CN113242588B - Distribution network control method, initiating device and storage medium - Google Patents

Abstract

The application discloses a distribution network control method, an initiating device and a storage medium, wherein in the distribution network control method, the initiating device joins a first network and broadcasts a pairing request to all target devices connected to the first network, so that the target devices with first state identifiers receive the pairing request and then unicast pairing feedback to the initiating device, and the target devices with second state identifiers do not feed back the pairing request after receiving the pairing request; and then establishing a pairing relationship with the target equipment with the first state identification according to the pairing feedback, thereby controlling the target equipment with the pairing relationship with the initiating equipment. Therefore, when the initiator can control the target device, the target device is not disconnected from the first network, the user can still perform human-computer interaction with the target device through the mobile terminal, and when the initiator does not access the first network, the target device can be controlled independently in a ZLL network established with the target device, so that the flexibility of controlling the target device is improved.

Description

Distribution network control method, initiating device and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a distribution network control method, an initiation device, and a storage medium.

Background

Zigbee is a short-distance wireless communication technology, and can be applied to a control system of an intelligent home (for example, various intelligent devices such as a Light source, a home appliance, and a curtain), where a Zigbee Light Link (ZLL) network allows a user to obtain wireless control over the intelligent home using Zigbee. In the establishing process of the ZLL network, an initiating device and a target device exist, and can be directly communicated after the network is distributed, so that a user can control the target device through the initiating device. The existing intelligent home system generally comprises a plurality of intelligent devices which can be connected to a centralized network together, so that all the intelligent devices are visually displayed on a mobile terminal of a user, and the user and the intelligent devices can conveniently perform human-computer interaction. But after one of the intelligent devices in the centralized network is used as a target device to create a ZLL network with the initiating device, the intelligent device will be automatically disconnected from the centralized network, and the user can no longer control the target device from the mobile terminal. Therefore, it is necessary to develop a distribution network control method so that the initiator can control the target device without disconnecting the target device from the centralized network.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a distribution network control method, an initiating device and a storage medium, which can improve the flexibility of a control target device.

In order to solve the technical problem, the application adopts a technical scheme that:

a distribution network control method is provided, which comprises the following steps:

initiating equipment to join a first network in response to a first instruction sent by a user, wherein the first network is connected with at least one target equipment, and the target equipment has a first state identifier or a second state identifier;

broadcasting a pairing request to all the target devices, so that the target devices with the first state identifications unicast pairing feedback to the initiating device after receiving the pairing request, and the target devices with the second state identifications do not perform feedback after receiving the pairing request;

establishing a pairing relation with the target equipment with the first state identification according to the pairing feedback;

controlling a target device having a pairing relationship with the initiator device.

In order to solve the above technical problem, another technical solution adopted by the present application is:

there is provided an initiating device comprising a memory and a processor, wherein the memory stores program instructions, and the processor is capable of executing the program instructions to implement the distribution network control method according to the above technical solution.

In order to solve the above technical problem, another technical solution adopted by the present application is:

there is provided a computer readable storage medium storing program instructions executable by a processor to implement the distribution network control method according to the above technical solution.

The beneficial effect of this application is: different from the situation of the prior art, the distribution network control method provided by the application responds to a first instruction sent by a user, and initiates equipment to join a first network, wherein the first network is connected with at least one target equipment; then broadcasting pairing requests to all target devices, so that the target devices with the first state identifications unicast pairing feedback to the initiating device after receiving the pairing requests, and the target devices with the second state identifications do not feed back the pairing requests after receiving the pairing requests; and then establishing a pairing relationship with the target equipment with the first state identification according to the pairing feedback, thereby controlling the target equipment with the pairing relationship with the initiating equipment. Therefore, when the initiator can control the target device, the target device is not disconnected from the first network, and the user can still perform human-computer interaction with the target device through the mobile terminal.

Drawings

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

fig. 1 is a schematic flow chart of an embodiment of a distribution network control method according to the present application;

FIG. 2 is a schematic flow chart illustrating one embodiment of step S13 in FIG. 1;

FIG. 3 is a flowchart illustrating an embodiment of a step before step S11 in FIG. 1;

FIG. 4 is a schematic flowchart illustrating an embodiment of step S31 in FIG. 3;

FIG. 5 is a schematic flow chart of another embodiment of step S31 in FIG. 3;

fig. 6 is a schematic structural diagram of an embodiment of an initiating device of the present application;

FIG. 7 is a schematic structural diagram of an embodiment of a computer-readable storage medium according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of a distribution network control method according to the present application, where the distribution network control method includes the following steps.

