CN110471300B - Conflict coordination method and system for multiple intelligent scenes - Google Patents

Abstract

The invention discloses a conflict coordination method for multiple intelligent scenes, which comprises the following steps: acquiring current scene mode information of intelligent equipment, wherein the current scene mode information comprises an ID (identity) of a current scene type and an ID of the intelligent equipment, and inquiring a priority corresponding to the ID of the current scene type; acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment; and executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority. According to the invention, the experience effect of the user is improved.

Description

Conflict coordination method and system for multiple intelligent scenes

Technical Field

The invention relates to the technical field of intelligent control of the Internet of things, in particular to a conflict coordination method and system for multiple intelligent scenes.

Background

Along with the development of whole house intelligence house, the intelligent device control in the room has appeared diversified, also has come to the suitable place to the various intelligent scenes of intelligent device, for example, can client remote control and set up linkage control such as scene housekeeper. Different intelligent scenes are different in control strategies for the intelligent equipment, so that when the different intelligent scenes are executed on the intelligent equipment at the same time, the control strategies for the intelligent equipment may conflict with each other, that is, a user can operate the same intelligent equipment in multiple modes at the same time, and uncertainty of execution results of the intelligent equipment may occur when the intelligent scenes are in cooperative work. For example, set for a plurality of intelligent scene control to the intelligent lamp, wherein, scene A just opens the lamp for the developments are sensed someone, detects unmanned back after five minutes and turns off the lamp automatically, and scene B controls the intelligent lamp for using terminal APP management software, can manage opening and closing of intelligent lamp through APP management software. At present, the intelligent lamp is triggered under a scene A, after the scene A is triggered, the intelligent lamp is turned on for five minutes according to the control execution logic of the scene A, and if no person is detected, the intelligent lamp is turned off. Simultaneously, before the intelligent lamp execution was closed, there was the user to have triggered scene B to the intelligent lamp, the operation that uses terminal APP management software to open the intelligent lamp. Therefore, according to the execution logic of the scene a, the intelligent lamp should be turned off, but at the same time, the user intelligent lamp should be turned on, and from the perspective of the user, the intelligent lamp should be turned on, so that the scene control of the intelligent lamp conflicts with each other, and the experience effect of the user is reduced.

In the prior art, the final execution result of the intelligent device is determined according to the sequential execution order of the intelligent scenes. In the above example, the processing result thereof performs light-off for the smart light according to the scene a. In fact, in most cases, the intelligent lamp is obviously manually controlled to be turned on, and the requirements of users are met better.

Therefore, the invention provides a technical scheme for conflict coordination of multiple intelligent scenes, and solves the problems in the prior art.

Disclosure of Invention

The invention aims to provide a conflict coordination method and a conflict coordination system for multiple intelligent scenes, which solve the problems in the prior art and improve the experience effect of a user.

In order to achieve the above object, the present invention provides a method for coordinating conflicts in multiple intelligent scenarios, wherein the method comprises:

s1, acquiring current scene mode information of intelligent equipment, wherein the current scene mode information comprises an ID of a current scene type and an ID of the intelligent equipment, and inquiring a priority corresponding to the ID of the current scene type;

s2, acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment;

and S3, executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority.

Preferably, the step S1 includes:

setting an APP client of an intelligent home;

setting a scene mode management page at the APP client;

and setting the scene type name of the intelligent equipment in the scene mode management page.

Preferably, the scene type name includes an intelligent linkage type, a timed task type, a scenario type and a manual control type.

Preferably, the step S1 further includes:

acquiring a current scene type name set by a user;

and generating corresponding current scene mode information according to the current scene type name and a preset ID generation rule, wherein the current scene mode information comprises the ID of the current scene type and the ID of the intelligent equipment.

Preferably, the ID generation rule includes:

the ID of the scene type includes a string including a scene type name keyword and a timestamp when the scene type was created.

Preferably, the step S1 further includes:

setting the priority corresponding to each scene type name, wherein the intelligent linkage type is set to be low priority, and the timing task type, the scene type and the manual control type are all set to be high priority;

and acquiring the name of the current scene type according to the scene type name keyword in the ID of the current scene type, and inquiring the priority corresponding to the name of the current scene type.

Preferably, the step S2 includes:

setting a control flag of the intelligent device, wherein the control flag is the ID of the last scene type;

the step S3 further includes:

and updating the control mark of the intelligent device to the ID of the scene type with the highest priority.

