CN117762025A - Method and device for executing distributed scene, storage medium and electronic device - Google Patents

Abstract

The application discloses a method and a device for executing a distributed scene, a storage medium and an electronic device, and relates to the technical field of smart families, wherein the method for executing the distributed scene comprises the following steps: determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices; determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene; under the condition that the plurality of devices meet scene triggering conditions, the scheduling device is instructed to send a scene identifier to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene; by adopting the scheme, the problem that the existing edge scene operation mechanism in the prior art is seriously dependent on the hardware performance of the central node, so that the execution efficiency of the edge scene is limited is solved.

Description

Method and device for executing distributed scene, storage medium and electronic device

Technical Field

The application relates to the technical field of smart families, in particular to a method and a device for executing a distributed scene, a storage medium and an electronic device.

Background

The core of the current intelligent home system is often provided with a central gateway device, and all devices in the same local area network as a home are subjected to central scheduling, so that an edge scene in the local area network can be realized. The intelligent home system can be normally used under the condition that no external internet is connected. The hub is responsible for both condition determination of the triggering device of the edge scene and device control of the executing action, etc. But based on a centralized edge scene execution mechanism, the executable range and the execution efficiency of a local scene are determined by severely depending on the hardware performance of a central node, when the scene designs equipment crossing the gateway, the gateway where the edge scene is located needs to subscribe and manage trigger judgment and control commands of all the equipment crossing the gateway under the scene, and each gateway cannot share the calculation pressure, so that the more the equipment is, the heavier the load is, and the lower the operation efficiency is.

In the prior art, the processing capacity of a single node is increased by improving the hardware configuration of the central gateway, but the trigger judgment is still carried out on the single central gateway, the scene execution is controlled by the single gateway or is carried out between two gateways simultaneously, and the scheme improves the cost and can only relieve the calculation pressure to a limited extent. When facing smaller number of devices, the method is adequate, but once the number of the devices is too large, the heavier the load of a central node is, the lower the operation efficiency is, the conditions of disconnection, low reaction speed and the like can occur frequently; in addition, the signal coverage area of the central node is preferential, so that various signal amplifiers are often required to be built in order to find and control more equipment, the capability of a single node is improved, and the cost and the power consumption are increased; and based on the operation mechanism of the central node, if the central node is disconnected (or powered off), an additional backup and switching mechanism is needed, the scheme is complex, otherwise, the operation of all edge scenes is affected.

Aiming at the problems that the existing edge scene operation mechanism is seriously dependent on the hardware performance of a central node, the execution efficiency of an edge scene is limited, and the like, no effective solution is proposed yet.

Disclosure of Invention

The embodiment of the application provides a method and a system for executing a distributed scene, a storage medium and an electronic device, which are used for at least solving the problem that the existing edge scene operation mechanism is seriously dependent on the hardware performance of a central node, so that the execution efficiency of the edge scene is limited.

According to an embodiment of the present application, there is provided a method for executing a distributed scenario, including: determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices; determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene; and under the condition that the plurality of devices meet scene triggering conditions, the scheduling device is instructed to send a scene identifier to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene.

In an exemplary embodiment, determining a scheduling device from the plurality of devices according to the device capability information includes: determining a plurality of alternative scheduling devices with device scheduling capability in the plurality of devices according to the device capability information; determining a device class of the plurality of alternative scheduling devices; and determining the scheduling equipment from the plurality of candidate scheduling equipment according to the priority corresponding to the equipment category.

In an exemplary embodiment, determining the scheduling device from the plurality of candidate scheduling devices according to the priority corresponding to the device class includes: determining a first alternative scheduling device with a device class of a first class in the plurality of alternative scheduling devices, wherein the priority of the first alternative scheduling device with the first class is highest in the plurality of alternative scheduling devices; determining the first alternative scheduling device as the scheduling device in the case that the number of the first alternative scheduling devices is a target value; and under the condition that the number of the first alternative scheduling devices is larger than the target value, determining second alternative scheduling devices according to the device occupation conditions of a plurality of the first alternative scheduling devices, and determining the second alternative scheduling devices as the scheduling devices, wherein the device occupation conditions are used for indicating whether the first alternative scheduling devices are scheduling devices of other distributed scenes.

In an exemplary embodiment, after determining a scheduling device among the plurality of devices according to the device capability information, the method further includes: and determining the equipment with the triggering capability in the plurality of equipment as triggering equipment according to the equipment capability information, wherein the triggering capability is used for determining whether the equipment meets the scene triggering condition, and determining the equipment with the executing capability in the plurality of equipment as executing equipment according to the equipment capability information, wherein the executing capability is used for executing the target distributed scene.

In an exemplary embodiment, determining, by the scheduling device, that the plurality of devices satisfy a scenario triggering condition includes: the scene triggering information sent by the triggering device is sent to the scheduling device, wherein the scene triggering information is used for indicating the triggering device to meet sub-scene triggering conditions corresponding to the triggering device, and the scene triggering conditions comprise the sub-scene triggering conditions; and controlling the scheduling equipment to calculate based on the scene trigger information so as to determine whether the scene trigger condition is met.

In an exemplary embodiment, instructing the scheduling device to issue a scene identifier to execute the target distributed scene according to the scene identifier includes: acquiring sub-scene actions to be executed by the execution equipment according to the equipment identification of the execution equipment and the scene identification, wherein the target distributed scene comprises a plurality of sub-scene actions; and generating an action execution instruction according to the sub-scene action, and sending the action execution instruction to the execution equipment so as to execute the target distributed scene.