Step S11, responding to a first instruction sent by a user, initiating equipment to join a first network, wherein the first network is connected with at least one target equipment, and the target equipment has a first state identifier or a second state identifier.

The smart home system of a user generally includes a plurality of smart devices, such as light sources, home appliances, curtains, and the like, which are target devices to be controlled. The user can set a centralized network, all target devices are accessed to the centralized network, and a gateway of the centralized network can be connected with the Internet, so that all the target devices accessed to the centralized network are visually displayed on the mobile terminal of the user, and the user can perform man-machine interaction with the intelligent device through the mobile terminal. On the other hand, when the user is in an environment capable of short-range communication with the target device, such as home, the ZLL network can be created directly using the initiator device (e.g., remote control) with the target device that wants to control, enabling individual control of a certain target device, but at this time, the target device is disconnected from the centralized network.

In some application scenarios, for example, a mobile terminal of a user is in an environment without internet, or another user needs to control one or more target devices, and does not want to influence the control of the original user on all target devices, the target devices may be controlled by establishing a pairing relationship between the initiator device and the target devices.

When a user needs to control the target device by establishing a pairing relation, a first instruction is sent. The initiating device responds to a first instruction sent by a user and joins a first network, wherein the first network is a centralized network and is connected with at least one target device, and the target device is provided with a first state identifier or a second state identifier. The first status identifier and the second status identifier of the target device are used for distinguishing whether to respond to the pairing request of the initiating device, and the user needs to adjust the target device to be controlled to be a correct status identifier in advance, so that the target device to be controlled responds to the pairing request, and other target devices do not respond to the pairing request. For example, all target devices are set as status identifiers not responding to pairing requests by default, and when a pairing relationship needs to be established, the target devices needing to be controlled are adjusted to be in another status identifier.

The initiating device and the gateway of the first network complete identity authentication in a key interaction manner, and join the first network, which is the same as that in the prior art, and is not described in detail here.

Step S12, the pairing request is broadcasted to all the target devices, so that the target device with the first state identification unicasts the pairing feedback to the initiating device after receiving the pairing request, and the target device with the second state identification does not feed back the pairing request after receiving the pairing request.

After joining the first network, the initiator and all target devices are in the first network, and at this time, a pairing request may be broadcast to all target devices, and all target devices in the same network as the initiator can receive the pairing request, where the pairing request includes a pairing identifier and an initiator address of the initiator. That is, the initiator makes the target device aware of the pairing id and the initiator address through the pairing request. After receiving the pairing request, the target device with the first state identifier acquires the pairing identifier and the initiating address, and unicasts pairing feedback to the initiating device, wherein the pairing feedback comprises the pairing identifier, the initiating address and the corresponding target address of the target device. That is to say, the target device makes the initiator device know the target address corresponding to the pairing identifier through pairing feedback, which is convenient for communication after establishing the pairing relationship. And the target device with the second status identifier does not feed back the pairing request after receiving the pairing request, and the target device with the first status identifier is the target device which the user wants to utilize the initiating device to control, and there may be one or more target devices.

And step S13, establishing a pairing relation with the target equipment with the first state identification according to the pairing feedback.

After receiving the pairing feedback of the target device unicast, the initiating device can acquire the target address corresponding to the pairing identifier, so that the pairing relation with the target device with the first state identifier is established. The specific process of establishing the pairing relationship will be described in the front.

And S14, controlling the target equipment which has a pairing relation with the initiating equipment.

After the initiating device establishes a pairing relationship with the target devices having the first status identifications, the target devices can be controlled. Specifically, the initiating device sends control commands to the target devices according to the pairing relationship, wherein the control commands include pairing identifiers and control instructions, so that the target devices with the first state identifiers receive the control commands, and whether the control instructions are executed is judged according to comparison results of the pairing identifiers in the control commands and the pairing identifiers in the pairing feedback. The target device having a pairing relationship with the initiating device stores pairing feedback containing the pairing identifier in advance, after receiving the control command, the target device can acquire the pairing identifier from the pairing feedback and compare the pairing identifier with the pairing identifier stored in advance, and if the two pairing identifiers are consistent, the control command is from the initiating device having a pairing relationship with the target device, and the control command in the control command is executed.

