CN113170000A - Equipment control method, device, system, electronic equipment and cloud server - Google Patents

Abstract

The application discloses a device control method, device and system, electronic equipment and a cloud server. The method comprises the following steps: the method comprises the steps of responding to a scene trigger event, obtaining information of first equipment and information of second equipment in a scene corresponding to the scene trigger event, determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment, generating a control instruction based on the scene trigger event, and sending the control instruction to the cloud servers, wherein the control instruction is used for instructing the cloud servers to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server. According to the method and the device, the multiple devices in the scene corresponding to the scene trigger event are determined, and the cloud server sends the control instructions to the multiple manufacturer cloud servers corresponding to the multiple devices respectively, so that linkage control of the devices of multiple manufacturers is achieved, and scene linkage efficiency is improved.

Description

Equipment control method, device, system, electronic equipment and cloud server Technical Field

The application relates to the technical field of smart home, in particular to a device control method, a device control system, electronic equipment and a cloud server.

Background

In an intelligent home, an intelligent scene means that a plurality of intelligent devices execute corresponding actions when certain trigger conditions occur, and user experience can be greatly improved.

Disclosure of Invention

In view of the above problems, the present application provides a device control method, apparatus, system, electronic device, and cloud server to solve the above problems.

In a first aspect, an embodiment of the present application provides an apparatus control method, which is applied to an electronic apparatus accessing a cloud server, and the method includes: responding to a scene trigger event, and acquiring equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers; determining a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device; generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

In a second aspect, an embodiment of the present application provides an apparatus control method, which is applied to a cloud server accessed by an electronic apparatus, and the method includes: the cloud server receives scene trigger information sent by the electronic equipment; acquiring device information in a scene corresponding to the scene trigger information, wherein the device information comprises information of first devices and information of second devices, and the first devices and the second devices belong to different manufacturers; determining a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device; generating a control instruction based on the scene trigger information, sending a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

In a third aspect, an embodiment of the present application provides an apparatus control method, which is applied to an apparatus control system, where the apparatus control system includes an electronic apparatus, a cloud server, a first apparatus, a second apparatus, a first vendor cloud server, and a second vendor cloud server, the cloud servers are respectively in communication connection with the electronic apparatus, the first vendor cloud server, and the second vendor cloud server, the first vendor cloud server is in communication connection with the first apparatus, and the second vendor cloud server is in communication connection with the second apparatus, and the method includes: the electronic equipment responds to a scene trigger event, and obtains equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises equipment information of the first equipment and equipment information of the second equipment, and the first equipment and the second equipment belong to different manufacturers; determining the first vendor cloud server corresponding to the first device and the second vendor cloud server corresponding to the second device; generating a control instruction based on the scene trigger event, and sending the control instruction to the cloud server; the cloud server sends a first control instruction used for controlling the first equipment in the control instructions to the first manufacturer cloud server, and sends a second control instruction used for controlling the second equipment in the control instructions to the second manufacturer cloud server; the first vendor cloud server controls the first device to respond based on the first control instruction; and the second vendor cloud server controls the second device to respond based on the second control instruction.

In a fourth aspect, an embodiment of the present application provides an apparatus control device, which is applied to an electronic device accessing a cloud server, and the apparatus includes: the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for responding to a scene trigger event and acquiring equipment information in a scene corresponding to the scene trigger event, the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers; a determining module, configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device; the sending module is used for generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for indicating the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

In a fifth aspect, an embodiment of the present application provides an apparatus control device, which is applied to a cloud server accessed by an electronic device, where the apparatus includes: the receiving module is used for the cloud server to receive scene trigger information sent by the electronic equipment; an obtaining module, configured to obtain device information in a scene corresponding to the scene trigger information, where the device information includes information of a first device and information of a second device, and the first device and the second device belong to different manufacturers; a determining module, configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device; and the sending module is used for generating a control instruction based on the scene trigger information, sending a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

In a sixth aspect, an embodiment of the present application provides an equipment control system, including an electronic device, a cloud server, a first device, a second device, a first vendor cloud server, and a second vendor cloud server, where the cloud server is in communication connection with the electronic device, the first vendor cloud server, and the second vendor cloud server, respectively, the first vendor cloud server is in communication connection with the first device, and the second vendor cloud server is in communication connection with the second device, where: the electronic device is configured to respond to a scene trigger event, and acquire device information in a scene corresponding to the scene trigger event, where the device information includes device information of the first device and device information of the second device, and the first device and the second device belong to different manufacturers; the electronic device is configured to determine the first vendor cloud server corresponding to the first device and the second vendor cloud server corresponding to the second device; the electronic equipment is used for generating a control instruction based on the scene trigger event and sending the control instruction to the cloud server; the cloud server is used for sending a first control instruction used for controlling the first equipment in the control instructions to the first manufacturer cloud server, and sending a second control instruction used for controlling the second equipment in the control instructions to the second manufacturer cloud server; the first vendor cloud server is used for controlling the first equipment to respond based on the first control instruction; and the second manufacturer cloud server is used for controlling the second equipment to respond based on the second control instruction.

In a seventh aspect, an embodiment of the present application provides an electronic device, including: a memory; one or more processors coupled with the memory; one or more programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the above-described methods.

In an eighth aspect, an embodiment of the present application provides a cloud server, including: a memory; one or more processors coupled with the memory; one or more programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the above-described methods.

In a ninth aspect, embodiments of the present application provide a computer-readable storage medium, where a program code is stored in the computer-readable storage medium, and the program code can be called by a processor to execute the above method.

The device control method, the device, the system, the electronic device and the cloud server provided by the embodiment of the application respond to a scene trigger event, acquire information of a first device and information of a second device in a scene corresponding to the scene trigger event, determine a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device, generate a control instruction based on the scene trigger event, send the control instruction to the cloud server, the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first device to the first manufacturer cloud server, send a second control instruction for controlling the second device to the second manufacturer cloud server, and accordingly, by determining a plurality of devices in the scene corresponding to the scene trigger event and respectively sending the control instruction to the plurality of manufacturer cloud servers corresponding to the plurality of devices through the cloud server, linkage control of equipment of a plurality of manufacturers is achieved, and scene linkage efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a plant control system provided by an embodiment of the present application;

FIG. 2 is a timing diagram illustrating a device control method provided by an embodiment of the present application;

FIG. 3 is a flow chart illustrating a method for controlling a device according to an embodiment of the present application;

fig. 4 is a flowchart illustrating an apparatus control method according to another embodiment of the present application;

FIG. 5 is a flow chart illustrating an apparatus control method according to still another embodiment of the present application;

fig. 6 is a flowchart illustrating an apparatus control method according to another embodiment of the present application;

fig. 7 is a flowchart illustrating an apparatus control method according to still another embodiment of the present application;

fig. 8 shows a flowchart of step S604 of the device control method shown in fig. 7 of the present application;

fig. 9 is a schematic flow chart illustrating an apparatus control method according to yet another embodiment of the present application;

fig. 10 shows a flowchart of step S708 of the device control method shown in fig. 9 of the present application;

fig. 11 is a schematic flowchart illustrating an apparatus control method according to still another embodiment of the present application;

FIG. 12 is a block diagram of a device control apparatus according to an embodiment of the present application;

fig. 13 is a block diagram of a device control apparatus according to another embodiment of the present application;

fig. 14 is a block diagram of an electronic device according to an embodiment of the present application, configured to execute a device control method according to an embodiment of the present application;

fig. 15 is a block diagram illustrating a cloud server for executing a device control method according to an embodiment of the present application;

fig. 16 illustrates a storage unit for storing or carrying a program code implementing the device control method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

With the development of the internet of things technology, the smart home goes deep into each family, and is popular among multiple families due to the convenience brought by the smart home. The intelligent home is connected with various devices (such as an air conditioner, an illuminating lamp, a refrigerator, a washing machine and the like) in the home through the Internet of things technology, and various controls such as household appliance control, illumination control, remote control, indoor and outdoor remote control, anti-theft alarm, environment monitoring, heating and ventilation control, infrared forwarding, programmable timing control and the like are provided.