In an exemplary embodiment, after determining the scheduling device in the plurality of candidate scheduling devices according to the priority corresponding to the device class, the method further includes: sorting the plurality of alternative scheduling devices according to the priority corresponding to the device class, wherein the scheduling device sorts the most forward among the plurality of alternative scheduling devices; and under the condition that the scheduling equipment fails, determining a second scheduling equipment from the sorted multiple candidate scheduling equipment, and replacing the scheduling equipment with the second scheduling equipment.

According to another embodiment of the present application, there is also provided an execution apparatus of a distributed scenario, including: the first determining module is used for determining a plurality of devices corresponding to the target distributed scene and device capability information of the plurality of devices; a second determining module, configured to determine a scheduling device from the plurality of devices according to the device capability information, where the scheduling device is configured to control the plurality of devices to execute the target distributed scenario; and the execution module is used for indicating the scheduling equipment to issue a scene identifier to execute the target distributed scene according to the scene identifier under the condition that the plurality of equipment meets the scene triggering condition through the scheduling equipment, wherein the scene identifier is used for identifying the target distributed scene.

According to yet another aspect of the embodiments of the present application, there is also provided a computer readable storage medium having a computer program stored therein, wherein the computer program is configured to execute the execution method of the above-mentioned distributed scenario when running.

According to still another aspect of the embodiments of the present application, there is further provided an electronic device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor executes the method for executing the distributed scenario described above through the computer program.

In the embodiment of the application, a plurality of devices corresponding to a target distributed scene are firstly determined, and device capability information of the plurality of devices is determined; determining a scheduling device for controlling the device to execute the target distributed scene according to the device capability information; executing the target distributed scene according to a scene identifier sent by the scheduling equipment under the condition that the scheduling equipment determines that the scene triggering condition is met, wherein the scene identifier is used for identifying the target distributed scene; by adopting the scheme, for each distributed scene, a scheduling device is determined to control the execution of the distributed scene, so that the calculation pressure of a plurality of distributed scenes in a family on the scheduling device is shared, and the execution efficiency of an edge scene (namely the distributed scene) is improved; the problem that in the related technology, the existing edge scene operation mechanism is seriously dependent on the hardware performance of the central node, so that the execution efficiency of the edge scene is limited is solved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic diagram of a hardware environment of an alternative method of execution of a distributed scenario according to an embodiment of the present application;

FIG. 2 is a flow chart of an alternative method of executing a distributed scenario according to an embodiment of the present application;

FIG. 3 is a main flow chart of an alternative method of executing a distributed scenario according to an embodiment of the present application;

FIG. 4 is a topology block diagram of a method of configuration of a distributed scenario according to an embodiment of the present application;

fig. 5 is a block diagram of an alternative distributed scenario execution device according to an embodiment of the present application.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

According to one aspect of the embodiments of the present application, there is provided a method for executing a distributed scenario. The execution method of the distributed scene is widely applied to full-house intelligent digital control application scenes such as intelligent Home (Smart Home), intelligent Home equipment ecology, intelligent Home (Intelligence House) ecology and the like. Alternatively, in the present embodiment, the above-described execution method of the distributed scenario may be applied to a hardware environment constituted by the terminal device 102 and the server 104 as shown in fig. 1. As shown in fig. 1, the server 104 is connected to the terminal device 102 through a network, and may be used to provide services (such as application services and the like) for a terminal or a client installed on the terminal, a database may be set on the server or independent of the server, for providing data storage services for the server 104, and cloud computing and/or edge computing services may be configured on the server or independent of the server, for providing data computing services for the server 104.

The network may include, but is not limited to, at least one of: wired network, wireless network. The wired network may include, but is not limited to, at least one of: a wide area network, a metropolitan area network, a local area network, and the wireless network may include, but is not limited to, at least one of: WIFI (Wireless Fidelity ), bluetooth. The terminal device 102 may not be limited to a PC, a mobile phone, a tablet computer, an intelligent air conditioner, an intelligent smoke machine, a refrigerator device, an intelligent oven, an intelligent cooking range, an intelligent washing machine, an intelligent water heater, an intelligent washing device, an intelligent dish washer, an intelligent projection device, an intelligent television, an intelligent clothes hanger, an intelligent curtain, an intelligent video, an intelligent socket, an intelligent sound box, an intelligent fresh air device, an intelligent kitchen and toilet device, an intelligent bathroom device, an intelligent sweeping robot, an intelligent window cleaning robot, an intelligent mopping robot, an intelligent air purifying device, an intelligent steam box, an intelligent microwave oven, an intelligent kitchen appliance, an intelligent purifier, an intelligent water dispenser, an intelligent door lock, and the like.

In this embodiment, a method for executing a distributed scenario is provided and applied to a computer terminal, and fig. 2 is a flowchart of an alternative method for executing a distributed scenario according to an embodiment of the present application, where the flowchart includes the following steps:

Step S202, determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices;

it should be noted that, the device capability information is used to instruct the device to support one or more of the following capabilities: triggering capability, scheduling capability, executing capability;

the triggering capability supporting equipment determines whether the equipment meets the scene condition through self attribute, state and event identification, namely the equipment can announce that the certain scene condition of a certain scene is met or not through the triggering capability;

the scheduling capability supporting device gathers scene conditions reported by the triggering device (the device with the triggering capability), calculates whether the corresponding scene needs to be executed or not, and informs the corresponding device executor (executing device);

the execution capability supporting device receives the scene ID execution message sent by the scheduling device and directly executes the corresponding scene action.

