CN114567517B - Parameter adjustment method, device and server - Google Patents

Abstract

The embodiment of the application discloses a parameter adjustment method, a parameter adjustment device and a server. The method comprises the following steps: acquiring network data information of target equipment, wherein the network data information characterizes the current network state of the target equipment; characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment; and adjusting network parameters of the target equipment based on the adjustment information. By the method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the need of manpower to change the position of the target equipment when the network state is poor is avoided.

Description

Parameter adjustment method, device and server

Technical Field

The application relates to the field of intelligent home, in particular to a parameter adjustment method, a parameter adjustment device and a server.

Background

Along with the development of the industry of the Internet of things, more and more intelligent home equipment are provided, and an intelligent home network system is gradually formed. In the intelligent home network system, because the installation positions of part of intelligent home devices are remote or signals of the devices are worse than those of other devices, the situations that the intelligent home devices do not respond or response delay is serious, the devices are frequently offline and the like and cannot be normally linked can be caused, and the use experience of the intelligent home is affected. Under the background, the network state of the intelligent household equipment can be adjusted by moving the position of the intelligent household equipment, so that the intelligent household equipment can be linked normally.

However, in the practical application scenario, since the positions of part of the smart home devices are reserved in advance, there is no way to move, and a manner of adjusting the network state of the smart home devices by the mobile device requires manual operation, which may cause an increase in manpower consumption.

Disclosure of Invention

In view of the above, the present application proposes a parameter adjustment method, apparatus, server and computer program product to achieve an improvement of the above.

In a first aspect, the present application provides a parameter adjustment method, the method comprising: acquiring network data information of target equipment, wherein the network data information characterizes the current network state of the target equipment; characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment; and adjusting network parameters of the target equipment based on the adjustment information.

In a second aspect, the present application provides a parameter adjustment method, applied to an electronic device, where the method includes: transmitting network data information of the electronic equipment to a data platform, wherein the network data information characterizes the current network state of the electronic equipment; and receiving adjustment information corresponding to the current network state of the electronic equipment, which is returned by the data platform, and adjusting network parameters of the electronic equipment based on the adjustment information, wherein the adjustment information is acquired by the data platform when determining that the network data information characterizes the current network state difference of the electronic equipment.

In a third aspect, the present application provides a parameter adjustment device, the device comprising: a network data information obtaining unit, configured to obtain network data information of a target device, where the network data information characterizes a current network state of the target device; an adjustment information obtaining unit, configured to obtain adjustment information corresponding to a current network state of the target device, based on the network data information to characterize the current network state of the target device; and the network parameter adjustment unit is used for adjusting the network parameters of the target equipment based on the adjustment information.

In a fourth aspect, the present application provides a server comprising one or more processors and memory; one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the methods described above.

In a fifth aspect, the application provides a computer program product comprising computer programs/instructions which when executed by a processor implement the steps of the method described above.

In a sixth aspect, the present application provides a computer readable storage medium having program code stored therein, wherein the method described above is performed when the program code is run.

The application provides a parameter adjustment method, a device, a server, a computer program product and a storage medium. By the method, the current network state of the target equipment can be obtained by analyzing the network data information uploaded by the target equipment, the network parameters of the target equipment are adjusted according to the current network state of the target equipment, and then the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed by manpower when the network state is poor is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows an application scenario of a parameter adjustment method according to the present application;

FIG. 2 is a flowchart of a method for obtaining parameters according to an embodiment of the present application;

FIG. 3 illustrates a flow chart of one embodiment of S120 of FIG. 2 in accordance with the present application;

FIG. 4 is a schematic diagram of a display interface of a target device according to the present application;

FIG. 5 is a schematic diagram of a manual network parameter adjustment interface according to the present application;

FIG. 6 is a flowchart of a parameter adjustment method according to another embodiment of the present application;

FIG. 7 is a flow chart showing a method for parameter adjustment according to still another embodiment of the present application;

FIG. 8 is a flowchart of a parameter adjustment method according to another embodiment of the present application;

FIG. 9 is a flowchart of a parameter adjustment method according to another embodiment of the present application;

FIG. 10 is a schematic diagram of a target device display interface according to the present application;