Preferably, the step S3 includes:

and if the priority level corresponding to the ID of the current scene type is consistent with the priority level corresponding to the ID of the latest scene type, executing a scene mode on the intelligent equipment according to a preset control principle.

Preferably, the preset control principle comprises:

if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both high priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating a control mark of the intelligent equipment to be the ID of the current scene type;

and if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both low priorities, executing scene mode control on the intelligent device according to the ID of the current scene type, and updating a control mark of the intelligent device to be the ID of the current scene type.

In order to achieve the above object, the present invention provides a conflict coordination system for multiple intelligent scenarios, the system comprising:

the system comprises an acquisition module, a priority module and a processing module, wherein the acquisition module is used for acquiring current scene mode information of the intelligent equipment, the current scene mode information comprises an ID of a current scene type and an ID of the intelligent equipment, and inquiring the priority corresponding to the ID of the current scene type;

the query module is used for acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment;

and the execution module is used for executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority.

Compared with the prior art, the conflict coordination method and system for multiple intelligent scenes have the beneficial effects that: different control levels are set for different intelligent scenes, when a plurality of intelligent scenes of the intelligent equipment are triggered to conflict, the final execution result is determined according to the different control levels, the conflict of the intelligent scene operation of the intelligent equipment is reduced, the intelligent equipment can meet the desire of the user more intelligently, the experience effect of the user is provided, and convenience is brought to the user.

Drawings

FIG. 1 is a flow diagram of a method for conflict coordination for multiple intelligent scenarios in accordance with an embodiment of the present invention.

FIG. 2 is a system diagram of a conflict coordination system for multiple intelligent scenarios in accordance with an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the specific embodiments shown in the drawings, which are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the specific embodiments are included in the scope of the present invention.

In an embodiment of the present invention shown in fig. 1, the present invention provides a method for coordinating conflicts in multiple intelligent scenarios, where the method includes:

s1, acquiring current scene mode information of intelligent equipment, wherein the current scene mode information comprises an ID of a current scene type and an ID of the intelligent equipment, and inquiring a priority corresponding to the ID of the current scene type;

s2, acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment;

and S3, executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority.

The method comprises the steps of obtaining current scene mode information of the intelligent device, wherein the scene mode information comprises an ID of a current scene type and an ID of the intelligent device, and inquiring the priority corresponding to the ID of the current scene type according to the ID of the current scene type. According to an embodiment of the present invention, the step S1 further includes: the terminal is provided with an APP client of the smart home, and after a user finishes registration information on a display interface of the APP client, the user logs in a login interface of the APP client by using an account number which is successfully registered. After the user logs in, the user enters a display interface of the APP client, at least one input box of 'add equipment' is arranged on the display interface, and after the input box is clicked, the corresponding intelligent equipment can be added. And after the user successfully adds the intelligent equipment, the terminal and the intelligent equipment are bound, and a data communication channel is established between the bound terminal and the intelligent equipment. The APP client side is provided with a scene mode management page, and a user can create a scene type name of the intelligent device in the scene mode management page. According to an embodiment of the present invention, the scene type name includes an intelligent linkage type, a timed task type, a scenario type, and a manual control type. The intelligent linkage type refers to that when the environment of the intelligent equipment reaches a certain trigger condition, the operation of the intelligent equipment is automatically triggered; the timed task type refers to setting a certain time point or a certain time period and triggering the intelligent equipment to complete a certain execution action; the scene type is that the intelligent equipment is triggered to complete a certain execution action according to the state of the intelligent equipment and the user-defined input condition; the manual control type refers to that manual control triggers an execution action of the intelligent device, such as a user directly turning on or turning off the intelligent lamp through an APP client, or directly turning on or turning off the intelligent lamp through a physical key of an intelligent switch.

According to a specific embodiment of the present invention, a current scene type name set by a user is obtained, and corresponding current scene mode information is generated according to the current scene type name and a preset ID generation rule, where the current scene mode information includes an ID of a current scene type and an ID of the smart device. The ID of the scene type is used for uniquely marking the name of the corresponding scene type. The preset ID generation rule comprises the following steps: the ID of the scene type includes a string including a scene type name keyword and a timestamp when the scene type was created. For example, the Scene type keyword of the intelligent linkage type is AI/Trigger, the Scene type keyword of the timed task type is AI/Schedule, the Scene type keyword of the Scene type is AI/Scene, and the keyword of the Manual control type is Manual. According to the scene type keyword, the scene type name set by the intelligent device can be obtained.

