CN114007127A - Display device and multi-device distribution network retry method - Google Patents

Abstract

The application provides a display device and a retry method for a multi-device distribution network, which comprises the following steps: and receiving a network distribution retrying instruction input by a user, wherein the network distribution retrying instruction is used for retrying the network distribution of the target network-to-be-distributed equipment with the network distribution failure at the last time. And responding to a retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed network device last time. And if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed with the network. Before searching for the target auxiliary equipment, in order to avoid the situation of network distribution failure, a preset time interval is set to control the auxiliary equipment which executes the network distribution task on the target network distribution equipment to be arranged to retry the network distribution on the target network distribution equipment, the network distribution is retried by using different auxiliary equipment, the situation of network distribution failure again or repeatedly is avoided, and the success rate of network distribution is improved.

Description

Display device and multi-device distribution network retry method

Technical Field

The application relates to the technical field of display equipment, in particular to display equipment and a multi-equipment distribution network retry method.

Background

With the development of communication technology and electronic technology, most devices are used through the internet. For example, display devices, refrigerators, washing machines, tablet computers, smart home devices, and the like. In order to facilitate the control of multiple devices, it is generally necessary to configure a network for each device before the device is used, so that the device can access a wireless lan used by a user. The distribution network is a process of accessing the equipment to the network. At present, the other devices to be connected with the network are generally connected with the network one by one through the devices which are connected with the network.

However, during the distribution process, distribution network failures may be caused by various reasons, such as a failure of connecting the devices to the wireless local area network, a failure of connecting the devices already distributed with the devices to be distributed, and a distribution network timeout. Generally, when the distribution network fails, the distribution network retry of the device with the distribution network failure needs to be performed again. For example, when the display device is used to distribute a network to the washing machine, the display device needs to distribute the network again to the washing machine according to a certain rule after the network distribution fails due to timeout. However, after the network distribution is performed again, the factor causing the failure of the network distribution may not be eliminated, and the network distribution may fail again due to the same reason as the last network distribution failure, or even fail many times.

Disclosure of Invention

The application provides a display device and a multi-device distribution network retry method. The method and the device solve the problems that when a user retries in the distribution network, the factor causing the distribution network failure is not eliminated, the distribution network failure occurs again or for many times, and the distribution network success rate is reduced.

In a first aspect, the present application provides a display device comprising:

a display for displaying a user interface;

the communicator establishes communication connection with at least one auxiliary device and at least one device to be networked; the auxiliary equipment is used for executing a distribution network task on the equipment to be distributed, and the distribution network task is used for connecting the equipment to be distributed with the wireless local area network;

a controller configured to:

receiving a network distribution retry instruction input by a user, wherein the network distribution retry instruction is used for carrying out network distribution retry on a target network-to-be-distributed device with a network distribution failure last time;

responding to the retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed device last time;

and if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed.

In a second aspect, the present application provides a display device comprising:

a display for displaying a user interface;

the communicator establishes communication connection with at least one master device and at least one device to be networked; the master device is used for controlling the controller to execute a distribution network task on the device to be distributed, and the distribution network task is used for connecting the device to be distributed with a wireless local area network;

a controller configured to:

receiving a distribution network instruction sent by a main device in response to a distribution network retry instruction input by a user, wherein the distribution network instruction instructs the controller to perform distribution network retry on a target device to be distributed, which fails in distribution last time, and the display device is different from an auxiliary device which performs a distribution network task on the target device to be distributed last time;

and responding to the distribution network instruction, and executing a distribution network task on the target equipment to be distributed.

In a third aspect, the present application provides a retry method for a distribution network with multiple devices, including:

receiving a network distribution retry instruction input by a user, wherein the network distribution retry instruction is used for carrying out network distribution retry on a target network-to-be-distributed device with a network distribution failure last time;

responding to the retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed device last time;

and if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed.

In a fourth aspect, the present application provides a retry method for a multi-device distribution network, including:

receiving a distribution network instruction sent by a main device in response to a distribution network retry instruction input by a user, wherein the distribution network instruction indicates that the display device performs distribution network retry on a target to-be-distributed network device which has failed in last distribution network, and the display device is different from an auxiliary device which performs a distribution network task on the target to-be-distributed network device last time;

and responding to the distribution network instruction, and executing a distribution network task on the target equipment to be distributed.

According to the technical scheme, the application provides a retry method for the display device and the multi-device distribution network, and the retry method comprises the following steps: and receiving a network distribution retrying instruction input by a user, wherein the network distribution retrying instruction is used for retrying the network distribution of the target network-to-be-distributed equipment with the network distribution failure at the last time. And responding to a retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed network device last time. And if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed with the network. Before searching for the target auxiliary equipment, in order to avoid the situation of network distribution failure, a preset time interval is set to control the auxiliary equipment which executes the network distribution task on the target network distribution equipment to be arranged to retry the network distribution on the target network distribution equipment, the network distribution is retried by using different auxiliary equipment, the situation of network distribution failure again or repeatedly is avoided, and the success rate of network distribution is improved.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 illustrates a usage scenario of a display device according to some embodiments;

fig. 2 illustrates a block diagram of a hardware configuration of a control apparatus according to some embodiments;

fig. 3 illustrates a hardware configuration block diagram of a display device according to some embodiments;

FIG. 4 illustrates a software configuration diagram in a display device according to some embodiments;

FIG. 5 illustrates a user interface in a display in some embodiments;

FIG. 6 illustrates a schematic diagram of a scan start page of some embodiments;

FIG. 7 illustrates a schematic diagram of a scan details page of some embodiments;

FIG. 8 is a diagram illustrating a doubly linked list of secondary devices of some embodiments;

FIG. 9 is a diagram illustrating an exemplary distribution network for distributing devices to be distributed according to some embodiments;

fig. 10 is a schematic diagram illustrating a distribution network for distributing devices to be distributed according to some embodiments of the present application;

FIG. 11 illustrates a diagram of the success of a distribution network of some embodiments;

figure 12 is a diagram illustrating a network failure whether to retry a network in accordance with some embodiments;

FIG. 13 is a schematic diagram illustrating some embodiments selecting another way to distribute a network to a target device to be distributed;

figure 14 illustrates a network distribution success retry diagram of some embodiments;

figure 15 illustrates a diagram of retry distribution network failure in some embodiments;

FIG. 16 is a flow chart illustrating a multi-device network distribution method performed by a display device;

FIG. 17 is a flow diagram illustrating another multi-device network distribution method performed by a display device;

FIG. 18 is a diagram illustrating a first interaction process of a primary device with a secondary device, according to some embodiments;

FIG. 19 illustrates a second interaction process diagram of a primary device and a secondary device, according to some embodiments.

Detailed Description

To make the purpose and embodiments of the present application clearer, the following will clearly and completely describe the exemplary embodiments of the present application with reference to the attached drawings in the exemplary embodiments of the present application, and it is obvious that the described exemplary embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It should be noted that the brief descriptions of the terms in the present application are only for the convenience of understanding the embodiments described below, and are not intended to limit the embodiments of the present application. These terms should be understood in their ordinary and customary meaning unless otherwise indicated.

The terms "first," "second," "third," and the like in the description and claims of this application and in the above-described drawings are used for distinguishing between similar or analogous objects or entities and not necessarily for describing a particular sequential or chronological order, unless otherwise indicated. It is to be understood that the terms so used are interchangeable under appropriate circumstances.

The terms "comprises" and "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a product or apparatus that comprises a list of elements is not necessarily limited to all elements expressly listed, but may include other elements not expressly listed or inherent to such product or apparatus.

The term "module" refers to any known or later developed hardware, software, firmware, artificial intelligence, fuzzy logic, or combination of hardware and/or software code that is capable of performing the functionality associated with that element.

Fig. 1 is a schematic diagram of a usage scenario of a display device according to an embodiment. As shown in fig. 1, a user may control a plurality of auxiliary display apparatuses 200 by operating a main display apparatus 100 to enable connection of a plurality of electronic apparatuses 300 with the internet. The electronic device 300 is a device to be connected to a network, and the device to be connected to the network is a device not connected to the network. The network equipment to be distributed can be any one or more of a washing machine, a kitchen appliance, an air conditioner, a refrigerator, a sound box, a game machine, a video camera, a game machine and the like. It should be noted that the electronic device is not limited to the above devices, and may be set by the user so as to connect the device to be networked to the internet.

In some embodiments, the primary display device 100 and the secondary display device 200 are both display devices, and the display devices include any one of a smart television, a smart gateway, a magic cube screen, a mobile phone, and the like. For the convenience of the following description, a display device directly operated by a user is set as a main display device, referred to as a main device. The display device which is not directly operated by the user, that is, the other display devices except the main device are set as auxiliary display devices, which are called auxiliary devices.

In some embodiments, the communicator establishes a communication connection with at least one auxiliary device and at least one device to be networked; the auxiliary equipment is used for executing a network distribution task on the equipment to be distributed, and the network distribution task is used for connecting the equipment to be distributed with the wireless local area network. The communication connection mode is line transmission connection, wireless transceiver module connection, Bluetooth connection, 3G/4G connection, WIFI connection and the like.

In some embodiments, the user may control the display device through a control device, such as a remote controller, the communication between the remote controller and the display device includes infrared protocol communication or bluetooth protocol communication, other short-distance communication methods, and the like, and the display device is controlled through wireless or other wired methods. The wireless mode may be direct connection or non-direct connection, and may be routed or non-routed. The user can input user instructions through keys on the remote controller, voice input, control panel input and the like to control the display device. Such as: the user can input corresponding control instructions through a volume up-down key, a channel control key, an up/down/left/right moving key, a voice input key, a menu key, a startup and shutdown key and the like on the remote controller to realize the function of controlling the display equipment.

In some embodiments, the user may also implement control of the display device through a smart device, for example, which may include any one of a mobile terminal, a tablet, a computer, a laptop, an AR/VR device, a stylus, and the like.