Step S204, determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene;

it should be noted that, the determined scheduling device may also be used as a trigger device and an execution device to participate in the execution process of the target distributed scene, and may specifically be determined according to the device capability information corresponding to the scheduling device.

It should be noted that, the device capability (i.e., the distributed capability) of one device is for all scenarios, i.e., the device with the device scheduling capability is a scheduling device that can be used as all distributed scenarios, which is not further divided in the present application.

Step S206, when the plurality of devices are determined to meet the scene triggering condition through the scheduling device, the scheduling device is instructed to issue a scene identifier so as to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene.

In the embodiment of the application, a plurality of devices corresponding to a target distributed scene are firstly determined, and device capability information of the plurality of devices is determined; determining a scheduling device for controlling the device to execute the target distributed scene according to the device capability information; executing the target distributed scene according to a scene identifier sent by the scheduling equipment under the condition that the scheduling equipment determines that the scene triggering condition is met, wherein the scene identifier is used for identifying the target distributed scene; by adopting the scheme, for each distributed scene, a scheduling device is determined to control the execution of the distributed scene, so that the calculation pressure of a plurality of distributed scenes in a family on the scheduling device is shared, and the execution efficiency of an edge scene (namely the distributed scene) is improved; the problem that in the related technology, the existing edge scene operation mechanism is seriously dependent on the hardware performance of the central node, so that the execution efficiency of the edge scene is limited is solved.

Optionally, the above step S204 is performed: determining a scheduling device from the plurality of devices according to the device capability information may be implemented by the steps of: determining a plurality of alternative scheduling devices with device scheduling capability in the plurality of devices according to the device capability information; determining a device class of the plurality of alternative scheduling devices; and determining the scheduling equipment from the plurality of candidate scheduling equipment according to the priority corresponding to the equipment category.

The equipment with equipment scheduling capability in the plurality of equipment is determined according to the equipment capability information reported by the plurality of equipment and is used as alternative scheduling equipment, then the equipment types of the alternative scheduling equipment are determined, and the scheduling equipment is determined in the plurality of alternative scheduling equipment according to the priorities corresponding to different equipment types.

In a plurality of devices corresponding to one distributed scene, more than one device may have device scheduling capability, i.e. may be used as a scheduler; but in the execution of a distributed scenario, only one scheduler is needed; it is therefore necessary to determine only one scheduling device.

Optionally, the steps are as follows: determining the scheduling device from the plurality of candidate scheduling devices according to the priority corresponding to the device class, which may be implemented specifically by the following steps: determining a first alternative scheduling device with a device class of a first class in the plurality of alternative scheduling devices, wherein the priority of the first alternative scheduling device with the first class is highest in the plurality of alternative scheduling devices; determining the first alternative scheduling device as the scheduling device in the case that the number of the first alternative scheduling devices is a target value; and under the condition that the number of the first alternative scheduling devices is larger than the target value, determining second alternative scheduling devices according to the device occupation conditions of a plurality of the first alternative scheduling devices, and determining the second alternative scheduling devices as the scheduling devices, wherein the device occupation conditions are used for indicating whether the first alternative scheduling devices are scheduling devices of other distributed scenes.

The devices in the intelligent home network generally comprise three types of devices, namely a gateway, a gateway sub-device and common devices, and the three types of devices are taken as examples, and the device priority is sequentially the gateway, the gateway sub-device and the common devices; in the process of determining scheduling equipment in the alternative scheduling equipment, firstly determining the categories of the plurality of alternative scheduling equipment, and if the three equipment categories exist at the same time, the first category is a gateway; if only two device categories, namely gateway sub-device and common device, are provided, the first category is gateway sub-device, and so on. Then determining the number of the first alternative scheduling devices of the first category, and if the number is only 1 (namely the target value), directly determining the first alternative scheduling devices as the scheduling devices; if the number is greater than 1, that is, the number of the alternative scheduling devices with the same priority is multiple, a second alternative scheduling device serving as the scheduling device needs to be determined further according to the device occupation condition.

It should be noted that the above device occupation situations may include: the operation and storage occupation condition of the equipment in the current state, the distributed scene quantity corresponding to the scheduling equipment taking the current moment of the equipment as other distributed scenes, and the like, for example, a plurality of first alternative scheduling equipment comprises equipment A, equipment B and equipment C; device a has been the scheduling device for the other three distributed scenarios, device B has been the scheduling device for the other two distributed scenarios, and device C has not been the scheduling device to control the execution of the other distributed scenarios, at which point device C may be determined to be the second alternative scheduling device.

Based on the above steps, after determining the scheduling device from the plurality of devices according to the device capability information, the method further includes: and determining the equipment with the triggering capability in the plurality of equipment as triggering equipment according to the equipment capability information, wherein the triggering capability is used for determining whether the equipment meets the scene triggering condition, and determining the equipment with the executing capability in the plurality of equipment as executing equipment according to the equipment capability information, wherein the executing capability is used for executing the target distributed scene.