Furthermore, with the development of science and technology, various devices can be controlled by electronic devices, for example, by installing application programs of manufacturers corresponding to various devices on the electronic devices, for example, when a device a, a device B, and a device C are included in a smart home, and the device a belongs to the manufacturer a, the device B belongs to the manufacturer B, and the device C belongs to the manufacturer C, it is necessary to install an application program of the manufacturer a on the electronic device to control the device a, install an application program of the manufacturer B to control the device B, and install an application program of the manufacturer C to control the device C. However, when the user desires to perform the linkage of the device a, the device B, and the device C, the user needs to enter the application program of the manufacturer a, the application program of the manufacturer B, and the application program of the manufacturer C, respectively, to perform the operation, which is troublesome. In view of the above problems, the inventor finds, through long-term research, and provides an apparatus control method, an apparatus control system, an electronic apparatus, and a cloud server provided in the embodiments of the present application, by determining a plurality of apparatuses in a scene corresponding to a scene trigger event, and by sending control instructions to a plurality of manufacturer cloud servers corresponding to the plurality of apparatuses through the cloud server, linkage control of the apparatuses of a plurality of manufacturers is implemented, and scene linkage efficiency is improved. The specific device control method is described in detail in the following embodiments.

An application environment to which the present application relates is described below.

Referring to fig. 1, fig. 1 shows an apparatus control system 10 that can be used in an apparatus control method provided in an embodiment of the present application, where the apparatus control system 10 includes an electronic apparatus 100, a cloud server 200, a first apparatus 300, a second apparatus 400, a first vendor cloud server 500, and a second vendor cloud server 600, where the cloud server 200 is in communication connection with the electronic apparatus 100, the first vendor cloud server 500, and the second vendor cloud server 600 respectively to implement data interaction with the electronic apparatus 100, the first vendor cloud server 500, and the second vendor cloud server 600 respectively, the first vendor cloud server 500 is in communication connection with the first apparatus 300 to implement data interaction with the first apparatus 300, and the second vendor cloud server 600 is in communication connection with the second apparatus 400 to implement data interaction with the second apparatus 400.

Wherein, this electronic equipment 100 can be but not limited to including smart mobile phone, panel computer, wearing formula electronic equipment etc. this first equipment 300 can be but not limited to including air conditioner, ground heating, new trend, (window) curtain, lamp, TV, refrigerator, electric fan etc. this second equipment 400 can be but not limited to including air conditioner, ground heating, new trend, (window) curtain, lamp, TV, refrigerator, electric fan etc..

Examples

Referring to fig. 2, fig. 2 is a timing diagram illustrating a device control method according to an embodiment of the present disclosure. As will be described in detail with respect to the flow shown in fig. 2, the plant control method is applied to a plant control system including: the equipment control method comprises the steps of S101 to S106.

Step S101: the electronic device responds to a scene trigger event, and obtains device information in a scene corresponding to the scene trigger event, wherein the device information comprises device information of the first device and device information of the second device, and the first device and the second device belong to different manufacturers.

In this embodiment, the electronic device may preset and store a plurality of scenarios for the user to select triggering or automatically trigger. Specifically, when the plurality of scenes are manually configured by the user, the user may configure the name of the scene, the trigger condition, the included device, the executed task, and the like; when the plurality of scenes are automatically configured by the electronic device, the electronic device may confirm the use or confirm the trigger to the user in a recommended form, for example, a "away scene", "getting-to scene", "getting-up scene", or "sleep scene", and the like.

As one mode, when the electronic device stores a scene, the electronic device may simultaneously store a scene trigger event corresponding to the scene. Therefore, the electronic device may monitor a scenario trigger event for a scenario, and it can be understood that when the scenario trigger event is detected to occur, a response corresponding to the scenario trigger event is made. In this embodiment, when the scene trigger event is detected, device information in a scene corresponding to the scene trigger event may be obtained, where the device information in the scene may include multiple devices, linkage relationships of the multiple devices, trigger conditions of the multiple devices, and the like, for example, when the device information in the scene includes a television, an air conditioner, an electric lamp, and a curtain, the linkage relationships of the multiple devices may include a television on, an air conditioner on, an electric lamp on, and a curtain off, and the trigger conditions of the multiple devices may include an air conditioner on, an electric lamp on, and a curtain off when the television is on. As a manner, multiple devices in the scene may belong to the same vendor or different vendors, and optionally, in this embodiment, the device information may include information of the first device and information of the second device, and the first device and the second device belong to different vendors.

In this embodiment, the scenario trigger event may include at least one of a touch operation trigger event, a timing trigger event, a device state trigger event, and a voice trigger event.

Step S102: determining the first vendor cloud server corresponding to the first device and the second vendor cloud server corresponding to the second device.

Further, after the first device and the second device in the scene are determined, a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device may be determined, respectively. As a manner, when configuring the scene, while configuring the device, a vendor corresponding to the device may be configured, in this embodiment, when configuring the scene corresponding to the scene trigger event, a first vendor corresponding to the first device and a second vendor corresponding to the second device may be configured correspondingly, and it may be understood that after determining the first vendor corresponding to the first device, a first vendor cloud server corresponding to the first vendor may be determined correspondingly, that is, a first vendor cloud server corresponding to the first device is determined, and similarly, after determining the second vendor corresponding to the second device, a second vendor cloud server corresponding to the second vendor may be determined correspondingly, that is, a second vendor cloud server corresponding to the second device is determined correspondingly.

As another way, during or before the scene configuration, a corresponding relationship between the device and the vendor cloud server may be established, for example, a corresponding relationship between the first device and the first vendor cloud server and a corresponding relationship between the second device and the second vendor cloud server are established, and the corresponding relationships are stored locally in the electronic device, so that after the first device and the second device in the scene corresponding to the scene trigger event are obtained, the second vendor cloud server corresponding to the first device and the second device corresponding to the first device may be determined based on the stored corresponding relationships.

Step S103: generating a control instruction based on the scene trigger event, and sending the control instruction to the cloud server.

In this embodiment, the electronic device responds to the scene trigger event to realize linkage control of the first device and the second device included in the scene corresponding to the scene trigger event, so that the first device and the second device can be respectively controlled to respond according to the linkage relationship between the first device and the second device set in the scene. As one way, the electronic device may generate a control instruction based on the scenario trigger event, where the control instruction may be used to control the first device and the second device, and then send the control instruction to a cloud server connected to the electronic device through a network, it may be understood that the electronic device may send the control instruction to the cloud server through a wireless network or a data network, where when the electronic device sends the control instruction to the cloud server through the data network, the data network may include a 2G network, a 3G network, a 4G network, and the like, which is not limited herein.

Step S104: and the cloud server sends a first control instruction used for controlling the first equipment in the control instructions to the first manufacturer cloud server, and sends a second control instruction used for controlling the second equipment in the control instructions to the second manufacturer cloud server.

As one way, the control instruction may include a control instruction of the first device and a control instruction of the second device at the same time, that is, the control of the first device and the second device may be simultaneously achieved through the control instruction. Therefore, the cloud server can respectively send the control instruction to the first manufacturer cloud server and the second manufacturer cloud server, then the first manufacturer cloud server analyzes the control instruction, extracts the first control instruction for the first device to control the first device, and similarly, the second manufacturer cloud server analyzes the control instruction, extracts the second control instruction for the second device to control the second device.

As another way, the control instructions may include a first control instruction for controlling the first device and a second control instruction for controlling the second device, respectively, and thus, the cloud server may send the first control instruction for controlling the first device to the first vendor cloud server and send the second control instruction for controlling the second device to the second vendor cloud server, thereby simplifying analysis and extraction operations of the first vendor cloud server and the second vendor cloud server.

Step S105: the first vendor cloud server controls the first device to respond based on the first control instruction.