In some embodiments, the smart device may also be used to control applications running on the display device, or the application running on the smart device may be used to control the display device. The application, through configuration, may provide the user with various controls in an intuitive User Interface (UI) on a screen associated with the smart device.

In some embodiments, data is communicated between the primary display device 100, the secondary display device 200, and the electronic device 300.

In some embodiments, the display device may also be controlled by a manner other than a control device and an intelligent device, for example, the voice instruction control of the user may be directly received by a module configured inside the display device for acquiring a voice instruction, or may be received by a voice control device provided outside the display device.

In some embodiments, the display device is also in data communication with the server 400. The display device may be allowed to be communicatively connected through a Local Area Network (LAN), a Wireless Local Area Network (WLAN), and other networks. The server 400 may provide various content and interactions to the display device. The server 400 may be a cluster or a plurality of clusters, and may include one or more types of servers.

In some embodiments, software steps executed by one step execution agent may be migrated on demand to another step execution agent in data communication therewith for execution. Illustratively, software steps performed by the server may be migrated to be performed on a display device in data communication therewith, and vice versa, as desired.

Fig. 2 exemplarily shows a block diagram of a configuration of a control apparatus according to an exemplary embodiment. As shown in fig. 2, the control device includes a controller 110, a communication interface 130, a user input/output interface 140, a memory, and a power supply. The control means may receive an input operation instruction from a user and convert the operation instruction into an instruction recognizable and responsive by the display apparatus 200, serving as an interaction intermediary between the user and the display apparatus 200.

In some embodiments, the communication interface 130 is used for external communication, and includes at least one of a WIFI chip, a bluetooth module, NFC, or an alternative module.

In some embodiments, the user input/output interface 140 includes at least one of a microphone, a touchpad, a sensor, a key, or an alternative module.

Fig. 3 shows a hardware configuration block diagram of a display device according to an exemplary embodiment.

In some embodiments, the display apparatus includes at least one of a tuner demodulator 210, a communicator 220, a detector 230, an external device interface 240, a controller 250, a display 260, an audio output interface 270, a memory, a power supply, a user interface.

In some embodiments the controller comprises a central processor, a video processor, an audio processor, a graphics processor, a RAM, a ROM, a first interface to an nth interface for input/output.

In some embodiments, the display 260 includes a display screen component for displaying pictures, and a driving component for driving image display, a component for receiving image signals from the controller output, displaying video content, image content, and menu manipulation interface, and a user manipulation UI interface, etc.

In some embodiments, the display 260 may be at least one of a liquid crystal display, an OLED display, and a projection display, and may also be a projection device and a projection screen.

In some embodiments, the tuner demodulator 210 receives broadcast television signals via wired or wireless reception, and demodulates audio/video signals, such as EPG data signals, from a plurality of wireless or wired broadcast television signals.

In some embodiments, communicator 220 is a component for communicating with external devices or servers according to various communication protocol types. For example: the communicator may include at least one of a Wifi module, a bluetooth module, a wired ethernet module, and other network communication protocol chips or near field communication protocol chips, and an infrared receiver. The display apparatus 200 may establish transmission and reception of control signals and data signals with the control device or the server 400 through the communicator 220.

In some embodiments, the detector 230 is used to collect signals of the external environment or interaction with the outside. For example, detector 230 includes a light receiver, a sensor for collecting ambient light intensity; alternatively, the detector 230 includes an image collector, such as a camera, which may be used to collect external environment scenes, attributes of the user, or user interaction gestures, or the detector 230 includes a sound collector, such as a microphone, which is used to receive external sounds.

In some embodiments, the external device interface 240 may include, but is not limited to, the following: high Definition Multimedia Interface (HDMI), analog or data high definition component input interface (component), composite video input interface (CVBS), USB input interface (USB), RGB port, and the like. The interface may be a composite input/output interface formed by the plurality of interfaces.

In some embodiments, the controller 250 and the modem 210 may be located in different separate devices, that is, the modem 210 may also be located in an external device of the main device where the controller 250 is located, such as an external set-top box.

In some embodiments, the controller 250 controls the operation of the display device and responds to user operations through various software control programs stored in memory. The controller 250 controls the overall operation of the display apparatus 200. For example: in response to receiving a user command for selecting a UI object to be displayed on the display 260, the controller 250 may perform an operation related to the object selected by the user command.

In some embodiments, the object may be any one of selectable objects, such as a hyperlink, an icon, or other actionable control. The operations related to the selected object are: displaying an operation connected to a hyperlink page, document, image, or the like, or performing an operation of a program corresponding to the icon.

In some embodiments the controller comprises at least one of a Central Processing Unit (CPU), a video processor, an audio processor, a Graphics Processing Unit (GPU), a RAM Random Access Memory (RAM), a ROM (Read-Only Memory), a first to nth interface for input/output, a communication Bus (Bus), and the like.

A CPU processor. The system is used for executing the operating system and the camera application instructions stored in the memory and executing various camera applications, data and contents according to various interaction instructions received from the outside so as to finally display and play various audio and video contents. The CPU processor may include a plurality of processors. E.g. comprising a main processor and one or more sub-processors.

In some embodiments, a graphics processor for generating various graphics objects, such as: at least one of icons, operation menus, user input instruction display graphics, and the like. The graphic processor comprises an arithmetic unit, which performs operation by receiving various interactive instructions input by a user and displays various objects according to display attributes; the system also comprises a renderer for rendering various objects obtained based on the arithmetic unit, wherein the rendered objects are used for being displayed on a display.

In some embodiments, the video processor is configured to receive an external video signal, and perform at least one of video processing such as decompression, decoding, scaling, noise reduction, frame rate conversion, resolution conversion, and image synthesis according to a standard codec protocol of the input signal, so as to obtain a signal displayed or played on the directly displayable device.

In some embodiments, the video processor includes at least one of a demultiplexing module, a video decoding module, an image composition module, a frame rate conversion module, a display formatting module, and the like. The demultiplexing module is used for demultiplexing the input audio and video data stream. And the video decoding module is used for processing the video signal after demultiplexing, including decoding, scaling and the like. And the image synthesis module is used for carrying out superposition mixing processing on the GUI signal input by the user or generated by the user and the video image after the zooming processing by the graphic generator so as to generate an image signal for display. And the frame rate conversion module is used for converting the frame rate of the input video. And the display formatting module is used for converting the received video output signal after the frame rate conversion, and changing the signal to be in accordance with the signal of the display format, such as an output RGB data signal.

In some embodiments, the audio processor is configured to receive an external audio signal, decompress and decode the received audio signal according to a standard codec protocol of the input signal, and perform at least one of noise reduction, digital-to-analog conversion, and amplification processing to obtain a sound signal that can be played in the speaker.

In some embodiments, a user may enter user commands on a Graphical User Interface (GUI) displayed on display 260, and the user input interface receives the user input commands through the Graphical User Interface (GUI). Alternatively, the user may input the user command by inputting a specific sound or gesture, and the user input interface receives the user input command by recognizing the sound or gesture through the sensor.

In some embodiments, a "user interface" is a media interface for interaction and information exchange between a camera application or operating system and a user that enables conversion between an internal form of information and a user-acceptable form. A commonly used presentation form of the User Interface is a Graphical User Interface (GUI), which refers to a User Interface related to computer operations and displayed in a graphical manner. It may be an interface element such as an icon, a window, a control, etc. displayed in the display screen of the electronic device, where the control may include at least one of an icon, a button, a menu, a tab, a text box, a dialog box, a status bar, a navigation bar, a Widget, etc. visual interface elements.

In some embodiments, user interface 280 is an interface that may be used to receive control inputs (e.g., physical buttons on the body of the display device, or the like).

In some embodiments, a system of a display device may include a Kernel (Kernel), a command parser (shell), a file system, and a camera application. The kernel, shell, and file system together make up the basic operating system structure that allows users to manage files, run programs, and use the system. After power-on, the kernel is started, kernel space is activated, hardware is abstracted, hardware parameters are initialized, and virtual memory, a scheduler, signals and interprocess communication (IPC) are operated and maintained. And after the kernel is started, loading the Shell and the user camera application. The camera application is compiled into machine code after being started, and a process is formed.

Referring to fig. 4, in some embodiments, the system is divided into four layers, which are, from top to bottom, a camera Application (Applications) layer (abbreviated as "Application layer"), a camera Application Framework (Application Framework) layer (abbreviated as "Framework layer"), an Android runtime (Android runtime) and system library layer (abbreviated as "system runtime library layer"), and a kernel layer.

In some embodiments, at least one camera application runs in the camera application layer, and the camera applications may be a Window (Window) program of an operating system, a system setting program, a clock program, or the like; or a camera application developed by a third party developer. In particular, the camera application package in the camera application layer is not limited to the above example.

The framework layer provides an Application Programming Interface (API) and a programming framework for the camera application of the camera application layer. The camera application framework layer includes some predefined functions. The camera application framework layer acts as a processing center that decides to let the camera applications in the application layer act. The camera application can access resources in the system and obtain services of the system in execution through the API interface.

As shown in fig. 4, in the embodiment of the present application, the camera application framework layer includes a manager (Managers), a Content Provider (Content Provider), and the like, where the manager includes at least one of the following modules: the Activity Manager (Activity Manager) is used for interacting with all the activities running in the system; the Location Manager (Location Manager) is used for providing the system service or application with the access of the system Location service; a Package Manager (Package Manager) for retrieving various information related to the camera application Package currently installed on the device; a Notification Manager (Notification Manager) for controlling display and clearing of Notification messages; a Window Manager (Window Manager) is used to manage the components on the user interface including icons, windows, toolbars, wallpapers, and desktop.

In some embodiments, the activity manager is used to manage the lifecycle of the various camera applications and the usual navigation fallback functions, such as controlling the exit, opening, fallback, etc. of the camera applications. The window manager is used for managing all window programs, such as obtaining the size of a display screen, judging whether a status bar exists, locking the screen, intercepting the screen, controlling the change of the display window (for example, reducing the display window, displaying a shake, displaying a distortion deformation, and the like), and the like.

