CN111833860A

CN111833860A - Binding method and device of intelligent equipment, electronic equipment and storage medium

Info

Publication number: CN111833860A
Application number: CN201910310077.1A
Authority: CN
Inventors: 朱锟璐
Original assignee: Beijing Baidu Netcom Science and Technology Co Ltd
Current assignee: Beijing Baidu Netcom Science and Technology Co Ltd; Shanghai Xiaodu Technology Co Ltd
Priority date: 2019-04-17
Filing date: 2019-04-17
Publication date: 2020-10-27

Abstract

The present disclosure provides a binding method and apparatus for an intelligent device, an electronic device and a storage medium, including: determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound; acquiring a binding infrared code corresponding to the attribute information, and sending an infrared signal according to the binding infrared code so that the device to be bound responds to the infrared signal; and playing audio information for inquiring the response result of the equipment to be bound, and determining the infrared code table matched with the equipment to be bound according to the response voice instruction replied by the user. The method, the device, the electronic equipment and the storage medium provided by the disclosure interact with a user in a voice mode, and in the interaction process, the infrared code table matched with the equipment to be bound is determined, so that the intelligent equipment can normally control the equipment according to the matched infrared code table, and the operation is more convenient and faster.

Description

Binding method and device of intelligent equipment, electronic equipment and storage medium

Technical Field

The present disclosure relates to smart home control technologies, and in particular, to a method and an apparatus for binding smart devices, an electronic device, and a storage medium.

Background

At present, many traditional domestic appliances can be controlled through infrared remote controller, but this kind of control mode needs the user to find the remote controller earlier, presses the button on the remote controller and then controls domestic appliance, and this kind of mode makes the step of controlling electrical apparatus comparatively loaded down with trivial details.

Therefore, a solution for controlling the home appliance through the smart terminal is proposed in the prior art, for example, software is installed in a mobile phone, and the home appliance is controlled through the mobile phone.

However, in the actual use process, the user needs to install corresponding software in the mobile phone at present, and also needs to bind the electrical appliance to be controlled in the software, that is, the user needs to perform complicated steps to bind the smart device and the household electrical appliance, which brings redundant operation steps to the user, and the binding operation is not easy to be implemented for the user who is not familiar with the mobile phone software.

Disclosure of Invention

The disclosure provides a binding method and device of an intelligent device, an electronic device and a storage medium, and aims to solve the problem that the binding step of the intelligent device and a controlled device is complicated in the prior art.

A first aspect of the present disclosure is to provide a binding method for a smart device, including:

determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound;

acquiring a binding infrared code corresponding to the attribute information, and sending an infrared signal according to the binding infrared code so that the equipment to be bound responds to the infrared signal;

and playing audio information for inquiring the response result of the equipment to be bound, and determining an infrared code table matched with the equipment to be bound according to a response voice instruction replied by a user.

Another aspect of the present disclosure is to provide a binding apparatus for a smart device, including:

the attribute information determining module is used for determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound;

the acquisition module is used for acquiring the binding infrared code corresponding to the attribute information;

the infrared signal sending module is used for sending an infrared signal according to the binding infrared code so that the equipment to be bound responds to the infrared signal;

the voice playing module is used for playing audio information for inquiring the response result of the equipment to be bound; and the determining module is used for determining the infrared code table matched with the equipment to be bound according to the response voice instruction replied by the user.

Yet another aspect of the present disclosure is to provide an electronic device including:

a memory;

a processor; and

a computer program;

wherein the computer program is stored in the memory and configured to be executed by the processor to implement the binding method of the smart device as described in the first aspect above.

Yet another aspect of the present disclosure is to provide a computer readable storage medium having stored thereon a computer program to be executed by a processor to implement the binding method of a smart device as described in the first aspect above.

The binding method and device of the intelligent device, the electronic device and the storage medium provided by the disclosure have the technical effects that:

the binding method and device of the intelligent device, the electronic device and the storage medium provided by the disclosure comprise the following steps: determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound; acquiring a binding infrared code corresponding to the attribute information, and sending an infrared signal according to the binding infrared code so that the device to be bound responds to the infrared signal; and playing audio information for inquiring the response result of the equipment to be bound, and determining the infrared code table matched with the equipment to be bound according to the response voice instruction replied by the user. The method, the device, the electronic equipment and the storage medium provided by the disclosure interact with a user in a voice mode, and in the interaction process, the infrared code table matched with the equipment to be bound is determined, so that the intelligent equipment can normally control the equipment according to the matched infrared code table, and the operation is more convenient and faster.

