CN111818172A - Method and device for controlling intelligent equipment by management server of Internet of things - Google Patents

Abstract

The application discloses a method and a device for controlling intelligent equipment by an Internet of things management server, and the method comprises the following steps: collecting control corpora input by a user, selecting a corresponding control scene from prestored scene information, and acquiring intelligent equipment and equipment actions corresponding to the product type; and sending the device control instruction generated based on the device action to the intelligent device so as to control the intelligent device to execute the device action. Therefore, according to the method and the device provided by the invention, a user can define a plurality of control scenes in the internet of things management server, and control the intelligent equipment in the form of scenes and linguistic data, so that the purpose that the home-end internet of things management server indirectly manages and controls the intelligent equipment of different product types in a unified manner under the condition that the third-party internet of things management server cannot synchronize all equipment information to the home-end internet of things management server is realized, and the control range and the user experience are improved.

Description

Method and device for controlling intelligent equipment by management server of Internet of things

Technical Field

The application relates to the technical field of Internet of things, in particular to a method and a device for controlling intelligent equipment by an Internet of things management server.

Background

With the rapid development of network technology, more and more products tend to be intelligent, and so does the AIOT (Artificial Intelligence & Internet of Things) management system. Nowadays, an internet of things management server (internet of things management server) plays an important role in the fields of smart homes, automobiles, industrial control, intelligent buildings and the like. A large number of intelligent devices are needed in the management server of the Internet of things, and the management server of the Internet of things is used for carrying out functions of real-time monitoring, global situation display, control logic analysis, issuing control instructions, data statistical analysis and the like on each intelligent device.

Taking the field of smart home as an example, taking one of the smart devices (e.g., a smart television, a smart sound box, etc.) as a control terminal of the management server of the internet of things, and implementing visual control on other smart devices (e.g., electrical devices such as a smart lamp, a smart air conditioner, a smart curtain, a smart kitchen and toilet, a smart camera, etc.) by acquiring device information (e.g., device type definition, control instruction definition, etc.) of the smart device.

However, the smart devices in the home may have different product types, and each product type controls its own smart device by using the belonging internet-of-things management server. If the management server of the internet of things needs to control all the intelligent devices in a family, the device information of the intelligent devices of different product types needs to be acquired. However, at present, all pieces of equipment information cannot be synchronized to the third-party internet-of-things management server by each product type, so that the internet-of-things management server is prone to failing to acquire the equipment information of the intelligent equipment of each product type, and cannot uniformly control the intelligent equipment of different product types.

Disclosure of Invention

The application provides a method and a device for controlling intelligent equipment by using an Internet of things management server, which are used for solving the problem that the existing Internet of things management server cannot uniformly control the intelligent equipment of different product types.

In a first aspect, the application provides a method for controlling an intelligent device by an internet of things management server, which includes the following steps:

acquiring a control corpus input by a user, wherein the control corpus is a corpus which is used by the user to control intelligent equipment of different product types;

selecting a control scene corresponding to the control corpus from prestored scene information, wherein the control scene refers to a scene in which a user controls intelligent equipment of different product types;

acquiring equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and corresponding equipment action;

and sending a device control instruction generated based on the device action to at least one intelligent device, wherein the device control instruction is used for controlling the at least one intelligent device to execute a corresponding action according to the corresponding device action.

In some embodiments of the present application, the method further comprises:

based on the product type, creating a plurality of corresponding control scenes and a plurality of scene corpora, wherein the scene corpora refer to corpora used for determining the control scenes;

establishing a scene mapping relation between each control scene and at least one scene corpus;

setting at least one intelligent device of a product type to be controlled and corresponding device actions under each control scene, wherein the device actions refer to actions to be executed by the intelligent device;

and storing the scene mapping relation, the intelligent equipment of the product type to be controlled and the corresponding equipment action as scene information.

In some embodiments of the present application, the method further comprises:

acquiring a control scene and a corresponding product type in the scene information, and establishing a scene list;

and sending the scene list to an intelligent terminal, wherein the intelligent terminal is used for displaying the scene list.

In some embodiments of the present application, the pre-stored scene information includes a scene mapping relationship; and selecting a control scene corresponding to the control corpus from the pre-stored scene information, wherein the selecting comprises:

performing voice recognition on the control corpus, and determining a scene corpus input by a user;

and selecting a control scene corresponding to the scene corpus in the scene mapping relation.

In some embodiments of the present application, the method further comprises:

receiving authorization requests of different product types sent by an intelligent terminal;

responding to authorization requests of different product types, and sending a scene information synchronization request to a third-party Internet of things management server, wherein the third-party Internet of things management server is used for controlling intelligent equipment of different product types;

and receiving third party scene information returned by the third party Internet of things management server in response to the scene information synchronous request, wherein the third party scene information comprises intelligent equipment of different product types and corresponding equipment actions.

In some embodiments of the present application, the method further comprises:

acquiring a local control scene name in local scene information and a third party control scene name in third party scene information;

comparing the third party control scene name with the local terminal control scene name;

and if the third party control scene name is consistent with the home terminal control scene name in comparison, modifying the home terminal control scene name.

In some embodiments of the present application, the obtaining of the device control information of the product type corresponding to the control scenario includes: determining the product type as a third-party product type according to the control scene; and the number of the first and second groups,

the sending of the device control instruction generated based on the device action to at least one of the smart devices comprises:

sending a control notice to a third-party Internet of things management server, wherein the control notice is used for indicating the third-party Internet of things management server to acquire at least one intelligent device corresponding to the third-party product type and a corresponding device action, and sending a device control instruction generated based on the device action to the at least one intelligent device corresponding to the third-party product type, and the device control instruction is used for controlling the at least one intelligent device of the third-party product type to execute the corresponding device action.

In some embodiments of the present application, the obtaining of the device control information of the product type corresponding to the control scenario includes: determining the product type as a third-party product type according to the control scene; and the number of the first and second groups,

the sending of the device control instruction generated based on the device action to at least one of the smart devices comprises:

after receiving all the device information of at least one intelligent device corresponding to a third-party product type synchronized by a third-party internet-of-things management server, sending a device control instruction generated based on the device action to the at least one intelligent device corresponding to the third-party product type, wherein the device control instruction is used for controlling the at least one intelligent device of the third-party product type to execute the corresponding device action.