After determining the scheduling equipment corresponding to the target distributed scene according to the equipment capability information, determining the triggering equipment according to the equipment capability information, wherein the triggering equipment can identify and judge whether the triggering equipment currently meets the scene triggering condition according to the attribute, state, event and other information of the equipment; and determining an execution device according to the device capability information, that is, for each distributed scene, some scene triggering conditions are provided, and one or more execution devices are used for adjusting the temperature to 25 ℃ when the temperature reaches 30 ℃, for example, and adjusting the indoor humidity at the same time, wherein the scene triggering condition in the distributed scene is that the temperature reaches 30 ℃, the corresponding triggering device can be an air conditioning device, the air conditioning device can determine the temperature information according to a temperature sensing device of the air conditioning device, and the condition that the scene triggering condition is met when the temperature reaches 25 ℃ is determined, so that the scheduling device is informed, and the scheduling device is enabled to determine whether to execute the corresponding distributed scene; the corresponding executing device can be an air conditioning device and a humidifier device, and the triggering device and the executing device can be the same device or different devices.

Optionally, determining, by the scheduling device, that the plurality of devices meet a scenario triggering condition includes: the scene triggering information sent by the triggering device is sent to the scheduling device, wherein the scene triggering information is used for indicating the triggering device to meet sub-scene triggering conditions corresponding to the triggering device, and the scene triggering conditions comprise the sub-scene triggering conditions; and controlling the scheduling equipment to calculate based on the scene trigger information so as to determine whether the scene trigger condition is met.

After the trigger device determines whether the scene trigger condition is met through the information acquired by the trigger device, the trigger device sends the scene trigger information to the scheduling device to inform the scheduling device that the sub-scene trigger condition corresponding to the trigger device is met, for example, a distributed scene is: when the temperature reaches 30 ℃, and the air humidity is lower than a certain threshold value, the temperature is reduced to 25 ℃, and the humidifier equipment is started to humidify; at this time, the sub-scene triggering condition corresponding to the air conditioning equipment is that the temperature reaches 30 ℃, and the sub-scene triggering condition corresponding to the humidifier equipment is that the air humidity is lower than a certain threshold value; after receiving the scene trigger information sent by one or more trigger devices, the scheduling device performs decision calculation to determine whether the target distributed scene needs to be executed in the current state, that is, whether a plurality of sub-scene trigger conditions indicated by the scene trigger information meet the scene trigger conditions of the target distributed scene execution.

It should be noted that, the triggering device in the present application may not only monitor the state change of the triggering device, but also monitor the state change of the triggering device and some execution devices without triggering capability through configuration; for example, another device that does not have the triggering capability in the area with the radius range as the target value may be selected with a certain triggering device as the center, and the device may be submitted to the triggering device to perform state change monitoring; alternatively, the monitoring of the state change of the device without triggering capability may be performed by the scheduler, which is not limited in this application.

Optionally, the steps are as follows: instructing the scheduling device to issue a scenario identification to execute the target distributed scenario according to the scenario identification may be implemented by: acquiring sub-scene actions to be executed by the execution equipment according to the equipment identification of the execution equipment and the scene identification, wherein the target distributed scene comprises a plurality of sub-scene actions; and generating an action execution instruction according to the sub-scene action, and sending the action execution instruction to the execution equipment so as to execute the target distributed scene.

After deciding that the target distributed scene needs to be executed, the scheduling device sends scene identifiers for identifying the target distributed scene to all execution devices corresponding to the target distributed scene, and after acquiring the scene identifiers, the execution device searches and acquires sub-scene actions required to be executed by the execution device according to the device identifiers and the scene identifiers; the executing device then performs the corresponding scene action to complete the target distributed scene.

When the target distributed scene is configured, sub-scene actions required to be executed by each execution device are determined, the sub-scene actions can be stored according to the scene identifier and the device identifier, and the sub-scene actions can be directly issued to the execution devices, so that the execution devices can directly determine the sub-scene actions to be executed according to the scene identifier after receiving the scene identifier.

Based on the above steps, after determining the scheduling device in the plurality of candidate scheduling devices according to the priority corresponding to the device class, the method further includes: sorting the plurality of alternative scheduling devices according to the priority corresponding to the device class, wherein the scheduling device sorts the most forward among the plurality of alternative scheduling devices; and under the condition that the scheduling equipment fails, determining a second scheduling equipment from the sorted multiple candidate scheduling equipment, and replacing the scheduling equipment with the second scheduling equipment.

In order to avoid faults of the determined scheduling equipment, such as network disconnection, power failure and the like, a distributed scene decision cannot be made, so that the user experience is poor; the present application also provides an alternative, comprising: the scheduling method comprises the steps of firstly sequencing a plurality of alternative scheduling devices according to priorities corresponding to the device categories, wherein the sequencing mode is consistent with the mode of determining the scheduling devices, further, the scheduling devices are most front in the sequencing mode, once faults of the scheduling devices are detected, a second scheduling device is determined from the sequenced plurality of alternative scheduling devices immediately, and then the scheduling devices are replaced with the second scheduling device, so that the scheduling devices are replaced with the scheduling devices to make decisions of a target distributed scene.

It should be noted that the determined second scheduling device may be one device that is adjacent to the scheduling device and is sequenced after the scheduling device, and the second scheduling device may also be selected by a random selection manner, or the second scheduling device may also be selected by other manners, which is not limited in this application.