FIG. 11 is a schematic diagram of another manual network parameter adjustment interface according to the present application;

FIG. 12 is a flowchart of a parameter adjustment method according to another embodiment of the present application;

FIG. 13 is a schematic diagram showing a basic flow of a parameter adjustment method according to the present application;

Fig. 14 is a block diagram showing a parameter adjusting apparatus according to an embodiment of the present application;

FIG. 15 is a block diagram showing a parameter adjusting apparatus according to another embodiment of the present application;

FIG. 16 is a block diagram illustrating a data platform according to the present application;

Fig. 17 is a storage unit for storing or carrying program code for implementing a parameter acquisition method according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Along with the development of the industry of the Internet of things, more and more intelligent home equipment are provided, and an intelligent home network system is gradually formed. In the intelligent home network system, because the installation positions of part of intelligent home devices are remote or signals of the devices are worse than those of other devices, the situations that the intelligent home devices do not respond or response delay is serious, the devices are frequently offline and the like and cannot be normally linked can be caused, and the use experience of the intelligent home is affected. Under the background, the network state of the intelligent household equipment can be adjusted by moving the position of the intelligent household equipment, so that the intelligent household equipment can be linked normally.

In the related research, the inventor finds that in the practical application scene, as the positions of part of intelligent home equipment are reserved in advance, the intelligent home equipment cannot be moved, or the volume or the mass of part of intelligent home equipment is larger, the mode of adjusting the network state of the intelligent home equipment through the mobile equipment needs manual operation, and the manpower consumption is increased.

Therefore, the inventor proposes a parameter adjustment method, a device, a server and a computer program product in the application, after acquiring network data information of a target device, the network data information characterizes a current network state of the target device, the current network state of the target device is characterized based on the network data information, adjustment information corresponding to the current network state of the target device is acquired, and network parameter adjustment is performed on the target device based on the adjustment information. By the method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to poor network state is avoided.

The application scenario according to the embodiment of the present application is described first.

As shown in fig. 1, in the scenario shown in fig. 1, smart home devices including a television, an air conditioner, a camera, a switch, a socket and the like are included, and the smart home devices can communicate through a zigbee protocol to realize linkage of smart home. The intelligent home equipment is poor in network state due to the fact that the installation position of the intelligent home equipment is remote or signals of the intelligent home equipment are poor compared with signals of other equipment, so that the situations of unresponsiveness, serious response delay, frequent offline and the like can occur frequently, normal linkage with other equipment cannot be achieved, and the use experience is affected. For example, the socket has poor network state due to poor signals of the socket compared with signals of other devices, and the situations of unresponsiveness, serious response delay, frequent offline and the like may often occur. For another example, the air conditioner has poor network state due to the bias of the installation position, and the situations of unresponsiveness, serious response delay, frequent offline and the like may often occur. At this time, the network state of the outlet or the air conditioner may be changed by moving the position of the outlet or the air conditioner, but since the position of the outlet is preset, the outlet is not easy to move, and a lot of manpower is consumed to move the air conditioner.

In such a case, the parameter adjustment method provided by the embodiment of the application can be used to realize the adjustment of the network state of the device. For example, the socket may be configured to send network data information of the socket itself to a data platform (running in a server), where the network data information characterizes a current network state of the socket, receive adjustment information returned by the data platform and corresponding to the current network state of the socket, and adjust network parameters of the socket based on the adjustment information, where the adjustment information is acquired by the data platform when determining that the network data information of the socket characterizes a current network state difference of the socket.

It should be noted that, the socket and the air conditioner are only exemplary, and the target device may be a smart home device such as a camera and a switch.

Referring to fig. 2, the present application provides a parameter adjustment method, which includes:

s110: network data information of the target device is acquired, wherein the network data information characterizes the current network state of the target device.

The target device may be an intelligent home device, for example: air conditioner, camera, socket, switch etc.

As a way, the target device may actively send its own network data information to the data platform, so that the data platform may obtain the network data information of the target device.

Wherein, alternatively, the target device may periodically send network data information to the data platform.