In some embodiments of the present application, the method further comprises:

and after the intelligent equipment acts according to the equipment action, generating an equipment control finishing instruction, wherein the equipment control finishing instruction is used for prompting the execution condition of the intelligent terminal user intelligent equipment.

In a second aspect, the present application further provides a device for controlling an intelligent device based on a scene, where the device includes:

the corpus acquiring module is used for acquiring control corpuses input by a user, wherein the control corpuses are corpuses for controlling intelligent equipment of different product types by the user;

the control scene selection module is used for selecting a control scene corresponding to the control corpus from prestored scene information, wherein the control scene refers to a scene in which a user controls intelligent equipment with different product types;

the equipment control information acquisition module is used for acquiring equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and equipment actions;

and the control instruction sending module is used for sending an equipment control instruction generated based on the equipment action to at least one intelligent equipment, and the equipment control instruction is used for controlling the at least one intelligent equipment to execute a corresponding action according to the corresponding equipment action.

In a third aspect, the present application further provides a storage medium, where the computer storage medium may store a program, and when the program is executed, the program may implement some or all of the steps in the embodiments of the method for controlling an intelligent device by using a scene-based internet of things management server provided in the present application.

As can be seen from the foregoing technical solutions, the method and apparatus for controlling an intelligent device by a scene-based internet of things management server according to the embodiments of the present invention include: collecting a control corpus input by a user, selecting a target control scene corresponding to the control corpus from prestored scene information, and acquiring equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and corresponding equipment action; and sending the equipment control instruction generated based on the equipment action to at least one intelligent equipment so as to control the at least one intelligent equipment to execute the corresponding action according to the corresponding equipment action. Therefore, according to the method and the device provided by the invention, a user can define a plurality of control scenes in the IOT management server and control the intelligent equipment in the form of scenes and linguistic data, so that the aim of uniformly managing and controlling the intelligent equipment with different product types by the local IOT management server is fulfilled under the condition that the third-party IOT management server cannot synchronize all equipment information to the local IOT management server, the user basically has no perception, and the control range and the user experience are greatly improved.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

FIG. 1 illustrates a flow diagram of a method of creating context information, in accordance with some embodiments;

FIG. 2 illustrates a definition diagram for defining smart devices and device actions based on control scenarios, in accordance with some embodiments;

FIG. 3 illustrates another definition diagram for defining smart devices and device actions based on control scenarios, in accordance with some embodiments;

FIG. 4 is a flow diagram illustrating a method of synchronizing scene information, in accordance with some embodiments;

FIG. 5 illustrates a data flow diagram for synchronizing scene information, in accordance with some embodiments;

FIG. 6 illustrates a flow diagram of a method of checking whether a control scene name is duplicated, according to some embodiments;

a diagram of a scene list according to some embodiments is illustrated in fig. 7;

another schematic diagram of a scene list according to some embodiments is illustrated in fig. 8;

FIG. 9 is a flow diagram illustrating a method of creating a new control scenario, in accordance with some embodiments;

FIG. 10 is a data flow diagram illustrating the creation of a new control scenario, in accordance with some embodiments;

a flow diagram of a method of an internet of things management server controlling a smart device according to some embodiments is illustrated in fig. 11;

FIG. 12 illustrates a scenario diagram of a smart device controlling a type of a home product, in accordance with some embodiments;

FIG. 13 illustrates a scenario diagram of a smart device controlling third party product types, according to some embodiments;

a block diagram of an apparatus for controlling a smart device by an internet of things management server according to some embodiments is illustrated in fig. 14.

Detailed Description

In some embodiments, smart devices of different product types are managed and controlled by respective internet of things management servers (AIOT management systems), e.g., smart devices of the same brand are controlled by the belonging internet of things management server. In the application scene development of the management server of the internet of things, the unified management and control of the intelligent devices of different product types by using the same management server of the internet of things is a new trend.

However, for various reasons such as information protection, when device information of each product type (brand) is synchronized to another third-party internet-of-things management server through an account, all device information (for example, device type definition, control instruction definition, and the like) cannot be synchronized, so that there is a phenomenon: the intelligent equipment under a certain brand of user can be seen and controlled in the internet of things management server to which the intelligent equipment belongs, but cannot be seen or controlled in the third-party internet of things management server.

Therefore, in order to realize that the management server of the internet of things can uniformly control the intelligent devices of different product types, the embodiment of the invention provides a method for controlling the intelligent devices by the management server of the internet of things.

Specifically, at the present stage, each internet of things management server can support the management and control of a plurality of intelligent devices under the user in a scene mode. Therefore, a user can define a plurality of scenes in the internet of things management server, and control of the intelligent equipment is performed in the form of scenes and corpora, so that the purpose that the intelligent equipment of different brands is managed and controlled indirectly by the home internet of things management server under the condition that the third-party internet of things management server cannot synchronize all equipment information to the home internet of things management server is achieved, the user basically has no perception, and the control range and the user experience are greatly improved.

The scene name and the corpus are completely behaviors defined by a user, and no technical barriers and business limitations exist, so that all internet of things management server partners can share the information, namely, the home internet of things management server can acquire the information (the scene name and the corpus) managed by the third-party internet of things management server.

According to the method provided by the embodiment, the scene names and the corpora created by the user in each Internet of things management server are managed in a unified mode, the capability of the user in controlling each brand of equipment in a unified mode is achieved, the method is simple and efficient, the control instruction of the own equipment is allowed to be realized by the Internet of things management servers of all brands in a free and privatized mode, the limitation of the control specification of the Internet of things management server of a third party is avoided, and the home-end Internet of things management server can enable the user to control the intelligent equipment of different product types (brands) in a more flexible mode without knowing the equipment information of the user in other Internet of things management servers.