It will be apparent that the embodiments described above are only some, but not all, of the embodiments of the present application. In order to better understand the implementation method of the distributed scenario, the following description will explain the above process with reference to the embodiments, but is not limited to the technical solutions of the embodiments of the present application, specifically:

In an alternative embodiment, the trigger (corresponding to the trigger device), the scheduler (corresponding to the scheduling device) and the executor (corresponding to the execution device) are respectively responsible for partial work when the scene runs, and the calculated pressure is distributed to different devices, and the main flow is as shown in fig. 3, the trigger determines whether the scene triggering condition of a certain distributed scene is met according to the acquired device state information, the current execution event and other information, and reports the information that the scene ID and the condition are met or the condition is not met to the scheduler for calculation by the scheduler, the scheduler calculates whether to execute the scene according to the information reported by the triggers, if so, the scheduler issues the scene ID of the scene to be executed to the executor, and instructs the executor to execute the respective corresponding scene action, thereby completing the execution of the distributed scene.

Through the scheme, the application can support at least the following types of scene services:

1) Local linkage between devices (common WIFI, BLE device local linkage, etc.);

2) Device linkage based on single gateway (simple linkage of devices under BLE Mesh or ZigBee gateway, etc.);

3) Device linkage across gateways (multiple gateways combined with multiple common devices).

Based on the scheme, the equipment (dispatching equipment) with the dispatcher capability in the family can run scenes, so that if a plurality of scenes exist in the family, unified dispatching to one central gateway is not needed to run, and the scenes can be scattered to different dispatcher equipment, so that the problem that all the scenes cannot be executed due to faults or network disconnection of a central node (central gateway) can be solved.

And when the scene is triggered, the state changes of all devices are not subscribed by the only one central gateway, but are split into the state changes of the respective subscribed parts of the different trigger devices, and the overall trigger condition judgment is integrated and calculated by the scheduler device of the scene, so that the number of subscribed devices of the scheduler device is effectively reduced.

Finally, when the scene is executed, the central gateway is used for directly controlling all action devices, the scheduling device broadcasts the scene ID to execute the scene, and all executor devices which receive the broadcast search corresponding device actions (scene actions) to control the scene, so that the control pressure of a single node is effectively reduced.

Optionally, the application further provides an optional method for configuring a distributed scene, the overall topology structure of which is shown in fig. 4, and the method for configuring the distributed scene includes the following steps:

Step 1, determining the distributed capability of the device:

the gateway equipment simultaneously supports three capacities of a scheduler, a trigger and an actuator; the WiFi device, the BLE device and the ZIgbee device support different executor and trigger capabilities;

step 2, configuring and scheduling scenes:

when a user configures one scene 1 (the trigger equipment of the scene comprises BLE equipment and WiFi equipment, the execution equipment of the scene comprises BLE equipment, wiFi equipment and Zigbee equipment), a scheduler (scheduling equipment) of the scene is positioned on the gateway 1, the scheduler maintains all configuration metadata of the scene, triggers for triggering the scene to execute are distributed on the WiFi equipment 2 and the gateway 1, executors for executing actions are distributed on the WiFi equipment 1, the BLE equipment 3 and 4, the Zigbee equipment 1 and 3 and the gateway 1 and the gateway 2, and the scheduler of the gateway 1 distributes and synchronizes corresponding configuration data to the executors and the triggers;

step 3, performing distributed execution of scenes:

1) Scene triggering judgment:

the attributes of BLE equipment 1 and 2 are reported to the trigger of the gateway 1, the trigger judges whether the attribute values of the BLE equipment 1 and 2 meet the trigger condition of the scene 1, the trigger on the WiFi equipment 2 judges whether the attribute of the equipment meets the trigger condition of the scene 1, if the scene condition is met, the attribute is reported to the dispatcher on the gateway 1, so far, the trigger condition of the scene is judged to be closer to the equipment end and is dispersed on different equipment, and the calculation pressure of the gateway 1 is reduced;

2) Scene execution:

the scheduler judges whether all trigger conditions of the scene 1 are met, if yes, the device control is executed by broadcasting the scene ID, the command of the scene execution is simultaneously received by the WiFi device 1, the BLE device 3 and 4, the Zigbee device 1 and 3 and the executors on the gateway 1 and the gateway 2, the specific device control command is searched out for control, so that the execution of the scene is closer to the device end and is distributed on different devices, the calculation pressure of the gateway 1 is reduced, and the concurrent execution efficiency is higher.

Through the scheme, the scene is not controlled by the single gateway center any more, but is self-scheduled based on the distributed capability of the equipment, key components (triggering, scheduling and executing) of the scene are scattered on different equipment to be executed, the strong-end equipment and the weak-end equipment of the local area network are fully utilized, the hardware configuration requirement on the single equipment is reduced, the equipment triggering and controlling are closer to the equipment, and the operation efficiency is improved.

From the description of the above embodiments, it will be clear to a person skilled in the art that the method according to the above embodiments may be implemented by means of software plus the necessary general hardware platform, but of course also by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), comprising several instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to perform the method of the embodiments of the present application.

In this embodiment, an execution device of a distributed scenario is further provided, and the execution device of the distributed scenario is used to implement the foregoing embodiments and preferred embodiments, which are not described in detail. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. While the means described in the following embodiments are preferably implemented in software, implementation in hardware, or a combination of software and hardware, is also possible and contemplated.