According to an embodiment of the present invention, the step S1 further includes: setting the priority corresponding to each scene type name, wherein the intelligent linkage type is set to be low priority, and the timing task type, the scene type and the manual control type are all set to be high priority; and acquiring the name of the current scene type according to the scene type name keyword in the ID of the current scene type, and inquiring the priority corresponding to the name of the current scene type. For example, if the ID of the current scene type is an ID of an intelligent linkage type, the priority corresponding to the ID of the current scene type is a low priority.

And acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment. According to the obtained current scene mode information, obtaining an ID of the intelligent device in the current scene mode information, according to the ID of the intelligent device, obtaining an ID of a latest scene type corresponding to the intelligent device, according to a scene type keyword in the ID of the latest scene type, obtaining a name of the corresponding latest scene type, and according to the name of the latest scene type, inquiring corresponding priority.

According to an embodiment of the present invention, the step S2 includes: setting a control flag of the smart device, wherein the control flag is the ID of the last scene type. The smart device corresponds to a unique control token. The technical scheme is simple and convenient by setting the control mark attribute of the intelligent device to mark the ID of the latest scene type of the intelligent device.

And executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority. Specifically, the priority corresponding to the ID of the current scene type is compared with the priority corresponding to the ID of the latest scene type, the ID of the scene type with the highest priority is obtained, scene mode control is performed on the intelligent device according to the ID of the scene type with the highest priority, that is, the intelligent device is controlled according to the scene mode of the ID of the scene type with the highest priority, the control flag of the intelligent device is updated, and the control flag is updated to the ID of the scene type with the highest priority. If the priority corresponding to the ID of the current scene type is higher than the priority corresponding to the ID of the latest scene type, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating a control mark of the intelligent equipment to be the ID of the current scene type; and if the priority corresponding to the ID of the current scene type is lower than the priority corresponding to the ID of the latest scene type, which is a high priority, executing scene mode control on the intelligent equipment according to the ID of the latest scene type, wherein the control mark of the intelligent equipment is kept as the ID of the latest scene type.

According to a specific embodiment of the present invention, if the priority level corresponding to the ID of the current scene type is consistent with the priority level corresponding to the ID of the latest scene type, the scene mode is executed on the intelligent device according to a preset control principle. The preset control principle comprises the following steps: if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both high priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating a control mark of the intelligent equipment to be the ID of the current scene type; and if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both low priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating the control mark of the intelligent equipment to be the ID of the current scene type.

The following is a detailed description of an application scenario of the present invention. In the field of intelligent home furnishing, an intelligent lamp is provided with four scene types, namely an intelligent linkage type, a timing task type, a scene type and a manual control type. The intelligent linkage type means that the intelligent lamp is turned on when a person is sensed by the sensor, and the intelligent lamp is turned off if no person is detected after five minutes. The timed task type is set as that the intelligent lamp is turned on at six pm and is turned off at eight pm. The intelligent linkage type is low priority, and the timing task type and the manual control type are high priority. In a specific scenario using the method, assuming that in 5 pm, it is monitored that a user passes through an intelligent lamp, an intelligent linkage type scenario triggers the intelligent lamp to be turned on, and the intelligent lamp is marked as an intelligent linkage type ID; the state of the intelligent lamp is a lamp-on state; because a scene of the timed task type is set, the scene of the timed task type is started at 6 pm, and because the priority of the timed task type is higher than that of the intelligent linkage type, the scene of the timed task type triggers the intelligent lamp to be turned on, so the intelligent lamp is turned on, and the intelligent lamp is marked as the ID of the timed task type at the same time. When 6 pm, the scene of the intelligent linkage type senses that no one wants to trigger the turn-off of the lamp, at this time, the mark of the equipment is the ID of the timing task type, and the priority of the intelligent linkage type is lower than that of the timing task type, so that the intelligent lamp keeps the lamp-on state and the mark of the intelligent lamp keeps the ID of the timing task type after the execution of the intelligent linkage type is ignored.

According to the technical scheme, different control levels are set for different intelligent scenes, when a plurality of intelligent scenes of the intelligent equipment are triggered to conflict, the final execution result is determined according to the different control levels, the conflict of the intelligent scene operation of the intelligent equipment is reduced, the intelligent equipment can more intelligently meet the desire of a user, the experience effect of the user is provided, convenience is brought to the user, the scene type mark is set through setting a control label on the intelligent equipment, and the scheme is simple and convenient.