In a specific application scenario, a user needs to use a remote controller (initiating device) to control a certain lamp (target device) in a room, the lamp is adjusted to be in a first state identifier, the remote controller is added into a centralized network where the lamp is located, then the remote controller is used to broadcast pairing requests to all target devices in the centralized network, only the lamp responds to the pairing request and unicast pairing feedback is sent to the remote controller, the remote controller establishes pairing relationship with the lamp after receiving the pairing feedback, the user can use keys on the remote controller to send control commands to the lamp, the lamp obtains the pairing identifier after receiving the control commands, and if the pairing identifier is consistent with the pairing identifier in the pairing feedback sent before, the lamp executes a control command of turning on or turning off. At this time, the lamp is still in the first network, and another user can also remotely control the lamp through the control system on the mobile phone.

Moreover, before the initiator joins the centralized network or after the initiator is disconnected from the centralized network, a ZLL network can be established with the target device to be controlled, so that the target device can be controlled independently. Therefore, the present embodiment can improve the flexibility of the control target device.

In some embodiments, referring to fig. 2, fig. 2 is a flowchart illustrating an embodiment of step S13 in fig. 1, where an initiating device may establish a pairing relationship with a target device having a first status identifier through the following steps.

And S21, the initiating device receives and analyzes the pairing feedback to obtain the pairing identifier, the initiating address and the corresponding target address of the target device.

The target device can obtain the initiating address of the initiating device according to the pairing request, so that pairing feedback is sent to the initiating device in a unicast mode, after the initiating device receives the pairing feedback, the pairing identifier, the initiating address and the target address of the corresponding target device can be obtained, and after the pairing relation is established, the initiating device can send a control command to the target device which is in the pairing relation with the initiating device according to the target address, so that the target devices can be controlled in a group mode.

And S22, correspondingly storing the target address corresponding to each pairing feedback, the pairing identifier and the initiating address in a pairing relation table respectively.

After acquiring the target address of the target device corresponding to the pairing feedback, the initiating device stores the target address, the pairing identifier and the initiating address in a pairing relationship table in a corresponding manner, that is, the pairing identifier and the initiating floor may correspond to one or more target addresses, and each target address corresponds to one target device, thereby establishing a pairing relationship between the initiating device and the target device.

Before the information is stored in the pairing relationship table, the initiating device clears all information in the pairing relationship table, so that only the relevant information of the initiating device and the target device needing to be controlled currently is stored in the pairing relationship table, and the accuracy of the pairing relationship is improved.

The embodiment creates the pairing relationship by correspondingly storing the initiating address, the pairing identifier and the target address in the pairing relationship table, and removes the previous pairing relationship before creating each time, so that the initiating device can accurately control the target device according to the requirement of the user.

In some embodiments, if the user needs to separately control the preset target device by using the ZLL network, the initiator device needs to be disconnected from the first network and then create the ZLL network with the preset target device, or before the initiator device accesses the first network, the initiator device and the preset target device create the ZLL network. Specifically, referring to fig. 3, fig. 3 is a flowchart illustrating an embodiment of a step before step S11 in fig. 1, and the following steps may be performed to implement individual control on the preset target device.

Step S31, responding to a second instruction sent by a user, and accessing the initiating device and the preset target device to a second network; when the preset target device is positioned in the first network, the preset target device and the initiating device can not access the second network.

Specifically, the first network is a centralized network and the second network is a Zigbee Light Link (ZLL) network. When the user needs to control the preset target device independently, a second instruction can be sent to enable the initiating device and the preset target device to be accessed to a second network, and at the moment, the preset target device is disconnected from the first network. In order to improve the stability of the process of controlling the target device by the initiator device in the first network, the device target device does not respond to the request related to the second network by the initiator device when in the first network, that is, the initiator device cannot pull the preset target device from the first network by creating the ZLL network. A specific process of creating the second network will be described below.

And step S32, sending a control command to the preset target device to control the preset target device.

After the initiator and the preset target device create the second network, the initiator may directly control the preset target device, for example, send a control command to turn on or turn off the preset target device.

In this embodiment, when the initiator device does not access the centralized network, the initiator device may implement individual control over the preset target device in a manner of creating a ZLL network with the preset target device, so as to increase an application scenario in which the initiator device controls the target device, and improve flexibility in controlling the target device.