In this embodiment, after receiving the first control instruction, the first vendor cloud server controls the first device to respond based on the first control instruction. For example, if the first device is an air conditioner and the first control instruction includes "adjust the air conditioner to 26 °", the first vendor cloud server corresponding to the first device may adjust the air conditioner temperature to 26 ° based on the first control instruction.

Step S106: and the second vendor cloud server controls the second device to respond based on the second control instruction.

Meanwhile, after receiving the second control instruction, the second vendor cloud server controls the second device to respond based on the second control instruction. For example, the second device is a television, and the second control instruction includes "turn on the television", then, the second vendor cloud server corresponding to the second device may turn on the television based on the second control instruction.

It can be understood that, in this embodiment, the electronic device responds to the scene trigger event, and the first device and the second device of different manufacturers in the scene corresponding to the scene trigger event can be simultaneously controlled to respond, that is, the electronic device can realize device control across manufacturers, and facilitates setting and control of the linkage scene.

In the device control method provided by the embodiment of the application, an electronic device responds to a scene trigger event, obtains device information in a scene corresponding to the scene trigger event, the device information includes information of a first device and information of a second device, the first device and the second device belong to different manufacturers, determines a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device, generates a control instruction based on the scene trigger event, sends the control instruction to a cloud server, the cloud server sends a first control instruction for controlling the first device in the control instruction to the first manufacturer cloud server, sends a second control instruction for controlling the second device in the control instruction to the second manufacturer cloud server, the first manufacturer cloud server controls the first device to respond based on the first control instruction, the second manufacturer cloud server controls the second device to respond based on the second control instruction, therefore, by determining the plurality of devices in the scene corresponding to the scene trigger event and respectively sending the control instructions to the plurality of manufacturer cloud servers corresponding to the plurality of devices through the cloud servers, linkage control of the devices of the plurality of manufacturers is achieved, and scene linkage efficiency is improved.

Referring to fig. 3, fig. 3 is a schematic flowchart illustrating an apparatus control method according to an embodiment of the present application. In a specific embodiment, the device control method is applied to the device control apparatus 700 shown in fig. 12 and the electronic device 100 (shown in fig. 14) configured with the device control apparatus 700, wherein the electronic device is in communication connection with a cloud server, and a specific flow of the embodiment will be described below by taking the electronic device as an example. As will be explained in detail with respect to the flow shown in fig. 3, the apparatus control method may include steps S201 to S203.

Step S201: and responding to a scene trigger event, and acquiring equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers.

Step S202: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S203: generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For detailed description of steps S201 to S203, please refer to steps S101 to S106, which are not described herein again.

The device control method provided in an embodiment of the present application, in response to a scenario trigger event, obtains information of a first device and information of a second device in a scenario corresponding to the scenario trigger event, determines a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device, generates a control instruction based on the scenario trigger event, sends the control instruction to the cloud servers, where the control instruction is used to instruct the cloud servers to send a first control instruction for controlling the first device to the first vendor cloud server, and sends a second control instruction for controlling the second device to the second vendor cloud server, so as to implement linkage control of devices of multiple vendors by determining multiple devices in the scenario corresponding to the scenario trigger event and sending the control instruction to the multiple vendor cloud servers corresponding to the multiple devices through the cloud servers, and the scene linkage efficiency is improved.

Referring to fig. 4, fig. 4 is a schematic flowchart illustrating an apparatus control method according to another embodiment of the present application. As will be explained in detail with respect to the flow shown in fig. 4, the apparatus control method may include steps S301 to S306.

Step S301: the electronic device displays a scene control.

In this embodiment, the scene trigger event is a touch operation trigger event. As a mode, the electronic device displays a scene control, where the scene control may be displayed in a form of a card or a form of a button, which is not limited herein. In addition, the number of the scene controls displayed by the electronic device may be selected according to the number of the configured scenes, for example, when the number of the configured scenes is 6, 6 scene controls may be displayed; when the number of the configured scenes is 10, the scene controls corresponding to 8 of the scenes can be selectively displayed, the scene controls corresponding to 2 of the scenes are hidden, and the scene controls corresponding to the hidden 2 of the scenes are displayed when a user touches a designated position or triggers a designated operation. Further, the order in which the electronic device displays the scene controls may be arranged from front to back according to the frequency of the user touch operation, the preference degree of the user, the priority set by the user, and the like, which is not described herein again.

Step S302: and detecting touch operation acted on the scene control.

As a mode, the electronic device detects a touch operation acting on a scene control, where the touch operation may include a single-finger click, a multi-finger click, a single-finger long press, a multi-finger long press, a heavy press, multiple clicks, a sliding operation, a pressing area, and the like, where the single-finger click is an operation of clicking on the scene control by a single finger; the multi-finger clicking refers to the operation that multiple fingers click on a scene control at the same time; the single-finger long press means that a single finger presses on the scene control for more than a preset time; the multi-finger long press means that a plurality of fingers simultaneously press on the scene control for more than a preset time; the heavy pressure means that the pressing force on the scene control exceeds the preset force; the multiple clicks refer to the fact that the number of clicks exceeds the preset number within the preset time; the sliding operation refers to the operation of sliding on the scene control by a single finger; the pressing area refers to the area of a single finger on the scene control exceeding the preset area.

Step S303: and judging whether the touch operation accords with the appointed touch operation.

The electronic device may be provided with a designated touch operation, and the designated touch operation is used as a judgment basis for the touch operation detected by the electronic device. It can be understood that the specific touch operation may be stored locally by the electronic device in advance, or may be set again when determined, and in addition, the specific touch operation may be automatically configured by the electronic device, may be manually set by a user, or may be transmitted to the electronic device after being configured by the server, which is not limited herein. Therefore, in the embodiment, after detecting the touch operation, the electronic device may compare the touch operation with the designated touch operation to determine whether the touch operation matches the designated touch operation.

Step S304: and when the touch operation accords with the specified touch operation, responding to the touch operation, and acquiring equipment information in a scene corresponding to the touch operation trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers.

When it is determined that the touch operation conforms to the designated touch operation, it may be determined that the user corresponding to the electronic device triggered the touch operation trigger event, and therefore, the electronic device may acquire device information in a scene corresponding to the touch operation trigger event in response to the touch operation.

Step S305: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S306: generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For detailed description of steps S304-S306, please refer to steps S101-S106, which are not described herein again.

In another embodiment of the device control method provided in the present application, an electronic device displays a scene control, detects a touch operation applied to the scene control, determines whether the touch operation matches a designated touch operation, when the touch operation accords with the appointed touch operation, responding to the touch operation, acquiring the information of first equipment and the information of second equipment in a scene corresponding to a touch operation trigger event, determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment, generating a control instruction based on the scene trigger event, and sending the control instruction to the cloud servers, the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and to send a second control instruction for controlling the second equipment to the second manufacturer cloud server. Compared with the device control method shown in fig. 4, the present embodiment may also trigger a scene through touch operation, so as to improve the scene triggering efficiency.

Referring to fig. 5, fig. 5 is a schematic flowchart illustrating an apparatus control method according to still another embodiment of the present application. As will be explained in detail with respect to the flow shown in fig. 5, the apparatus control method may include steps S401 to S405.

Step S401: the current time is detected.

In this embodiment, the scenario trigger event is a timing trigger event. As one mode, the current time may be detected by a timer built in the electronic device.

Step S402: and judging whether the current time reaches the specified time.

The electronic device may be provided with a designated time, and the designated time is used as a judgment basis for the current time detected by the electronic device. It is to be understood that the specified time may be stored locally by the electronic device in advance, or may be set when determined, and in addition, the specified time may be automatically configured by the electronic device, may be manually set by a user, or may be transmitted to the electronic device after being configured by the server, which is not limited herein. Therefore, in this embodiment, after detecting the current time, the electronic device may compare the current time with the specified time to determine whether the current time reaches the specified time. The designated time may be 6 pm (time to go home), 7 am (time to leave home), or the like.

Step S403: and when the current time reaches the designated time, responding to the current time, and acquiring equipment information in a scene corresponding to the timing trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers.