Drawings

Fig. 1 is a flowchart illustrating a binding method of a smart device according to an exemplary embodiment of the present invention;

FIG. 2 is a flow chart illustrating a binding method of a smart device in accordance with another exemplary embodiment of the present invention;

fig. 3 is a block diagram illustrating a binding apparatus of a smart device according to an exemplary embodiment of the present invention;

fig. 4 is a block diagram illustrating a binding apparatus of a smart device according to another exemplary embodiment of the present invention;

fig. 5 is a block diagram illustrating an electronic device according to an exemplary embodiment of the present invention.

Detailed Description

In the prior art, a client for controlling an electronic device, such as a household appliance, can be installed in a mobile phone, so that the mobile phone can be used as a remote control device to control the electronic device, but this method requires binding the electronic device to be controlled in the client, and the steps are complicated, which is especially inconvenient for users who are not skilled in operating the client. Therefore, in the method for controlling the electronic device through the mobile phone client in the prior art, the control mode is inconvenient to operate because of the step of binding the device in a mode of operating the client.

According to the embodiment of the invention, the intelligent equipment with the infrared signal sending function and the electronic equipment can be bound, and the intelligent equipment can interact with the user in a voice mode in the binding process, so that the binding process is simplified, and the user operation is more convenient. In addition, the scheme that this embodiment provided, smart machine possesses infrared signal's transmitting function, and then can bind electronic equipment through infrared signal.

Fig. 1 is a flowchart illustrating a binding method of a smart device according to an exemplary embodiment of the present invention.

As shown in fig. 1, the binding method for an intelligent device provided in this embodiment includes:

step 101, determining the attribute information of the device to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the device to be bound.

The method provided by the embodiment may be performed by a smart device, such as a smart phone, a smart speaker, a smart watch, and the like. The intelligent device can be internally provided with a transmitting circuit, and the transmitting circuit can adopt an infrared light emitting diode to emit modulated and transmitted infrared light waves.

The user can start the intelligent device and start the process that the intelligent device binds other electronic devices. For example, a key for starting the binding process of the smart device may be set in the smart device, and the user may start the binding process by operating the key. An electronic device bound to the smart device has an infrared signal receiving function that can respond to a received infrared signal.

Specifically, the intelligent device may start a voice receiving function after starting the binding process, so as to receive the attribute voice instruction sent by the user. The property voice instruction is used for indicating the property information of the device to be bound.

Furthermore, after the user starts the binding function of the intelligent device, the user can speak the attribute information of the electronic device to be bound. The attribute information may be, for example, a device brand, a device model, or the like, and for example, the user may say "xx brand television", "xx brand refrigerator", or the like. The intelligent device can receive the attribute voice command, recognize the attribute voice command and determine attribute information of the electronic device.

In practical application, a voice recognition algorithm can be set in the intelligent device, and through the algorithm, the intelligent device can recognize attribute information spoken by a user.

The intelligent device can also be connected with a server through a network, the intelligent device can upload the received attribute voice instruction to the server, and the server identifies the voice instruction based on the set voice identification algorithm and determines attribute information. In this case, the server may also feed back the determined attribute information to the intelligent device, for example, may be sent to the intelligent device via a network, so that the intelligent device can determine the attribute information according to the attribute voice instruction.

And 102, acquiring a binding infrared code corresponding to the attribute information, and sending an infrared signal according to the binding infrared code so that the equipment to be bound responds to the infrared signal.

Specifically, at least one binding infrared code corresponding to the attribute information may be set in the smart device in advance. For example, a table may be provided for storing different binding infrared codes corresponding to different attribute information, for example, a table for storing binding infrared codes of televisions may be provided, and tables for binding infrared codes of other device categories may also be provided.

Further, the intelligent device may search for a binding infrared code corresponding to the attribute information from the locally stored correspondence.

Wherein, the corresponding relation between the attribute information and at least one binding infrared code can be stored in the server. At this time, the intelligent device may send the determined attribute information to the server, and the server obtains one binding infrared code corresponding to the attribute information according to the correspondence and feeds back the binding infrared code to the intelligent device.

Specifically, after acquiring the binding infrared code, the intelligent device can generate an infrared signal corresponding to the binding infrared code through an infrared emission function, and send the infrared signal.

Further, the bound infrared code may be one of an infrared code table, for example, one attribute information corresponds to a plurality of infrared code tables, and one bound infrared code may be determined in each infrared code table. For example, an infrared code corresponding to the power on/off function may be used as the binding infrared code.