A flow diagram of a method of creating context information according to some embodiments is illustrated in fig. 1. In order to control an intelligent device of each product type by using a scene name and a corpus, in the method for controlling an intelligent device by using an internet of things management server according to an embodiment of the present invention, each internet of things management server to which an intelligent device of a different product type belongs needs to create its own scene information first, and specifically, the method for creating the scene information includes:

s011, based on the product type, creating a plurality of corresponding control scenes and a plurality of scene corpora, wherein the scene corpora refer to corpora used for determining the control scenes.

Because each management server of the internet of things only controls the intelligent equipment of the same product type, namely, each management server of the internet of things manages the intelligent equipment of the same brand party. Therefore, each internet of things management server needs to establish scene information for managing the intelligent device.

Therefore, at least one intelligent device corresponding to the product type is determined according to the product type, and a corresponding control scene and a scene corpus are created for the at least one intelligent device. The control scenario is used for representing the operation state of the intelligent device in a certain environment, for example, in a sleeping scenario, the operation state of the intelligent device is off; in the scene of going home, the running state of the intelligent equipment is started.

The scene corpus is the words spoken by the user when speaking, the starting of a certain control scene can be realized, for example, the scene corpus is set as 'i get home', the control scene 'get home' can be started, and then the corresponding intelligent device is started.

Because the corpus generalization descriptions of the user in each scene are numerous, the uniqueness of the corpus generalization descriptions cannot be guaranteed, otherwise, the setting complexity of the internet of things management server is increased, and the user experience is not good, for example, under a plurality of control scenes, the user needs to consider which scene corpus has been described, and needs to start another control scene without using another scene.

Therefore, for the convenience of use of a user, only the name of the control scene can be ensured to be unique, the user can start the same control scene through multiple scene corpora, the user can be ensured to smoothly start a certain control scene, and the influence on the user experience caused by the fact that the user needs to think about the scene corpora corresponding to the control scene is avoided.

The uniqueness of the control scene name is ensured, which scene started by a user can be accurately positioned, and which product type of intelligent equipment to be controlled can be accurately determined. For example, the user may define the scene corpus "on tv" in the "go home" control scenario, or may define the scene corpus "on tv" in the "game" control scenario. Therefore, if the user says 'turn on television', the internet of things management server detects that the two different control scenes both have the corpus, and further prompts the user to 'do you have two control scenes, go home and play, ask for which one needs to be executed', the user can further select according to the prompt, and the user can accurately locate the scene which is desired to be executed, and further control the device action defined under the scene.

S012, establishing scene mapping relation between each control scene and at least one scene corpus.

In order to facilitate a user to start a corresponding control scene through the scene corpus, the internet of things management server needs to establish a scene mapping relationship between the control scene and at least one scene corpus. Because the name of each control scene is unique, and the same control scene can correspond to a plurality of scene corpora, the control scene and the scene corpora in the scene mapping relationship are in one-to-many relationship.

For example, based on the product type a, when the control scene is "go home", the set corresponding scene corpus may be "i have come back", "go home", "off duty", "go home", and the like. Based on the product type a, when the control scene is "away from home", the set corresponding scene corpus may be "i went to work", "i went away", "i went out", and the like. Based on the product type B, when the control scene is "sleep", the set corresponding scene corpus may be "Good night", "sleeping", "Good night", and the like.

S013, setting at least one intelligent device of the product type to be controlled and corresponding device actions under each control scene, wherein the device actions refer to actions to be executed by the intelligent device.

After the scene and the corpus of the type of the managed product are set by each internet of things management server, the intelligent equipment to be controlled and the action to be executed by the intelligent equipment can be set in the corresponding control scene.

Specifically, under each control scene, at least one intelligent device is respectively set, the product type of the set intelligent device needs to correspond to the internet of things management server, and meanwhile, the action required to be executed by the intelligent device is set.

A definition diagram for defining smart devices and device actions based on control scenarios, according to some embodiments, is illustrated in fig. 2. For example, referring to fig. 2 (a), based on the product type a, in the "go home" control scenario, the smart device to be controlled and the device action are respectively set to "sound box plays music" and the like. Referring to fig. 2 (b), based on the product type a, in the "away from home" control scenario, the intelligent device and the device action to be controlled are set to be "the sound box stops playing", "the sweeping robot is started after 10 minutes", and the like. Referring to fig. 2 (c), based on the product type B, in the "sleep" control scenario, the intelligent devices and the device actions to be controlled are set to be "light off", "television off", and "curtain off", respectively.

In some embodiments, the third-party internet-of-things management server may synchronize all device information of part of the smart devices managed by the third-party internet-of-things management server to the home-end internet-of-things management server, and at this time, the home-end internet-of-things management server may directly control the smart devices of the third-party product type.

Another definition diagram for defining smart devices and device actions based on control scenarios, according to some embodiments, is illustrated in fig. 3. For example, referring to fig. 3, if all the device information of the smart device tv and the curtain is synchronized to the home internet of things management server in the product type B managed by the third-party internet of things management server, the home internet of things management server can directly control the smart device tv and the curtain without controlling the smart device tv and the curtain through the third-party internet of things management server.

When defining the control scene, referring to fig. 3 (a), in the "go home" control scene, the intelligent device and the device actions to be controlled are set to be "television on", "curtain on", "sound box playing music", and the like, respectively. Referring to fig. 3 (b), in the control scene of "leaving home", the intelligent device and the device actions to be controlled are set to be "television off", "curtain off", "sound box stop playing", "floor sweeping robot is turned on after 10 minutes", and the like, respectively.

At the moment, the television and the curtain can be controlled and managed by the home-end Internet of things management server and the third-party Internet of things management server at the same time.

And S014, storing the scene mapping relation, the intelligent equipment of the product type to be controlled and the corresponding equipment action as scene information.

And each Internet of things management server stores the scene mapping relationship created by each Internet of things management server, the defined intelligent equipment of the product type to be controlled and the corresponding equipment action as respective scene information, and manages the scene information of the respective product type.