Alternatively, the target device may also aperiodically transmit network data information to the data platform. For example, when the user finds that the target device does not respond, has serious response delay, is frequently offline, and the like, the user can open an application program for controlling the target device and click the target device, an information display interface of the target device can appear at the moment, a control for adjusting the network state can be arranged in the interface, and when the user clicks the control, the target device can send own network data information to the data platform. The application program can be run in a smart phone, a tablet computer, a computer and other devices.

As another way, the data platform may send a network data information acquisition request to the target device, and the target device may send its own network data information to the data platform in response to the acquisition request, so that the data platform may implement the acquisition of the network data information of the target device.

The network data information acquisition request may be sent periodically or aperiodically.

The network data information may represent at least one of success of sending the message by the target device, number of times of failure of sending the message, reason of failure of sending the message, and whether the target device is removed. For example, the network data information may represent whether the current network state of the target device in the zigbee network is good or bad, as shown in table 1, where the network data information may be formed by a set of attributes (Attribute) that represent the network state, for example MacRxBcast, macTxBcast, APSTxUcastFail in table 1, and these attributes may reflect at least one of whether the target device sends a message successfully, the number of failed messages, the reason for the failed messages, and whether the target device is removed.

TABLE 1

It should be noted that the zigbee network may be a large network, and the large network may be formed by a coordinator (coordinator), a plurality of routers (routers), and a plurality of End-devices (End-devices). There may be more electronic devices in the large network, and there may be 40-126 electronic devices, for example. Alternatively, in the large network, the target device may be an electronic device having a router function, and for example, the target device may be a non-low power consumption device such as a switch, a socket, or the like.

S120: and characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment.

After the data platform acquires the network data information of the target device, the network state of the target device can be analyzed through the network data information, and if the situation that the target device cannot normally link due to non-response or serious response delay, frequent offline of the device and the like possibly occurs when the target device is applied is analyzed according to the network data information, the current network state of the target device is indicated to be poor. Optionally, in order to make the linkage efficiency of the target device higher, the network state of the target device may be kept to be optimal, that is, when the network state of the target device is analyzed to be good or bad by the data platform according to the network data information, the adjustment information corresponding to the current network state of the target device is obtained, so that the network state of the target device is kept to be optimal at all times, and further, the communication quality and the linkage efficiency of the target device are improved.

Optionally, the adjustment information may be an adjusted Network parameter, where the Network parameter may be at least one of a number of retransmissions of a data link layer (Medium/MEDIA ACCESS Control, MAC) of the target device, a threshold for counting failure in packet transmission, a threshold for counting aging of a route, a number of retransmissions of a Network layer, a number of retransmissions of an enabled Network layer (NWK), a number of retransmissions of a user operation layer (Applications Support Sublayer, APS), a threshold for enabling user operation layer acknowledgement, remote reset, idle channel assessment (CLEAR CHANNEL ASSESSMENT, CCA), and a transmit power. Illustratively, the content of the adjustment information may be to adjust the number of data link layer retransmissions of the target device from 2 to 3.

Wherein, optionally, the adjustment information may be an adjustment amplitude, that is, the value of the network parameter of the target device is adjusted to be larger or smaller. The network parameter may be at least one of a number of data link layer retransmissions, a message transmission failure count threshold, a route aging count threshold, a number of network layer retransmissions, an enabled network layer retransmission, a number of user operation layer retransmissions, an enabled user operation layer acknowledgement, a remote reset, a clear channel assessment threshold, a transmit power of the target device. Illustratively, the content of the adjustment information may be to increase the number of data link layer retransmissions of the target device by 1.

The method for obtaining the adjustment information corresponding to the current network state of the target equipment based on the current network state of the network data information representation target equipment comprises the following steps:

S121: and if the network data information represents the current network state difference of the target equipment, acquiring an adjustment mode of the network parameters of the target equipment.

The method comprises the steps of acquiring an input of the target device on a client display interface, and acquiring an adjustment mode of network parameters of the target device. For example, taking the target device as the intelligent wall socket T1 as an example, the display interface shown in fig. 4 displays related information of the intelligent wall socket T1, where two controls of "manual adjustment" or "automatic adjustment" under "device network parameter adjustment" may be set in advance by an adjuster or a user to adjust network parameters of the intelligent wall socket T1 in a manual or automatic adjustment manner. When the network parameters of the socket need to be adjusted, the data platform can acquire the network parameter adjustment mode of the target device by acquiring the network parameter adjustment mode input by the display interface.