In actual application, the infrared code table is a corresponding relation table of the infrared codes and the control functions. The electronic equipment with different attribute information controls the same function so that the used infrared codes can be different. In the infrared code table, each infrared code corresponds to one control function, for example, the on/off function of the television corresponds to one infrared code, the volume up function of the television corresponds to one infrared code, and the volume down function of the television corresponds to one infrared code. After the intelligent device sends the infrared signal corresponding to the infrared code, the device to be bound can respond to the infrared signal. For example, the infrared code corresponding to the power on/off function is used as the binding infrared code, and if the binding infrared code corresponds to the device to be bound, the intelligent device can control the device to be bound to be powered on/off according to the binding infrared code.

And 103, playing audio information for inquiring the response result of the equipment to be bound, and determining an infrared code table matched with the equipment to be bound according to a response voice instruction replied by the user.

After the intelligent device sends the infrared signal, the audio information for inquiring the response result of the device to be bound can be played through the set voice module, for example, the playing information is "ask whether the television is started up", "ask whether the television is turned off", and the like.

Specifically, if the binding infrared code is matched with the device to be bound, the device to be bound may respond to the infrared signal sent by the smart device, otherwise, the device to be bound may not respond to the infrared signal, or may make an erroneous response.

Further, after hearing the audio information played by the smart device, the user may reply a response voice command including a response result. For example, the user may answer "yes" or "no", and may also answer "response correct", "response wrong", and so on. Thereby informing the smart device whether the smart device correctly responds to the infrared signal it transmits.

In practical application, if the response of the device to be bound is determined to be correct according to the response instruction replied by the user, the currently acquired bound infrared code can be considered to normally control the device to be bound. At this time, the infrared code table to which the bound infrared code belongs can be considered to be matched with the device to be bound, and the intelligent device can control the device according to the matched infrared code table, so that the binding effect of the intelligent device and the device to be bound can be realized.

If the response error of the device to be bound is determined according to the response instruction replied by the user, it can be considered that the currently acquired binding infrared code cannot normally control the device to be bound. At this time, the infrared code table to which the bound infrared code belongs may be considered to be mismatched with the device to be bound, and other bound infrared codes may be acquired according to the attribute information of the device to be bound, and the step of transmitting the infrared signal according to the bound infrared code is continuously performed. And continuing to execute step 103, and determining an infrared code table matched with the device by trying whether other bound infrared codes can normally control the device to be bound.

The binding method for the intelligent device provided by the embodiment comprises the following steps: determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound; acquiring a binding infrared code corresponding to the attribute information, and sending an infrared signal according to the binding infrared code so that the device to be bound responds to the infrared signal; and playing audio information for inquiring the response result of the equipment to be bound, and determining the infrared code table matched with the equipment to be bound according to the response voice instruction replied by the user. According to the method provided by the embodiment, the infrared code table matched with the equipment to be bound is determined in the interaction process through voice interaction with the user, so that the intelligent equipment can normally control the equipment according to the matched infrared code table, and the operation is more convenient and faster.

Fig. 2 is a flowchart illustrating a binding method of a smart device according to another exemplary embodiment of the present invention.

As shown in fig. 2, the binding method for an intelligent device provided in this embodiment includes:

step 201, receiving a connection voice instruction for indicating a connection device, and playing audio information for inquiring the type of the connection device according to the connection voice instruction.

In the method provided by this embodiment, a user may first instruct the smart device to connect to the electronic device, and in the connection process, a process of binding the device may be triggered.

Specifically, the user may issue an indication of the connected device to the smart device by means of a voice instruction, for example, the user may speak the content of "connected device". Optionally, virtual or physical keys may be set in the smart device, and a user may operate the keys to send a device connection instruction to the smart device.

Further, the smart device may recognize the connection voice command to determine that the user requests the device to be connected. The smart device may play audio information that queries the connected device for the type of device upon recognizing the user's indication. For example, the smart device may play content that asks what device needs to be connected.

In practical application, the intelligent device can control a plurality of devices, such as a television, a set-top box, an air conditioner and the like.

In an application scenario, the connection voice command issued by the user may include device type information, for example, turning on a television, and at this time, the smart device may directly recognize that the device that the user wishes to connect to is the television. At this time, the step of playing the audio information for inquiring the type of the connected device may not be performed.

In another application scenario, the connection voice command issued by the user does not include device type information, but only includes content requiring connection of the device, and at this time, the step of playing audio information for inquiring the type of the connected device may be performed.

Step 202, a type voice command for indicating the type of the connected device is received, and the device type is determined according to the type voice command.