In an embodiment of the present invention shown in fig. 2, the present invention provides a conflict coordination system for multiple intelligent scenarios, where the system includes:

an obtaining module 20, configured to obtain current scene mode information of an intelligent device, where the current scene mode information includes an ID of a current scene type and an ID of the intelligent device, and query a priority corresponding to the ID of the current scene type;

the query module 21 is configured to obtain, according to the ID of the intelligent device, an ID of a latest scene type corresponding to the intelligent device and a priority corresponding to the ID of the latest scene type;

and the execution module 22 is configured to execute scene mode control on the intelligent device according to the ID of the scene type with the highest priority, and record that the ID of the scene type corresponding to the intelligent device is the ID of the scene type with the highest priority.

The obtaining module obtains a current scene mode of the intelligent device, wherein the scene mode comprises an ID of a current scene type and an ID of the intelligent device, and inquires a priority corresponding to the ID of the current scene type according to the ID of the current scene type.

According to a specific embodiment of the present invention, the obtaining module includes an APP client of the smart home, the APP client is provided with a "scene mode" management page, and a user can set a scene type name of the smart device in the "scene mode" management page. According to an embodiment of the present invention, the scene type name includes an intelligent linkage type, a timed task type, a scenario type, and a manual control type.

According to a specific embodiment of the present invention, the obtaining module further includes a setting unit and a generating unit. And acquiring the current scene type name set by the user in the setting unit. And in the generating unit, generating corresponding current scene mode information according to the current scene type name set in the setting unit and a preset ID generating rule, wherein the current scene mode information comprises the ID of the current scene type and the ID of the intelligent equipment. The ID of the scene type is used for uniquely marking the name of the corresponding scene type. The preset ID generation rule comprises the following steps: the ID of the scene type includes a string including a scene type name keyword and a timestamp when the scene type was created. For example, the Scene type keyword of the intelligent linkage type is AI/Trigger, the Scene type keyword of the timed task type is AI/Schedule, the Scene type keyword of the Scene type is AI/Scene, and the keyword of the Manual control type is Manual. According to the scene type keyword, the scene type name set by the intelligent device can be obtained.

According to a specific embodiment of the present invention, the obtaining module further includes an establishing unit. In the establishing unit, setting the priority corresponding to each scene type name, wherein the intelligent linkage type is set to be low priority, and the timing task type, the scene type and the manual control type are all set to be high priority; and acquiring the name of the current scene type according to the scene type name keyword in the ID of the current scene type, and inquiring the priority corresponding to the name of the current scene type.

And the query module acquires the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment. According to the obtained current scene mode information, obtaining an ID of the intelligent device in the current scene mode information, according to the ID of the intelligent device, obtaining an ID of a latest scene type corresponding to the intelligent device, according to a scene type keyword in the ID of the latest scene type, obtaining a name of the corresponding latest scene type, and according to the name of the latest scene type, inquiring corresponding priority.

According to a specific embodiment of the present invention, the query module includes a flag unit, and the flag unit sets a control flag of the smart device, where the control flag is an ID of the last scene type. The smart device corresponds to a unique control token. And setting a control mark attribute of the intelligent device to mark the ID of the latest scene type of the intelligent device.

And the execution module executes the scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and records that the ID of the scene type corresponding to the intelligent equipment is the ID of the scene type with the highest priority. Specifically, if the priority corresponding to the ID of the current scene type is higher than the priority corresponding to the ID of the latest scene type, executing scene mode control on the intelligent device according to the ID of the current scene type, and updating the control flag of the intelligent device to be the ID of the current scene type; and if the priority corresponding to the ID of the current scene type is lower than the priority corresponding to the ID of the latest scene type, which is a high priority, executing scene mode control on the intelligent equipment according to the ID of the latest scene type, wherein the control mark of the intelligent equipment is kept as the ID of the latest scene type.

According to a specific embodiment of the present invention, in the execution module, if the priority level corresponding to the ID of the current scene type is consistent with the priority level corresponding to the ID of the last scene type, the execution module executes a scene mode on the smart device according to a preset control principle. The preset control principle comprises the following steps: if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both high priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating a control mark of the intelligent equipment to be the ID of the current scene type; and if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both low priorities, executing scene mode control on the intelligent device according to the ID of the current scene type, and updating a control mark of the intelligent device to be the ID of the current scene type.

