasoning are put in the steam-pot chicken, and the chicken is steamed with a small fire (low grade) for 1 hour, the cooking parameters configured in the step 5 are as follows when the user configures the electronic menu: the cooking material is chicken, the cooking mode is steaming, the cooking time is 1 hour, the user selects to cook with small fire (low grade), the cooking power is 500w corresponding to the small fire (low grade), and the cooking temperature is 120 ℃ corresponding to the small fire (low grade).

Further, in a case where each cooking step and description information corresponding to each cooking step are configured by the user, the terminal device 10 may combine the control codes and the description information corresponding to the plurality of cooking steps in the execution order of the plurality of cooking steps based on the preset correspondence relationship between the cooking steps and the control codes to form a state control instruction for the cooking device 40 to execute the corresponding cooking step according to each control code in the state control instruction. For example, a user may want to make tomato-fried eggs, and the desired cooking materials include: tomatoes, eggs, shallots, ginger, garlic, and oils and salt (i.e., the identity corresponding to the cooking material); the cooking steps are respectively as follows: the method comprises the following steps of firstly opening a cover, secondly firing, thirdly discharging oil, fourthly placing eggs, fifthly containing the eggs, sixthly discharging the oil, seventhly placing shallots, gingers and garlic, eighthly placing tomatoes, ninth placing the eggs, tenth placing salt, eleventh turning off the fire and twelfth containing dishes. It is assumed that the preset cooking steps of the terminal device 10 and the corresponding relations of the control codes are respectively as follows: the opening of the cover corresponds to the control code 1, the ignition corresponds to the control code 2, the seasoning is put in corresponds to the control code 3, the food material is put in corresponds to the control code 4, the fire is cut off corresponds to the control code 5, and the dish is put out corresponds to the control code 6, so that the control codes corresponding to the cooking steps are 1, 2, 3, 4, 6, 3, 4, 3, 5 and 6. These control codes are merely examples, and in practice, the control code of the terminal device 10 may be a binary digital code that can be recognized by a computer device, may also be a character string composed of letters, and may also be a character string composed of numbers and letters, and is not limited in this respect. The user may configure the corresponding identifier and cooking attribute according to the above-mentioned cooking materials, and configure corresponding description information for each cooking step, and the terminal device 10 may associate the cooking step configured by the user with the control code according to the correspondence between the cooking step and the control code. When configuring the description information of each cooking step and the cooking attribute of the target cooking material, the user can flexibly configure according to the attribute of the dish to be cooked and the diet requirement of the user, for example, in this embodiment, the cooking mode can be set to small fire (low grade) stir-frying, the stir-frying time can be specifically set according to the requirements of different steps, for example, stir-frying seasonings can be set to a shorter time, and if 30 seconds are assumed, stir-frying ingredients can be set to a longer time, if 1 minute is assumed, and the specific configuration information about the cooking attribute of the target cooking material can be referred to the following embodiments.

Under the condition that the user configures the information, for each cooking step, the terminal device 10 may determine, according to the description information of the cooking step, a target cooking material associated with the cooking step among the plurality of cooking materials, and associate the control code and the description information of the cooking step with the identifier and the cooking attribute of the target cooking material, so as to obtain an electronic recipe. In the embodiment of the present application, the generated electronic recipe includes not only the cooking materials, the cooking step information, and the association relationship therebetween, but also can translate the complete cooking step into a machine instruction that can be read by the cooking device 40, as shown in the execution action (c) of the cooking device 40 in fig. 1b, when the terminal device 10 receives the electronic recipe sent by the terminal device 10, the terminal device 10 can execute the cooking operation according to the cooking material information, the state control instruction for the cooking device, and the association relationship therebetween, so as to provide the corresponding cooking service for the user.

Alternatively, in the case of receiving the electronic recipe transmitted by the terminal device 10, the cooking device 40 may parse the received electronic recipe, parse description information and control codes of a plurality of cooking steps from the state control instruction, and parse identifications and cooking attributes of a plurality of cooking materials from the cooking material information. Taking the electronic menu corresponding to the eggs fried by tomatoes as an example in the above embodiment, the cooking device 40 can analyze that the control codes associated with each cooking step are 1, 2, 3, 4, 6, 3, 4, 3, 5 and 6 respectively according to the electronic menu; wherein, the control code 1 corresponds to the cooking action of opening the cover, the control code 2 corresponds to the cooking action of firing, the control code 5 corresponds to the cooking action of turning off the fire, and the control code 6 corresponds to the cooking action of containing dishes; the target cooking materials corresponding to the control codes 3, 4, 3, 4 and 3 are oil, eggs, oil, shallot and ginger, garlic, tomatoes, eggs and salt respectively, namely the marks of the target cooking materials; the cooking mode of the cooking material is stir-frying; the cooking power and temperature are corresponding to the small fire (low grade) (for example, 500W and 80 ℃); the cooking time corresponding to control code 3 is 30 seconds, and the cooking time corresponding to control code 4 is 1 minute. These control codes are merely examples, and in practice, the control codes received by the cooking device 40 may be binary numeric codes recognizable by a computer device, character strings composed of letters, or character strings composed of numbers and letters, and are not limited in this respect. For another example, the cooking attributes of the target cooking material analyzed by the cooking device 40 are respectively: the types of tomatoes and eggs are food materials, and the types of shallots, gingers, garlic, oil and salt are seasonings; the dosages of tomatoes and eggs are 250 g respectively, the dosages of shallots, gingers and garlic are 50 g respectively, the dosages of 2 times of oil discharge are 50ml respectively, and the dosage of salt is 50 g; the adding mode is automatic adding; the adding time is that after the cover is opened and the fire is started, when the temperature of the pot reaches 80 ℃ corresponding to small fire (low grade), oil is discharged, eggs are put in at intervals of 30 seconds, the eggs are contained at intervals of 1 minute, oil is discharged again, shallots, gingers and garlic are put in at intervals of 30 seconds after the oil is put in, tomatoes are put in at intervals of 30 seconds, the eggs are put in at intervals of 1 minute after the tomatoes are put in, salt is put in at intervals of 1 minute, and finally the fire is turned off at intervals of 30 seconds after the salt is put in, and dishes are contained. In the case of parsing the above information, the cooking apparatus 40 may sequentially execute the control codes corresponding to the plurality of cooking steps according to the description information of the plurality of cooking steps and the cooking attributes of the associated cooking materials, so as to perform the cooking operation.