In some embodiments, the system runtime layer provides support for the upper layer, i.e., the framework layer, and when the framework layer is used, the android operating system runs the C/C + + library included in the system runtime layer to implement the functions to be implemented by the framework layer.

In some embodiments, the kernel layer is a layer between hardware and software. As shown in fig. 4, the core layer includes at least one of the following drivers: audio drive, display drive, bluetooth drive, camera drive, WIFI drive, USB drive, HDMI drive, sensor drive (such as fingerprint sensor, temperature sensor, pressure sensor etc.) and power drive etc..

The display equipment can have a touch interaction function, and a user can operate the host machine only by lightly touching the display with fingers, so that the operation of a keyboard, a mouse and a remote controller is avoided, and the human-computer interaction is more direct. Based on the display device, the display device can support a touch interaction function by adding the touch component. Generally, the touch-sensing device and the display may constitute a touch screen. A user can input different control instructions on the touch screen through touch operation. In order to implement the different touch actions, the touch control assembly may generate different electrical signals when a user inputs different touch actions, and send the generated electrical signals to the controller. The controller may perform feature extraction on the received electrical signals to determine a control function to be performed by the user based on the extracted features.

For example, when a user inputs a click touch action at any program icon position in the application program interface, the touch component senses the touch action and generates an electrical signal. After the controller receives the electric signal, the controller can firstly judge the duration of the level corresponding to the touch action in the electric signal, and when the duration is less than a preset time threshold, the controller recognizes that the user inputs a click touch instruction. The controller extracts the position features generated by the electrical signals to determine the touch position. And when the touch position is within the display range of the application icon, determining that the user inputs a click touch instruction at the position of the application icon. Accordingly, the click touch instruction is used for executing the function of running the corresponding application program in the current scene, so that the controller can start running the corresponding application program.

For another example, when the user inputs a sliding motion in the media asset display page, the touch component also sends the sensed electric signal to the controller. The controller firstly judges the duration of the signal corresponding to the touch action in the electric signal. When the determined duration is longer than the preset time threshold, the position change condition generated by the signal is judged, and obviously, for the interactive touch action, the generation position of the signal changes, so that the sliding touch instruction input by the user is determined. The controller judges the sliding direction of the sliding touch instruction according to the change condition of the position generated by the signal, and controls to turn pages of the display frame in the media asset display page so as to display more media asset options. Furthermore, the controller can extract the characteristics of the sliding speed, the sliding distance and the like of the sliding touch instruction, and perform the picture control of page turning according to the extracted characteristics so as to achieve the hand following effect and the like. Similarly, for touch instructions such as double click and long press, the controller can execute corresponding control functions according to preset interaction rules after extracting different features and determining the type of the touch instruction through feature judgment. In some embodiments, the touch component also supports multi-touch, such that a user can input touch actions on the touch screen through multiple fingers, e.g., multi-finger clicks, multi-finger long presses, multi-finger swipes, and the like.

In some embodiments, in order to facilitate control over multiple devices to be networked, it is generally necessary to configure a network for each device before the device is used, so that the device can access a wireless local area network used by a user. The network distribution refers to a process of configuring the equipment so that the equipment can access the network. For example, in a smart home scene, a plurality of devices to be distributed (such as lighting systems, curtains, air conditioners, security systems, smart televisions, etc.) are arranged in a scene of a user house. The user can adopt the equipment already distributed to distribute the network to other equipment to be distributed. For example, a user can enter a scanning detail page by clicking a rapid distribution network control on a main device touch screen, and then control a plurality of auxiliary devices to execute corresponding distribution network tasks on a plurality of devices to be distributed, so as to realize device distribution. It should be noted that the user may also input the selected operation on the fast distribution network control in other ways to trigger entering the scan detail page. Control is passed to the scan details page, for example, using a voice control function or a search function.

In some embodiments, multiple applications may be installed in the display device. FIG. 5 illustrates a user interface in a display in some embodiments. The user interface displays all applications that the device has installed, including calendar, clock, settings, distribution network, photo applications, and video applications. The user can select one of the applications and open it to implement the functionality of the application. It should be noted that, the installed application may be a system application or a third-party application.

In some embodiments, the user may click on a "fast join network" control in the user interface, triggering the display of a scan start page. FIG. 6 illustrates a schematic diagram of a scan start page of some embodiments. The method specifically comprises the step that a user selects and clicks a corresponding scanning starting page displayed after a rapid distribution network control is selected and clicked on a user interface. As shown in fig. 6, the scan start page includes a distribution network identifier 610, a distribution network prompt control 620, and a scan control 630. The distribution network identifier 610 is used to prompt the user that the user has currently entered the fast distribution network mode. The distribution network prompting control 620 is used for prompting a user to determine whether the equipment to be distributed is in a distribution network state, so that subsequent and smooth distribution network tasks are performed on the equipment to be distributed. The scanning control 630 is used to characterize that the current device is currently in a state of scanning the devices to be distributed around the network.

In some embodiments, the communicator in the master device establishes a communication connection with at least one auxiliary device and at least one device to be networked; the auxiliary equipment is used for executing a network distribution task on the equipment to be distributed, and the network distribution task is used for connecting the equipment to be distributed with the wireless local area network. The communicator is connected with a Bluetooth module, and the Bluetooth module is configured to establish Bluetooth communication connection with at least one auxiliary device and at least one device to be distributed according to instructions of the controller. Similarly, the communicator in the auxiliary equipment establishes communication connection with at least one main equipment and at least one equipment to be networked. The communicator is connected with a Bluetooth module, and the Bluetooth module is configured to establish Bluetooth communication connection with at least one main device and at least one device to be distributed according to the instruction of the controller, so as to complete the task of the distribution network of the device to be distributed subsequently.

Fig. 18 is a schematic diagram illustrating a first interaction process between a master device and an auxiliary device according to some embodiments, where as shown in fig. 18, in response to a user input selecting an operation of a fast distribution network control, a controller sends a scan request to the auxiliary device, where the scan request is used to request the auxiliary device to scan surrounding devices to be distributed. It should be noted that the auxiliary device and the main device are connected in the same lan, and any lan communication protocol may be used for communication in the lan according to the self-configuration.

And receiving a first device set returned by the auxiliary device, wherein the first device set comprises device identifications corresponding to the devices to be networked scanned by the auxiliary device. For example, the scanned first device set includes a device to be networked 1, a device to be networked 2, a device to be networked 3, a device to be networked 4, a device to be networked 5, and a device to be networked 6.

In some embodiments, in response to an input operation of selecting the fast distribution network control, the bluetooth module is controlled to scan surrounding devices to be distributed to obtain a second device set, where the second device set includes device identifiers corresponding to the devices to be distributed, which are scanned by the bluetooth module. And the master device stores the first device set and the second device set. And simultaneously, deleting repeated equipment identifiers in the first equipment set and the second equipment set after scanning is finished to generate an equipment identifier to be networked, so that the equipment identifier to be networked is displayed in a scanning detail page. For example, the scanned second device set includes the device 1 to be configured with a network, the device 2 to be configured with a network, the device 3 to be configured with a network, the device 4 to be configured with a network, and the device 6 to be configured with a network, and the device identifiers repeated in the two sets, such as the device 1 to be configured with a network, the device 2 to be configured with a network, the device 3 to be configured with a network, the device 4 to be configured with a network, and the device 6 to be configured with a network, are deleted and one of them is reserved, and then the device identifiers to be configured with a network are the device 1 to be configured with a network, the device 2 to be configured with a network, the device 3 to be configured with a network, the device 4 to be configured with a network, the device 5 to be configured with a network, and the device 6 to be configured with a network. And the equipment corresponding to the equipment identifier of the network to be distributed is the equipment of the network to be distributed. And controlling a display to display the identifier of the equipment to be networked in a scanning detail page.

During specific implementation, before the scanning detail page is displayed, the method further comprises the step of responding to the selection operation of the input to the rapid distribution network control, and controlling the Bluetooth module to scan the peripheral devices to be distributed to obtain a second device set, wherein the second device set comprises device identifications corresponding to the devices to be distributed, which are scanned by the Bluetooth module. And deleting the repeated equipment identifiers in the first equipment set and the second equipment set to generate the equipment identifiers to be networked, so that the equipment identifiers to be networked are displayed in the scanning detail page.

In some embodiments, FIG. 7 shows a schematic view of a scan details page of some embodiments. The method specifically includes displaying a scanning detail page after a user scans surrounding equipment to be networked. As shown in fig. 7, the scan details page includes an immediate distribution network control 710, a prompt to add device control 720, an add device control 730, and a plurality of device identification controls 740. The prompt adding device control 720 is used for prompting whether the user needs to immediately add the scanned device to be configured to network for subsequent network distribution. The adding device control 730 is configured to select a device to be configured corresponding to the multiple device identifier controls 740 to add the device to be configured. After the user completes the addition of the equipment to be distributed, the user receives the selected operation of the instant distribution control 710 input by the user, and controls the auxiliary equipment to execute the distribution network task on the added equipment to be distributed.

In specific implementation, in response to the selection operation of the input to the rapid distribution network control, a scanning request is sent to the auxiliary device, and the scanning request is used for requesting the auxiliary device to scan the peripheral devices to be distributed. And receiving a first device set returned by the auxiliary device, wherein the first device set comprises device identifications corresponding to the devices to be networked scanned by the auxiliary device. And displaying a scanning detail page, wherein the scanning detail page comprises a control for displaying the equipment identifier and an immediate distribution network control, and the immediate distribution network control is used for executing a distribution network task of the equipment to be distributed corresponding to the equipment identifier after receiving the selected operation of the user.