S122: and acquiring adjustment information corresponding to the current network state of the target equipment based on the adjustment mode of the network parameters of the target equipment.

If the adjustment mode of the network parameters of the target equipment is manual adjustment, triggering the client to display an input interface of the network parameters of the target equipment; and acquiring network parameters input through an input interface, and taking the network parameters as adjustment information corresponding to the current network state of the target equipment.

For example, after the network parameter adjustment is obtained through the display interface of fig. 4 in a manual adjustment manner, that is, the adjustment personnel or the user triggers the "manual adjustment" control in the display interface, an interface for manually adjusting the network parameter as shown in fig. 5 may appear, and the interface may be displayed under the "device network parameter adjustment" or may be displayed as an independent window interface. Clicking the "current device network parameter adjustment" control in fig. 5, the interface for manually adjusting network parameters may display a plurality of adjustable network parameters of the socket, and the adjuster at the data platform end may adjust a plurality of network parameters of the socket at one time, or may adjust only a single network parameter at a time. For example, the adjustment personnel can input the corresponding adjustment information in the "data link layer retransmission times", "transmission power", "network layer retransmission times", and then click "confirm", so that the data platform can obtain the adjustment information corresponding to the current network state of the target device (intelligent wall socket T1) by obtaining the adjustment information of the plurality of network parameters input by the interface. For another example, the adjuster may first input adjustment information in "number of data link layer retransmissions" and then click "confirm"; inputting adjustment information in the transmitting power, and clicking the confirmation; finally, the adjustment information is input in the network layer retransmission times, and then the confirmation is clicked, so that the data platform can acquire the adjustment information corresponding to the current network state of the target device (the intelligent wall socket T1) by acquiring the adjustment information of the single network parameter input by the interface.

The adjustment of the network parameter by the adjuster may be directly adjusting the value of the network parameter or adjusting the amplitude of the network parameter. For example, the adjuster may input "3" in "data link layer retransmission times" in fig. 5, or input "+1" in "data link layer retransmission times" in fig. 5 to implement adjustment of the data link layer retransmission times of the socket.

It may be understood that the user may also adjust the network parameters of the target device, for example, when the data platform analyzes that the target device needs to perform network parameter adjustment, a prompt message that the target device needs to perform network parameter adjustment may be sent to the user terminal (such as a mobile phone, a computer, etc.) and inquire whether to start parameter adjustment, and if the user selects to start adjustment, the data platform may send an interface for manual network parameter adjustment shown in fig. 5 to the user terminal, where the user may complete network parameter adjustment on the target device according to the relevant prompt message.

If the adjustment mode of the network parameters of the target equipment is automatic adjustment, acquiring automatically generated intelligent configuration information, and taking the intelligent configuration information as adjustment information corresponding to the current network state of the target equipment.

For example, when the network parameter adjustment mode obtained through the display interface of fig. 4 is automatic adjustment, that is, an adjuster or a user triggers an "automatic adjustment" control in the display interface, the data platform may automatically analyze, according to the network data information of the target device, a cause of the poor current network state of the target device, so as to intelligently generate intelligent configuration information corresponding to the target device, where the intelligent configuration information may be a combination of multiple network parameter adjustment information or single network parameter adjustment information automatically generated by the data platform, so that the data platform may obtain adjustment information corresponding to the current network state of the target device (intelligent wall socket T1).

S130: and adjusting network parameters of the target equipment based on the adjustment information.

The adjustment information may be an adjusted network parameter, and the adjusted network parameter is sent to the target device, so that the target device adjusts the current network parameter to the adjusted network parameter.

Alternatively, the adjustment information may be an adjustment amplitude, and the adjustment amplitude is sent to the target device, so that the target device adjusts the current network parameter based on the adjustment amplitude, to obtain the adjusted network parameter.