In this embodiment, for the currently executed control code, the cooking device 40 may parse the description information corresponding to the control code and the associated cooking attribute of the cooking material into the control parameter required for executing the control code, and execute the current control code according to the control parameter to execute the cooking operation. For example, in this embodiment, when the control 1 is executed, the cooking device 40 may determine, according to the corresponding relationship between the cooking step and the preset control code, that the cooking action corresponding to the control code 1 is a lid opening operation that does not require the participation of cooking materials, and then the cooking device 40 may open the cooking lid to put the cooking materials into the cooking pot. When the cooking pot cover is opened, the step corresponding to the control code 2 is executed, the cooking equipment 40 analyzes the control parameter required for executing the control code 2 according to the description information corresponding to the control code 2, the control parameter is that the small fire (low grade) is heated to 80 ℃, and the next step is carried out, and then the cooking equipment 40 starts to heat on fire according to the power 500W corresponding to the preset small fire (low grade). When the temperature of the pot reaches 80 ℃, the step corresponding to the first control code 3 is executed, the cooking equipment 40 analyzes control parameters required for executing the control code 3 according to the description information corresponding to the control code 3, 50ml of oil is automatically put in the seasoning container, the cooking equipment is heated for 30 seconds, the next step is started, the cooking equipment 40 controls the seasoning container containing the oil to put 50ml of oil in the cooking pot, the next step is executed after the seasoning container is heated for 30 seconds, and the like. These control codes are merely examples, and in practice, the control codes executed by the cooking device 40 may be binary digital codes that can be recognized by a computer device, or character strings composed of letters, or character strings composed of numbers and letters, and are not limited in this respect.

In the embodiment of the present application, as shown in fig. 1b, the cooking apparatus 40 further includes a display 45 and an audio component 46, and the cooking apparatus 40 may obtain prompt information of a cooking state corresponding to the state control command, and output the prompt information of the cooking state through the display 45 and/or the audio component 46, so that the user can know the current cooking state. In this embodiment, the implementation forms of the display screen 45 and the audio component 46 are not limited, for example, the display screen 45 may be a common LED display screen, or may be a touch screen with a touch function, and the audio component 46 may be a separate voice output device, or may be a device capable of outputting audio and video simultaneously by combining with the display screen 45. In this embodiment of the application, the cooking device 40 has a correspondence relationship between the control code and the prompt information preset locally, and for the currently executed control code, the cooking device 40 may obtain the cooking state prompt information corresponding to the currently executed control code according to the correspondence relationship between the locally built-in control code and the cooking state prompt information, so as to send the cooking state prompt information to the user when the cooking step corresponding to each control code is executed. It should be noted that, if the user configures the adding manner of the cooking materials and configures manual adding, the cooking apparatus 40 may issue a prompt message to the user through the display 45 and/or the audio component 46 when performing adding the corresponding cooking materials, so as to prompt the user to manually add the corresponding cooking materials, and specific prompt manner may be referred to in the following embodiments.

In the embodiment of the present application, the type of the cooking state prompt information is not limited, and the cooking state prompt information may be at least one of pictures, characters and voices, and if the cooking state prompt information preset by the cooking device 40 is a picture, the picture-type cooking state prompt information may be displayed on the display screen 45 when the information needs to be prompted to the user. For example, when the cooking step corresponding to the control code 2 is executed, the cooking device 40 analyzes that the cooking step corresponding to the control code 2 is a hot pot on fire, and then a picture with a small flame content may be displayed on the display screen 45 to prompt that the user is currently heating. If the preset cooking state prompt information of the cooking device 40 is a character, the character type cooking state prompt information may be displayed on the display screen 45 when the user needs to be prompted. For example, when the cooking step corresponding to the first control code 4 is executed, the cooking device 40 analyzes that the cooking step corresponding to the first control code 4 is to stir and fry eggs, and then characters of contents of "putting and frying eggs" can be displayed on the display screen 45 to prompt the user that the eggs are being stir and fried currently. If the preset cooking state prompt message of the cooking apparatus 40 is voice, the cooking state prompt message may be output through the audio module 46 when the message needs to be prompted to the user. For example, when the cooking step corresponding to the first control code 6 is executed, the cooking device 40 resolves that the cooking step corresponding to the first control code 6 is a full egg, and then outputs a voice of the content of "full egg" through the audio component 46 to prompt the user that the user is currently full egg.

Further optionally, the cooking state prompt message may further include a video, and when the prompt message needs to be sent to the user, the video prompt message corresponding to the current control code may also be displayed on the display screen 45 to prompt the user of the current cooking state. Moreover, in the case that the cooking device 40 has a plurality of pictures, characters, voice or videos preset locally, when the cooking device 40 sends the prompt information to the user, the user can be prompted in a plurality of forms of pictures, characters, voice or videos at the same time, so as to provide a better prompt effect. For example, the cooking device 40 is preset with two cooking state prompting information, i.e. voice and video, and when the cooking step corresponding to the first control code 4 is executed, the cooking device 40 analyzes that the cooking step corresponding to the first control code 4 is to stir and fry an egg, and then the video containing the content of "putting an egg and stir-frying" can be displayed on the display screen 45, and the voice of "putting an egg and stir-frying" is played at the same time to prompt the user that the egg is being stir and fried currently. For another example, if the user configures that the adding manner of adding the food materials is manual adding, the user will be prompted to put the corresponding food materials into the cooking pot by the above prompting manner every time the control code 4 is executed. When the cooking step corresponding to the last control code 6 is executed and dishes are contained, the user can be prompted in any mode to finish the cooking operation, and the user can enjoy the food.