In some embodiments, before displaying the scan details page, further comprising: the controller saves the returned first device set and second device set in a data structure such as an array. The first device set and the second device set further comprise Bluetooth connection strength, device types and location information corresponding to the devices to be distributed. And the array stores the first equipment set and the second equipment set, then performs deduplication processing, removes repeated information in the two sets and retains one item of the repeated information to generate the information of the equipment to be distributed. For the convenience of the following description, the array storing the information of the distribution network equipment is referred to as an array of equipment to be distributed, and since the information of the equipment to be distributed needs to be searched for many times in the distribution network process, the array of the equipment to be distributed can quickly search the information of the equipment to be distributed according to the index, and the complexity of the search time is O (1). The index is the specific position of the equipment to be distributed on the user interface, and meanwhile, the array of the equipment to be distributed is also used for processing subsequent ordered sequence data.

In some embodiments, the specific implementation of the data index further includes: the method comprises the steps of storing information of the equipment to be networked by adopting a mode of combining a hash table and a bidirectional linked list, adding the bidirectional linked list on the basis of the hash table, wherein key value nodes in the bidirectional linked list are used for storing key values, and link nodes of the hash table are used for storing value data. The bidirectional connection relation between each key value node and the corresponding link node are established based on the k-v mapping relation, meanwhile, key value and value data in the method can be stored independently, the memory is saved by adopting the independent storage of the key values and the data under the condition that efficient traversal is preferentially ensured by utilizing a bidirectional linked list, and the applicable scene of the hash table is effectively expanded.

In some embodiments, the method further includes storing, by using a hash table of the devices to be distributed, which auxiliary devices scan auxiliary device information corresponding to the same device to be distributed. Referring to table 1, a key value is an identifier of a device to be networked, such as a refrigerator, and value data is a doubly linked list of an auxiliary device. It should be noted that the value data may also be an array of devices to be connected to the network. The following description will be given by taking a doubly linked list with value data as an auxiliary device as an example.

Key value	value data
		To-be-distributed network equipment identifier 1	Auxiliary equipment bidirectional linked list
To-be-distributed network equipment identifier 2	Auxiliary equipment bidirectional linked list
		To-be-distributed network equipment identifier 3	Auxiliary equipment bidirectional linked list
To-be-distributed network equipment identifier 4	Auxiliary equipment bidirectional linked list
		To-be-distributed network equipment identifier 5	Auxiliary equipment bidirectional linked list
To-be-configured network equipment identifier 6	Auxiliary equipment bidirectional linked list

TABLE 1

In some embodiments, fig. 8 is a schematic diagram of a doubly linked list of an auxiliary device in some embodiments, where the doubly linked list is convenient for inserting data, and when data out of order is sorted, data does not need to be moved, so that time complexity caused by frequent sorting is effectively reduced. When the hash table of the device to be connected with the network is used, a certain device to be connected with the network can be quickly inquired according to the key value of the hash table of the device to be connected with the network, corresponding value data, namely a corresponding auxiliary device bidirectional linked list, is obtained, and the complexity of the searching time is O (1). As shown in the figure, the auxiliary device bidirectional linked list includes a plurality of auxiliary device information, such as auxiliary device a information, auxiliary device B information, auxiliary device C information, auxiliary device D information, and the like. The link nodes in the two-way linked list are a plurality of pieces of auxiliary equipment information including Bluetooth connection strength.

In some embodiments, the method further includes that when the plurality of auxiliary devices distribute the network to the plurality of devices to be distributed, which auxiliary device specifically distributes the network to which device to be distributed, and the auxiliary device hash table is used to store the information of the devices to be distributed corresponding to each auxiliary device when the auxiliary device distributes the network to the specified device to be distributed. Referring to table 2, the key value is an auxiliary device identifier, such as auxiliary device a, and the value data is an array of devices to be networked.

Key value	value data
		Auxiliary equipment A	Array of devices to be distributed
Auxiliary equipment B	Array of devices to be distributed
		Auxiliary equipment C	Array of devices to be distributed
Auxiliary equipment D	Array of devices to be distributed
		Auxiliary equipment E	Array of devices to be distributed
Auxiliary equipment F	Array of devices to be distributed

TABLE 2

During specific implementation, the information of the equipment to be networked comprises the Bluetooth connection strength corresponding to the equipment identification; and sequencing the identifiers of the devices to be distributed according to the connection strength of the Bluetooth so as to distribute the devices to be distributed corresponding to the identifiers of the devices to be distributed to the auxiliary devices to execute distribution network tasks.

Illustratively, the auxiliary device a scans that the number of the devices to be networked is N in the information of the devices to be networked received by the controller, and stores the information of the devices to be networked corresponding to the N devices to be networked into the array of the devices to be networked. The method for processing the first equipment to be distributed, such as a refrigerator, comprises the following steps: and searching whether a hash table of the equipment to be networked, which takes the refrigerator as the equipment to be networked as a key value, exists. And under the condition that the hash table of the equipment to be networked does not exist, establishing a key value as the identification 'refrigerator' of the equipment to be networked, and using the value data as the bi-directional linked list of the auxiliary equipment. And the link node data in the bidirectional linked list is auxiliary equipment information corresponding to the auxiliary equipment A with the Bluetooth connection strength.

And under the condition that the hash table of the equipment to be networked exists, inquiring the hash table of the equipment to be networked which takes the refrigerator as the identification of the equipment to be networked, and acquiring corresponding value data, namely the bi-directional linked list of the auxiliary equipment. And searching the auxiliary equipment E of which the first Bluetooth connection strength is smaller than that of the auxiliary equipment A and the refrigerator from the first link node of the auxiliary equipment bidirectional linked list, and inserting the information corresponding to the auxiliary equipment A to the front of the searched link node to finish the sequencing of the information of the auxiliary equipment A corresponding to the refrigerator. For example: the Bluetooth connection strength between the auxiliary device A and the refrigerator is 5, the Bluetooth connection strength between the auxiliary device E and the refrigerator is found to be 4 from a certain link node in the auxiliary device two-way linked list, and then the device information of the auxiliary device A is inserted before the found link node, namely before the auxiliary device information corresponding to the auxiliary device E with the Bluetooth connection strength.

In some embodiments, the above-mentioned processing is performed on the 2 nd to N th devices to be networked in sequence. And then, after all the devices to be networked scanned by the auxiliary devices are processed one by one, a key value as the identifier of the device to be networked, value data as a bidirectional linked list of the auxiliary device information corresponding to the identifier of the scanned device to be networked can be formed, and the bidirectional linked list is sorted in a descending order according to the connection strength of the Bluetooth. It should be noted that the sorting is not limited to descending sorting, and the sorting rule can be set according to the actual situation.

After the auxiliary equipment information in the two-way linked list is sorted in a descending order according to the Bluetooth connection strength, in the process of distribution of the network, the appointed network equipment to be distributed can be distributed to the auxiliary equipment with high Bluetooth connection strength in the corresponding connection for distribution of the network. For example, the distance from the auxiliary device a to the refrigerator is shorter than the distance from the auxiliary device B to the refrigerator, for the refrigerator, the bluetooth connection strength of the auxiliary device a is higher, and in the process of distributing the network, the auxiliary device a with the higher bluetooth connection strength can be preferably used for distributing the network to the refrigerator. And then the auxiliary equipment with better matching or higher distribution network success rate can be selected to execute the distribution network task on the appointed equipment to be distributed. If the network distribution equipment to be distributed obtained by scanning is sequentially distributed in real time after the sequencing processing is not carried out, the auxiliary equipment A with high Bluetooth connection strength can not be controlled to distribute the network to the refrigerator, and therefore the network distribution failure rate is increased.

In some embodiments, sorting the identifiers of the devices to be networked according to the bluetooth connection strength to allocate the devices to be networked corresponding to the identifiers of the devices to be networked to the auxiliary devices, includes: and acquiring the quantity of all the devices to be networked and the quantity of all the auxiliary devices, and calculating a preset threshold according to the quantity of all the devices to be networked and the quantity of all the auxiliary devices. And allocating the network to be allocated specified in the ordered list to the auxiliary equipment by using a preset threshold so that the auxiliary equipment executes a network allocation task on the specified network to be allocated.

Illustratively, the number of all devices to be distributed and the number of all auxiliary devices are obtained, and according to the principle of average distribution, a preset threshold value at which each auxiliary device should distribute the devices to be distributed in principle is calculated

Preset threshold value

The calculation was performed as follows:

wherein S is₁For the total number of devices to be networked, S₂Is the total number of auxiliary devices. For example, if the number of all devices to be networked is 20 and the number of all auxiliary devices is 5, the threshold value is preset

And 4, that is, in principle, 4 devices to be networked should be allocated to 1 auxiliary device to perform the network distribution task. For another example, if the number of all the devices to be configured is 23 and the number of all the auxiliary devices is 5, the preset threshold X is rounded up to 5, that is, in principle, 1 auxiliary device should allocate 5 devices to be configured to perform a network configuration task.

In some embodiments, the identifiers of the devices to be distributed are sorted according to the connection strength of the bluetooth, and then a sorted list is generated, and the controller controls the sorted list to be displayed on a user interface presented by the display. And the network to be configured corresponding to the device to be configured identifier is conveniently distributed to the auxiliary device to execute the network distribution task. Because the equipment to be distributed at the front in the sorted list is displayed on the user interface presented by the priority display, the distribution success rate of the equipment to be distributed at the front should be preferentially ensured, and then the equipment to be distributed is preferentially distributed, and the distribution processing is carried out according to the index sequence in the sorted list. Namely, the specified devices to be configured are sequentially allocated to the auxiliary devices for network distribution according to the sequence from front to back in the ordered list.

In some embodiments, allocating the network-to-be-distributed device specified in the ordered list to the secondary device by using the preset threshold includes: searching the auxiliary equipment with the maximum Bluetooth connection strength in the connection with the specified equipment to be networked, and acquiring the number of all the equipment to be networked for the network distribution with the auxiliary equipment with the maximum Bluetooth connection strength; and judging the number of the devices to be distributed and the size of a preset threshold, and distributing the specified devices to be distributed to the auxiliary device with the maximum Bluetooth connection strength under the condition that the number of the devices to be distributed is smaller than the preset threshold so that the auxiliary device with the maximum Bluetooth connection strength executes the distribution network task on the specified devices to be distributed.