According to the parameter adjustment method provided by the embodiment, after the network data information of the target equipment is obtained, the network data information represents the current network state of the target equipment, the current network state of the target equipment is represented based on the network data information, the adjustment information corresponding to the current network state of the target equipment is obtained, and the network parameter adjustment is performed on the target equipment based on the adjustment information. By the method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to poor network state is avoided.

Referring to fig. 6, the present application provides a parameter adjustment method, which includes:

S210: network data information of the target device is acquired, wherein the network data information characterizes the current network state of the target device.

S220: and if the network data information represents the current network state difference of the target equipment, acquiring the current network parameters of the target equipment.

In the embodiment of the application, the data platform can have various modes for acquiring the current network parameters of the target equipment.

In one mode, when the target device sends the network data information to the data platform, the current network parameters can be sent together, and the network parameters are stored in the data platform, so that the data platform can acquire the network data information and the current network parameters of the target device. In this manner, the data platform may read the current network parameters of the target device directly from the local when the network data information characterizes the current network state of the target device as poor.

As another way, the current network parameters of the target device may not be transmitted together with the network data information, and, illustratively, when the network data information characterizes the current network state of the target device, the data platform transmits a parameter acquisition request to the target device, and after the target device responds to the acquisition request, the current network parameters of the device are transmitted to the data platform, so that the data platform acquires the current network parameters of the target device.

It can be understood that by sending the current network parameters of the target device together with the network data information and storing the network parameters in the data platform, the data platform can timely acquire the current network parameters stored locally, and further can acquire the adjustment information more quickly; and the storage resource of the data platform can be saved by the mode that the current network parameters of the target equipment and the network data information are not transmitted together.

S230: and acquiring adjustment information corresponding to the current network state of the target equipment based on the current network parameters.

If the network parameter adjustment is manually obtained through the client display interface of fig. 4, and the data platform sends the current network parameter of the target device to the client, the values of the plurality of adjustable network parameters of the socket and the corresponding current network parameter of the target device may be displayed in the manual network parameter adjustment interface shown in fig. 5, and the adjuster or the user may adjust the network parameter based on the current network parameter of the target device. For example, if the current data link layer retransmission number of the target device is shown as 2 in fig. 5, the adjustment personnel or the user may change the data link layer retransmission number to 3 and click on "confirm" to implement adjustment of the data link layer retransmission number of the target device.

When the network parameter adjustment mode obtained through the client display interface in fig. 4 is automatic adjustment, the data platform automatically analyzes the current network state difference of the target device according to the network data information of the target device, and the data platform can intelligently generate intelligent configuration information corresponding to the target device according to the current network parameter of the target device, where the intelligent configuration information can be a combination of multiple network parameter adjustment information or single network parameter adjustment information automatically generated by the data platform, so that the data platform can obtain adjustment information corresponding to the current network state of the target device based on the current network parameter of the target device.

S240: and adjusting network parameters of the target equipment based on the adjustment information.

According to the parameter adjustment method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to the fact that the network state is poor is avoided. In addition, in this embodiment, the current network parameter of the target device is used to obtain the adjustment information corresponding to the current network state of the target device, so that the adjustment information is more targeted, and the network parameter of the target device can be adjusted more accurately.

Referring to fig. 7, the method for adjusting parameters provided by the present application includes:

S310: network data information of the target device is acquired, wherein the network data information characterizes the current network state of the target device.

S320: and characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment.

If the network data information represents the current network state difference of the target equipment, acquiring a first network parameter to be adjusted corresponding to the current network state of the target equipment; detecting whether the adjusted first network parameter to be adjusted exceeds a threshold corresponding to the first network parameter to be adjusted; and if the adjusted first network parameter to be adjusted exceeds the threshold value corresponding to the first network parameter to be adjusted, acquiring a second network parameter to be adjusted corresponding to the current network state of the target equipment, and acquiring adjustment information corresponding to the current network state of the target equipment based on the second network parameter to be adjusted.