Further optionally, as shown in fig. 1b, as an interactive action of the cooking device 40 and the terminal device 10, the cooking device 40 may further send the prompt information and the cooking state information corresponding to each cooking step to the terminal device 10, and the terminal device 10 may send the prompt information to the user on the display screen when receiving the cooking state information, so that the user knows the current cooking state later. For example, the cooking material is added automatically by the user, and when the user goes to a living room or a bedroom after determining to start cooking, the user cannot see or hear the cooking state prompt message sent by the cooking device 40. The terminal device 10 prompts the cooking state to the user in real time, so that the user can know the cooking state in time at a longer distance, and can enjoy the delicious food in time under the condition that the cooking is finished.

Further alternatively, as shown in fig. 1c, the cooking system 100 may further include a server 30, and the terminal device 10 and the cooking device 40 may also communicate through the server 30. As shown in the actions of first and second in fig. 1c, the user can send the electronic menu to the server 30 when the user sets the electronic menu through the cooking APP at the terminal device 10. Further, as shown in action (c) of fig. 1, the server 30 may send the received electronic menu to the cooking device 40, or the cooking device 40 may also actively obtain the electronic menu from the server 30 at regular time, and the specific manner is not limited. Further, as shown in action (r) of fig. 1c, the cooking device 40 may perform a corresponding cooking operation according to the received electronic menu, so as to cook the gourmet food for the user, and the specific process may refer to the above embodiment, which is not described herein again. In addition, in the cooking process, as shown in actions (c) and (c) of fig. 1, the cooking device 40 may send the cooking state information corresponding to each cooking step to the server 30, and the cloud server 30 sends the information to the terminal device 10, or the terminal device 10 may also actively obtain the information from the server 30 at regular time, and the specific manner is not limited.

It should be noted that, in the embodiment of the present application, the communication mode between the terminal device 10 and the cooking device 40 may be a bluetooth connection, or may be a connection through WIFI or other mobile networks. The network type of the mobile network may be any one of 2G (gsm), 2.5G (gprs), 3G (WCDMA, TD-SCDMA, CDMA2000, UTMS), 4G (LTE), 4G + (LTE +), 5G, WiMax, or a new network type that will appear in the future, and the like, which is not limited specifically. The server 30 may be a common business server or a cloud server, and may be set according to specific requirements.

In the embodiment of the application, the terminal device provides the function of making the electronic menu for the user, and the user can make the electronic menu except the preset menu of the cooking device, so that the cooking device can cook the food wanted by the user according to the requirement of the user. And the electronic menu not only comprises cooking material information and cooking step information, but also comprises a state control instruction corresponding to the incidence relation between the cooking material information and the cooking step information, and the state control instruction has a preset control code and is determined according to the incidence relation between the cooking steps. The cooking equipment can cook the gourmet food according to the cooking steps corresponding to each control code in the state control instruction, and under the condition that a user needs to be prompted, the prompt information corresponding to the current cooking step is given according to the corresponding relation between the preset control code and the prompt information, so that better cooking experience is brought to the user.

Application scenario one

The user Zhang three possess a smart mobile phone and an intelligence machine of cooking, and the cell-phone loads the application software APP of intelligence machine of cooking, and the cell-phone utilizes the mode radio signal connection of bluetooth with the machine of cooking, and both can carry out wireless data communication at home. Zhang III creates a menu on the APP of the cooking machine, clicks the 'creating menu' on the APP and selects dishes, and Zhang III selects braised prawns. After entering an authoring interface of the braised prawn menu, the APP maps the control code in the electronic menu to Zhang III recognizable characters, for example, the control code of the electronic menu is "open cover", the electronic menu authoring end of the APP displays "close pot cover", the control code is "running time", and "running time" is displayed. Meanwhile, the APP has a fixed menu format, and the menu format is embedded with a control code to form a guide interface with an interactive function. This guide interface includes: primary information, seasoning information, status information, etc. The main information includes: recipe name, running time, seasoning step, state step and the like, wherein the seasoning information comprises: the seasoning number, the character description, the main material name, the seasoning amount and the like, and the state information comprises: running state, pot cover state, stirring state, fire power, running time, running temperature, text description and the like. And (3) editing and inputting food material information by Zhang three pairs: 500 g of shrimp, 50ml of edible oil, 20 g of hot pepper, 20 ml of soy sauce, 10 ml of aromatic vinegar, 10g of salt and 50 g of scallion, ginger and garlic; and after the storage, the cooking parameter information is edited, the heating temperature is 180 ℃, and the heating time is 5 minutes. And meanwhile, the third step also needs the editing of step information, and according to a time axis, the cleaned shrimps are put into the frying pan and the pan cover is closed in the first step. And secondly, adding seasonings to the seasoning box, wherein various seasonings need to be accurately measured, the measurement is divided into volume and weight, the volume of the seasonings is measured by using the volume of the measuring cup, and the weight is measured by using the electronic scale of the measuring cup. And thirdly, cooking is started, the heater starts to heat the pot body, voice and displayed prompt information is sent out from the cooking machine, and the current heating temperature and heating time of Zhang III are informed. The subsequent steps are not listed until the cooking is finished. The APP stores the data information of the menus in a partitioning mode, the data information is specifically divided into a menu area, a picture area, a word bank area, a voice area and a video area, and each stored partitioning area comprises data information such as content, a starting address and size. Multiple electronic recipes may share the same state control instructions and cooking material information. Each recipe requires the same cooking step information: adding seasonings, opening a pot cover, closing the pot cover and the like, wherein the step information is respectively stored in a menu area and a voice area and comprises address information, and the same step information can be shared by a plurality of menus. When a user makes dishes such as tomato fried eggs, braised prawns, braised pork and the like, the cooking step information needs to be called, after the partitioned storage management, control instructions of the cooking step information are stored in a menu area and a voice area once respectively, and the same shared state control instruction is called by different electronic menus. Multiple electronic recipes can also share the same cooking material information, for example, the dish of tomato fried eggs, multiple electronic recipes can be established, and each electronic recipe uses the same picture to display the name of the dish to the user. The electronic recipes of a plurality of tomato fried eggs use the same shared picture information, the picture information is stored in a picture area after being stored and managed according to partitions, address information is attached, and the picture data information is shared by the electronic recipes of different tomato fried eggs. The partition storage management improves the management efficiency and saves the storage space.