When it is determined that the current time reaches the designated time, it may be determined that the current time matches the timing trigger event, and therefore, the electronic device may respond to the current time to acquire device information in a scene corresponding to the timing trigger event.

Step S404: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S405: generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For detailed description of steps S403 to S405, refer to steps S101 to S106, which are not described herein again.

In an apparatus control method provided in another embodiment of the present application, a current time is detected, whether the current time reaches a specified time is determined, when the current time reaches the specified time, the current time is responded, information of a first apparatus and information of a second apparatus in a scene corresponding to a timing trigger event are obtained, a first vendor cloud server corresponding to the first apparatus and a second vendor cloud server corresponding to the second apparatus are determined, a control instruction is generated based on the scene trigger event, the control instruction is sent to a cloud server, and the control instruction is used to instruct the cloud server to send a first control instruction for controlling the first apparatus to the first vendor cloud server and send a second control instruction for controlling the second apparatus to the second vendor cloud server. Compared with the device control method shown in fig. 4, the present embodiment may also improve the scene trigger efficiency by triggering the scene at a fixed time.

Referring to fig. 6, fig. 6 is a schematic flowchart illustrating an apparatus control method according to another embodiment of the present application. As will be explained in detail with respect to the flow shown in fig. 6, the apparatus control method may include steps S501 to S506.

Step S501: and acquiring the target equipment, and generating a subscription equipment event based on the target equipment.

In this embodiment, the scenario trigger event is an equipment state trigger event. One or more devices may be selected from the multiple devices as a target device, where the target device may be the first device and/or the second device, or may be another device besides the first device and the second device, which is not limited herein. Further, the target device is obtained, and a subscribed device event is generated based on the target device, where the subscribed device event is used to instruct a target cloud server corresponding to the target device to feed back status confirmation information when the status information of the target device conforms to specified status information, that is, the target cloud server may monitor the status information of the target device based on the subscribed device event and compare the status information with the specified status information in real time, and when it is determined that the status information conforms to the specified status information, generate the status confirmation information and feed the status confirmation information back to a cloud server connected to the electronic device, so as to instruct the cloud server to send the status confirmation information to the electronic device.

Step S502: and determining a target cloud server corresponding to the target equipment.

After the target device is obtained, a target cloud server corresponding to the target device may be determined. As one mode, when configuring, the target device may configure and store a target vendor and/or a target cloud server corresponding to the target device at the same time, and thus, the target cloud server corresponding to the target device may be determined based on a target vendor and/or a target cloud service corresponding to a target device that is configured in advance.

Step S503: and sending the subscription equipment event to the cloud server, and instructing the cloud server to send the subscription equipment event to the target cloud server, wherein the subscription equipment event is used for instructing the target cloud server to feed back the state confirmation information when the state information of the target equipment meets the specified state information.

Further, the electronic device may send the subscribed device event to a cloud server connected to the electronic device through a network, and it is understood that the electronic device may send the subscribed device event to the cloud server through a wireless network or a data network, and when the electronic device sends the subscribed device event to the cloud server through the data network, the data network may include a 2G network, a 3G network, or a 4G network, and the like, which is not limited herein. In addition, after receiving the subscribed device event, the cloud server may obtain a target server corresponding to a target device included in the subscribed device event, and then send the subscribed device event to the target cloud server to indicate the target cloud server to feed back the state confirmation information when the state information of the target device conforms to the specified state information.

Step S504: when receiving state confirmation information of the corresponding target device sent by the cloud server, responding to the state confirmation information, and acquiring device information in a scene corresponding to the device state trigger event, wherein the device information comprises information of a first device and information of a second device, and the first device and the second device belong to different manufacturers.

The cloud server sends the device state information to the electronic device after receiving the state confirmation information fed back by the target cloud server, so that the electronic device can monitor the state confirmation information and respond to the state confirmation information when receiving the state confirmation information to acquire the device information in a scene corresponding to the device state trigger event.

Step S505: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S506: generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For the detailed description of steps S504 to S506, refer to steps S101 to S106, which are not described herein again.

In another embodiment of the present application, a device control method includes obtaining a target device, generating a subscription device event based on the target device, determining a target cloud server corresponding to the target device, sending the subscription device event to a cloud server, instructing the cloud server to send the subscription device event to the target cloud server, where the subscription device event is used to instruct the target cloud server to feed back status confirmation information when status information of the target device matches specified status information, when receiving the status confirmation information of the target device sent by the cloud server, obtaining information of a first device and information of a second device in a scenario corresponding to a device status trigger event in response to the status confirmation information, determining a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device, and generating a control command based on the scenario trigger event, and sending the control instruction to a cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to a first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to a second manufacturer cloud server. Compared with the device control method shown in fig. 4, the present embodiment may also improve the scene triggering efficiency by triggering the scene according to the device state.

Referring to fig. 7, fig. 7 is a schematic flowchart illustrating an apparatus control method according to yet another embodiment of the present application. As will be explained in detail with respect to the flow shown in fig. 7, the apparatus control method may include steps S601 to S604.

Step S601: and detecting voice information input into the electronic equipment.

In this embodiment, the scene trigger event is a voice trigger event. As one mode, the electronic device may collect the input voice information through a built-in sound collection device, where the sound collection device may be a microphone or a recording device of the electronic device. In addition, the voice information input to the electronic device includes, but is not limited to, voice information input by a user, voice information generated by an environment, voice information input by other electronic devices, and the like, and optionally, in the present embodiment, the voice information input to the electronic device by the user is detected.

Step S602: and extracting the voice content of the voice information.

Further, the voice content in the voice message is extracted, for example, the keyword in the voice message is extracted. As a way, the sentence corresponding to the voice information may be segmented to obtain a plurality of phrases, and then the content of each phrase is obtained; as another mode, directly recognizing the sentence corresponding to the voice message to obtain the voice content of the voice message.

Step S603: and judging whether the voice content comprises the specified voice content.

As one way, the electronic device may be provided with specified voice content for use as a criterion for the voice content extracted and obtained by the electronic device. It can be understood that the specified voice content may be stored locally by the electronic device in advance, or may be set again when determined, and in addition, the specified voice content may be automatically configured by the electronic device, may be manually set by the user, or may be transmitted to the electronic device after being configured by the server, which is not limited herein. Therefore, in the embodiment, after the voice content in the voice information is obtained, the voice content may be compared with the specified voice content to determine whether the voice content includes the specified voice content. For example, if the specified voice content is "start first scene", and the voice content is "please start first scene", it may be determined that the specified voice content is included in the voice content.

Step S604: and when the voice content comprises the specified voice content, responding to the voice information, and acquiring equipment information in a scene corresponding to the voice trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers.

When the voice content is determined to include the specified voice content, it may be determined that the voice information corresponds to the voice trigger event, and therefore, the electronic device may respond to the voice information to acquire the device information in the scene corresponding to the voice trigger event.

Referring to fig. 8, fig. 8 is a flowchart illustrating the step S604 of the apparatus control method illustrated in fig. 7 according to the present application. As will be explained in detail with respect to the flow shown in fig. 8, the method may specifically include the following steps:

step S6041: and when the voice content comprises the specified voice content, extracting the voiceprint information of the voice information.

As one way, upon determining that the speech content includes the specified speech content, the electronic device may also extract voiceprint information in the speech information. The voiceprint is a sound wave spectrum which can be displayed by an electro-acoustic instrument and carries speech information, and it can be understood that the generation of human language is a complex physiological and physical process between the human language center and a vocal organ, and the vocal organs-tongue, tooth, larynx, lung and nasal cavity used by a person during speaking are greatly different from person to person in terms of size and shape, so that the voiceprint spectrums of any two persons are different. The speech acoustic characteristics of each person are both relatively stable and variable, not absolute, but invariant. The variation can come from physiology, pathology, psychology, simulation, camouflage and is also related to environmental interference. However, since the pronunciation organs of each person are different, in general, people can distinguish different sounds or judge whether the sounds are the same.