The method adopted by the internet of things management servers corresponding to other product types in creating the corresponding scene information may refer to the contents of steps S011 to S014, that is, the method for creating the scene information of each product type by each internet of things management server is the same, and is not described herein again.

When the home-end internet-of-things management server needs to control the intelligent devices of other product types, the home-end internet-of-things management server can request a third-party internet-of-things management server to synchronize scene information managed by the third-party internet-of-things management server to the home end, namely the scene information created based on the third-party product type, and the home-end internet-of-things management server stores the home-end scene information created based on the product type and the third-party scene information as required information for the home-end internet-of-things management server to control the intelligent devices of all product types.

When the management server based on the local-side internet of things uniformly controls the intelligent devices of other product types, other third-party internet of things management servers need to synchronize scene information created based on the product types to the management server based on the local-side internet of things.

FIG. 4 is a flow diagram illustrating a method of synchronizing scene information, in accordance with some embodiments; a data flow diagram for synchronizing scene information in accordance with some embodiments is illustrated in fig. 5. For this reason, in the method provided in the embodiment of the present invention, when the third-party internet-of-things management server synchronizes respective scene information to the home-end internet-of-things management server, referring to fig. 4 and 5, the method further includes the following steps:

s021, receiving authorization requests of different product types sent by the intelligent terminal.

S022, responding to authorization requests of different product types, sending a scene information synchronization request to a third-party Internet of things management server, wherein the third-party Internet of things management server is used for controlling intelligent devices of different product types.

S023, third party scene information returned by the third party Internet of things management server in response to the scene information synchronization request is received, wherein the third party scene information comprises intelligent devices of different product types and corresponding device actions.

When a user requests a third-party Internet of things management server to synchronize scene information to a home-end Internet of things management server, an authorization request can be sent through the intelligent terminal, and the authorization request refers to an authorization request of intelligent equipment allowing control over a third product type. The third-party internet-of-things management server can be at least one of the internet-of-things management servers corresponding to other product types.

And after receiving the authorization requests of other different product types sent by the intelligent terminal, the home-end Internet of things management server generates scene information synchronization requests and respectively sends the scene information synchronization requests to the third-party Internet of things management servers, wherein each third-party Internet of things management server controls the intelligent equipment of the product type.

The third-party Internet of things management servers respond to the scene information synchronization request and send the scene information managed by the third-party Internet of things management servers to the local-end Internet of things management server, the local-end Internet of things management server receives the scene information sent by each third-party Internet of things management server and stores the scene information, and at the moment, the local-end scene information and the third-party scene information are stored in the local-end Internet of things management server.

Since the same scene name may exist when each internet of things management server creates a control scene based on the respective product type, in order to avoid the situation that the scene names are repeated after the scene information managed by each internet of things management server is synchronized to the home-end internet of things management server, the home-end internet of things management server needs to check the control scene name after receiving the scene information sent by each third-party internet of things management server.

A flow diagram of a method of checking whether a control scene name is duplicated, according to some embodiments, is illustrated in fig. 6. Referring to fig. 6, when the home internet of things management server checks whether the scene name is repeated in the scene information of each internet of things management server, the method provided in the embodiment of the present invention further includes the following steps:

s024, acquiring a local control scene name in local scene information and a third party control scene name in third party scene information.

S025, comparing the third party control scene name with the local terminal control scene name;

and S026, if the third party control scene name is consistent with the local control scene name in comparison, modifying the local control scene name.

When each internet of things management server creates a control scene, the corresponding name is defined and stored in the corresponding scene information. Therefore, after receiving the scene information sent by other third-party internet-of-things management servers, the home-end internet-of-things management server can obtain respective control scene names according to respective scene information.

The local-end Internet of things management server compares the local-end control scene name with the third-party control scene name, if the comparison is consistent, the scene name is repeated, and the third-party Internet of things management server does not synchronize all the equipment information to the local-end Internet of things management server, namely, the local-end Internet of things management server does not have the right to modify the scene information created by the third-party Internet of things management server, so that the local-end Internet of things management server can modify the local-end scene information, namely, the local-end control scene name.

When the home-end internet-of-things management server modifies the home-end control scene name, the home-end internet-of-things management server can modify the name according to a selected rule, and the modification rule can be distinguished by adding numbers after the corresponding control scene name or adding product types after the control scene name.

Because a product type corresponds to at least one control scene, in order to enable a user to clearly know which product type corresponds to which control scene, a scene list can be established according to scene information and displayed at an intelligent terminal, wherein the scene information comprises scene information managed by a local internet of things management server and scene information managed by all synchronized third-party internet of things management servers.

Specifically, when setting up a scene list, the method further comprises the steps of:

step 031, obtain the control scene and the corresponding product type in the scene information, establish the scene list.

Step 032, sending the scene list to an intelligent terminal, where the intelligent terminal is used for displaying the scene list.

The method comprises the steps that each Internet of things management server can acquire control scenes corresponding to product types based on scene information created by the product types, and establishes a corresponding relation between the product types and each control scene to obtain a scene list.

A schematic diagram of a scene list according to some embodiments is illustrated in fig. 7. In some embodiments, if the smart devices of respective product types are managed by the respective internet of things management servers, referring to (a) in fig. 2 and 7, in a "home" control scenario, the corresponding product type is a home product type a; under the control scene of 'leaving home', the corresponding product type is a home product type A; under the control scene of 'sleeping', the corresponding product type is the product type B.

In some embodiments, if some third-party internet-of-things management servers synchronize all the device information of the intelligent devices corresponding to the management product types of the third-party internet-of-things management servers to the home-end internet-of-things management server, the home-end internet-of-things management server manages the home-end intelligent devices and the intelligent devices of the third-party product types at the same time. For example, if the third-party internet-of-things management server synchronizes all the device information of a certain intelligent device corresponding to the product type B managed by the third-party internet-of-things management server to the home-side internet-of-things management server, referring to fig. 3 and fig. 7 (B), in the "home-returning" control scenario, the corresponding product types are the home-side product type a and the third-party product type B; under the control scene of 'leaving home', the corresponding product types are a home product type A and a third-party product type B; under the control scene of 'sleeping', the corresponding product type is a third-party product type B.