Application scenario two

The user Li IV is provided with an intelligent cooker, and application software for man-machine interaction is arranged in a display screen of the intelligent cooker. And creating a menu on the application software, clicking the 'created menu' on the application software, and selecting dishes, wherein the braised prawn is selected by the fourth plum. After entering an authoring interface of the braised prawn menu, the application software maps the control code in the electronic menu to the character which can be identified by the plum four, for example, the control code of the electronic menu is "open cover", the electronic menu authoring end of the application software displays "close pot cover", the control code is "running time", and "running time" is displayed. Meanwhile, the application software has a fixed menu format, and the menu format is embedded with a control code to form a guide interface with an interactive function. This guide interface includes: primary information, seasoning information, status information, etc. The main information includes: recipe name, running time, seasoning step, state step and the like, wherein the seasoning information comprises: the seasoning number, the character description, the main material name, the seasoning amount and the like, and the state information comprises: running state, pot cover state, stirring state, fire power, running time, running temperature, text description and the like. And fourthly, editing and inputting food material information: 500 g of shrimp, 50ml of edible oil, 20 g of hot pepper, 20 ml of soy sauce, 10 ml of aromatic vinegar, 10g of salt and 50 g of scallion, ginger and garlic; and after the storage, the cooking parameter information is edited, the heating temperature is 180 ℃, and the heating time is 5 minutes. Meanwhile, the fourth plum also needs to edit step information, and cleaned shrimps are put into the frying pan and the pan cover is closed according to a time axis in the first step. And secondly, adding seasonings to the seasoning box, wherein various seasonings need to be accurately measured, the measurement is divided into volume and weight, the volume of the seasonings is measured by using the volume of the measuring cup, and the weight is measured by using the electronic scale of the measuring cup. And thirdly, cooking is started, the heater starts to heat the pot body, voice and displayed prompt information is sent out from the frying machine, and the current heating temperature and heating time of the plum four are informed. The subsequent steps are not listed until the cooking is finished. The application software stores the data information of the menus in a partition mode, and the data information is specifically divided into a menu area, a picture area, a word stock area and a voice area, wherein each storage area comprises information such as content, a starting address and size. The information stored by these partitions can be edited, copied, called, etc. independently. The cooking machine stores the data information of the recipes in a partition mode, and the data information is specifically divided into a recipe area, a picture area, a character area, a voice area and a video area, and each stored partition comprises data information such as content, a starting address and size. Multiple electronic recipes may share the same state control instructions and cooking material information. Each recipe needs to have the same character information: word stock, numbers, letters and the like, wherein the character information is stored in the character area and comprises address information, and the same character information can be shared by a plurality of menus. When making dishes such as tomato fried eggs, braised prawn, braised pork and the like, a user needs to call the character information, but after the partitioned storage management, the character information is stored in the character area once, and the same shared character information is called by different electronic recipes. A plurality of electronic recipes can also share the same state control instruction, for example, the dish of braised prawn can be established, and each electronic recipe can display the cooking process of the dish to the user by using the same video information. The electronic menus of a plurality of braised prawns use the same shared video information, the video information is stored in a video area after being stored and managed according to partitions, address information is attached, and the video data information is shared by the electronic menus of different video information. The partition storage management improves the management efficiency and saves the storage space.

In addition to the cooking scenario, the data processing system of the embodiment of the present application may also be applied to other scenarios suitable for controlling the internet of things device to execute corresponding operations according to the structured data, and the specific implementation process is similar to the above embodiment, which can be referred to in the above embodiment. For more detailed description of the content of the embodiment of the present application, an embodiment of the present application further provides a data generating method, which is applicable to the terminal device in the system embodiment described above.

Fig. 2a is a flowchart of a structured data generation method, as shown in fig. 2a, the method includes:

s1a, responding to the input operation of the user on the data generation interface, and acquiring object characteristic data and execution sequence data.

S2a, converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data.

S3a, sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

In the embodiment of the application, the terminal device is provided with a structured data generating function, and a user can specifically configure the object feature data and the execution sequence data on a data generating interface of the terminal device to form structured data desired by the user. When the terminal equipment responds to the configuration operation of the user, the execution sequence data configured by the user can be converted into a state control instruction executable by the equipment of the Internet of things, and structured data is generated according to the state control instruction and the object characteristic data. And then, the structured data can be sent to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

In an alternative embodiment, the terminal device may perform partitioned storage management on the structured data, so that multiple pieces of structured data share the same state control instruction and object feature data. When the partitioned storage management is performed on a plurality of structured data, at least two ways can be included as follows: a structured data area, a picture data area, a character data area, a voice data area, a video data area, each data of each area containing address data.

In an optional embodiment, the data generation interface includes an object configuration item and an execution sequence configuration item, and when object feature data and execution sequence data are acquired in response to an input operation of a user on the data generation interface, identifiers and attributes of various objects required by the structured data can be acquired as object feature data in response to the configuration operation of the user on the object configuration item; and responding to the configuration operation of the user on the execution sequence configuration items, and acquiring the contents and the description information of the plurality of execution sequence configuration items as execution sequence data. The object configuration item is a configuration item for configuring the identifier and the attribute of the object, and the execution sequence configuration item is a configuration item for configuring a plurality of execution sequences and description information. In an implementation form, the configuration items may be editable text input items, or selection items such as drop-down lists or check boxes, and may be flexibly set according to specific requirements, which is not limited herein.