Step S6042: and judging whether the voiceprint information is matched with the specified voiceprint information.

Further, the electronic apparatus may be provided with specified voiceprint information for use as a criterion for voiceprint information extracted from speech information input to the electronic apparatus. The specified voiceprint information can be the corresponding real user voiceprint information of the electronic equipment, so that after the voiceprint information of the voice information is obtained, the voiceprint information can be compared with the specified voiceprint information to judge whether the input voice information is the real user of the electronic equipment or not, and the input voice information of the electronic equipment can be determined to be input by the real user of the electronic equipment when the voiceprint information is matched with the specified voiceprint information; when the voiceprint information does not match the specified voiceprint information, it can be determined that the voice information input into the electronic device is not a true user input of the electronic device.

Step S6043: and when the voiceprint information is matched with the specified voiceprint information, responding to the voice information and acquiring the equipment information in the scene corresponding to the voice trigger event.

When it is determined that the voiceprint information is matched with the specified voiceprint information, that is, it is determined that the voice information input into the electronic device is input by the real user of the electronic device, the device information in the scene corresponding to the voice trigger event can be acquired in response to the voice information.

Step S605: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S606: generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For detailed description of steps S604 to S606, refer to steps S101 to S106, which are not described herein again.

Still another embodiment of the present application provides a device control method that detects voice information input to an electronic device, extracts voice content of the voice information, determines whether the voice content includes specified voice content, when the voice content comprises the designated voice content, responding to the voice information, acquiring information of a first device and information of a second device in a scene corresponding to a voice trigger event, determining a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device, generating a control instruction based on the scene trigger event, sending the control instruction to the cloud servers, the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and to send a second control instruction for controlling the second equipment to the second manufacturer cloud server. Compared with the device control method shown in fig. 4, the present embodiment may also improve the scene trigger efficiency by triggering the scene through voice

Referring to fig. 9, fig. 9 is a schematic flowchart illustrating an apparatus control method according to yet another embodiment of the present application. As will be explained in detail with respect to the flow shown in fig. 9, the apparatus control method may include steps S701 to S709:

step S701: and responding to a scene trigger event, and acquiring equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers.

Step S702: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

For detailed description of steps S701 to S702, please refer to steps S101 to S102, which are not described herein again.

Step S703: and acquiring the target state information of the first device and the target state information of the second device, which are configured in a scene corresponding to the scene trigger event.

When configuring, a scene configures target state information of a device in the scene, that is, state information that the device is expected to reach. In this embodiment, the target state information of the first device and the target state information of the second device may be configured in the scene corresponding to the scene trigger event, for example, the first device is an air conditioner, the second device is a television, the target state information of the first device is "26 °", and the target state information of the second device is "on".

Step S704: and acquiring the current state information of the first device and the current state information of the second device.

Further, the current state information of the first device can be monitored through the cloud server of the first manufacturer and fed back to the electronic device through the cloud server, and the current state information of the second device can be monitored through the cloud server of the second manufacturer and fed back to the electronic device through the cloud server. The current state information of the first device and the current state information of the second device may be obtained in real time, may be obtained at a predetermined time interval, or may be obtained in response to a scene trigger event, which is not limited herein.

Step S705: and judging whether the target state information of the first equipment is consistent with the current state information of the first equipment or not, judging whether the target state information of the second equipment is consistent with the current state information of the second equipment or not, and obtaining a judgment result.

Further, comparing the target state information of the first device with the current state information to judge whether the target state information of the first device is consistent with the current state information; and comparing the target state information of the second device with the current state information to judge whether the target state information of the second device is consistent with the current state information. Taking a first device as an example, when the first device is an air conditioner and the target state information is "26 °", if the current state information of the first device is "26 °", the target state information of the first device is consistent with the current state information, and if the current state information of the first device is "20 °", the target state information of the first device is inconsistent with the current state information.

Step S706: when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is inconsistent with the current state information of the second equipment, a control instruction is generated based on the scene trigger event and the judgment result and is sent to the cloud server, the control instruction is used for indicating the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and a second control instruction for controlling the second equipment is sent to the second manufacturer cloud server.

When the target state information and the current state information of the first device are inconsistent and the target state information and the current state information of the second device are inconsistent, both the state information representing the first device and the state information representing the second device need to be adjusted, therefore, a control instruction can be generated based on the trigger event and the judgment result, the control instruction comprises a first control instruction used for controlling the first device and a second control instruction used for controlling the second device, the first control instruction is sent to the first manufacturer cloud server, the first manufacturer cloud server is instructed to adjust the current state of the first device to the target state, the second manufacturer cloud server is sent to the second manufacturer cloud server, and the second manufacturer cloud server is instructed to adjust the current state of the second device to the target state.

Step S707: and monitoring feedback information sent by the cloud server.

The cloud server sends the first control instruction to a cloud server of a first manufacturer, and if the first instruction fails to be sent, the cloud server sends feedback information to the electronic equipment; similarly, the cloud server sends the second control instruction to the cloud server of the second manufacturer, and if the second instruction fails to be sent, the cloud server sends the feedback information to the electronic device.

Step S708: when it is monitored that the feedback information indicates that the control instruction fails to be sent, the control instruction is sent to the cloud server again through a delay back-off algorithm, the control instruction is used for indicating that the cloud server sends a first control instruction used for controlling the first equipment to the first manufacturer cloud server, and sends a second control instruction used for controlling the second equipment to the second manufacturer cloud server.

As one mode, if it is monitored that the feedback information indicates that the control instruction fails to be sent, the control instruction may be sent to the cloud server again to instruct the cloud server to send a first control instruction used for controlling the first device in the control instruction to the first vendor cloud server, and send a second control instruction used for controlling the second device to the second vendor cloud server. In the present embodiment, the control instruction may be retransmitted through a delayed backoff algorithm, and the retransmission is stopped when the number of times of retransmitting the instruction reaches a specified number of times, where the specified number of times may include 3 times.

Referring to fig. 10, fig. 10 is a flowchart illustrating step S708 of the apparatus control method illustrated in fig. 9 according to the present application. As will be explained in detail with respect to the flow shown in fig. 10, the method may specifically include the following steps:

step S7081: and when the feedback information is monitored to indicate that the control instruction is failed to be sent, judging whether the scene trigger event meets a specified trigger event.

As a manner, when it is determined that the instruction information fails to be sent, whether the scenario trigger event matches a specified trigger event may be obtained, where in this embodiment, the specified trigger event may include a timing trigger event and a device status trigger event.

Step S7082: and when the trigger event accords with the specified trigger event, the control instruction is sent to the cloud server again through a delay back-off algorithm, the control instruction is used for instructing the cloud server to send a first control instruction for controlling first equipment to the first manufacturer cloud server, and a second control instruction for controlling second equipment is sent to the second manufacturer cloud server.

When the trigger event is a timing trigger event or a device state trigger event, the instruction information may be retransmitted.

Step S709: and when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is consistent with the current state information of the second equipment, generating a first control instruction based on the scene trigger event and the judgment result, and sending the first control instruction to the cloud server, wherein the first control instruction is used for indicating the cloud server to send the first control instruction to the first equipment.

When the target state information of the first device is inconsistent with the current state information and the target state information of the second device is consistent with the current state information, the state information of the first device is characterized to be required to be adjusted and the state information of the second device is not required to be adjusted, so that a first control instruction for controlling the first device based on the trigger event and the judgment result can be sent to the first manufacturer cloud server to instruct the first manufacturer cloud server to adjust the current state of the first device to the target state.