If the step of playing the audio information for inquiring the type of the connected device is executed, the user can reply the voice command including the type of the connected device after hearing the playing content, and at the moment, the intelligent device can recognize the type voice command and acquire the device type information included in the type voice command.

Specifically, if the step is not executed, the device type information may be directly determined according to the connection voice instruction of the user, and the following steps are executed.

After the device type to which the user needs to connect is obtained, whether the device type belongs to a preset type or not can be judged, and different processes are executed.

Step 203, if the device type belongs to the preset type, determining whether a directly connectable device corresponding to the device type exists.

Further, preset types, such as televisions, air conditioners, set-top boxes, and the like, may be preset. If the type of the equipment which the user needs to connect belongs to the preset type, whether the equipment which can be directly connected and corresponds to the type of the equipment exists or not can be searched.

In actual application, the directly-connectable device is bound device, the infrared code table matched with the devices can be directly obtained, and the directly-connectable device is controlled according to the corresponding relation between the control function and the infrared code in the matched infrared code table.

In one embodiment, the directly connectable device information may be stored locally in the smart device, and at this time, it may be determined whether device control information corresponding to the device type exists in the stored directly connectable device. The device control information may be an infrared code table including a correspondence of control functions to infrared codes.

In another embodiment, the directly connectable device information may be stored at a server. At this time, the smart device may send a confirmation request including the device type to the server, so that the server feeds back whether there is a confirmation result of the directly connectable device corresponding to the device type.

The server may determine whether device control information corresponding to the device type exists, if so, the server considers that a directly connectable device corresponding to the device type exists, otherwise, the server does not determine that the directly connectable device corresponding to the device type exists.

If the server determines that the directly connectable device corresponding to the device type exists, the server can feed back device control information to the intelligent device, and otherwise, the server can send a message that the corresponding device does not exist to the intelligent device.

If there is a directly connectable device corresponding to the device type, a process of controlling the directly connectable device may be entered, specifically, step 204 may be executed, and if there is no directly connectable device, step 207 is executed.

Step 204, receiving a control voice instruction for controlling the directly connectable device.

If there is a device directly connectable with the same type as the device, the smart device may prompt the user that the electronic device may start to be controlled, for example, prompt the user in a manner of voice, text, light, or the like.

Specifically, the user can operate the intelligent device in a voice mode to control the directly-connectable device. For example, the user may say "turn on the television", "turn up the volume", or the like.

And step 205, determining a target control function according to the control voice instruction, and acquiring a target infrared code corresponding to the target control function from an infrared code table matched with the directly-connectable equipment.

Furthermore, after receiving the control voice command, the intelligent device can recognize the control voice command and recognize a target control function therein. For example, the target control function may be an on/off function, a temperature increase function, a volume up function, or the like.

In practical application, because the directly-connectable device exists, that is, the infrared code table matched with the directly-connectable device is predetermined, and the infrared code table comprises the corresponding relation between the control function and the infrared code, the target infrared code corresponding to the target control function can be acquired in the corresponding relation.

In one embodiment, the correspondence may be stored locally in the smart device, and at this time, the target infrared code may be directly read from the locally stored infrared code table. If a plurality of infrared code tables are locally stored, the identifiers of different infrared code tables can be set so as to distinguish the infrared code tables, for example, an infrared code table of an air conditioner, an infrared code table of a television and the like are set.

In another embodiment, the correspondence may be stored at the server. At this time, the intelligent device may send a control request including a target control function to the server, so that the server feeds back a target infrared code determined in an infrared code table matched with the directly-connectable device; and the server also feeds back the target infrared code to the intelligent equipment, so that the intelligent equipment can acquire the target infrared code.

And step 206, sending the target infrared signal according to the target infrared code.

The intelligent device can generate a target infrared signal according to the target infrared code and send the target infrared signal, so that the directly-connectable device is controlled.

Step 207, playing the audio information for inquiring the property information of the device to be bound.

If the directly-connectable device corresponding to the device type does not exist, the infrared code table matched with the device type is not determined yet, so that the audio information inquiring the attribute information of the device to be bound can be played, and the device can be bound according to the attribute voice instruction replied by the user.

And 208, determining the attribute information of the device to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the device to be bound.

Step 208 is similar to step 101 in specific principles and implementation, and is not described here again.

And 209A, acquiring a binding infrared code corresponding to the attribute information according to the corresponding relationship between the locally stored attribute information and the infrared code.