In an optional embodiment, the attribute of the object may include at least one of a type, a usage amount, an adding manner, and an adding time of the object; the adding mode can include manual adding or automatic adding. The description information of the execution sequence may include at least one of an object, an execution manner, and an execution parameter associated with the execution sequence. The execution parameters refer to control parameters, such as execution times, duration, power, temperature and the like, according to which the internet of things device executes corresponding operations in a certain manner.

In an optional embodiment, when the object feature data is converted into the state control instruction executable by the internet of things device, the state control instruction may be formed by combining the control codes corresponding to the multiple execution sequences and the description information according to the multiple execution sequences based on the corresponding relationship between the preset execution sequences and the control codes, so that the internet of things device executes the corresponding step according to each control code in the state control instruction.

In an optional embodiment, when the structured data is generated according to the state control instruction and the object feature data, for each execution sequence, a target object associated with the execution sequence in the multiple objects can be determined according to the description information of the execution sequence; and associating the control codes and the description information of the execution sequence with the identification and the attribute of the target object to obtain structured data. The generated structured data packet not only includes the object, the execution sequence data and the association relationship between the object and the execution sequence data, but also includes a state control instruction for translating the complete execution sequence into a state that can be read and understood by the internet of things device. Under the condition that the equipment of the Internet of things receives the structured data, the structured data comprising the object characteristic data, the state control instruction of the equipment of the Internet of things and the incidence relation between the object characteristic data and the state control instruction can be analyzed, corresponding operation is executed accordingly, and corresponding service is provided for a user.

In an alternative embodiment, the structured data is an electronic recipe and the object characteristic data is a cooking material.

The embodiment of the application also provides a data execution method, and the method is suitable for the Internet of things equipment in the system embodiment.

Fig. 2b is a flow chart of a data execution method, as shown in fig. 2b, the method comprising:

s1b, receiving structured data sent by terminal equipment, wherein the structured data comprises object feature data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object feature data and the state control instruction.

And S2b, executing corresponding operation according to the state control command, the object characteristic data and the association relation between the two.

And S3b, acquiring the execution state prompt information corresponding to the state control command and outputting the execution state prompt information.

In this embodiment of the application, the internet of things device may execute a corresponding operation according to the object feature data included in the received structured data, the state control instruction for the internet of things device, and the association relationship between the object feature data and the state control instruction. In addition, in the process of executing operation, the execution state prompt information corresponding to the state control instruction can be acquired, and the execution state prompt information is output under the condition that information prompt needs to be sent to the user, so that the user can know the current execution state.

In an optional embodiment, the internet of things device may analyze the received structured data, and when corresponding operations are executed according to the state control instruction, the object feature data, and the association relationship therebetween, may analyze the description information and the control codes of the multiple execution sequences from the state control instruction, and analyze the identifiers and attributes of the multiple objects from the object feature data. Because each execution sequence has a corresponding relationship with the control code, the control codes corresponding to the execution sequences can be sequentially executed according to the description information of the execution steps and the attributes of the objects associated with the execution steps so as to execute the corresponding operation.

In an optional embodiment, when the control codes corresponding to the multiple execution sequences are sequentially executed according to the description information of the multiple execution sequences and the attributes of the objects associated with the description information, so as to execute the corresponding operations, the description information corresponding to the control codes and the attributes of the objects associated with the description information are analyzed into the control parameters required by the execution of the control codes according to the currently executed control codes, and the control codes are executed according to the control parameters, so as to execute the corresponding operations. The control parameter required by the control code may be at least one of an object type, a usage amount, an adding mode and an adding time corresponding to the attribute of the object, and the adding mode may be manual adding or automatic adding; or at least one of an object, an execution manner, and an execution parameter corresponding to the description information of the execution sequence may be used, where the execution parameter refers to a control parameter, such as execution times, duration, power, temperature, etc., according to which the internet of things device executes a corresponding operation in a certain execution manner.

In an optional embodiment, when obtaining the execution state prompt information corresponding to the state control instruction, for the currently executed control code, the execution state prompt information corresponding to the currently executed control code may be obtained according to the corresponding relationship between the local built-in control code and the execution state prompt information, so as to output the execution state prompt information when the prompt information needs to be sent to the user.

In an optional embodiment of the present application, the type of the execution status prompt message includes at least one of a picture, a text, and a voice; accordingly, the execution state prompt information of the picture type can be displayed on the display screen; displaying execution state prompt information of the character type on a display screen; and outputting the execution state prompt information in any mode such as playing the execution state prompt information of the voice type in a voice mode. Further optionally, the type of the execution state prompt message may further include a video, and when the execution state prompt message is output to the user, the execution state prompt message of the video type may also be output on the display screen. Further optionally, when at least 2 of the plurality of types of prompt information are simultaneously included, when the execution state prompt information is output to the user, a plurality of types of prompt information may also be simultaneously output to the user, and a specific implementation manner is not limited.

In an alternative embodiment, the structured data is an electronic recipe and the object characteristic data is a cooking material.

In this description, besides the user uses the terminal device to complete the structured data production, the user may also directly produce the structured data through the internet of things device under the condition that the internet of things device has a display screen. Therefore, an embodiment of the present application further provides a method for generating structured data applied to an internet of things device, including: displaying a data generation interface for a user to make structured data; responding to input operation of a user on a data generation interface, and acquiring object characteristic data and execution sequence data; and converting the execution sequence data into a state control instruction which can be executed by the Internet of things equipment, generating structured data according to the state control instruction and the object characteristic data, and storing the structured data locally. Further, when the user sends an instruction instructing the internet of things device to execute corresponding operations according to the structured data, the internet of things device can read the structured data from local, analyze the structured data, and execute corresponding operations according to the corresponding relationship between the control code corresponding to the analyzed state control instruction and the execution sequence, and the object characteristic data and the description information corresponding to the execution sequence. The difference between the above steps and the foregoing embodiments is only that the execution subject is different, but the detailed implementation manner can be referred to the foregoing embodiments, and is not described herein again.