FIG. 5 is a block diagram of an alternative distributed scenario execution device according to an embodiment of the present application; as shown in fig. 5, includes:

a first determining module 52, configured to determine a plurality of devices corresponding to a target distributed scenario, and device capability information of the plurality of devices;

a second determining module 54, configured to determine a scheduling device from the plurality of devices according to the device capability information, where the scheduling device is configured to control the plurality of devices to execute the target distributed scenario;

and an execution module 56, configured to instruct the scheduling device to issue a scene identifier to execute the target distributed scene according to the scene identifier, where the scene identifier is used to identify the target distributed scene, where the event that the scheduling device determines that the multiple devices meet a scene trigger condition.

Through the device, a plurality of devices corresponding to the target distributed scene are firstly determined, and the device capability information of the plurality of devices is determined; determining a scheduling device for controlling the device to execute the target distributed scene according to the device capability information; executing the target distributed scene according to a scene identifier sent by the scheduling equipment under the condition that the scheduling equipment determines that the scene triggering condition is met, wherein the scene identifier is used for identifying the target distributed scene; by adopting the scheme, for each distributed scene, a scheduling device is determined to control the execution of the distributed scene, so that the calculation pressure of a plurality of distributed scenes in a family on the scheduling device is shared, and the execution efficiency of an edge scene (namely the distributed scene) is improved; the problem that in the related technology, the existing edge scene operation mechanism is seriously dependent on the hardware performance of the central node, so that the execution efficiency of the edge scene is limited is solved.

Optionally, the second determining module 54 is further configured to determine, according to the device capability information, a plurality of alternative scheduling devices that have device scheduling capabilities from the plurality of devices; determining a device class of the plurality of alternative scheduling devices; and determining the scheduling equipment from the plurality of candidate scheduling equipment according to the priority corresponding to the equipment category.

The equipment with equipment scheduling capability in the plurality of equipment is determined according to the equipment capability information reported by the plurality of equipment and is used as alternative scheduling equipment, then the equipment types of the alternative scheduling equipment are determined, and the scheduling equipment is determined in the plurality of alternative scheduling equipment according to the priorities corresponding to different equipment types.

In a plurality of devices corresponding to one distributed scene, more than one device may have device scheduling capability, i.e. may be used as a scheduler; but in the execution of a distributed scenario, only one scheduler is needed; it is therefore necessary to determine only one scheduling device.

Optionally, the second determining module 54 is further configured to determine a device class of the plurality of candidate scheduling devices is a first candidate scheduling device of a first class, where a priority of the first candidate scheduling device of the first class is highest among the plurality of candidate scheduling devices; determining the first alternative scheduling device as the scheduling device in the case that the number of the first alternative scheduling devices is a target value; and under the condition that the number of the first alternative scheduling devices is larger than the target value, determining second alternative scheduling devices according to the device occupation conditions of a plurality of the first alternative scheduling devices, and determining the second alternative scheduling devices as the scheduling devices, wherein the device occupation conditions are used for indicating whether the first alternative scheduling devices are scheduling devices of other distributed scenes.

The devices in the intelligent home network generally comprise three types of devices, namely a gateway, a gateway sub-device and common devices, and the three types of devices are taken as examples, and the device priority is sequentially the gateway, the gateway sub-device and the common devices; in the process of determining scheduling equipment in the alternative scheduling equipment, firstly determining the categories of the plurality of alternative scheduling equipment, and if the three equipment categories exist at the same time, the first category is a gateway; if only two device categories, namely gateway sub-device and common device, are provided, the first category is gateway sub-device, and so on. Then determining the number of the first alternative scheduling devices of the first category, and if the number is only 1 (namely the target value), directly determining the first alternative scheduling devices as the scheduling devices; if the number is greater than 1, that is, the number of the alternative scheduling devices with the same priority is multiple, a second alternative scheduling device serving as the scheduling device needs to be determined further according to the device occupation condition.

It should be noted that the above device occupation situations may include: the operation and storage occupation condition of the equipment in the current state, the distributed scene quantity corresponding to the scheduling equipment taking the current moment of the equipment as other distributed scenes, and the like, for example, a plurality of first alternative scheduling equipment comprises equipment A, equipment B and equipment C; device a has been the scheduling device for the other three distributed scenarios, device B has been the scheduling device for the other two distributed scenarios, and device C has not been the scheduling device to control the execution of the other distributed scenarios, at which point device C may be determined to be the second alternative scheduling device.

Optionally, the second determining module 54 is further configured to determine, according to the device capability information, a device having a triggering capability of the plurality of devices as a triggering device, where the triggering capability is used to determine whether the device meets the scene triggering condition, and determine, according to the device capability information, a device having an executing capability of the plurality of devices as an executing device, where the executing capability is used to execute the target distributed scene.