In an embodiment, if the corresponding relationship between the attribute information and the binding infrared code is stored locally in the smart device, the smart device may directly obtain the binding infrared code corresponding to the attribute information from the local.

The attribute information may be matched with a plurality of infrared code tables, and at this time, the binding infrared code may be acquired from any one of the infrared code tables. One binding infrared code may be predetermined in each infrared code table, and for example, an infrared code corresponding to the power on/off function may be determined as the binding infrared code.

Step 209B, sending an acquisition request including the attribute information to the server, so that the server feeds back the bound infrared code determined in the correspondence between the attribute information and the infrared code.

In another embodiment, if the correspondence between the attribute information and the infrared code is stored in the server, the intelligent device may directly send an acquisition request including the attribute information to the server, and after receiving the acquisition request, the server may determine a binding infrared code corresponding to the attribute information and feed back the binding infrared code to the intelligent device. Similar to the above description, one attribute information may correspond to a plurality of infrared code tables.

The correspondence between the attribute information and the infrared code may include two forms, one is a correspondence between the attribute information and the infrared code itself, and the other is a correspondence between the attribute information and the infrared code table. If the binding infrared code is the first type, one attribute information may correspond to a plurality of infrared codes, and any one infrared code may be acquired therefrom as the current binding infrared code. If the binding infrared code is the second type, one attribute information can correspond to a plurality of infrared code tables, and a preset infrared code can be acquired from any infrared code table and used as the current binding infrared code.

And step 210, sending an infrared signal according to the binding infrared code so that the device to be bound responds to the infrared signal.

Step 211, playing the audio information for inquiring the response result of the device to be bound.

The

steps

210 and 211 are similar to the specific principles and implementation of the steps 102 and 103, and are not described herein again.

Step 212, determining a control result according to the response voice command replied by the user.

In practical application, the intelligent device can directly identify the response voice command replied by the user, and then determine a control result. The control result may be success or failure, or correct or incorrect, that is, the electronic device may or may not be normally controlled.

The intelligent device can also upload a response voice command replied by the user to the server, and the server identifies the response voice command so as to determine a control result. And, the server may feed back the control result to the smart device, so that the smart device determines the control result.

Specifically, if the smart device normally controls the electronic device, step 213 is executed, otherwise, step 214 is executed.

And step 213, if the control result is successful, determining that the infrared code table to which the bound infrared code belongs is matched with the equipment to be bound.

Specifically, if the control result is that the control is successful, the acquired binding infrared code may be considered to be matched with the device to be bound, and the control function corresponding to the binding infrared code is the same as the control result of the binding infrared code acting on the electronic device. Therefore, it can be considered that the infrared code table to which the bound infrared code belongs matches the device to be bound.

Further, it can be considered that the device to be bound can be normally controlled by using the infrared code table to which the bound infrared code belongs. The infrared code table can comprise a plurality of infrared codes, each infrared code has a corresponding control function, and when the device to be bound is actually controlled, the corresponding infrared code can be directly acquired according to the control function, and an infrared signal is sent according to the infrared code.

After step 213, step 204 may be further performed, and the device to be bound may be controlled according to the infrared code table matched with the device to be bound.

And 214, if the control result is control failure, acquiring other binding infrared codes corresponding to the attribute information.

If the currently acquired binding infrared code is used to control the device to be bound, the next binding infrared code may be acquired in step 209A or step 209B, and step 210 is continuously executed according to the newly acquired binding infrared code.

And if all the binding infrared codes corresponding to the attribute information fail to control the equipment to be bound, starting a process of the intelligent equipment learning control function. If all the binding infrared codes corresponding to the attribute information fail to control the device to be bound, it can be considered that all the infrared code tables corresponding to the attribute information are not matched with the current device to be bound, and then a process of learning a control function of the intelligent device, specifically a process of learning a function of the device to be bound by the intelligent device, can be entered.

Step 215, receiving a learning instruction for learning the first control function, and receiving a first infrared signal corresponding to the first control function according to the learning instruction.

If each binding infrared code cannot correctly control the electronic equipment to be bound, the intelligent equipment can remind the user whether to enter the learning process, and the user can confirm the information, so that the intelligent equipment enters the learning process.

The user can send a learning instruction for learning the first control function to the intelligent device, so that the intelligent device receives the learning instruction. The instruction can be a voice instruction, and can also be sent by operating a touch screen, an entity key and the like of the sound box. For example, the user may operate the smart device, select a control function to be learned therein, and click a start learning button, and for example, the user may say "learn power on/off function" and send a learning instruction to the smart device.