It should be noted that the execution subjects of the steps of the methods provided in the above embodiments may be the same device, or different devices may be used as the execution subjects of the methods. For example, the execution subjects of steps S1a to S3a may be device a; for another example, the execution subject of steps S1a and S2a may be device a, and the execution subject of step S3a may be device B; and so on.

In addition, in some of the flows described in the above embodiments and the drawings, a plurality of operations occurring in a specific order are included, but it should be clearly understood that the operations may be executed out of the order they appear herein or in parallel, and the sequence numbers of the operations, such as S1a and S2a, are merely used to distinguish between the various operations, and the sequence numbers themselves do not represent any execution order. Additionally, the flows may include more or fewer operations, and the operations may be performed sequentially or in parallel. It should be noted that, the descriptions of "first", "second", etc. in this document are used for distinguishing different messages, devices, modules, etc., and do not represent a sequential order, nor limit the types of "first" and "second" to be different.

Fig. 3a is a schematic structural diagram of a terminal device according to an embodiment of the present application, and as shown in fig. 3a, the terminal device 10 includes: a display screen 15, a processor 11 and a memory 12 in which computer programs are stored; the display screen 15 is used for a human-computer interaction interface, including a display data generation interface; the processor 11 and the memory 12 may be one or more.

The memory 12 is mainly used for storing computer programs, and these computer programs can be executed by the processor 11, so that the processor 11 controls the terminal device 10 to implement corresponding functions, and complete corresponding actions or tasks. In addition to storing computer programs, the memory 12 may be configured to store other various data to support operations on the terminal device 10. Examples of such data include instructions for any application or method operating on terminal device 10.

In the embodiment of the application, a proper data storage distribution is designed according to the capacity of the memory 12, structured data, picture data, font data and voice data are respectively arranged in the memory, so that partitioned storage is realized, and address data information which can be directly recognized by the processor 11 can be generated according to written storage data information. Specifically, in a memory of the internet of things device, storage data information of the structured data is stored in a partitioned manner and is divided into a structured data area, a picture area, a library area, a voice area and the like, and each storage data area is configured with a start address for a processor to directly call, so that the processor can identify access data information after partitioning, and can find partitions such as the picture area more conveniently. As a preferred embodiment of the present application, after the storage information of the structured data is managed by the partition, the data information of each partition may be called by the multiple structured data, including some repeated information, information with high frequency of use, for example, heating power in a cooking scene, opening a lid, closing a lid, and the like. There are also some data information of voice, picture, video, such as voice information: please add salt, cook, etc., and the picture information is the cate picture of the braised prawn. The information can be repeatedly called by a plurality of structured data, so that the partition management can save space and improve efficiency. Since each piece of stored data information carries identity information including content, address and size, the stored information of the partitioned structured data can be edited, copied, transferred and the like in a modularized manner, for example, the picture data information stored in the intelligent terminal can be copied to a storage area of the internet of things device, and vice versa. So as to improve the experience and convenience of the user. In the embodiment of the application, the structured data partition is subjected to storage management, so that a plurality of structured data call the same state control instruction and object feature data. The multiple structured data partition storage management includes at least two of: the menu data area, the picture data area, the character data area, the voice data area and the video data area, wherein each data of each subarea comprises address data.

The memory 12, which may be implemented by any type of volatile or non-volatile memory device or combination thereof, may include, for example, a Static Random Access Memory (SRAM), an electrically erasable programmable read-only memory (EEPROM), an erasable programmable read-only memory (EPROM), a programmable read-only memory (PROM), a read-only memory (ROM), a magnetic memory, a flash memory, a magnetic disk, or an optical disk.

In the embodiment of the present application, the implementation form of the processor 11 is not limited, and may be, for example, but not limited to, a CPU, a GPU, an MCU, or the like. The processor 11 may be regarded as a control system of the terminal device 10 and may be configured to execute a computer program stored in the memory 12 to control the terminal device 10 to implement the corresponding functions and to perform the corresponding actions or tasks. It should be noted that, depending on the implementation form and the scene where the terminal device 10 is located, the functions, actions or tasks required to be implemented may be different; accordingly, the computer programs stored in the memory 12 may be different, and the execution of different computer programs by the processor 11 may control the terminal device 10 to implement different functions, perform different actions or tasks.

In some optional embodiments, as shown in fig. 3a, the terminal device 10 may further include: power components 13, communication components 14, and audio components 16. Only some components are schematically shown in fig. 3a, which does not mean that the terminal device 10 includes only the components shown in fig. 3a, and the terminal device 10 may further include other components according to different application requirements, depending on the product form of the terminal device 10.

In the embodiment of the present application, when the processor 11 executes the computer program in the memory 12, it is configured to: responding to input operation of a user on a data generation interface, and acquiring object characteristic data and execution sequence data; converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data; and sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

In an alternative embodiment, the data generating interface includes an object configuration item and an execution sequence configuration item, and the processor 11, when acquiring the object feature data and the execution sequence data in response to an input operation of a user on the data generating interface, is configured to: responding to the configuration operation of a user on the object configuration item, and acquiring the identification and the attribute of various objects required by the structured data as object characteristic data; and is also used for: and responding to the configuration operation of the user on the execution sequence configuration item, and acquiring a plurality of execution sequences and description information as execution sequence data.

In an alternative embodiment, the attributes of the object include at least one of: the type, the amount, the adding mode and the adding time of the object; the adding mode comprises manual adding or automatic adding.

In an alternative embodiment, the description information of the execution order includes at least one of: and executing the object, the execution mode and the execution parameter which are associated with the sequence.

In an optional embodiment, the processor 11, when executing the conversion of the sequence data into the state control instructions executable by the internet of things device, is configured to: and combining the control codes corresponding to the execution sequences and the description information according to the execution sequences based on the corresponding relation between the preset execution sequences and the control codes to form the state control instruction.