The management server of the internet of things at the home terminal sends the scene list to the intelligent terminal, the APP connected with the management server of the internet of things is configured in the intelligent terminal, and the scene list is displayed after the intelligent terminal receives the scene list sent by the management server of the internet of things.

After the scene information of the management servers of the Internet of things is synchronized, a user can check the scene list through the intelligent terminal. For the scene information created based on the type of the local product, the user can not only check but also edit, namely modify the intelligent equipment to be controlled and the equipment action to be executed; for the third-party scene information, the user can only view the scene information without modification permission, because the third-party internet of things management server does not synchronize all the device information.

The scene list provided in the above embodiment displays the scene name and the product type name, and in other embodiments, the scene list may also display the scene name and the corresponding name of the smart device.

Another schematic diagram of a scene list according to some embodiments is illustrated in fig. 8. If the intelligent devices of respective product types are managed by the internet-of-things management servers, referring to (a) in fig. 2 and 8, under a control scene of 'going home', the corresponding intelligent devices are sound boxes; under the control scene of leaving home, the corresponding intelligent equipment is a sound box and a sweeping robot; under the control scene of 'sleeping', the corresponding intelligent devices are lamps, televisions and curtains.

In some embodiments, if some third-party internet-of-things management servers synchronize all the device information of the intelligent devices corresponding to the management product types of the third-party internet-of-things management servers to the home-end internet-of-things management server, the home-end internet-of-things management server manages the home-end intelligent devices and the intelligent devices of the third-party product types at the same time. For example, if a certain internet of things management server synchronizes all device information of some intelligent devices (televisions and curtains) corresponding to the product type B managed by the certain internet of things management server to the local-end internet of things management server, referring to (B) in fig. 3 and 8, in a "home" control scenario, the product type includes a and B, and the corresponding intelligent devices are televisions, curtains and sound boxes; under the control scene of 'leaving home', the product types comprise A and B, and then the corresponding intelligent equipment is a television, a curtain, a sound box and a sweeping robot; under the control scene of 'sleeping', the product type comprises B, and the corresponding intelligent equipment is a lamp, a television and a curtain.

Since the control scene name is the key for the internet of things management server to uniformly control the intelligent devices of each product type based on the scene, the uniqueness of the control scene name needs to be ensured. In the specific application process, the user can also customize a new control scene at any time, configure a new combination of intelligent equipment and new equipment actions.

FIG. 9 is a flow diagram illustrating a method of creating a new control scenario, in accordance with some embodiments; a data flow diagram for creating a new control scenario, according to some embodiments, is illustrated in fig. 10. For this reason, referring to fig. 9 and fig. 10, in the method provided by the embodiment of the present invention, when creating a new control scenario, in order to ensure the uniqueness of the control scenario name, the method further includes the following steps:

and S041, acquiring a new control scene name based on the product type.

And S042, judging whether the new control scene name is consistent with the local control scene name in comparison.

And S043, if the new control scene name is inconsistent with the local control scene name in comparison, judging whether the new control scene name is consistent with the third party control scene name in comparison.

And S044, if the new control scene name is inconsistent with the third-party control scene name in comparison, creating a new control scene corresponding to the new control scene name.

And S045, if the new control scene name is consistent with the local control scene name in comparison, or the new control scene name is consistent with the third party control scene name in comparison, generating prompt information.

And S046, sending prompt information to the intelligent terminal, wherein the prompt information is used for prompting that the intelligent terminal user needs to modify the name of the new control scene.

A user inputs a new control scene name based on a certain product type through an intelligent terminal, the home terminal Internet of things management server obtains the new control scene name, compares the new control scene name with the home terminal control scene name, and judges whether the new control scene name is a duplicate name or not; if the new control scene name is not duplicated, comparing the new control scene name with the third party control scene name, and judging whether the new control scene name is duplicated; and if the name is not duplicated, a new control scene can be created by the new control scene name, and then the intelligent equipment which needs to be controlled and the equipment action executed by the intelligent equipment which needs to be controlled and corresponds to the subsequent setting are executed.

If the third-party control scene name is compared with the new control scene name, the third-party internet of things management server sends prompt information to the home-end internet of things management server, and then the home-end internet of things management server sends the prompt information to the intelligent terminal. Or if the duplicate name occurs when the local control scene name is compared with the new control scene name, the local internet of things management server sends prompt information to the intelligent terminal.

And the intelligent terminal receives the prompt message, which indicates that the duplicate name condition exists at present and needs to modify the new control scene name created by the user. The prompting information can be displayed on a page of inputting a new control scene name by operating the intelligent terminal by a user in a pop-up frame mode, and the prompting content can be 'the scene with the same name already exists and the name needs to be changed'.

And when the user sees the bullet frame, the name of the new control scene can be modified until the name of the new control scene is not repeated with the name of the local control scene and the name of the third party control scene.

After the new control scene is created, the home-end Internet of things management server stores the corresponding scene information, so that the intelligent equipment can be called conveniently when the intelligent equipment of each product type is controlled subsequently.

After the user utilizes the internet of things management server to complete the self-definition of the control scene and the scene linguistic data, the user can utilize the control scene and the scene linguistic data to realize the unified management and control of the intelligent devices of different product types in the family.

A flow diagram of a method of an internet of things management server controlling a smart device, according to some embodiments, is illustrated in fig. 11. Referring to fig. 11, the method for controlling an intelligent device by using an internet of things management server provided in the embodiment of the present invention is applied to an internet of things management server, and the method includes the following steps:

and S1, acquiring a control corpus input by the user, wherein the control corpus is a corpus which is used by the user to control the intelligent equipment of different product types.

When a user needs to control the intelligent equipment by using the Internet of things management server, the user can interact with the Internet of things management server in a voice mode. The voice portal of the internet of things management server can be an intelligent device supporting the AIOT function, for example, a smart speaker, a smart television or other voice input terminal.