In yet another embodiment of the present application, in response to a scenario trigger event, an apparatus control method obtains information of a first apparatus and information of a second apparatus in a scenario corresponding to the scenario trigger event, determines a first vendor cloud server corresponding to the first apparatus and a second vendor cloud server corresponding to the second apparatus, obtains target state information of the first apparatus and target state information of the second apparatus configured in the scenario corresponding to the scenario trigger event, obtains current state information of the first apparatus and current state information of the second apparatus, generates a control instruction and sends the control instruction to the cloud server when the target state information of the first apparatus is inconsistent with the current state information and the target state information of the second apparatus is inconsistent with the current state information, the control instruction is used to instruct the cloud server to send a first control instruction for controlling the first apparatus to the first vendor cloud server, and sending a second control instruction for controlling the second equipment to a second manufacturer cloud server, and if the sending fails, resending the second control instruction through a delay back-off algorithm, and when the target state information of the first equipment is inconsistent with the current state information and the current state information of the second equipment is consistent with the current state information, generating a first control instruction and sending the first control instruction to the cloud server, wherein the first control instruction is used for instructing the cloud server to send the first control instruction to the first manufacturer cloud server. Compared with the device control method shown in fig. 4, in the present embodiment, the device status in the scene is monitored, and when the status information meets the condition, the control instruction is not sent, so that the transmission of the data amount is reduced.

Referring to fig. 11, fig. 11 is a schematic flowchart illustrating an apparatus control method according to still another embodiment of the present application. In a specific embodiment, the device control method is applied to the device control apparatus 800 shown in fig. 13 and the cloud server 200 (fig. 15) configured with the device control apparatus 800, and will be described in detail with respect to the flow shown in fig. 11, and the device control method may include steps S801 to S804:

step S801: and the cloud server receives scene trigger information sent by the electronic equipment.

In this embodiment, the electronic device generates scene trigger information in response to a scene trigger event, and sends the scene trigger information to the cloud server, so that the scene trigger information is processed by the cloud server.

Step S802: and acquiring device information in a scene corresponding to the scene trigger information, wherein the device information comprises information of first devices and information of second devices, and the first devices and the second devices belong to different manufacturers.

Step S803: and determining a first manufacturer cloud server corresponding to the first equipment and a second manufacturer cloud server corresponding to the second equipment.

Step S804: generating a control instruction based on the scene trigger information, sending a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.

For detailed description of steps S801 to S804, please refer to steps S101 to S106, which are not described herein again.

In an apparatus control method provided in another embodiment of the present application, a cloud server receives scene trigger information sent by an electronic apparatus, obtains information of a first apparatus and information of a second apparatus in a scene corresponding to the scene trigger information, determines a first vendor cloud server corresponding to the first apparatus and a second vendor cloud server corresponding to the second apparatus, generates a control instruction based on the scene trigger event, sends a first control instruction for controlling the first apparatus to the first vendor cloud server, and sends a second control instruction for controlling the second apparatus to the second vendor cloud server. Compared with the device control method shown in fig. 4, the present embodiment may also trigger a scene through touch operation, so as to improve the scene triggering efficiency.

Referring to fig. 12, fig. 12 is a block diagram illustrating a device control apparatus 700 according to an embodiment of the present application. The device control apparatus 700 is applied to the electronic device 100, and will be explained with reference to the block diagram shown in fig. 12, where the device control apparatus 700 includes: an obtaining module 710, a determining module 720 and a sending module 730, wherein:

an obtaining module 710, configured to respond to a scene trigger event, to obtain device information in a scene corresponding to the scene trigger event, where the device information includes information of a first device and information of a second device, and the first device and the second device belong to different manufacturers. Further, when the scene trigger event is a touch operation trigger event, the obtaining module 710 includes: scene control shows submodule, touch operation detection submodule, touch operation judges submodule and touch operation response submodule, wherein:

and the scene control display sub-module is used for displaying the scene control by the electronic equipment.

And the touch operation detection submodule is used for detecting the touch operation acted on the scene control.

And the touch operation judgment submodule is used for judging whether the touch operation accords with the specified touch operation.

And the touch operation response submodule is used for responding to the touch operation and acquiring the equipment information in the scene corresponding to the touch operation trigger event when the touch operation accords with the specified touch operation.

Further, when the scenario trigger event is a timing trigger event, the obtaining module 710 includes: time detection submodule, time judge submodule and time response submodule, wherein:

and the time detection submodule is used for detecting the current time.

And the time judgment submodule is used for judging whether the current time reaches the specified time.

And the time response submodule is used for responding to the current time and acquiring the equipment information in the scene corresponding to the timing trigger event when the current time reaches the specified time.

Further, when the scenario trigger event is a device status trigger event, the obtaining module 710 includes: the device comprises a target device acquisition submodule, a target cloud server determination submodule, a subscription device event sending submodule and a state information response submodule, wherein:

and the target equipment acquisition submodule is used for acquiring the target equipment and generating a subscribed equipment event based on the target equipment.

And the target cloud server determining submodule is used for determining a target cloud server corresponding to the target equipment.

And the subscription equipment event sending submodule is used for sending the subscription equipment event to the cloud server and indicating the cloud server to send the subscription equipment event to the target cloud server, and the subscription equipment event is used for indicating the target cloud server to feed back the state confirmation information when the state information of the target equipment meets the specified state information.

And the state information response submodule is used for responding to the state confirmation information and acquiring the equipment information in the scene corresponding to the equipment state trigger event when the state confirmation information of the corresponding target equipment sent by the cloud server is received.

Further, when the scene trigger event is a voice trigger event, the obtaining module 710 includes: the voice message detection submodule, the voice content extraction submodule, the voice content judgment submodule and the voice message response submodule, wherein:

and the voice information detection submodule is used for detecting the voice information input into the electronic equipment.

And the voice content extraction submodule is used for extracting the voice content of the voice information.

And the voice content judging submodule is used for judging whether the voice content comprises the specified voice content.

And the voice information response submodule is used for responding to the voice information and acquiring the equipment information in the scene corresponding to the voice trigger event when the voice content comprises the specified voice content. Further, the voice message response submodule includes: voiceprint information extraction unit, voiceprint information judgment unit and voice information response unit, wherein:

a voiceprint information extraction unit configured to extract voiceprint information of the voice information when the voice content includes the specified voice content.

And the voiceprint information judging unit is used for judging whether the voiceprint information is matched with the specified voiceprint information.

And the voice information response unit is used for responding the voice information and acquiring the equipment information in the scene corresponding to the voice trigger event when the voiceprint information is matched with the specified voiceprint information.

A determining module 720, configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device.

A sending module 730, configured to generate a control instruction based on the scene trigger event, send the control instruction to the cloud server, where the control instruction is used to instruct the cloud server to send a first control instruction for controlling the first device to the first vendor cloud server, and send a second control instruction for controlling the second device to the second vendor cloud server. Further, the sending module 730 includes: the system comprises a target state information acquisition submodule, a current state information acquisition submodule, a state information judgment submodule, a first sending submodule and a second sending submodule, wherein:

and the target state information acquisition submodule is used for acquiring the target state information of the first device and the target state information of the second device, which are configured in the scene corresponding to the scene trigger event.

And the current state information acquisition submodule is used for acquiring the current state information of the first equipment and the current state information of the second equipment.

And the state information judging submodule is used for judging whether the target state information of the first equipment is consistent with the current state information of the first equipment or not, judging whether the target state information of the second equipment is consistent with the current state information of the second equipment or not and obtaining a judgment result.

And the first sending submodule is used for generating a control instruction based on the scene trigger event and the judgment result and sending the control instruction to the cloud server when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is inconsistent with the current state information of the second equipment, wherein the control instruction is used for indicating the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server and send a second control instruction for controlling the second equipment to the second manufacturer cloud server.

And the second sending submodule is used for generating the first control instruction based on the scene trigger event and the judgment result and sending the first control instruction to the cloud server when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is consistent with the current state information of the second equipment, and the first control instruction is used for indicating the cloud server to send the first control instruction to the first equipment.

Further, the device control apparatus 700 further includes: monitor module and control module, wherein:

and the monitoring module is used for monitoring the feedback information sent by the cloud server.

And the control module is used for sending the control instruction to the cloud server again through a delay back-off algorithm when monitoring that the feedback information indicates that the control instruction fails to be sent, wherein the control instruction is used for indicating that the cloud server sends a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sends a second control instruction for controlling the second equipment to the second manufacturer cloud server. Further, the control module includes: trigger event judges submodule and control submodule, wherein:

and the trigger event judgment sub-module is used for judging whether the scene trigger event meets the specified trigger event or not when the feedback information indicating that the control instruction fails to be sent is monitored.