In an alternative embodiment, the processor 11, when generating the structured data from the state control instructions and the object feature data, is configured to: for each execution sequence, determining a target object associated with the execution sequence in the multiple objects according to the description information of the execution sequence; and associating the control codes and the description information of the execution sequence with the identification and the attribute of the target object to obtain structured data.

In an alternative embodiment, the structured data is an electronic recipe and the object characteristic data is a cooking material.

Accordingly, the present application further provides a computer-readable storage medium storing a computer program, where the computer program can implement the steps that can be executed by the terminal device in the foregoing method embodiments when executed.

Fig. 3b is a schematic structural diagram of the internet of things device in the embodiment of the present application, and as shown in fig. 3b, the internet of things device 20 includes: a display 25, a processor 24 and a memory storing computer programs; the processor 24 and memory may be one or more, among others.

The memory is mainly used for storing computer programs, and the computer programs can be executed by the processor 24, so that the processor 24 controls the internet of things device 20 to realize corresponding functions and complete corresponding actions or tasks. In addition to storing computer programs, the memory may be configured to store other various data to support operations on the internet of things device 20. Examples of such data include instructions for any application or method operating on the internet of things device 20.

The memory 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.

In the embodiment of the present application, the implementation form of the processor 24 is not limited, and may be, for example and without limitation, a CPU, a GPU, an MCU, or the like. The processor 24 may be regarded as a control system of the internet of things device 20, and may be configured to execute a computer program stored in the memory to control the internet of things device 20 to implement the corresponding functions and complete the corresponding actions or tasks. It should be noted that, according to the implementation form and the scene of the internet of things device 20, the functions, actions or tasks to be implemented may be different; accordingly, the computer programs stored in the memory may vary, and execution of the different computer programs by the processor 24 may control the internet-of-things device 20 to perform different functions, perform different actions, or tasks.

In some optional embodiments, if the internet of things device 20 is a cooking device in a cooking scenario, the internet of things device may further include a pan body 21, a heating base 22 for heating the pan body 21, and a base 23 for bearing the heating base 22, as shown in fig. 3 b; wherein the display screen 25, the processor 24 and the memory may be provided on the base 23. Further optionally, as shown in fig. 3b, the internet of things device 20 may further include: a pot cover 26 for covering the pot body 21; a support 27 for supporting the pot body 21 and the pot cover 26; a seasoning box 28 for containing seasoning for cooking; a measuring device 29 for measuring the amount of seasoning contained; an audio component for outputting prompt information to the user, and a communication component for establishing a communication connection with other devices (the audio and communication components are not shown in fig. 3 b). Only some components are schematically shown in fig. 3b, which does not mean that the internet of things device 20 includes only the components shown in fig. 3b, and the internet of things device 20 may further include other components according to different application requirements, specifically depending on the product form of the internet of things device 20.

In an embodiment of the application, the processor 24, when executing the computer program in the memory, is configured to: receiving structured data sent by terminal equipment, wherein the structured data comprises object characteristic data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object characteristic data and the state control instruction; executing corresponding operation according to the state control instruction, the object characteristic data and the incidence relation between the state control instruction and the object characteristic data; and acquiring the execution state prompt information corresponding to the state control instruction, and outputting the execution state prompt information to the display screen 25, wherein the display screen 25 is used for displaying the execution state prompt information to a user so that the user can know the current execution state.

In an alternative embodiment, the processor 24, when executing corresponding operations according to the state control instruction, the object feature data and the association relationship therebetween, is configured to: analyzing the description information and the control codes of a plurality of execution sequences from the state control instruction, and analyzing the identification and the attribute of a plurality of objects from the object characteristic data; and sequentially executing the control codes corresponding to the execution sequences according to the description information of the execution sequences and the attributes of the objects related to the description information so as to execute corresponding operations.

In an optional embodiment, the processor 24, when sequentially executing the control codes corresponding to the plurality of execution sequences according to the description information of the plurality of execution sequences and the attributes of the objects associated therewith to execute corresponding operations, is configured to: for the currently executed control code, analyzing the description information corresponding to the control code and the attribute of the associated object into a control parameter required by the execution of the control code; and executing the control code according to the control parameter to execute the corresponding operation.

In an alternative embodiment, when processor 24 obtains the execution state hint information corresponding to the state control instruction, it is configured to: and aiming at the currently executed control code, acquiring the execution state prompt information corresponding to the currently executed control code according to the corresponding relation between the local built-in control code and the execution state prompt information.

In an optional embodiment, the type of the execution status prompt message includes at least one of a picture, a text and a voice; accordingly, processor 24, when outputting the execution state hint information, is configured to output at least one of: displaying execution state prompt information of the picture type on a display screen; displaying execution state prompt information of the character type on a display screen; and playing the voice-type execution state prompt message in a voice mode.

In an alternative embodiment, the structured data is an electronic recipe and the object characteristic data is a cooking material

The internet of things device 20 provided by this embodiment may have a function of generating structured data, in addition to performing corresponding operations according to the structured data. In particular, the processor 24 in the internet of things device 20 executes the computer program in the memory and is further operable to: responding to input operation of a user on a data generation interface, and acquiring object characteristic data and execution sequence data; and converting the execution sequence data into a state control instruction executable by the internet of things device 20, generating structured data according to the state control instruction and the object characteristic data, and storing the structured data locally. For detailed implementation of the related operations, reference may be made to the foregoing embodiments, which are not described herein again.

Accordingly, the present application also provides a computer readable storage medium storing a computer program, where the computer program is capable of implementing the steps that can be executed by the cooking device in the above method embodiments when executed.

The communication component of fig. 3a described above is configured to facilitate communication between the device in which the communication component is located and other devices in a wired or wireless manner. The device where the communication component is located can access a wireless network based on a communication standard, such as a WiFi, a 2G, 3G, 4G/LTE, 5G and other mobile communication networks, or a combination thereof. In an exemplary embodiment, the communication component receives a broadcast signal or broadcast related information from an external broadcast management system via a broadcast channel. In an exemplary embodiment, the communication component may further include a Near Field Communication (NFC) module, Radio Frequency Identification (RFID) technology, infrared data association (IrDA) technology, Ultra Wideband (UWB) technology, Bluetooth (BT) technology, and the like.