After determining the scheduling equipment corresponding to the target distributed scene according to the equipment capability information, determining the triggering equipment according to the equipment capability information, wherein the triggering equipment can identify and judge whether the triggering equipment currently meets the scene triggering condition according to the attribute, state, event and other information of the equipment; and determining an execution device according to the device capability information, that is, for each distributed scene, some scene triggering conditions are provided, and one or more execution devices are used for adjusting the temperature to 25 ℃ when the temperature reaches 30 ℃, for example, and adjusting the indoor humidity at the same time, wherein the scene triggering condition in the distributed scene is that the temperature reaches 30 ℃, the corresponding triggering device can be an air conditioning device, the air conditioning device can determine the temperature information according to a temperature sensing device of the air conditioning device, and the condition that the scene triggering condition is met when the temperature reaches 25 ℃ is determined, so that the scheduling device is informed, and the scheduling device is enabled to determine whether to execute the corresponding distributed scene; the corresponding executing device can be an air conditioning device and a humidifier device, and the triggering device and the executing device can be the same device or different devices.

Optionally, the second determining module 54 is further configured to send scenario triggering information sent by the triggering device to the scheduling device, where the scenario triggering information is used to instruct the triggering device to meet a sub-scenario triggering condition corresponding to the triggering device, and the scenario triggering condition includes the sub-scenario triggering condition; and controlling the scheduling equipment to calculate based on the scene trigger information so as to determine whether the scene trigger condition is met.

After the trigger device determines whether the scene trigger condition is met through the information acquired by the trigger device, the trigger device sends the scene trigger information to the scheduling device to inform the scheduling device that the sub-scene trigger condition corresponding to the trigger device is met, for example, a distributed scene is: when the temperature reaches 30 ℃, and the air humidity is lower than a certain threshold value, the temperature is reduced to 25 ℃, and the humidifier equipment is started to humidify; at this time, the sub-scene triggering condition corresponding to the air conditioning equipment is that the temperature reaches 30 ℃, and the sub-scene triggering condition corresponding to the humidifier equipment is that the air humidity is lower than a certain threshold value; after receiving the scene trigger information sent by one or more trigger devices, the scheduling device performs decision calculation to determine whether the target distributed scene needs to be executed in the current state, that is, whether a plurality of sub-scene trigger conditions indicated by the scene trigger information meet the scene trigger conditions of the target distributed scene execution.

It should be noted that, the triggering device in the present application may not only monitor the state change of the triggering device, but also monitor the state change of the triggering device and some execution devices without triggering capability through configuration; for example, another device that does not have the triggering capability in the area with the radius range as the target value may be selected with a certain triggering device as the center, and the device may be submitted to the triggering device to perform state change monitoring; alternatively, the monitoring of the state change of the device without triggering capability may be performed by the scheduler, which is not limited in this application.

Optionally, the executing module 56 is further configured to obtain a sub-scene action to be executed by the executing device according to a device identifier of the executing device and the scene identifier, where the target distributed scene includes a plurality of sub-scene actions; and generating an action execution instruction according to the sub-scene action, and sending the action execution instruction to the execution equipment so as to execute the target distributed scene.

After deciding that the target distributed scene needs to be executed, the scheduling device sends scene identifiers for identifying the target distributed scene to all execution devices corresponding to the target distributed scene, and after acquiring the scene identifiers, the execution device searches and acquires sub-scene actions required to be executed by the execution device according to the device identifiers and the scene identifiers; the executing device then performs the corresponding scene action to complete the target distributed scene.

When the target distributed scene is configured, sub-scene actions required to be executed by each execution device are determined, the sub-scene actions can be stored according to the scene identifier and the device identifier, and the sub-scene actions can be directly issued to the execution devices, so that the execution devices can directly determine the sub-scene actions to be executed according to the scene identifier after receiving the scene identifier.

Optionally, the second determining module 56 is further configured to sort the plurality of alternative scheduling devices according to priorities corresponding to the device classes, where the scheduling device sorts the plurality of alternative scheduling devices to be the most forward; and under the condition that the scheduling equipment fails, determining a second scheduling equipment from the sorted multiple candidate scheduling equipment, and replacing the scheduling equipment with the second scheduling equipment.

In order to avoid faults of the determined scheduling equipment, such as network disconnection, power failure and the like, a distributed scene decision cannot be made, so that the user experience is poor; the present application also provides an alternative, comprising: the scheduling method comprises the steps of firstly sequencing a plurality of alternative scheduling devices according to priorities corresponding to the device categories, wherein the sequencing mode is consistent with the mode of determining the scheduling devices, further, the scheduling devices are most front in the sequencing mode, once faults of the scheduling devices are detected, a second scheduling device is determined from the sequenced plurality of alternative scheduling devices immediately, and then the scheduling devices are replaced with the second scheduling device, so that the scheduling devices are replaced with the scheduling devices to make decisions of a target distributed scene.

It should be noted that the determined second scheduling device may be one device that is adjacent to the scheduling device and is sequenced after the scheduling device, and the second scheduling device may also be selected by a random selection manner, or the second scheduling device may also be selected by other manners, which is not limited in this application.

Embodiments of the present application also provide a storage medium including a stored program, wherein the program performs the method of any one of the above when run.

Alternatively, in the present embodiment, the above-described storage medium may be configured to store program code for performing the steps of:

s1, determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices;

s2, determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene;

and S3, under the condition that the plurality of devices meet scene triggering conditions through the scheduling device, indicating the scheduling device to issue a scene identifier so as to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene.

Embodiments of the present application also provide an electronic device comprising a memory having a computer program stored therein and a processor arranged to run the computer program to perform the steps of any of the method embodiments described above.

Optionally, the electronic apparatus may further include a transmission device and an input/output device, where the transmission device is connected to the processor, and the input/output device is connected to the processor.