According to the technical scheme, different control levels are set for different intelligent scenes, when a plurality of intelligent scenes of the intelligent equipment are triggered to conflict, the final execution result is determined according to the different control levels, the conflict of the intelligent scene operation of the intelligent equipment is reduced, the intelligent equipment can more intelligently meet the desire of a user, the experience effect of the user is provided, and convenience is brought to the user.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (7)

1. A method for coordinating conflicts in multiple intelligent scenarios, the method comprising the steps of:

s1, acquiring current scene mode information of intelligent equipment, wherein the current scene mode information comprises an ID of a current scene type and an ID of the intelligent equipment, and inquiring a priority corresponding to the ID of the current scene type;

s2, acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment;

s3, according to the ID of the scene type with the highest priority, executing scene mode control on the intelligent equipment, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority;

the step S1 includes:

acquiring a current scene type name set by a user;

generating corresponding current scene mode information according to the current scene type name and a preset ID generation rule, wherein the current scene mode information comprises the ID of the current scene type and the ID of the intelligent device,

the ID generation rule includes: the ID of the scene type comprises a character string which comprises a scene type name keyword and a timestamp when the scene type is created;

the step S2 includes:

setting a control mark of the intelligent device, wherein the control mark is the ID of the latest scene type; the step S3 includes:

comparing the priority corresponding to the ID of the current scene type with the priority corresponding to the ID of the latest scene type to obtain the ID of the scene type with the highest priority, executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and updating the control mark of the intelligent equipment, wherein the control mark is updated to the ID of the scene type with the highest priority.

2. The method for coordinating conflicts of multiple intelligent scenarios according to claim 1, wherein said step S1 comprises:

setting an APP client of an intelligent home;

setting a scene mode management page at the APP client;

and setting the scene type name of the intelligent equipment in the scene mode management page.

3. The method for conflict coordination for multiple intelligent scenarios according to claim 2, wherein said scenario type name comprises an intelligent linkage type, a timed task type, a scenario type and a manual control type.

4. The method for coordinating conflicts in multiple intelligent scenarios according to claim 3, wherein said step S1 further comprises:

setting the priority corresponding to each scene type name, wherein the intelligent linkage type is set to be low priority, and the timing task type, the scene type and the manual control type are all set to be high priority; and acquiring the name of the current scene type according to the scene type name keyword in the ID of the current scene type, and inquiring the priority corresponding to the name of the current scene type.

5. The method for coordinating conflicts of multiple intelligent scenarios according to claim 4, wherein said step S3 comprises:

and if the priority level corresponding to the ID of the current scene type is consistent with the priority level corresponding to the ID of the latest scene type, executing a scene mode on the intelligent equipment according to a preset control principle.

6. The method for coordinating conflicts in multiple intelligent scenarios according to claim 5, wherein the preset control principles comprise:

if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both high priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating a control mark of the intelligent equipment to be the ID of the current scene type;

and if the priority corresponding to the ID of the current scene type and the priority corresponding to the ID of the latest scene type are both low priorities, executing scene mode control on the intelligent equipment according to the ID of the current scene type, and updating the control mark of the intelligent equipment to be the ID of the current scene type.

7. A system for conflict coordination in multiple intelligent scenarios, the system comprising: the system comprises an acquisition module, a priority module and a processing module, wherein the acquisition module is used for acquiring current scene mode information of the intelligent equipment, the current scene mode information comprises an ID of a current scene type and an ID of the intelligent equipment, and inquiring the priority corresponding to the ID of the current scene type;

the query module is used for acquiring the ID of the latest scene type corresponding to the intelligent equipment and the priority corresponding to the ID of the latest scene type according to the ID of the intelligent equipment;

the execution module is used for executing scene mode control on the intelligent equipment according to the ID of the scene type with the highest priority, and recording the ID of the scene type corresponding to the intelligent equipment as the ID of the scene type with the highest priority;

the obtaining module is specifically configured to obtain a current scene type name set by a user, and generate corresponding current scene mode information according to the current scene type name and a preset ID generation rule, where the current scene mode information includes an ID of a current scene type and an ID of the smart device, and the ID generation rule includes: the ID of the scene type comprises a character string which comprises a scene type name keyword and a timestamp when the scene type is created;

the query module comprises a marking unit, the marking unit sets a control mark of the intelligent device, and the control mark is the ID of the latest scene type;

the execution module is specifically configured to compare the priority corresponding to the ID of the current scene type with the priority corresponding to the ID of the latest scene type, obtain the ID of the scene type with the highest priority, execute scene mode control on the intelligent device according to the ID of the scene type with the highest priority, and update the control flag of the intelligent device, where the control flag is updated to the ID of the scene type with the highest priority.

Images