The display screen in the above embodiments includes a screen, which may include a Liquid Crystal Display (LCD) and a Touch Panel (TP). If the screen includes a touch panel, the screen may be implemented as a touch screen to receive an input signal from a user. The touch panel includes one or more touch sensors to sense touch, slide, and gestures on the touch panel. The touch sensor may not only sense the boundary of a touch or slide action, but also detect the duration and pressure associated with the touch or slide operation.

The power supply assembly of the above embodiments provides power to various components of the device in which the power supply assembly is located. The power components may include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power for the device in which the power component is located.

The audio component in the above embodiments may be configured to output and/or input an audio signal. For example, the audio component includes a Microphone (MIC) configured to receive an external audio signal when the device in which the audio component is located is in an operational mode, such as a call mode, a recording mode, and a voice recognition mode. The received audio signal may further be stored in a memory or transmitted via a communication component. In some embodiments, the audio assembly further comprises a speaker for outputting audio signals.

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

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

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

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

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the element.

The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present application shall be included in the scope of the present application.

Claims (16)

1. A data generation method is applicable to a terminal device, and comprises the following steps:

responding to input operation of a user on a data generation interface, and acquiring object characteristic data and execution sequence data;

converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data;

and sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

2. The method of claim 1, wherein the structured data partition is storage managed for the plurality of structured data to share the same state control instructions and object characterization data.

3. The method of claim 2, wherein the plurality of structured data partition storage management comprises at least two of: a structured data area, a picture data area, a character data area, a voice data area, a video data area, each data of each area containing address data.

4. The method according to claim 1, wherein the data generation interface includes an object configuration item and an execution sequence configuration item, and the acquiring of the object feature data and the execution sequence data in response to the input operation of the user on the data generation interface includes:

responding to the configuration operation of a user on the object configuration item, and acquiring the identification and the attribute of various objects required by the structured data as object characteristic data;

and responding to the configuration operation of the user on the execution sequence configuration items, and acquiring the contents and the description information of the plurality of execution sequence configuration items as execution sequence data.

5. The method of claim 2, wherein the attributes of the object comprise at least one of: the type, the amount, the adding mode and the adding time of the object; the adding mode comprises manual adding or automatic adding.

6. The method of claim 2, wherein the description information of the execution order comprises at least one of: and executing the object, the execution mode and the execution parameter which are associated with the sequence.

7. The method of claim 4 or 6, wherein converting the execution sequence data into state control instructions executable by the IOT device comprises:

and combining the control codes corresponding to the execution sequences and the description information according to the execution sequences based on the corresponding relation between the preset execution sequence and the control codes to form the state control instruction.

8. The method of claim 7, wherein generating structured data from the state control instructions and the object feature data comprises:

for each execution sequence, determining a target object associated with the execution sequence in the multiple objects according to the description information of the execution sequence;

and associating the control codes and the description information of the execution sequence with the identification and the attribute of the target object to obtain the structured data.

9. The method of any of claim 8, wherein the structured data is an electronic recipe and the object characteristic data is a cooking material.

10. A data execution method is applicable to Internet of things equipment and comprises the following steps:

receiving structured data sent by terminal equipment, wherein the structured data comprises object characteristic data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object characteristic data and the state control instruction;

executing corresponding operation according to the state control instruction, the object characteristic data and the incidence relation between the state control instruction and the object characteristic data; and

and acquiring execution state prompt information corresponding to the state control instruction, and outputting the execution state prompt information.

11. The method according to claim 10, wherein performing corresponding operations according to the state control command, the object feature data and the association relationship therebetween comprises:

analyzing the description information and the control codes of a plurality of execution sequences from the state control instruction, and analyzing the identification and the attribute of a plurality of objects from the object characteristic data;

and sequentially executing the control codes corresponding to the execution sequences according to the description information of the execution sequences and the attributes of the objects related to the description information so as to execute corresponding operations.

12. The method of claim 11, wherein sequentially executing the control codes corresponding to the plurality of execution sequences according to the description information of the plurality of execution sequences and the attributes of the objects associated therewith to perform corresponding operations comprises:

for the currently executed control code, analyzing the description information corresponding to the control code and the attribute of the associated object into a control parameter required by executing the control code;

and executing the control code according to the control parameter so as to execute corresponding operation.

13. The method of claim 11, wherein obtaining execution state hint information corresponding to the state control instruction comprises:

and aiming at the currently executed control code, acquiring the execution state prompt information corresponding to the currently executed control code according to the corresponding relation between the local built-in control code and the execution state prompt information.

14. The method of any of claims 10-13, wherein the structured data is an electronic recipe and the object characteristic data is a cooking material.

15. A terminal device, comprising: a display screen, a processor and a memory storing a computer program;

the display screen is used for displaying a data generation interface;

the processor to execute the computer program to:

responding to input operation of a user on the data generation interface, and acquiring object characteristic data and execution sequence data;

converting the execution sequence data into a state control instruction executable by the Internet of things equipment, and generating structured data according to the state control instruction and the object characteristic data;

and sending the structured data to the Internet of things equipment so that the Internet of things equipment can execute corresponding operation according to the structured data.

16. An internet of things device, comprising: a display screen, a processor and a memory storing a computer program;

the processor to execute the computer program to:

receiving structured data sent by terminal equipment, wherein the structured data comprises object characteristic data, a state control instruction for the equipment of the Internet of things and an incidence relation between the object characteristic data and the state control instruction;

executing corresponding operation according to the state control instruction, the object characteristic data and the incidence relation between the state control instruction and the object characteristic data; and

acquiring execution state prompt information corresponding to the state control instruction, and outputting the execution state prompt information to the display screen;

and the display screen is used for displaying the execution state prompt information to the user so that the user can know the current execution state.

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