Illustratively, a first device to be connected with a network, such as an "air conditioner", is obtained, and the "air conditioner" is a designated device to be connected with the network. And searching a corresponding auxiliary equipment bidirectional linked list in the value data from the air conditioner hash table according to the key value of the equipment identifier 'air conditioner' to be networked. And obtaining a first auxiliary device link node M in the auxiliary device bidirectional linked list, and searching a corresponding device array to be networked in the value data from the hash table of the auxiliary device M by using auxiliary device information corresponding to the auxiliary device link node M, such as the auxiliary device M as a key value. And then, checking the total number of data in the equipment array to be distributed, namely checking the number of distribution networks of the auxiliary equipment M, comparing the number of distribution networks of the auxiliary equipment M with a preset threshold value, and adding an air conditioner to the equipment array to be distributed under the condition that the number of distribution networks of the auxiliary equipment M is smaller than the preset threshold value, so that the air conditioner is distributed to the auxiliary equipment M corresponding to the auxiliary equipment link node M for distribution. And finally deleting the auxiliary equipment link node M from the auxiliary equipment doubly linked list.

And under the condition that the value is greater than the preset threshold value, acquiring a second auxiliary device link node T, and searching a corresponding device array to be networked in the value data from the hash table of the auxiliary device T by using auxiliary device information corresponding to the auxiliary device link node T, such as the auxiliary device T as a key value. And then, checking the total number of data in the equipment array to be networked, namely checking the number of distribution networks of the auxiliary equipment T, comparing the number of distribution networks of the auxiliary equipment T with a preset threshold value, and checking whether the Bluetooth connection strength of the equipment to be networked, namely an air conditioner, connected with the auxiliary equipment T is lower than the preset Bluetooth connection strength or not under the condition that the number of distribution networks of the auxiliary equipment T is smaller than the preset threshold value, wherein the preset Bluetooth connection strength is the minimum value of the Bluetooth connection strength for realizing successful distribution of the distribution networks. If the number of the distribution networks of the auxiliary equipment T is smaller than the preset threshold value and the Bluetooth connection strength is higher than the preset Bluetooth connection strength, adding the air conditioner into the equipment array to be distributed, and indicating that the air conditioner is distributed to the auxiliary equipment T corresponding to the auxiliary equipment link node T for distribution. And finally deleting the auxiliary equipment link node T from the auxiliary equipment doubly linked list.

And if the Bluetooth connection strength of the auxiliary equipment T is lower than the preset Bluetooth connection strength, adding the air conditioner into the equipment array to be networked corresponding to the auxiliary equipment M with the front link node. That is, the air conditioner is distributed to the auxiliary equipment M corresponding to the auxiliary equipment link node M for distribution, and the auxiliary equipment link node M is deleted from the auxiliary equipment bidirectional linked list. It should be noted that, because the bidirectional linked list of the auxiliary device is of a bidirectional structure, the pre-link node can be quickly acquired. Even if the number of distribution networks of the auxiliary device M is greater than the preset threshold, it is preferable to allocate the specified device to be distributed to the auxiliary device T whose bluetooth connection strength is lower than the preset bluetooth connection strength. Although certain distribution network time is prolonged through the distribution, the distribution success rate is improved. Furthermore, in order to accelerate the distribution network speed of the auxiliary equipment, the auxiliary equipment is marked, so that a distribution network instruction is preferentially sent to the marked auxiliary equipment when the subsequent distribution network task is executed, and the aim of saving the distribution network time is achieved.

And if the number of the distribution networks is not met and is smaller than the preset threshold value, continuing to select the 3 rd to N-th auxiliary equipment link nodes, and distributing the specified equipment to be distributed to the auxiliary equipment corresponding to the auxiliary equipment link node for subsequent distribution networks according to the principle of the selection of the second auxiliary equipment link node T until the auxiliary equipment link node meeting the condition is found.

In some embodiments, the establishing the bidirectional relationship between the key-value node and the link node further includes a deleting operation: based on the searched key value node reading the link node pointed by the key value node, the key value node and the link node can be deleted, and the corresponding storage space is released. Illustratively, since the "air conditioner" is already allocated to the auxiliary device link node M, the auxiliary device link node M is not required to be used subsequently, and then the auxiliary device link node M is deleted from the auxiliary device doubly linked list to save space.

In some embodiments, there may be a case that the auxiliary device link node satisfying the condition cannot be found in the search process, and when there is a case that the auxiliary device link node satisfying the condition cannot be found, the following steps are specifically performed: when only one auxiliary device link node exists in the auxiliary device bidirectional linked list corresponding to the appointed to-be-configured network device and the total data number in the to-be-configured network device array corresponding to the auxiliary device link node, namely the distribution network number of the auxiliary device exceeds a preset threshold value, the appointed to-be-configured network device is distributed to the auxiliary device, so that the auxiliary device can carry out overload distribution network work, and meanwhile, the auxiliary device link node in the auxiliary device bidirectional linked list is deleted. Furthermore, in order to accelerate the distribution network speed of the auxiliary equipment, the auxiliary equipment is marked, so that a distribution network instruction is preferentially sent to the marked auxiliary equipment when the distribution network task is executed subsequently.

Illustratively, acquiring an air conditioner of a device to be networked, and searching a corresponding auxiliary device bidirectional linked list in value data from an air conditioner hash table according to a key value of the identifier of the device to be networked, namely the air conditioner. If only one auxiliary device link node S exists in the auxiliary device bidirectional linked list, the auxiliary device information corresponding to the auxiliary device link node S, such as the auxiliary device S, is used as a key value to search the corresponding to-be-configured network device array in the value data from the hash table of the auxiliary device S. And then, checking the total number of data in the equipment array to be networked, namely checking the number of distribution networks of the auxiliary equipment S, comparing the number of the distribution networks of the auxiliary equipment S with a preset threshold value, and adding an air conditioner into the equipment array to be networked under the condition that the number of the distribution networks of the auxiliary equipment S is greater than the preset threshold value. Even if the number of the distribution networks of the auxiliary equipment S exceeds the preset threshold, the "air conditioner" needs to be allocated to the auxiliary equipment S corresponding to the auxiliary equipment link node S for overload distribution. And finally deleting the auxiliary equipment link node S and marking the auxiliary equipment S.

In some embodiments, fig. 9 is a schematic diagram illustrating an exemplary distribution network for distributing devices to be distributed according to some embodiments. Referring to fig. 9, all the devices to be distributed are manually configured one by one through the configured devices. The process of the distribution network is a serial distribution network. Fig. 10 illustrates a schematic diagram of some embodiments specifying the allocation of devices to be distributed to the secondary device distribution network. Specifically, all the devices to be distributed are distributed to the corresponding auxiliary devices one by one according to the method. As shown in the figure, according to the allocation method, the device to be configured 1, the device to be configured 3, and the device to be configured 4 are allocated to the auxiliary device a. And distributing the equipment 2 to be distributed, the equipment 5 to be distributed and the equipment 6 to be distributed to the auxiliary equipment B. And allocating the equipment to be networked 7, the equipment to be networked 8 and the equipment to be networked 9 to the auxiliary equipment C, and allocating the equipment to be networked 10 to the auxiliary equipment D. In the process of network distribution, the time spent in the whole network distribution process is the network distribution time of the auxiliary equipment A, and the network distribution time of the auxiliary equipment A is longer than the network distribution time of the auxiliary equipment B, the auxiliary equipment C and the auxiliary equipment D. Due to the exclusivity of the Bluetooth module in the communicator, the auxiliary equipment A, the auxiliary equipment B, the auxiliary equipment C and the auxiliary equipment D respectively carry out parallel network distribution for each network equipment to be distributed one by one. Compared with the serial distribution network process, the distribution network time spent in the parallel distribution network process is obviously reduced, the time for a user to wait for the distribution network is reduced, and the user experience is improved.

In some embodiments, a selected operation of an immediate distribution network control input by a user is received, and a distribution network instruction is sent to at least one auxiliary device, wherein the distribution network instruction is used for enabling the auxiliary device to execute a distribution network task on a specified device to be distributed; and receiving a distribution network response message returned by the auxiliary equipment, wherein the distribution network response message is used for representing whether the auxiliary equipment successfully distributes the network to the specified equipment to be distributed.

In some embodiments, after receiving a selection operation of the immediate distribution network control input by a user, the communicator in the main device may be connected to a wired network or a wireless network, and when the main device is connected to the wired network, a wireless local area network connection list interface needs to be displayed in the user interface, and the wireless local area network connection list interface is used for instructing the user to select a wireless local area network connection. Meanwhile, the controller acquires the corresponding wireless local area network name and password when the user selects the wireless local area network connection.

For example, when the user clicks the immediate distribution control 710 on the scan detail page shown in fig. 7, the controller sends a distribution network instruction to all the auxiliary devices, where the distribution network instruction is used to enable the auxiliary devices to perform a distribution network task on the specified device to be distributed. And allocating the appointed equipment to be allocated to the auxiliary equipment to be allocated to the network based on the controller, and controlling the auxiliary equipment to perform network allocation work on the allocated appointed equipment to be allocated to the network. And after the auxiliary equipment executes the distribution network task, returning a distribution network response message, wherein the distribution network response message is used for representing whether the auxiliary equipment successfully distributes the network to the specified equipment to be distributed.

Fig. 11 illustrates a diagram of the success of a distribution network of some embodiments. The method specifically comprises the step of returning a distribution network response message as a user interface of a distribution network success message after the auxiliary equipment executes the distribution network task. Referring to fig. 11, the distribution network response message is displayed at a preset location on the user interface. A prompt control 111 and a completion control 112 are arranged in a display interface of the distribution network response message, and the prompt control 111 is used for prompting that a user successfully distributes the distribution network to the equipment to be distributed. The user needs to close the distribution network response message after operating the completion control 112. Or, the distribution network response message may be displayed in a manner that the distribution network response message automatically disappears after a threshold time (e.g., 3 seconds). Therefore, in other embodiments of the present application, the distribution network response message mode is not limited to the distribution network response message mode, and the distribution network response message mode includes, but is not limited to the distribution network response message mode, and may be in a form of short message notification, a form of ringing, or other forms such as vibration.