Referring to fig. 4, fig. 4 is a flowchart illustrating an embodiment of step S31 in fig. 3, where the initiating device may access the second network through the following steps and the preset target device.

Step S41, the initiating device sends a scanning request for accessing the second network to all channels, so that the preset target device feeds back a scanning response to the initiating device after receiving the scanning request.

When a user needs to separately control the preset target device, the initiating device is close to the preset target device, so that the initiating device sends scanning requests for accessing the second network to all channels, wherein the scanning requests comprise initiating addresses of the initiating device. And after receiving the scanning request, the preset target equipment judges whether the signal intensity is greater than a preset value, and if so, feeds back a scanning response to the initiating equipment according to the initiating address, wherein the scanning response comprises the target address of the preset target equipment. And the initiating equipment receives the scanning response and firstly judges whether the signal intensity is greater than a preset value, and if so, the next step is continued.

Step S42, responding to the fact that the initiating device is accessed to the second network, the initiating device sends a network access request to the preset target device, so that the preset target device is accessed to the second network after receiving the network access request and feeds back a network access response to the initiating device; wherein the network access request comprises a channel in which the second network is located.

And if the initiating equipment has accessed the second network at the moment, directly sending a network access request to preset target equipment according to the target address, wherein the network access request comprises the initiating address, a communication channel where the second network is located and the target address. And the preset target equipment performs channel skipping after receiving the network access request and feeds back a network access response. After receiving the network access response, the initiator device knows that the preset target device has accessed the second network, completes the network distribution process of the ZLL network, and may start to communicate with the preset target device, for example, control the preset target device to turn on or turn off.

In the embodiment, the distribution network flow of the ZLL network between the initiator and the preset target device is completed when the initiator has accessed the second network, so that the initiator can independently control the preset target device without accessing the first network, and the flexibility of controlling the target device is improved.

In another embodiment, referring to fig. 5, fig. 5 is a flowchart of step S31 in fig. 3 according to another embodiment, and the initiator device may further access the second network through the following steps and the preset target device.

Step S51, the initiating device sends the scanning request for accessing the second network to all channels, so that the preset target device feeds back a scanning response to the initiating device after receiving the scanning request.

When a user needs to separately control the preset target device, the initiating device is close to the preset target device, so that the initiating device sends scanning requests for accessing the second network to all channels, wherein the scanning requests comprise initiating addresses of the initiating device. And the preset target equipment judges whether the signal intensity is greater than a preset value after receiving the scanning request, and if so, feeds back a scanning response to the initiating equipment according to the initiating address, wherein the scanning response comprises the target address of the preset target equipment. And the initiating equipment receives the scanning response and firstly judges whether the signal intensity is greater than a preset value, and if so, the next step is continued.

Step S52, in response to the initiating device not accessing any network, the initiating device sends a creating request for creating a second network to the preset target device, so that the preset target device creates the second network after receiving the creating request and feeds back a creating response to the initiating device; wherein the create reply includes the channel on which the second network is located.

And if the initiating equipment does not access any network, sending a creating request for creating a second network to the preset target equipment according to the target address, wherein the creating request comprises the initiating address and the target address, so that the preset target equipment feeds back a creating response to the initiating equipment according to the initiating address after creating the second network, wherein the creating response comprises a channel where the second network is located, and jumps to the channel.

And S53, receiving the creating response and sending a network access request to the preset target equipment so that the preset target equipment accesses the initiating equipment to the second network after receiving the network access request and feeds back the network access response to the initiating equipment.

And the initiating equipment skips to a channel where the second network is located after receiving the establishment response, and sends a network access request to the preset target equipment, so that the preset target equipment accesses the initiating equipment to the second network established before after receiving the network access request, and feeds back the network access response to the second network. After receiving the network access response, the initiator device knows that the initiator device is preset to access the second network, completes a network distribution process of the ZLL network, and may start to communicate with the preset target device, for example, control the preset target device to turn on or turn off.

In the embodiment, the distribution network flow of the ZLL network between the initiator and the preset target device is completed when the initiator does not access the second network, so that the initiator can independently control the preset target device when the initiator does not access the first network, and the flexibility of controlling the target device is improved.

Based on the same inventive concept, the present application further provides an initiating device, please refer to fig. 6, where fig. 6 is a schematic structural diagram of an embodiment of the initiating device of the present application, and the initiating device includes a memory 610 and a processor 620, where the memory 610 stores program instructions, and the processor 620 can execute the program instructions to implement the distribution network control method according to any of the above embodiments. For details, reference may be made to the above embodiments, which are not described herein again.