Specifically, after the intelligent device receives the learning instruction, the guidance content corresponding to the control function may be displayed, or the voice content corresponding to the guidance content may be played, for example, to prompt the user to operate a key corresponding to the control function in a remote controller for controlling the device to be bound. And the intelligent device can start the function of receiving the infrared signal and wait for receiving the infrared signal corresponding to the control function.

During practical application, the intelligent device has an infrared receiving function. For example, an infrared receiving circuit, such as an infrared receiving diode, a triode, or a silicon photocell, may be disposed in the smart device, and converts infrared light emitted from the infrared emitter into a corresponding electrical signal, and then processes the electrical signal to obtain an infrared code of the received infrared signal.

And step 216, determining a first infrared code according to the first infrared signal, and determining that the first infrared code and the first control function have a first corresponding relation.

The intelligent device can convert the first infrared signal into a first infrared code and determine that the first infrared code and the first control function have a first corresponding relation.

After it is determined that the intelligent device has learned the infrared code corresponding to the control function, the corresponding relationship between the control function and the infrared code may be stored. In one embodiment, the correspondence may be stored in the smart device and step 217A may be performed, and in another embodiment, the correspondence may be stored in the server and step 217B may be performed. In another embodiment, the corresponding relationship may be stored in the smart device and the server at the same time, and at this time, step 217A and step 217B may be executed.

Step 217A, store the first correspondence.

The first correspondence may be stored locally at the smart device.

Step 217B, sending the first corresponding relationship to the server, so that the server stores the first corresponding relationship.

The first correspondence may be sent to a server for storage by the server.

Optionally, after learning the first control function, other control functions may be learned, and specifically, the steps of

steps

215 and 217A or 215 and 217B may be continuously executed.

After the control function to be learned is learned, step 204 may be executed, so as to control the device to be bound according to the corresponding relationship between the learned control function and the infrared code.

If the equipment type determined according to the type voice instruction does not belong to a preset type but belongs to a small household appliance type, such as a health preserving kettle, an electric cooker, a soybean milk machine and the like, the intelligent equipment can judge whether the corresponding small household appliance capable of being directly connected exists or not. For example, the directly connectable small appliance information may be obtained locally, or the directly connectable small appliance information may be obtained from a server side.

If yes, entering a small household appliance control process, otherwise, guiding the user to bind the intelligent small household appliance. The specific process for binding the small household appliances can adopt the mode in the prior art.

Fig. 3 is a block diagram illustrating a binding apparatus of a smart device according to an exemplary embodiment of the present invention.

As shown in fig. 3, the intelligent device binding apparatus provided in this embodiment includes:

the attribute information determining module 31 is configured to determine attribute information of the device to be bound according to the received attribute voice instruction, where the attribute voice instruction is used to indicate the attribute information of the device to be bound;

an obtaining module 32, configured to obtain a binding infrared code corresponding to the attribute information;

the infrared signal sending module 33 is configured to send an infrared signal according to the binding infrared code, so that the device to be bound responds to the infrared signal;

the voice playing module 34 is configured to play audio information for inquiring a response result of the device to be bound;

and the determining module 35 is configured to determine the infrared code table matched with the device to be bound according to the response voice instruction replied by the user. (ii) a

The binding apparatus for smart device provided in this embodiment includes: the attribute information determining module is used for determining the attribute information of the equipment to be bound according to the received attribute voice instruction, wherein the attribute voice instruction is used for indicating the attribute information of the equipment to be bound; the acquisition module is used for acquiring the binding infrared code corresponding to the attribute information; the infrared signal sending module is used for sending an infrared signal according to the binding infrared code so that the equipment to be bound responds to the infrared signal; the voice playing module is used for playing audio information for inquiring the response result of the equipment to be bound; and the determining module is used for determining the infrared code table matched with the equipment to be bound according to the response voice instruction replied by the user. The device that this embodiment provided through speech mode and user interaction, at the interaction process, determines and waits to bind the infrared code table that equipment matches to make smart machine can be according to this equipment of normal control of the infrared code table of matching, the operation is more convenient.

The specific principle and implementation of the binding apparatus of the intelligent device provided in this embodiment are similar to those of the embodiment shown in fig. 1, and are not described herein again.

Fig. 4 is a block diagram illustrating a binding apparatus of a smart device according to another exemplary embodiment of the present invention.

As shown in fig. 4, on the basis of the foregoing embodiment, the binding apparatus of the smart device provided in this embodiment optionally includes:

a result determining unit 351, configured to determine a control result according to the response voice instruction replied by the user;

and a matching unit 352, configured to determine that the infrared code table to which the bound infrared code belongs is matched with the device to be bound if the control result is that the control is successful.