In some embodiments, in the process of the master device controlling the auxiliary device to perform network distribution on the device to be distributed, the method further includes a process of binding the device to be distributed with the master device end controller. The controller sends a data request to the auxiliary device, wherein the data request is used for requesting to acquire device information of the device to be networked. And receiving the information of the equipment to be distributed returned by the auxiliary equipment, and binding the equipment to be distributed according to the equipment information. It should be noted that the distribution network response message may also be used to represent whether the auxiliary device successfully binds to the device to be distributed.

Fig. 12 is a diagram illustrating whether a distribution network fails to retry in some embodiments. Specifically, after the auxiliary device executes the distribution network task, the distribution network response message is returned as a user interface of the distribution network failure message. Referring to fig. 12, the distribution network response message is displayed at a preset location on the user interface. A retry prompt control 121, a retry distribution control 122 and a negative control 123 are arranged in a display interface of the distribution network response message, where the retry prompt control 121 is used to prompt a user that a distribution network failure device exists after all devices to be distributed have been distributed, and prompt the user that a distribution network failure device can be subjected to distribution network retry. For convenience of subsequent description, the device that fails to distribute the network after the network distribution is performed is referred to as a target device to be distributed. The retry distribution control 122 is used for characterizing that the user can choose to retry distribution of the target device to be distributed. The negative control 123 is used for representing that the user can select other modes to perform network distribution on the target equipment to be distributed.

Fig. 13 is a schematic diagram illustrating that some embodiments select another way to perform network distribution on a target device to be distributed. Specifically, the user interface is displayed when the user clicks the negative control 123 in the interface shown in fig. 12. Referring to fig. 13, a display interface is provided with a different-mode prompt control 131, a selection mode control 132 and a completion control 133, where the different-mode prompt control 131 is used to prompt a user that a network distribution can be performed on a target device to be distributed in multiple modes. The user triggers the distribution network process corresponding to the selection mode through the selection operation of the selection mode control 132, so as to complete the distribution network task of the target equipment to be distributed. The network distribution mode can be a terminal device hotspot network distribution mode, a two-dimensional code network distribution mode, a voice/camera network distribution mode and the like. If the user does not select another distribution network mode to perform distribution, the user needs to close the interface after operating the completion control 133 to end and complete the whole distribution network process.

Fig. 19 is a schematic diagram illustrating a second interaction process between the master device and the slave device in some embodiments, and as shown in fig. 19, a retry distribution network instruction is sent to the slave device after a selected operation of a retry distribution network control input by a user is received, where the retry distribution network instruction is used to perform distribution network retry on a target to-be-distributed network device for which the distribution network has failed last time; and the receiving auxiliary equipment responds to the distribution network retry instruction and returns a distribution network retry response message, and the distribution network retry response message is used for representing whether the controller retries the distribution network successfully for the specified target to-be-distributed equipment.

In some embodiments, after receiving a user input operation for retrying a distribution network control, sending a target to-be-distributed network device list acquisition request to an auxiliary device, where the target to-be-distributed network device list acquisition request is used to request the auxiliary device to return a target to-be-distributed network device list. The target network-to-be-distributed device list comprises device identifications corresponding to the plurality of target network-to-be-distributed devices. And receiving a target network-to-be-distributed equipment list returned by the auxiliary equipment so as to control the auxiliary equipment to carry out network distribution retry on the target network-to-be-distributed equipment in the target network-to-be-distributed equipment list.

For example, referring to fig. 10, after the first network distribution process is completed, the to-be-configured network device 3 and the to-be-configured network device 4 are network distribution failure devices, and the auxiliary device a returns a configuration list including the to-be-configured network device 3 and the to-be-configured network device 4 as target to-be-configured network devices to the main device. Similarly, the device 5 to be configured is a device with failed network distribution, and the auxiliary device B returns the device 5 to be configured as a target device to be configured to the main device to form a list. The equipment 10 to be distributed is the equipment with failed distribution network, the auxiliary equipment D returns the equipment 10 to be distributed to the main equipment as a target equipment to be distributed forming list

In some embodiments, after the operation of retrying the distribution network control is selected by receiving the user input, each auxiliary device may also store the target to-be-distributed network device list by itself, so that the subsequent retrying distribution network process of the target to-be-distributed network device is performed smoothly.

In some embodiments, entering the corresponding retry distribution process is triggered when the user selects the retry distribution control 122 in the interface shown in fig. 12. And sending a distribution network instruction to the auxiliary equipment which executes the distribution network task on the target equipment to be distributed according to the preset time interval, so that the auxiliary equipment executes the distribution network task on the target equipment to be distributed again according to the distribution network instruction. The target equipment to be distributed is the equipment which fails to distribute the network last time. The auxiliary equipment is used for executing the distribution network task on the target equipment to be distributed.

Illustratively, a distribution network instruction is sent to an auxiliary device, such as an auxiliary device a, an auxiliary device B, and an auxiliary device D, which executes a distribution network task on a target device to be distributed last time according to a preset time interval. And the auxiliary equipment responds to the distribution network instruction and distributes the network to the target equipment to be distributed in the target equipment to be distributed list. And the auxiliary equipment A executes the distribution network task by taking the equipment to be distributed 3 and the equipment to be distributed 4 which have failed in the last distribution network as target equipment to be distributed again. In the same way, the auxiliary device B executes the distribution network task again with the device 5 to be distributed, which has failed in the last distribution network, as the target device to be distributed. And the auxiliary equipment D executes the distribution network task by taking the equipment to be distributed 10 with the network distribution failure last time as the target equipment to be distributed again.

In some embodiments, when the distribution network instruction is sent to the auxiliary device which executes the distribution network task on the target device to be distributed last time according to the preset time interval, the method includes: judging whether the target network-to-be-distributed equipment is the last network-distribution equipment when the auxiliary equipment is a distribution network; and under the condition that the target network equipment to be distributed is the last network equipment, determining whether only one target network equipment to be distributed exists, and if only one target network equipment to be distributed exists, sending a distribution network instruction to the auxiliary equipment at a preset time interval so that the auxiliary equipment can execute the distribution network task again.

In an exemplary process of sending a distribution network instruction to an auxiliary device which executes a distribution network task on a target to-be-distributed network device according to a preset time interval, judging whether the target to-be-distributed network device is a last distribution network device when the target to-be-distributed network device is a last distribution network device; if the auxiliary device a performs the distribution network task on the to-be-distributed network device 3 and the to-be-distributed network device 4 again, the auxiliary device B performs the distribution network task on the to-be-distributed network device 5 again, and the auxiliary device D performs the distribution network task on the to-be-distributed network device 10 again, the auxiliary device a determines that the to-be-distributed network device 4 is the last distribution network device when the auxiliary device a is distributed with the network, and the auxiliary device D determines that the to-be-distributed network device 10 is the last distribution network device when the auxiliary device D is distributed with the network. Then, whether only one distribution network device exists when the auxiliary device is distributed last time is determined, namely the target to-be-distributed network device. If the auxiliary device D only has one network distribution device to be connected to the network distribution device 10, a network distribution instruction needs to be sent to the auxiliary device D at a preset time interval, so that the auxiliary device D executes the network distribution task again. It should be noted that the preset time interval can be set according to actual situations. If one of the two conditions is not met, the distribution network instruction does not need to be sent to the auxiliary equipment at a preset time interval.

In some embodiments, after the auxiliary device executes the distribution network task again on the target to-be-distributed network device, if any one target to-be-distributed network device is successfully distributed, the auxiliary device deletes the device identifier corresponding to the target to-be-distributed network device in the target to-be-distributed network device list. And forming a new target distribution network device list by the device identifications corresponding to the other target distribution network devices to be distributed which are failed to distribute the network again, and returning the new target distribution network device list to the main device so as to carry out subsequent distribution network work.

If the network distribution is immediately retried for the target network distribution equipment to be distributed after the first whole network distribution process is finished, the network distribution is carried out again for the target network distribution equipment to be distributed according to a certain rule. However, when the network distribution is performed again, the factor causing the failure of the network distribution may not be eliminated, and the network distribution may fail again due to the same reason as the last network distribution failure, for example, the identity of the networks and the identity of the bluetooth connections between the networks. And then, the retry distribution time of the target device to be distributed needs to be ensured to have a certain time interval from the last distribution failure time, so that the distribution success rate of the target device to be distributed is improved.

In some embodiments, a network distribution retry instruction input by a user is received, and the network distribution retry instruction is used for performing network distribution retry on a target network-to-be-distributed device with a network distribution failure last time. And responding to a retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed network device last time. And if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed.

In some embodiments, after the controller receives a retry distribution network instruction input by the user, the auxiliary device performs a retry distribution network task on the target to-be-distributed network device. After the auxiliary equipment retries the distribution network task, if the equipment which fails in distribution network still exists, the controller further searches whether target auxiliary equipment which meets preset conditions exists, wherein the target auxiliary equipment is different from the auxiliary equipment which executes the distribution network task on the target equipment to be distributed last time; and if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed with the network.

In some embodiments, in the process of retrying the distribution network, the master device first selects the auxiliary device that executed the distribution network task on the target to-be-distributed network device last time to redistribute the network again, and the auxiliary device may return a first retrying distribution network response message after executing the distribution network task on the target to-be-distributed network device. And under the condition that the returned first retry distribution network response message is a retry distribution network failure message, the main device searches for the target auxiliary device meeting the preset condition, the target auxiliary device is different from the auxiliary device which executes the distribution network task on the target to-be-distributed network device last time, and the target auxiliary device returns a second retry distribution network response message after executing the distribution network task on the target to-be-distributed network device. It should be noted that, in the process of retrying the distribution network, after the distribution network is retryed for the first time, the auxiliary device may return the failed information of the target to-be-distributed network device to the main device, and the main device directly performs subsequent work of searching for the target auxiliary device after receiving the information of the target to-be-distributed network device.