In addition, the present application also provides a computer-readable storage medium, please refer to fig. 7, fig. 7 is a schematic structural diagram of an embodiment of the computer-readable storage medium of the present application, the storage medium 700 stores program instructions 710, and the program instructions 710 can be executed by a processor to implement the distribution network control method according to any of the above embodiments. For details, reference may be made to the above embodiments, which are not described herein again.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (9)

1. A distribution network control method is characterized by comprising the following steps:

responding to a first instruction sent by a user, initiating equipment to join a first network, wherein the first network is connected with at least one target equipment, and the target equipment has a first state identifier or a second state identifier; the first network is a centralized network, and the user can perform human-computer interaction with all the target devices accessed to the first network through a mobile terminal;

broadcasting a pairing request to all the target devices, so that the target devices with the first state identifications unicast pairing feedback to the initiating device after receiving the pairing request, and the target devices with the second state identifications do not perform feedback after receiving the pairing request;

establishing a pairing relation with the target equipment with the first state identification according to the pairing feedback;

controlling a target device having a pairing relationship with the initiator device;

wherein, before the step of initiating the device to join the first network in response to the first instruction sent by the user, the method further includes:

responding to a second instruction sent by the user, and accessing the initiating device and the preset target device to a second network; when the preset target equipment is positioned in the first network, the preset target equipment cannot access the second network with the initiating equipment;

and sending a control command to the preset target equipment to control the preset target equipment.

2. The distribution network control method according to claim 1, wherein the pairing request includes a pairing identifier and an originating address of the originating device, the pairing feedback includes the pairing identifier, the originating address, and a corresponding target address of the target device, and the step of establishing the pairing relationship with the target device having the first status identifier according to the pairing feedback includes:

the initiating device receives and analyzes the pairing feedback to obtain the pairing identifier, the initiating address and the corresponding target address of the target device;

and correspondingly storing the target address corresponding to each pairing feedback, the pairing identifier and the initiating address in a pairing relation table respectively.

3. The distribution network control method according to claim 2, wherein before the step of storing the destination address corresponding to each pairing feedback in a pairing relationship table in correspondence with the pairing id and the origination address, the method further comprises:

and the initiating equipment clears all information in the pairing relation table.

4. The distribution network control method according to claim 2, wherein the step of controlling the target device having a pairing relationship with the initiator device further comprises:

and the initiating device sends a control command to a target device which has a pairing relationship with the initiating device, wherein the control command comprises the pairing identifier and a control instruction, so that the target device with the first state identifier receives the control command, and judges whether to execute the control instruction according to a comparison result of the pairing identifier in the control command and the pairing identifier in the pairing feedback.

5. The distribution network control method according to claim 1, wherein the step of, in response to a second instruction issued by the user, accessing the second network by the initiator device and the preset target device comprises:

the initiating device sends scanning requests for accessing the second network to all channels, so that the preset target device feeds back scanning responses to the initiating device after receiving the scanning requests;

responding to the fact that the initiating device is accessed to the second network, the initiating device sends a network access request to the preset target device, so that the preset target device is accessed to the second network after receiving the network access request and feeds back a network access response to the initiating device; wherein the network access request comprises a channel where the second network is located.

6. The distribution network control method of claim 5, wherein after the step of the initiating device sending the scan request for accessing the second network to all channels, the method further comprises:

in response to that the initiating device does not access any network, the initiating device sends a creation request for creating the second network to the preset target device, so that the preset target device creates the second network after receiving the creation request and feeds back a creation response to the initiating device; wherein the creation response comprises a channel in which the second network is located;

and receiving the creation response and sending a network access request to the preset target equipment so that the preset target equipment accesses the initiating equipment to the second network and feeds back the network access response to the second network after receiving the network access request.

7. The distribution network control method according to any one of claims 5 to 6, wherein the first network is a centralized network and the second network is a Zigbee optical link network.

8. An initiating device comprising a memory and a processor, wherein the memory stores program instructions that the processor is capable of executing to implement the distribution network control method of any of claims 1-7.

9. A computer-readable storage medium, characterized in that the storage medium stores program instructions executable by a processor to implement the distribution network control method according to any of claims 1-7.

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