And the control submodule is used for re-sending the control instruction to the cloud server through a delay back-off algorithm when the trigger event accords with the specified trigger event, wherein the control instruction instructs the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sends a second control instruction for controlling the second equipment to the second manufacturer cloud server.

Referring to fig. 13, fig. 13 is a block diagram illustrating a device control apparatus 800 according to another embodiment of the present application. The device control apparatus 800 is applied to the cloud server 200, and will be explained with reference to a block diagram shown in fig. 13, where the device control apparatus 800 includes: a receiving module 810, an obtaining module 820, a determining module 830 and a sending module 840, wherein: receiving

A receiving module 810, configured to receive, by the cloud server, the scene trigger information sent by the electronic device.

An obtaining module 820, configured to obtain device information in a scene corresponding to the scene trigger information, where the device information includes information of a first device and information of a second device, and the first device and the second device belong to different manufacturers.

The determining module 830 is configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device.

A sending module 840, configured to generate a control instruction based on the scene trigger information, send a first control instruction for controlling the first device to the first vendor cloud server, and send a second control instruction for controlling the second device to the second vendor cloud server.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling between the modules may be electrical, mechanical or other type of coupling.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

In addition, an apparatus control system 10 is further provided in an embodiment of the present application, and includes an electronic apparatus 100, a cloud server 200, a first apparatus 300, a second apparatus 400, a first vendor cloud server 500, and a second vendor cloud server 600, where the cloud server 200 is in communication connection with the electronic apparatus 100, the first vendor cloud server 500, and the second vendor cloud server 600 respectively, the first vendor cloud server 500 is in communication connection with the first apparatus 300, and the second vendor cloud server 600 is in communication connection with the second apparatus 400, where:

the electronic device 100 is configured to respond to a scene trigger event, and acquire device information in a scene corresponding to the scene trigger event, where the device information includes device information of the first device 300 and device information of the second device 400, and the first device 300 and the second device 400 belong to different manufacturers.

The electronic device 100 is configured to determine the first vendor cloud server 500 corresponding to the first device 300 and the second vendor cloud server 600 corresponding to the second device 400.

The electronic device 100 is configured to generate a control instruction based on the scene trigger event, and send the control instruction to the cloud server 200.

The cloud server 200 is configured to send a first control instruction, which is used for controlling the first device 300, in the control instruction to the first vendor cloud server 500, and send a second control instruction, which is used for controlling the second device 400, in the control instruction to the second vendor cloud server 600.

The first vendor cloud server 500 is configured to control the first device 300 to respond based on the first control instruction.

The second vendor cloud server 600 is configured to control the second device 400 to respond based on the second control instruction.

Referring to fig. 14, a block diagram of an electronic device 100 according to an embodiment of the present disclosure is shown. The electronic device 100 may be a smart phone, a tablet computer, an electronic book, or other electronic devices capable of running an application. The electronic device 100 in the present application may include one or more of the following components: a processor 110, a memory 120, a screen 130, and one or more applications, wherein the one or more applications may be stored in the memory 120 and configured to be executed by the one or more processors 110, the one or more programs configured to perform the methods as described in the aforementioned method embodiments.

Processor 110 may include one or more processing cores, among other things. The processor 110 connects various parts within the overall electronic device 100 using various interfaces and lines, and performs various functions of the electronic device 100 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 120 and calling data stored in the memory 120. Alternatively, the processor 110 may be implemented in hardware using at least one of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 110 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 110, but may be implemented by a communication chip.

The Memory 120 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 120 may be used to store instructions, programs, code sets, or instruction sets. The memory 120 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data created by the terminal 100 in use, such as a phonebook, audio-video data, chat log data, and the like.

Further, the screen 130 may be a Liquid Crystal Display (LCD), an Organic Light-Emitting Diode (OLED), or the like. The screen 130 is used to display information input by the user, information provided to the user, and various graphical user interfaces of the electronic device, which may be composed of graphics, text, icons, numbers, video, and any combination thereof.

Referring to fig. 15, a block diagram of a cloud server 200 according to an embodiment of the present disclosure is shown. The cloud server 200 in the present application may include one or more of the following components: a processor 210, a memory 220, and one or more applications, wherein the one or more applications may be stored in the memory 220 and configured to be executed by the one or more processors 210, the one or more programs configured to perform a method as described in the aforementioned method embodiments. For a detailed description of the processor 210 and the memory 220, please refer to the description of the processor 110 and the memory 120, which is not repeated herein.

Referring to fig. 16, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable medium 900 has stored therein program code that can be called by a processor to perform the methods described in the above-described method embodiments.

The computer-readable storage medium 900 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Alternatively, the computer-readable storage medium 900 includes a non-volatile computer-readable storage medium. The computer readable storage medium 900 has storage space for program code 910 to perform any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 910 may be compressed, for example, in a suitable form.

In summary, according to the device control method, the device, the system, the electronic device, and the cloud server provided in the embodiments of the present application, in response to a scene trigger event, information of a first device and information of a second device in a scene corresponding to the scene trigger event are obtained, a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device are determined, a control instruction is generated based on the scene trigger event and sent to the cloud server, the control instruction is used to instruct the cloud server to send a first control instruction for controlling the first device to the first vendor cloud server, and a second control instruction for controlling the second device is sent to the second vendor cloud server, so that by determining a plurality of devices in the scene corresponding to the scene trigger event and sending the control instruction to the plurality of vendor cloud servers corresponding to the plurality of devices through the cloud server, linkage control of equipment of a plurality of manufacturers is achieved, and scene linkage efficiency is improved.

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

Claims (20)

1. An apparatus control method applied to an electronic apparatus accessing a cloud server, the method comprising:

   responding to a scene trigger event, and acquiring equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers;

   determining a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device;

   generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.
2. The method of claim 1, wherein the scenario trigger event comprises at least one of a touch operation trigger event, a timing trigger event, a device state trigger event, and a voice trigger event.
3. The method according to claim 2, wherein when the scene trigger event is the touch operation trigger event, the obtaining, in response to the scene trigger event, device information in a scene corresponding to the scene trigger event includes:

   the electronic equipment displays a scene control;

   detecting a touch operation acting on the scene control;

   judging whether the touch operation accords with a specified touch operation;

   and when the touch operation accords with the specified touch operation, responding to the touch operation and acquiring the equipment information in the scene corresponding to the touch operation trigger event.
4. The method according to claim 2, wherein when the scene trigger event is the timing trigger event, the obtaining device information in a scene corresponding to the scene trigger event in response to the scene trigger event includes:

   detecting the current time;

   judging whether the current time reaches the specified time or not;

   and when the current time reaches the designated time, responding to the current time and acquiring the equipment information in the scene corresponding to the timing trigger event.
5. The method according to claim 2, wherein when the scene trigger event is the device state trigger event, the obtaining device information in a scene corresponding to the scene trigger event in response to the scene trigger event includes:

   and when receiving the state confirmation information of the corresponding target equipment sent by the cloud server, responding to the state confirmation information and acquiring the equipment information in the scene corresponding to the equipment state trigger event.
6. The method according to claim 5, wherein before the step of acquiring the device information in the scene corresponding to the device status trigger event in response to the status confirmation information when the status confirmation information corresponding to the target device sent by the cloud server is received, the method further includes:

   acquiring the target equipment, and generating a subscription equipment event based on the target equipment;

   determining a target cloud server corresponding to the target equipment;

   and sending the subscription equipment event to the cloud server, and instructing the cloud server to send the subscription equipment event to the target cloud server, wherein the subscription equipment event is used for instructing the target cloud server to feed back the state confirmation information when the state information of the target equipment meets the specified state information.
7. The method according to claim 2, wherein when the scene trigger event is the voice trigger event, the obtaining, in response to the scene trigger event, device information in a scene corresponding to the scene trigger event includes:

   detecting voice information input into the electronic equipment;

   extracting voice content of the voice information;

   judging whether the voice content comprises appointed voice content or not;

   and when the voice content comprises the specified voice content, responding to the voice information and acquiring the equipment information in the scene corresponding to the voice trigger event.
8. The method according to claim 7, wherein when the voice content includes the specified voice content, acquiring device information in a scene corresponding to the voice trigger event in response to the voice information includes:

   when the voice content comprises the specified voice content, extracting voiceprint information of the voice information;

   judging whether the voiceprint information is matched with the specified voiceprint information;

   and when the voiceprint information is matched with the specified voiceprint information, responding to the voice information and acquiring the equipment information in the scene corresponding to the voice trigger event.
9. The method according to any one of claims 1 to 8, wherein the generating a control instruction based on the scenario trigger event, and sending the control instruction to the cloud server, the control instruction being used for instructing the cloud server to send a first control instruction for controlling the first device to the first vendor cloud server, and sending a second control instruction for controlling the second device to the second vendor cloud server, comprises:

   acquiring target state information of the first device and target state information of the second device, which are configured in a scene corresponding to the scene trigger event;

   acquiring current state information of the first device and current state information of the second device;

   judging whether the target state information of the first equipment is consistent with the current state information of the first equipment or not, judging whether the target state information of the second equipment is consistent with the current state information of the second equipment or not, and obtaining a judgment result;

   when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is inconsistent with the current state information of the second equipment, a control instruction is generated based on the scene trigger event and the judgment result and is sent to the cloud server, the control instruction is used for indicating the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and a second control instruction for controlling the second equipment is sent to the second manufacturer cloud server.
10. The method of claim 9, further comprising:

    and when the judgment result is that the target state information of the first equipment is inconsistent with the current state information of the first equipment and the target state information of the second equipment is consistent with the current state information of the second equipment, generating a first control instruction based on the scene trigger event and the judgment result, and sending the first control instruction to the cloud server, wherein the first control instruction is used for indicating the cloud server to send the first control instruction to the first manufacturer cloud server.
11. The method according to any one of claims 1 to 10, wherein the generating a control instruction based on the scenario trigger event, sending the control instruction to the cloud server, the control instruction being used for instructing the cloud server to send a first control instruction for controlling the first device to the first vendor cloud server, and sending a second control instruction for controlling the second device to the second vendor cloud server, and thereafter, further comprising:

    monitoring feedback information sent by the cloud server;

    when it is monitored that the feedback information indicates that the control instruction fails to be sent, the control instruction is sent to the cloud server again through a delay back-off algorithm, the control instruction is used for indicating that the cloud server sends a first control instruction used for controlling the first equipment to the first manufacturer cloud server, and sends a second control instruction used for controlling the second equipment to the second manufacturer cloud server.
12. The method according to claim 11, wherein when it is monitored that the feedback information indicates that the control instruction transmission fails, the control instruction is retransmitted to the cloud server through a delayed back-off algorithm, and the control instruction is used for instructing the cloud server to transmit a first control instruction for controlling the first device to the first vendor cloud server and transmit a second control instruction for controlling the second device to the second vendor cloud server, and the method includes:

    when it is monitored that the feedback information indicates that the control instruction fails to be sent, judging whether the scene trigger event meets a specified trigger event;

    and when the trigger event accords with the specified trigger event, the control instruction is sent to the cloud server again through a delay back-off algorithm, the control instruction is used for instructing the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and a second control instruction for controlling the second equipment is sent to the second manufacturer cloud server.
13. The device control method is applied to a cloud server accessed by electronic devices, and comprises the following steps:

    the cloud server receives scene trigger information sent by the electronic equipment;

    acquiring device information in a scene corresponding to the scene trigger information, wherein the device information comprises information of first devices and information of second devices, and the first devices and the second devices belong to different manufacturers;

    determining a first manufacturer cloud server corresponding to the first device and a second manufacturer cloud server corresponding to the second device;

    generating a control instruction based on the scene trigger information, sending a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.
14. An equipment control method is applied to an equipment control system, the equipment control system comprises electronic equipment, a cloud server, first equipment, second equipment, a first manufacturer cloud server and a second manufacturer cloud server, the cloud servers are respectively in communication connection with the electronic equipment, the first manufacturer cloud server and the second manufacturer cloud server, the first manufacturer cloud server is in communication connection with the first equipment, and the second manufacturer cloud server is in communication connection with the second equipment, the method comprises the following steps:

    the electronic equipment responds to a scene trigger event, and obtains equipment information in a scene corresponding to the scene trigger event, wherein the equipment information comprises equipment information of the first equipment and equipment information of the second equipment, and the first equipment and the second equipment belong to different manufacturers;

    determining the first vendor cloud server corresponding to the first device and the second vendor cloud server corresponding to the second device;

    generating a control instruction based on the scene trigger event, and sending the control instruction to the cloud server;

    the cloud server sends a first control instruction used for controlling the first equipment in the control instructions to the first manufacturer cloud server, and sends a second control instruction used for controlling the second equipment in the control instructions to the second manufacturer cloud server;

    the first vendor cloud server controls the first device to respond based on the first control instruction;

    and the second vendor cloud server controls the second device to respond based on the second control instruction.
15. An apparatus control device, applied to an electronic device accessing a cloud server, the apparatus comprising:

    the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for responding to a scene trigger event and acquiring equipment information in a scene corresponding to the scene trigger event, the equipment information comprises information of first equipment and information of second equipment, and the first equipment and the second equipment belong to different manufacturers;

    a determining module, configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device;

    the sending module is used for generating a control instruction based on the scene trigger event, sending the control instruction to the cloud server, wherein the control instruction is used for indicating the cloud server to send a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.
16. The device control apparatus is applied to a cloud server accessed by an electronic device, and the apparatus comprises:

    the receiving module is used for the cloud server to receive scene trigger information sent by the electronic equipment;

    an obtaining module, configured to obtain device information in a scene corresponding to the scene trigger information, where the device information includes information of a first device and information of a second device, and the first device and the second device belong to different manufacturers;

    a determining module, configured to determine a first vendor cloud server corresponding to the first device and a second vendor cloud server corresponding to the second device;

    and the sending module is used for generating a control instruction based on the scene trigger information, sending a first control instruction for controlling the first equipment to the first manufacturer cloud server, and sending a second control instruction for controlling the second equipment to the second manufacturer cloud server.
17. The utility model provides an equipment control system, its characterized in that includes electronic equipment, cloud server, first equipment, second equipment, first firm cloud server and second firm cloud server, the cloud server respectively with electronic equipment, first firm cloud server and second firm cloud server communication connection, first firm cloud server with first equipment communication connection, second firm cloud server with second equipment communication connection, wherein:

    the electronic device is configured to respond to a scene trigger event, and acquire device information in a scene corresponding to the scene trigger event, where the device information includes device information of the first device and device information of the second device, and the first device and the second device belong to different manufacturers;

    the electronic device is configured to determine the first vendor cloud server corresponding to the first device and the second vendor cloud server corresponding to the second device;

    the electronic equipment is used for generating a control instruction based on the scene trigger event and sending the control instruction to the cloud server;

    the cloud server is used for sending a first control instruction used for controlling the first equipment in the control instructions to the first manufacturer cloud server, and sending a second control instruction used for controlling the second equipment in the control instructions to the second manufacturer cloud server;

    the first vendor cloud server is used for controlling the first equipment to respond based on the first control instruction;

    and the second manufacturer cloud server is used for controlling the second equipment to respond based on the second control instruction.
18. An electronic device, comprising:

    a memory;

    one or more processors coupled with the memory;

    one or more programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-13.
19. A cloud server, comprising:

    a memory;

    one or more processors coupled with the memory;

    one or more programs, wherein the one or more application programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of claim 14.
20. A computer-readable storage medium, having stored thereon program code that can be invoked by a processor to perform the method according to any one of claims 1 to 13.

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