For example, after the auxiliary device a performs the distribution network task on the to-be-distributed network device 3 and the to-be-distributed network device 4 again, the auxiliary device B performs the distribution network task on the to-be-distributed network device 5 again, and the auxiliary device D performs the distribution network task on the to-be-distributed network device 10 again, if the to-be-distributed network device 3 fails to distribute the network again, the target auxiliary device meeting the preset condition is searched, and the target auxiliary device is another auxiliary device except the auxiliary device a. And if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the to-be-distributed equipment 3.

In some embodiments, the finding whether there is a target secondary device that meets a preset condition includes: the method comprises the steps of obtaining Bluetooth connection strength when a target auxiliary device is in communication connection with a target device to be networked, and sending a network distribution instruction to the target auxiliary device with the maximum Bluetooth connection strength according to the Bluetooth connection strength, so that the target auxiliary device executes a network distribution task on the target device to be networked.

In some embodiments, before sending the distribution network instruction to the target auxiliary device with the maximum bluetooth connection strength according to the bluetooth connection strength, the method includes: acquiring the state of a target auxiliary device with the maximum Bluetooth connection strength, wherein the state of the auxiliary device comprises a working state and an idle state; and if the state of the target auxiliary equipment is in the idle state, controlling the target auxiliary equipment to execute the distribution network task on the target equipment to be distributed.

Illustratively, when a key value is used as the identifier of the device to be networked, value data is searched for the doubly linked list of the auxiliary device information corresponding to the scanned identifier of the device to be networked, and value data corresponding to the identifier of the device to be networked, that is, the auxiliary device information, of the device to be networked, that is, the "device 3 to be networked" is obtained. If the auxiliary equipment information exists, whether the corresponding auxiliary equipment is in an idle state or not is sequentially judged from the first link node of the double linked list, and if the auxiliary equipment information includes auxiliary equipment O, auxiliary equipment P and auxiliary equipment Q. It should be noted that the auxiliary device information in the doubly linked list is the auxiliary device information that is sorted in descending order according to the bluetooth connection strength, and the bluetooth connection strength between the auxiliary device O and the "device to be networked 3" is greater than the bluetooth connection strength between the auxiliary device P, the auxiliary device Q, and the "device to be networked 3". The idle state refers to a state in which the auxiliary device has returned the distribution network response information and has no ongoing distribution network task. And if the auxiliary equipment O corresponding to the first link node is in an idle state, allocating the network equipment 3 to be configured to the auxiliary equipment O so that the auxiliary equipment O executes the network distribution task responding to the network equipment 3 to be configured.

Figure 14 illustrates a retry distribution network success diagram of some embodiments. The retry distribution network response message interface is used for distributing and distributing the target equipment to be distributed when the target auxiliary equipment meeting the preset conditions is found. The retry distribution network response message includes a retry success message. The interface comprises a retry success reminding control 141, and the retry success reminding control 141 is displayed in a preset position of the interface, so as to remind a user that the target network equipment to be distributed retries the network distribution successfully, and no network equipment to be distributed exists at present.

In some embodiments, if the state of the target auxiliary device is the working state, the states corresponding to other target auxiliary devices are sequentially acquired, wherein the acquisition sequence is determined by sequencing the bluetooth connection strength corresponding to each target auxiliary device from large to small; and sequentially judging the states of other target auxiliary equipment, and sending the distribution network instruction to the target auxiliary equipment under the condition that the state of the target auxiliary equipment is in an idle state so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed with the network.

For example, if the auxiliary device O corresponding to the first link node is in the working state, it is continuously determined whether the auxiliary device P corresponding to the second link node is in the idle state, and if the auxiliary device P is in the idle state, the "device to be configured 3" is allocated to the auxiliary device P, so that the auxiliary device P executes the network configuration task in response to the "device to be configured 3". If the auxiliary device P corresponding to the second link node is in the working state, the state of the auxiliary device corresponding to the third link node is judged until the auxiliary device in the idle state is found, so as to complete the distribution of the network to be distributed to the equipment 3.

In some embodiments, if the states of all the target auxiliary devices are working states, a distribution network instruction is sent to the target auxiliary device with the maximum bluetooth connection strength, so that the target auxiliary device executes a distribution network task on the target device to be distributed with the network.

For example, if the states of the auxiliary devices corresponding to all the link nodes are working states, the target auxiliary device "to-be-configured network device 3" is allocated to the auxiliary device O corresponding to the first link node, so as to complete the network distribution of the "to-be-configured network device 3".

In some embodiments, when the state of the auxiliary devices is judged, all the auxiliary devices are in an idle state at a high probability, each specified device to be distributed is distributed to a plurality of auxiliary devices for distribution based on the above, each auxiliary device balances load, the whole distribution process is a parallel distribution network, and the time spent on the distribution network is close to each other. And when any one auxiliary device returns the information of the devices to be distributed with network failure, other auxiliary devices probably complete the work of the distribution network.

In some embodiments, when the key value is used as the identifier of the device to be networked, and the value data is searched for the doubly linked list of the auxiliary device information corresponding to the scanned identifier of the device to be networked, and the value data corresponding to the identifier of the device to be networked is not acquired, the network distribution of the target auxiliary device, namely the device 3 to be networked, fails. It is shown that all the auxiliary devices in the doubly linked list have attempted to distribute a network to the target auxiliary device "device to be distributed 3" and the distribution fails.

Figure 15 illustrates a diagram of retry distribution network failure in some embodiments. The network distribution response message interface is a retry network distribution response message interface which cannot distribute and distribute network to the target network to be distributed device when the target auxiliary device meeting the preset condition does not exist. The retry distribution network response message includes a retry failure message. The interface comprises a retry failure reminding control 151, and the retry failure reminding control 151 is displayed in a preset position of the interface, so that a user is reminded that the equipment to be configured with the network distribution failure still exists after the network distribution process is retried.

Based on the retry distribution process of the target to-be-distributed network device, firstly, the auxiliary device which executes the distribution network task on the target to-be-distributed network device at the last time is controlled to retry distribution. In order to avoid the situation that the distribution network fails due to the same reason as the last distribution network failure, a preset time interval is set to control the auxiliary equipment to retry distribution of the target equipment to be distributed. If the second distribution network fails, a plurality of auxiliary devices which meet preset conditions except the auxiliary device are searched for, and the target to-be-distributed network device is subjected to retry distribution. According to the method and the device, the network is distributed by retrying the target network equipment to be distributed by using different auxiliary equipment twice, the situation that the network is distributed for a plurality of times due to the fact that the reason is the same as that of the last network distribution failure is avoided, and meanwhile, the success rate of the network distribution is improved.

In some embodiments, the present application further provides another display device, where the display device is an auxiliary device, that is, a display device that a user does not directly operate. And the communicator in the auxiliary equipment establishes communication connection with at least one main equipment and at least one equipment to be networked. The main device is used for executing a network distribution task on the device to be distributed, and the network distribution task is used for connecting the device to be distributed with the wireless local area network.

In some embodiments, the communicator in the auxiliary device is connected with a bluetooth module, and the bluetooth module is configured to establish bluetooth communication connections with the at least one main device and the at least one device to be distributed according to an instruction of the controller. The controller receives a distribution network instruction sent by the main device, and responds to the distribution network instruction to execute a distribution network task on the device to be distributed.

In some embodiments, a distribution network instruction sent by a master device is received, where the distribution network instruction is used to instruct a controller to execute a distribution network task on a specified device to be distributed; and responding to the distribution network instruction and returning a distribution network response message, wherein the distribution network response message is used for representing whether the controller successfully distributes the network to the specified equipment to be distributed.

In some embodiments, the controller is further configured to receive a scanning request sent by the master device, where the scanning request is used to request the controller to scan the peripheral devices to be distributed; and returning a first device set in response to the scanning request, wherein the first device set comprises device identifications corresponding to the devices to be networked, which are scanned by the controller.

In some embodiments, the controller is further configured to receive a retry distribution network instruction sent by the master device, where the retry distribution network instruction is used to request the controller to scan the peripheral devices to be distributed; and returning a first device set in response to the scanning request, wherein the first device set comprises device identifications corresponding to the devices to be networked, which are scanned by the controller.

In some embodiments, the controller is further configured to receive a retry distribution network instruction sent by the master device in response to the input operation of retrying the distribution network control, wherein the retry distribution network instruction is used for performing distribution network retrying on a target to-be-distributed network device with a last distribution network failure. And responding to the distribution network retry instruction and returning a distribution network retry response message, wherein the distribution network retry response message is used for representing whether the controller successfully retries the distribution network for the specified target to-be-distributed network equipment.

The above UI is an example of a display device, and UIs of other types of terminal devices or display devices in the aspect of a multi-device distribution network are basically similar to the above UI, and are not listed here. The UI interface provided in the present application is merely exemplary, and is subject to practical application and design.

According to the above embodiments, an embodiment of the present application further provides a method for configuring a network by multiple devices, where an execution subject of the method is a controller in a display device, and the method includes the steps shown in fig. 16:

s101, receiving a selection operation of an immediate distribution network control input by a user, and sending a distribution network instruction to at least one auxiliary device, wherein the distribution network instruction is used for enabling the auxiliary device to execute a distribution network task on a specified device to be distributed.

And S102, receiving a distribution network response message returned by the auxiliary equipment, wherein the distribution network response message is used for representing whether the auxiliary equipment successfully distributes the network to the specified equipment to be distributed.

In some embodiments, receiving a user input selecting an operation of an immediate distribution network control, and prior to sending a distribution network instruction to at least one secondary device, comprises:

and responding to the selected operation of the input to the rapid distribution network control, and sending a scanning request to the auxiliary equipment, wherein the scanning request is used for requesting the auxiliary equipment to scan the peripheral equipment to be distributed.

And receiving a first device set returned by the auxiliary device, wherein the first device set comprises device identifications corresponding to the devices to be networked scanned by the auxiliary device.