The voice entry of the internet-of-things management server collects scene control intentions spoken by the user, for example, i come back, get home, or execute control corpora such as a home control scene, and starts a corresponding control scene as a voice instruction to control the corresponding intelligent device. The voice inlet sends the collected control corpora to the home terminal Internet of things management server, and the home terminal Internet of things management server acquires the control corpora to carry out the control process of the follow-up intelligent equipment.

And S2, selecting a control scene corresponding to the control corpus from the prestored scene information, wherein the control scene is a scene in which the user controls the intelligent equipment with different product types.

Because the linguistic data spoken by the user has a corresponding relationship with a certain control scene, a control scene corresponding to the control linguistic data exists in the scene information stored in advance, and the control scene is the control scene which the user needs to start.

Here, the pre-stored scene information includes the home-side scene information and the third-party scene information, and therefore, the control scene may be the scene information managed by the home-side internet of things management server or the scene information managed by the third-party internet of things management server.

Specifically, the pre-stored scene information includes a scene mapping relationship, that is, a corresponding relationship between a control scene and at least one scene corpus; therefore, the local internet of things management server selects a control scene corresponding to the control corpus from the prestored scene information, and the method comprises the following steps:

and step 21, performing voice recognition on the control corpus to determine the scene corpus input by the user.

And step 22, selecting a control scene corresponding to the scene corpus in the scene mapping relation.

The control corpus spoken by the user is audio information, and the internet of things management server performs voice recognition on the control corpus by using a voice platform configured by the internet of things management server, so that what the content spoken by the user is, that is, what the scene corpus spoken by the user is can be recognized.

After the scene corpus is determined, a control scene corresponding to the scene corpus can be selected according to the scene mapping relation.

For example, if the scene corpus spoken by the user is "i'm back", the control scene corresponding to "i'm back" is "home" in the scene mapping relationship, that is, the control scene is determined to be "home" control scene.

And S3, acquiring device control information of a product type corresponding to the control scene, wherein the device control information of the product type comprises at least one intelligent device and corresponding device action.

After the control scene which needs to be started by the user is determined, the product type corresponding to the control scene can be determined, and then the device control information corresponding to the product type, namely the intelligent device and the corresponding device action, can be obtained.

Specifically, when the device control information is acquired, the type of the product managed by the management server of the internet of things can be determined according to the control scene based on the scene list created by the management server of the internet of things. For example, if the control scene is a "home" control scene, the corresponding product type is determined to be the home product type a according to the scene list, which indicates that the smart device that the user needs to control is each smart device (such as a sound box) under the home product type a.

For example, if the control scene is a "sleep" control scene, the corresponding product type is determined to be product type B according to the scene list, which indicates that the intelligent devices (televisions, curtains, lamps, etc.) that the user needs to control are the intelligent devices under product type B.

And S4, sending a device control instruction generated based on the device action to at least one intelligent device, wherein the device control instruction is used for controlling the at least one intelligent device to execute a corresponding action according to the corresponding device action.

The Internet of things management server determines a control scene needing to be controlled according to the control corpus input by the user, further determines a product type needing to be controlled, and acquires intelligent equipment needing to be controlled and corresponding equipment actions corresponding to the product type.

And the management server of the Internet of things generates an equipment control instruction according to the equipment action and sends the equipment control instruction to the intelligent equipment, so that the intelligent equipment can be controlled to execute the action indicated by the equipment action.

A scenario diagram of a smart device controlling a home product type according to some embodiments is illustrated in fig. 12. Referring to fig. 12, a user speaks a control corpus "i comes back", which is collected by a control terminal configured with an AIOT function, and the control terminal may be a local-end intelligent device in a home, such as an intelligent sound box or an intelligent television. The control terminal sends the collected control corpus to the Internet of things management server, voice recognition is carried out through a voice platform in the Internet of things management server, the fact that the user speaks is ' I's back ' is recognized, the control scene is determined to be ' home ', the Internet of things management server is informed, and the user needs to execute the home control scene.

According to the home control scene and the scene list shown in fig. 7, the product type is determined to be the home product type a. If the definition schematic diagram shown in fig. 2 is adopted, in the control scene of "going home", the intelligent device to be controlled is a sound box, and the device action to be executed by the sound box is "playing music". At this moment, the home internet of things management server can generate an equipment control instruction according to the equipment action of playing music, and directly send the equipment control instruction to the target intelligent equipment sound box, so that the sound box can be controlled to execute the action of playing music, and the sound box is started and plays music.

If the definition schematic diagram shown in fig. 3 is adopted, in the control scene of "going home", the intelligent devices to be controlled are a television, a curtain and a sound box, where a device action to be executed by the television is "on", a device action to be executed by the curtain is "on", and a device action to be executed by the sound box is "play music". At this time, the home internet of things management server can generate a device control instruction according to the device actions of "open", "open" and "play music", and directly send the device control instruction to the target smart devices "television", "curtain" and "sound box", so that the "television" can be controlled to be opened, "curtain" is opened, "sound box" executes the action of "play music", and sound box is opened and plays music.

And after the corresponding intelligent equipment finishes the equipment action, feeding back the equipment action to the management server of the Internet of things, and feeding back the equipment execution condition to the control terminal by the management server of the Internet of things.

However, if the determined product type to be controlled is a third-party product type, since the home internet of things management server cannot directly control the intelligent device managed by the third-party internet of things management server, in this scenario, the home internet of things management server needs to send a notification to the third-party internet of things management server, so that the third-party internet of things management server controls the intelligent device managed by the third-party internet of things management server to execute a corresponding action.

Specifically, when the management server of the internet of things executes and acquires the device control information of the product type corresponding to the control scenario, the method includes: and determining the product type as a third-party product type according to the control scene.

When the product type to be controlled is determined to be a third-party product type, the internet of things management server sends a device control instruction generated based on the device action to at least one intelligent device, and the method comprises the following steps: and sending a control notification to a third-party Internet of things management server, wherein the control notification is used for indicating the third-party Internet of things management server to acquire at least one intelligent device corresponding to the third-party product type and a corresponding device action, and sending a device control instruction generated based on the device action to the at least one intelligent device corresponding to the third-party product type, and the device control instruction is used for controlling the at least one intelligent device of the third-party product type to execute the corresponding device action.