If the control result is a control failure, the acquiring module 32 is further configured to acquire other bound infrared codes corresponding to the attribute information, and the infrared signal sending module 33 is further configured to continue to execute the step of sending the infrared signal according to the bound infrared codes according to the other bound infrared codes.

If the control of the to-be-bound device according to all the bound infrared codes corresponding to the attribute information fails, the apparatus further includes a learning module 36, configured to start a process of a learning control function of the intelligent device.

Optionally, the apparatus provided in this embodiment further includes a voice receiving module 37, configured to receive, before the attribute information determining module 31 receives the attribute voice instruction, a type voice instruction for indicating a type of a connected device, and determine the device type according to the type voice instruction;

a directly connectable device determining module 38, configured to determine whether a directly connectable device corresponding to the device type exists if the device type belongs to a preset type;

if the device attribute information does not exist, the voice playing module 34 plays the audio information for inquiring the attribute information of the device to be bound.

Before the voice receiving module 37 receives the type voice instruction for indicating the type of the connected device, it is further configured to receive a connection voice instruction for indicating the connected device;

the voice playing module 34 is further configured to play audio information for querying the type of the connected device according to the connection voice instruction.

The obtaining module 32 is specifically configured to:

acquiring the binding infrared code corresponding to the attribute information according to the corresponding relationship between the locally stored attribute information and the infrared code;

or sending an acquisition request including the attribute information to a server so that the server feeds back the binding infrared code determined in the corresponding relationship between the attribute information and the infrared code.

The learning module 36 is specifically configured to:

receiving a learning instruction for learning a first control function, and receiving a first infrared signal corresponding to the first control function according to the learning instruction;

and determining a first infrared code according to the first infrared signal, and determining that the first infrared code and the first control function have a first corresponding relation.

Optionally, the apparatus further comprises a storage module 39, configured to:

storing the first corresponding relation and/or sending the first corresponding relation to a server so that the server stores the first corresponding relation.

Optionally, the directly-connectable device determining module 38 is specifically configured to:

determining whether the stored directly-connectable devices have device control information corresponding to the device types;

or sending a confirmation request including the device type to a server, so that the server feeds back whether a confirmation result of the directly-connectable device corresponding to the device type exists or not.

Optionally, if the directly-connectable device determining module 38 determines that a directly-connectable device corresponding to the device type exists, the voice receiving module 37 is further configured to receive a control voice instruction for controlling the directly-connectable device;

the device also comprises a control module 40, which is used for determining a target control function according to the control voice instruction and acquiring a target infrared code corresponding to the target control function from an infrared code table matched with the directly-connectable equipment;

the infrared signal sending module 33 is further configured to send a target infrared signal according to the target infrared code.

The control module 40 is specifically configured to:

sending a control request including the target control function to a server so that the server feeds back a target infrared code determined in an infrared code table matched with the directly-connectable device;

and receiving the target infrared code fed back by the server.

Optionally, the infrared code table includes a corresponding relationship between the control function and the infrared code.

The specific principle and implementation of the binding apparatus of the smart device provided in this embodiment are similar to those of the embodiment shown in fig. 2, and are not described herein again.

As shown in fig. 5, the electronic device provided in this embodiment includes:

a memory 51;

a processor 52; and

a computer program;

wherein said computer program is stored in said memory 51 and configured to be executed by said processor 52 to implement a binding method of any of the smart devices as described above.

The present embodiments also provide a computer-readable storage medium, having stored thereon a computer program,

the computer program is executed by a processor to implement any of the binding methods of the smart device as described above.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled 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 invention.

Claims

1. A binding method of intelligent equipment is characterized by comprising the following steps:

2. The method according to claim 1, wherein the determining the infrared code table matched with the device to be bound according to the response voice instruction replied by the user comprises:

determining a control result according to the response voice instruction replied by the user;

and if the control result is that the control is successful, determining that the infrared code table to which the bound infrared code belongs is matched with the equipment to be bound.

3. The method of claim 2, wherein if the control result is a control failure, the method further comprises:

and acquiring other binding infrared codes corresponding to the attribute information, and continuing to execute the step of sending the infrared signal according to the binding infrared codes according to the other infrared codes.

4. The method according to claim 3, wherein if the control of the device to be bound according to all the binding infrared codes corresponding to the attribute information fails, a process of a smart device learning control function is started.