And displaying a scanning detail page, wherein the scanning detail page comprises a control for displaying the equipment identifier and an immediate distribution network control, and the immediate distribution network control is used for executing a distribution network task of the equipment to be distributed corresponding to the equipment identifier after receiving the selected operation of the user.

In some embodiments, the communicator is connected with a bluetooth module, and the bluetooth module establishes bluetooth communication connection with at least one auxiliary device and at least one device to be distributed; before displaying the scan details page, the method comprises:

and responding to the selected operation of the rapid distribution network control in the input place, and controlling the Bluetooth module to scan surrounding equipment to be distributed to obtain a second equipment set, wherein the second equipment set comprises equipment identifications corresponding to the equipment to be distributed scanned by the Bluetooth module.

And deleting the repeated equipment identifiers in the first equipment set and the second equipment set to generate the equipment identifiers to be networked, so that the equipment identifiers to be networked are displayed in the scanning detail page.

In some embodiments, the first set of devices and the second set of devices further comprise a bluetooth connection strength corresponding to the device identification; the method further comprises the following steps:

and sequencing the identifiers of the devices to be distributed according to the connection strength of the Bluetooth so as to distribute the devices to be distributed corresponding to the identifiers of the devices to be distributed to the auxiliary devices to execute distribution network tasks.

In some embodiments, the method further comprises: acquiring the quantity of all devices to be networked and the quantity of all auxiliary devices, and calculating a preset threshold according to the quantity of all devices to be networked and the quantity of all auxiliary devices; and distributing the equipment to be distributed, which is specified in the ordered list, to the auxiliary equipment by using the preset threshold value so that the auxiliary equipment executes a distribution network task on the specified equipment to be distributed.

In some embodiments, allocating the network-to-be-distributed device specified in the ordered list to the secondary device by using the preset threshold includes: searching the auxiliary equipment with the maximum Bluetooth connection strength in the connection with the appointed equipment to be distributed, and acquiring the number of all the equipment to be distributed for distribution with the auxiliary equipment with the maximum Bluetooth connection strength;

and judging the number of the devices to be distributed and the size of the preset threshold, and distributing the appointed devices to be distributed to the auxiliary device with the maximum Bluetooth connection strength under the condition that the number of the devices to be distributed is smaller than the preset threshold so as to enable the auxiliary device with the maximum Bluetooth connection strength to execute a distribution network task on the appointed devices to be distributed.

In some embodiments, the method further comprises: receiving the operation of a user input place for retrying the distribution network control, and sending a retrying distribution network instruction to the auxiliary equipment, wherein the retrying distribution network instruction is used for retrying the distribution network of the target distribution network equipment to be distributed which has failed in the last distribution network;

and receiving a retry distribution network response message returned by the auxiliary device, wherein the retry distribution network response message is used for representing whether the controller retries the distribution network successfully for the specified target to-be-distributed network device.

Fig. 17 shows another multi-device network distribution method executed by a display device, where an execution subject of the method is a controller in the display device, and the method includes the following steps:

s201, a distribution network instruction sent by the main device is received, and the distribution network instruction is used for instructing the controller to execute a distribution network task on the specified device to be distributed.

And S202, responding to the distribution network instruction and returning a distribution network response message, wherein the distribution network response message is used for representing whether the controller successfully distributes the network to the specified equipment to be distributed.

In some embodiments, before receiving the distribution network instruction sent by the master device, the method includes:

and receiving a scanning request sent by the main equipment, wherein the scanning request is used for requesting the controller to scan the peripheral equipment to be distributed.

And returning a first device set in response to the scanning request, wherein the first device set comprises device identifications corresponding to the devices to be networked, which are scanned by the controller.

According to the embodiment, when a user carries out network distribution on a plurality of devices, only the immediate network distribution control in the user interface needs to be selected, the controller sends a network distribution instruction to at least one auxiliary device, and the network distribution instruction is used for enabling the auxiliary device to execute a network distribution task on a specified network to be distributed. And receiving a distribution network response message returned by the auxiliary equipment, wherein the distribution network response message is used for representing whether the auxiliary equipment successfully distributes the network to the specified equipment to be distributed. Therefore, a user can only carry out distribution network operation on one display device so as to control other auxiliary devices to execute distribution network tasks on a plurality of devices to be distributed. The method and the device solve the problems that a user needs to consume a large amount of time and the configuration efficiency is low when the user manually performs the network distribution setting on a plurality of devices to be distributed one by one.

The same and similar parts in the embodiments in this specification may be referred to one another, and are not described herein again.

In a specific implementation manner, the present invention further provides a computer storage medium, where the computer storage medium may store a program, and when the program is executed, the program may include some or all of the steps in each embodiment of the method for displaying quantity of extended media assets provided by the present invention. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM), a Random Access Memory (RAM), or the like.

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

The foregoing description, for purposes of explanation, has been presented in conjunction with specific embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the embodiments to the precise forms disclosed above. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles and the practical application, to thereby enable others skilled in the art to best utilize the embodiments and various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. A display device, comprising:

a display for displaying a user interface;

the communicator establishes communication connection with at least one auxiliary device and at least one device to be networked; the auxiliary equipment is used for executing a distribution network task on the equipment to be distributed, and the distribution network task is used for connecting the equipment to be distributed with the wireless local area network;

a controller configured to:

receiving a network distribution retry instruction input by a user, wherein the network distribution retry instruction is used for carrying out network distribution retry on a target network-to-be-distributed device with a network distribution failure last time;

responding to the retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed device last time;

and if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed.

2. The display device according to claim 1, wherein a bluetooth module is connected to the communicator, and the bluetooth module is configured to establish bluetooth communication connections with at least one auxiliary device and at least one device to be distributed according to an instruction of the controller; the searching whether the target auxiliary equipment meeting the preset condition exists or not comprises the following steps:

and acquiring the Bluetooth connection strength of the target auxiliary equipment in communication connection with the target equipment to be networked, and sending the network distribution instruction to the target auxiliary equipment with the maximum Bluetooth connection strength according to the Bluetooth connection strength so that the target auxiliary equipment executes a network distribution task on the target equipment to be networked.

3. The display device according to claim 2, wherein before sending the distribution network instruction to the target auxiliary device with the highest bluetooth connection strength according to the bluetooth connection strength, the method further comprises:

acquiring the state of the target auxiliary equipment with the maximum Bluetooth connection strength, wherein the state of the auxiliary equipment comprises a working state and an idle state;

and if the state of the target auxiliary equipment is in an idle state, controlling the target auxiliary equipment to execute a distribution network task on the target equipment to be distributed.

4. The display device of claim 3, wherein the controller is further configured to:

if the state of the target auxiliary equipment is in a working state, sequentially acquiring the states corresponding to other target auxiliary equipment, wherein the acquisition sequence is determined by sequencing the Bluetooth connection strength corresponding to each target auxiliary equipment from large to small;

and sequentially judging the states of other target auxiliary devices, and sending the distribution network instruction to the target auxiliary devices under the condition that the states of the target auxiliary devices are idle states, so that the target auxiliary devices execute distribution network tasks on the target devices to be distributed.

5. The display device of claim 4, wherein the controller is further configured to:

and if the states of all the target auxiliary devices are working states, sending the distribution network instruction to the target auxiliary device with the maximum Bluetooth connection strength so that the target auxiliary device executes a distribution network task on the target to-be-distributed device.

6. The display device according to claim 1, wherein before searching whether there is a target auxiliary device meeting a preset condition, the method comprises:

and sending a distribution network instruction to the auxiliary equipment which executes the distribution network task on the target equipment to be distributed according to a preset time interval, so that the auxiliary equipment executes the distribution network task on the target equipment to be distributed again according to the distribution network instruction.

7. The display device according to claim 6, wherein sending a distribution network command to the auxiliary device that has executed the distribution network task on the target device to be distributed last time according to a preset time interval comprises:

judging whether the target network-to-be-distributed equipment is the last network-distribution equipment when the auxiliary equipment is distributed for the last time; and under the condition that the target network equipment to be distributed is the last network equipment, determining whether only one target network equipment to be distributed exists, and if only one target network equipment to be distributed exists, sending a network distribution instruction to the auxiliary equipment at the preset time interval so that the auxiliary equipment can execute the network distribution task again.

8. A display device, comprising:

a display for displaying a user interface;

the communicator establishes communication connection with at least one master device and at least one device to be networked; the master device is used for controlling the controller to execute a distribution network task on the device to be distributed, and the distribution network task is used for connecting the device to be distributed with a wireless local area network;

a controller configured to:

receiving a distribution network instruction sent by a main device in response to a distribution network retry instruction input by a user, wherein the distribution network instruction instructs the controller to perform distribution network retry on a target device to be distributed, which fails in distribution last time, and the display device is different from an auxiliary device which performs a distribution network task on the target device to be distributed last time;

and responding to the distribution network instruction, and executing a distribution network task on the target equipment to be distributed.

9. A retry method of a multi-device distribution network is applied to a display device, and is characterized by comprising the following steps:

receiving a network distribution retry instruction input by a user, wherein the network distribution retry instruction is used for carrying out network distribution retry on a target network-to-be-distributed device with a network distribution failure last time;

responding to the retry distribution instruction, and searching whether a target auxiliary device meeting a preset condition exists, wherein the target auxiliary device is different from an auxiliary device which executes a distribution network task on the target to-be-distributed device last time;

and if the target auxiliary equipment exists, sending a distribution network instruction to the target auxiliary equipment so that the target auxiliary equipment executes a distribution network task on the target equipment to be distributed.

10. A retry method of a multi-device distribution network is applied to a display device, and is characterized by comprising the following steps:

receiving a distribution network instruction sent by a main device in response to a distribution network retry instruction input by a user, wherein the distribution network instruction indicates that the display device performs distribution network retry on a target to-be-distributed network device which has failed in last distribution network, and the display device is different from an auxiliary device which performs a distribution network task on the target to-be-distributed network device last time;

and responding to the distribution network instruction, and executing a distribution network task on the target equipment to be distributed.

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