Because the third-party internet-of-things management server does not synchronize all the device information to the home-end internet-of-things management server, the home-end internet-of-things management server does not have the right to control the intelligent device of the third-party product type. In order to realize that the home-end internet-of-things management server can uniformly manage and control all intelligent devices of different product types in a family, a control scene is determined through scene linguistic data input by a user, and then the corresponding product type and the corresponding intelligent device and device action are determined, and the home-end internet-of-things management server informs a third-party internet-of-things management server in a control notification mode, so that the user needs to execute the managed control scene.

After receiving the control notification, the third-party internet-of-things management server controls the intelligent device and the device action carried in the notification, and generates a device control instruction according to the device action and sends the device control instruction to the intelligent device corresponding to the third-party product type so as to control the intelligent device of the third-party product type to execute the corresponding device action.

In some embodiments, if the third-party internet-of-things management server synchronizes all the device information of the intelligent devices managed by the third-party internet-of-things management server to the home-end internet-of-things management server, the home-end internet-of-things management server can directly control the intelligent devices of the third-party product types. At this time, the method provided in the embodiment of the present invention, when executing sending the device control instruction generated based on the device action to at least one smart device, includes: after receiving all the device information of at least one intelligent device corresponding to the third-party product type synchronized by the third-party internet-of-things management server, sending a device control instruction generated based on the device action to the at least one intelligent device corresponding to the third-party product type, wherein the device control instruction is used for controlling the at least one intelligent device of the third-party product type to execute the corresponding device action.

At this moment, because all the device information of the intelligent terminal corresponding to the third-party product type which needs to be controlled by the third-party internet-of-things management server is synchronized to the local-end internet-of-things management server, when the local-end internet-of-things management server controls the intelligent device corresponding to the third-party product type, the device control instruction does not need to be sent to the third-party internet-of-things management server firstly and then the third-party internet-of-things management server controls the intelligent device corresponding to the third-party product type, but the device control instruction is directly sent to the intelligent device corresponding to the third-party product type which needs to be controlled, and the local-end internet-of-things management server directly controls the intelligent.

A scenario diagram of a smart device controlling third party product types according to some embodiments is illustrated in fig. 13. Referring to fig. 13, a user speaks a target control corpus to "sleep", and the target control corpus is collected by a control terminal configured with an AIOT function, where the control terminal may be a local intelligent device in a home, such as an intelligent sound box or an intelligent television. The control terminal sends the collected control linguistic data to the Internet of things management server, voice recognition is carried out by a voice platform in the Internet of things management server, the fact that the user says that the user is sleeping is recognized, the fact that the control scene is sleeping is determined, the Internet of things management server is informed, and the user needs to execute the sleeping control scene.

And determining the type of the product to be controlled as a third-party product type B according to the sleep control scene and the scene list shown in the figure 7. Referring to the definition schematic diagram shown in fig. 2 or 3, in a "sleep" control scenario, the intelligent devices to be controlled are a television, a curtain and a lamp, where a device action to be executed by the television is "off", a device action to be executed by the curtain is "off", and a device action to be executed by the lamp is "off". At this time, the home internet of things management server can generate an equipment control instruction according to the equipment actions of closing, closing and closing, and directly send the equipment control instruction to the target intelligent equipment television, curtain and lamp, so that the television, the curtain and the lamp can be controlled to be closed.

And after the corresponding intelligent equipment finishes the equipment action, feeding back the equipment action to the management server of the Internet of things, and feeding back the equipment execution condition to the control terminal by the management server of the Internet of things.

Each intelligent device can execute the corresponding device action according to the device control instruction, and after the action execution is finished, in order to inform the user that the corresponding intelligent device has responded to the input control corpus, the method provided by the embodiment of the invention further comprises the following steps: and after the intelligent equipment acts according to the equipment action, generating an equipment control finishing instruction, wherein the equipment control finishing instruction is used for prompting the execution condition of the intelligent terminal user intelligent equipment.

After each intelligent device executes corresponding device action according to the device control command, the intelligent device feeds back a corresponding signal to the internet of things management server, the internet of things management server generates a device control completion command and sends the device control completion command to a control terminal of the internet of things management server, and the control terminal can be a certain local-end intelligent device in a family, such as an intelligent sound box or an intelligent television. And after receiving the equipment control completion instruction, the control terminal informs the user in a voice mode, if the control terminal is an intelligent sound box, the sound box broadcasts voice to inform the user that the corresponding intelligent equipment executes corresponding actions.

When the intelligent device to be controlled is the intelligent device of the third-party product type, the third-party internet of things management server informs the local-end internet of things management server that the intelligent device of the third-party product type completes the execution of the device action, then the local-end internet of things management server sends a device control completion instruction to the control terminal, and the control terminal informs the user in a voice mode after receiving the device control completion instruction.

As can be seen from the foregoing technical solutions, the method for controlling an intelligent device by an internet of things management server provided in the embodiments of the present invention includes: the method comprises the steps of obtaining a control corpus input by a user, selecting a control scene corresponding to the control corpus from prestored scene information, and obtaining equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and corresponding equipment action; and sending the equipment control instruction generated based on the equipment action to at least one intelligent equipment so as to control the at least one intelligent equipment to execute the corresponding action according to the corresponding equipment action. Therefore, according to the method provided by the embodiment of the invention, a user can define a plurality of control scenes in the internet of things management server, and control the intelligent equipment in the form of scenes and linguistic data, so that the purpose that the home-end internet of things management server indirectly performs unified management and control on the intelligent equipment of different product types under the condition that a third-party internet of things management server cannot perform equipment information synchronization to the home-end internet of things management server is achieved, the user basically has no perception, and the control range and the user experience are greatly improved.