5. The method of claim 1, wherein before determining the attribute information of the device to be bound according to the received attribute voice command, the method further comprises:

receiving a type voice instruction for indicating the type of connected equipment, and determining the equipment type according to the type voice instruction;

if the equipment type belongs to a preset type, determining whether directly-connectable equipment corresponding to the equipment type exists or not;

and if the device attribute information does not exist, playing the audio information for inquiring the attribute information of the device to be bound.

6. The method of claim 5, wherein prior to receiving the type voice instruction indicating the type of connected device, further comprising:

and receiving a connection voice instruction for indicating the connected equipment, and playing audio information for inquiring the type of the connected equipment according to the connection voice instruction.

7. The method according to any one of claims 1-6, wherein said obtaining a bound infrared code corresponding to said property information comprises:

8. The method according to claim 4, wherein the process of starting the smart device learning control function comprises:

9. The method of claim 8, further comprising:

10. The method of claim 5, wherein the determining whether there is a directly connectable device corresponding to the device type comprises:

11. The method of claim 5, wherein if there is a directly connectable device corresponding to the device type, the method further comprises:

receiving a control voice instruction for controlling the directly connectable device;

determining a target control function according to the control voice instruction, and acquiring a target infrared code corresponding to the target control function from an infrared code table matched with the directly-connectable equipment;

and sending a target infrared signal according to the target infrared code.

12. The method of claim 11, wherein the obtaining a target infrared code corresponding to the target control function in an infrared code table matched with the directly connectable device comprises:

and receiving the target infrared code fed back by the server.

13. The method according to any one of claims 1-6 and 8-12, wherein the table of infrared codes comprises a correspondence between control functions and infrared codes.

14. An apparatus for binding a smart device, comprising:

15. The apparatus of claim 14, wherein the determining module comprises:

the result determining unit is used for determining a control result according to the response voice instruction replied by the user;

and the matching unit is used for determining that the infrared code table to which the binding infrared code belongs is matched with the equipment to be bound if the control result is that the control is successful.

16. The apparatus according to claim 15, wherein if the control result is a control failure, the obtaining module is further configured to obtain another bound infrared code corresponding to the attribute information, and the infrared signal sending module is further configured to continue to execute the step of sending the infrared signal according to the bound infrared code according to the other bound infrared code.

17. The apparatus according to claim 16, wherein if the device to be bound is controlled to fail according to all the binding infrared codes corresponding to the attribute information, the apparatus further comprises a learning module, configured to start a process of a smart device learning control function.

18. The apparatus according to claim 14, further comprising a voice receiving module configured to receive a type voice command indicating a type of a connected device before the attribute information determining module receives the attribute voice command, and determine the type of the device according to the type voice command;

a directly connectable device determining module, configured to determine whether a directly connectable device corresponding to the device type exists if the device type belongs to a preset type;

and if the device attribute information does not exist, the voice playing module plays the audio information for inquiring the attribute information of the device to be bound.

19. The apparatus of claim 18, wherein the voice receiving module is further configured to receive a connection voice command for indicating a connected device before receiving a type voice command for indicating a type of the connected device;

the voice playing module is also used for playing audio information for inquiring the type of the connected equipment according to the connection voice instruction.

20. The apparatus according to any one of claims 14 to 19, wherein the obtaining module is specifically configured to:

21. The apparatus of claim 17, wherein the learning module is specifically configured to:

22. The apparatus of claim 21, further comprising a storage module configured to:

23. The apparatus according to claim 18, wherein the directly connectable device determining module is specifically configured to:

24. The apparatus according to claim 18, wherein if the directly-connectable device determining module determines that there is a directly-connectable device corresponding to the device type, the voice receiving module is further configured to receive a control voice instruction for controlling the directly-connectable device;

the device also comprises a control module, a target control function and a target infrared code, wherein the control module is used for determining the target control function according to the control voice instruction and acquiring the target infrared code corresponding to the target control function from an infrared code table matched with the directly-connectable equipment;

the infrared signal sending module is also used for sending a target infrared signal according to the target infrared code.

25. The apparatus of claim 24, wherein the control module is specifically configured to:

and receiving the target infrared code fed back by the server.

26. The apparatus according to any of claims 14-19 and 21-25, wherein the table of infrared codes comprises a correspondence between control functions and infrared codes.

27. An electronic device, comprising:

a memory;

a processor; and

a computer program;

wherein the computer program is stored in the memory and configured to be executed by the processor to implement the method of any of claims 1-13.

28. A computer-readable storage medium, having stored thereon a computer program,

the computer program is executed by a processor to implement the method of any one of claims 1-13.