Alternatively, in the present embodiment, the above-described processor may be configured to execute the following steps by a computer program:

s1, determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices;

s2, determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene;

and S3, under the condition that the plurality of devices meet scene triggering conditions through the scheduling device, indicating the scheduling device to issue a scene identifier so as to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene.

Alternatively, in the present embodiment, the storage medium may include, but is not limited to: a U-disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a removable hard disk, a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Alternatively, specific examples in this embodiment may refer to examples described in the foregoing embodiments and optional implementations, and this embodiment is not described herein.

It will be appreciated by those skilled in the art that the modules or steps of the application described above may be implemented in a general purpose computing device, they may be centralized on a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by computing devices, such that they may be stored in a memory device for execution by the computing devices and, in some cases, the steps shown or described may be performed in a different order than what is shown or described, or they may be implemented as individual integrated circuit modules, or as individual integrated circuit modules. Thus, the present application is not limited to any specific combination of hardware and software.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. A method for executing a distributed scenario, comprising:

determining a plurality of devices corresponding to a target distributed scene and device capability information of the plurality of devices; determining a scheduling device from the plurality of devices according to the device capability information, wherein the scheduling device is used for controlling the plurality of devices to execute the target distributed scene;

and under the condition that the plurality of devices meet scene triggering conditions, the scheduling device is instructed to send a scene identifier to execute the target distributed scene according to the scene identifier, wherein the scene identifier is used for identifying the target distributed scene.

2. The method of claim 1, wherein determining a scheduling device from the plurality of devices based on the device capability information, comprises:

Determining a plurality of alternative scheduling devices with device scheduling capability in the plurality of devices according to the device capability information;

determining a device class of the plurality of alternative scheduling devices;

and determining the scheduling equipment from the plurality of candidate scheduling equipment according to the priority corresponding to the equipment category.

3. The method for executing the distributed scenario according to claim 2, wherein determining the scheduling device from the plurality of candidate scheduling devices according to the priority corresponding to the device class comprises:

determining a first alternative scheduling device with a device class of a first class in the plurality of alternative scheduling devices, wherein the priority of the first alternative scheduling device with the first class is highest in the plurality of alternative scheduling devices;

determining the first alternative scheduling device as the scheduling device in the case that the number of the first alternative scheduling devices is a target value;

and under the condition that the number of the first alternative scheduling devices is larger than the target value, determining second alternative scheduling devices according to the device occupation conditions of a plurality of the first alternative scheduling devices, and determining the second alternative scheduling devices as the scheduling devices, wherein the device occupation conditions are used for indicating whether the first alternative scheduling devices are scheduling devices of other distributed scenes.

4. The method of claim 1, wherein after determining a scheduling device among the plurality of devices based on the device capability information, the method further comprises:

and determining the equipment with the triggering capability in the plurality of equipment as triggering equipment according to the equipment capability information, wherein the triggering capability is used for determining whether the equipment meets the scene triggering condition, and determining the equipment with the executing capability in the plurality of equipment as executing equipment according to the equipment capability information, wherein the executing capability is used for executing the target distributed scene.

5. The method of claim 4, wherein determining, by the scheduling device, that the plurality of devices satisfy a scene trigger condition comprises:

the scene triggering information sent by the triggering device is sent to the scheduling device, wherein the scene triggering information is used for indicating the triggering device to meet sub-scene triggering conditions corresponding to the triggering device, and the scene triggering conditions comprise the sub-scene triggering conditions;

and controlling the scheduling equipment to calculate based on the scene trigger information so as to determine whether the scene trigger condition is met.

6. The method for executing a distributed scene according to claim 4, wherein executing the target distributed scene according to the scene identification comprises:

acquiring sub-scene actions to be executed by the execution equipment according to the equipment identification of the execution equipment and the scene identification, wherein the target distributed scene comprises a plurality of sub-scene actions;

and generating an action execution instruction according to the sub-scene action, and sending the action execution instruction to the execution equipment so as to execute the target distributed scene.

7. The method of claim 3, wherein after determining the scheduling device among the plurality of candidate scheduling devices according to the priority corresponding to the device class, the method further comprises:

sorting the plurality of alternative scheduling devices according to the priority corresponding to the device class, wherein the scheduling device sorts the most forward among the plurality of alternative scheduling devices;

and under the condition that the scheduling equipment fails, determining a second scheduling equipment from the sorted multiple candidate scheduling equipment, and replacing the scheduling equipment with the second scheduling equipment.

8. An execution apparatus for a distributed scenario, comprising:

the first determining module is used for determining a plurality of devices corresponding to the target distributed scene and device capability information of the plurality of devices;

a second determining module, configured to determine a scheduling device from the plurality of devices according to the device capability information, where the scheduling device is configured to control the plurality of devices to execute the target distributed scenario;

and the execution module is used for indicating the scheduling equipment to issue a scene identifier to execute the target distributed scene according to the scene identifier under the condition that the plurality of equipment meets the scene triggering condition through the scheduling equipment, wherein the scene identifier is used for identifying the target distributed scene.

9. A computer-readable storage medium, characterized in that the computer-readable storage medium comprises a stored program, wherein the program, when run, performs the method of any one of claims 1 to 7.

10. An electronic device comprising a memory and a processor, characterized in that the memory has stored therein a computer program, the processor being arranged to execute the method according to any of the claims 1 to 7 by means of the computer program.