A block diagram of an apparatus for controlling a smart device by an internet of things management server according to some embodiments is illustrated in fig. 14. Referring to fig. 14, an apparatus for controlling an intelligent device by an internet of things management server according to an embodiment of the present invention includes:

the corpus acquiring module 10 is configured to acquire a control corpus input by a user, where the control corpus is a corpus that the user controls smart devices of different product types;

the control scene selecting module 20 is configured to select a control scene corresponding to the control corpus from pre-stored scene information, where the control scene is a scene in which a user controls an intelligent device of a different product type;

the device control information acquiring module 30 is configured to acquire device control information of a product type corresponding to the control scenario, where the device control information of the product type includes at least one intelligent device and a corresponding device action;

and the control instruction sending module 40 is configured to send a device control instruction generated based on the device action to at least one piece of intelligent device, where the device control instruction is used to control the at least one piece of intelligent device to execute a corresponding action according to the corresponding device action.

In a specific implementation manner, the present invention further provides a computer storage medium, where the computer storage medium may store a program, and the program may include some or all of the steps in each embodiment of the method for controlling an intelligent device by using an internet of things management server provided by the present invention when executed. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM) or a Random Access Memory (RAM).

Those skilled in the art will readily appreciate that the techniques of the embodiments of the present invention may be implemented as software plus a required general purpose hardware platform. Based on such understanding, the technical solutions in the embodiments of the present invention may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

The foregoing description, for purposes of explanation, has been presented in conjunction with specific embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the embodiments to the precise forms disclosed above. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles and the practical application, to thereby enable others skilled in the art to best utilize the embodiments and various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. A method for controlling intelligent equipment by an Internet of things management server is characterized by comprising the following steps:

acquiring a control corpus input by a user, wherein the control corpus is a corpus which is used by the user to control intelligent equipment of different product types;

selecting a control scene corresponding to the control corpus from prestored scene information, wherein the control scene refers to a scene in which a user controls intelligent equipment of different product types;

acquiring equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and corresponding equipment action;

and sending a device control instruction generated based on the device action to at least one intelligent device, wherein the device control instruction is used for controlling the at least one intelligent device to execute a corresponding action according to the corresponding device action.

2. The method of claim 1, further comprising:

based on the product type, creating a plurality of corresponding control scenes and a plurality of scene corpora, wherein the scene corpora refer to corpora used for determining the control scenes;

establishing a scene mapping relation between each control scene and at least one scene corpus;

setting at least one intelligent device of a product type to be controlled and corresponding device actions under each control scene, wherein the device actions refer to actions to be executed by the intelligent device;

and storing the scene mapping relation, the intelligent equipment of the product type to be controlled and the corresponding equipment action as scene information.

3. The method of claim 2, further comprising:

acquiring a control scene and a corresponding product type in the scene information, and establishing a scene list;

and sending the scene list to an intelligent terminal, wherein the intelligent terminal is used for displaying the scene list.

4. The method of claim 1, wherein the pre-stored context information comprises a context mapping relationship; and selecting a control scene corresponding to the control corpus from the pre-stored scene information, wherein the selecting comprises:

performing voice recognition on the control corpus, and determining a scene corpus input by a user;

and selecting a control scene corresponding to the scene corpus in the scene mapping relation.

5. The method of claim 1, further comprising:

receiving authorization requests of different product types sent by an intelligent terminal;

responding to authorization requests of different product types, and sending a scene information synchronization request to a third-party Internet of things management server, wherein the third-party Internet of things management server is used for controlling intelligent equipment of different product types;

and receiving third party scene information returned by the third party Internet of things management server in response to the scene information synchronous request, wherein the third party scene information comprises intelligent equipment of different product types and corresponding equipment actions.

6. The method of claim 5, further comprising:

acquiring a local control scene name in local scene information and a third party control scene name in third party scene information;

comparing the third party control scene name with the local terminal control scene name;

and if the third party control scene name is consistent with the home terminal control scene name in comparison, modifying the home terminal control scene name.

7. The method according to claim 1, wherein the obtaining of the device control information of the product type corresponding to the control scenario includes: determining the product type as a third-party product type according to the control scene; and the number of the first and second groups,

the sending of the device control instruction generated based on the device action to at least one of the smart devices comprises:

sending a control notice to a third-party Internet of things management server, wherein the control notice is used for indicating the third-party Internet of things management server to acquire the intelligent equipment corresponding to the third-party product type and the corresponding equipment action, and sending an equipment control instruction generated based on the equipment action to at least one intelligent equipment corresponding to the third-party product type, and the equipment control instruction is used for controlling at least one intelligent equipment of the third-party product type to execute the corresponding equipment action.

8. The method according to claim 1, wherein the obtaining of the device control information of the product type corresponding to the control scenario includes: determining the product type as a third-party product type according to the control scene; and the number of the first and second groups,

the sending of the device control instruction generated based on the device action to at least one of the smart devices comprises:

after receiving all the device information of at least one intelligent device corresponding to a third-party product type synchronized by a third-party internet-of-things management server, sending a device control instruction generated based on the device action to the at least one intelligent device corresponding to the third-party product type, wherein the device control instruction is used for controlling the at least one intelligent device of the third-party product type to execute the corresponding device action.

9. The method of claim 1, further comprising:

and after the intelligent equipment acts according to the equipment action, generating an equipment control finishing instruction, wherein the equipment control finishing instruction is used for prompting the execution condition of the intelligent terminal user intelligent equipment.

10. The utility model provides a device of thing networking management server control smart machine which characterized in that includes:

the corpus acquiring module is used for acquiring control corpuses input by a user, wherein the control corpuses are corpuses for controlling intelligent equipment of different product types by the user;

the control scene selection module is used for selecting a control scene corresponding to the control corpus from prestored scene information, wherein the control scene refers to a scene in which a user controls intelligent equipment with different product types;

the equipment control information acquisition module is used for acquiring equipment control information of a product type corresponding to the control scene, wherein the equipment control information of the product type comprises at least one intelligent equipment and corresponding equipment action;

and the control instruction sending module is used for sending an equipment control instruction generated based on the equipment action to at least one intelligent equipment, and the equipment control instruction is used for controlling the at least one intelligent equipment to execute a corresponding action according to the corresponding equipment action.

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