For example, the number of retransmissions of the data link layer may be set to a first network parameter to be adjusted, the retransmission threshold of the data link layer may be set to 3, and the clear channel assessment threshold may be set to a second network parameter to be adjusted. If the number of retransmissions of the data link layer is set to 4, the data platform detects that the number of retransmissions of the data link layer exceeds a threshold value, acquires second network parameters to be adjusted corresponding to the current network state of the target device, that is, setting information of an idle channel assessment threshold, and adjusts based on the setting information of the idle channel assessment threshold, so as to obtain adjustment information corresponding to the current network state of the target device.

In this way, the flexibility of the adjustment personnel or user in making the target device network parameter adjustments may be increased.

S330: and adjusting network parameters of the target equipment based on the adjustment information.

S340: the monitoring target device monitors network data information during the monitoring window time.

Wherein the network data information of the target device in the monitoring window time is at least one.

S350: and if the last network data information represents the current network state difference of the target equipment in the monitoring window time, acquiring the adjustment information corresponding to the last network data information of the target equipment.

If the network data information of the target device in the monitoring window time is one, the network data information is the last network data information in the monitoring window time; if the network data information of the target device in the monitoring window time is greater than or equal to one, the last acquired network data information is the last network data information in the monitoring window time. For example, if the data platform monitors the network data information of 4 target devices within the time of the monitoring window, the 4 network data information are A, B, C, D according to the monitored time sequence, and D is the last network data information.

S360: and adjusting the network parameters of the target equipment based on the adjustment information corresponding to the last network data information of the target equipment.

It is understood that the network parameters adjusted in S360 may be the same as or different from the network parameters adjusted in S330. For example, if the number of data link layer retransmissions is adjusted to 2 after S330 is performed, the number of data link layer retransmissions may be continuously increased to 3. For example, if the number of retransmissions of the data link layer has been adjusted to 3 after S330 is performed, if the retransmission threshold of the data link layer is set to 3, the number of retransmissions of the data link layer is increased again, and the retransmission threshold of the data link layer may be exceeded, the threshold of the clear channel assessment threshold may be lowered. For another example, if the number of retransmissions of the user operation layer is already adjusted to 3 after S330 is performed, if the number of retransmissions of the user operation layer is increased again and exceeds the retransmission threshold of the user operation layer, the transmission power may be increased appropriately.

According to the parameter adjustment method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to the fact that the network state is poor is avoided. In addition, in this embodiment, after the target device is subjected to primary network parameter adjustment, the target device is further subjected to network state monitoring for a period of time, so that whether the network state of the target device is changed from poor to good can be timely found, and the reliability of the network state adjustment of the target device is further improved.

Referring to fig. 8, the method for adjusting parameters provided by the present application includes:

S410: network data information of the target device is periodically acquired.

In one manner, a timer may be disposed in the target device, where the timer is configured to trigger a signal once every fixed time period to trigger the target device to send the network data information of the target device to the data platform, so that the data platform may periodically acquire the network data information of the target device.

Alternatively, a timer may be provided in the data platform, and the data platform may send a network data information acquisition request to the target device at every fixed time period, where the target device sends the network data information of the target device to the data platform after responding to the acquisition request, so that the data platform may periodically acquire the network data information of the target device.

S420: and characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment.

S430: and adjusting network parameters of the target equipment based on the adjustment information.

S440: the monitoring target device monitors network data information during the monitoring window time.

Wherein, as a way, the monitoring window time may be determined based on the acquisition time period of the network data information of the target device, where the monitoring window time is greater than or equal to the acquisition time period of the network data information of the target device, and the acquisition time period of the network data information of the target device characterizes a time interval of the data platform periodically acquiring the network data information of the target device, for example, the acquisition time period of the network data information of the target device is 1 hour, and then the time interval is 1 hour. By way of example, if the acquisition time period of the network data information of the target device is 1 hour, the monitoring window time may be set to 2.5 hours.

S450: and if the last network data information represents the current network state difference of the target equipment in the monitoring window time, acquiring the adjustment information corresponding to the last network data information of the target equipment.

S460: and adjusting the network parameters of the target equipment based on the adjustment information corresponding to the last network data information of the target equipment.

According to the parameter adjustment method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to the fact that the network state is poor is avoided. In addition, in this embodiment, by periodically acquiring the network data information of the target device, whether the network state of the target device is good or not may be found more timely, and if the network state of the target device is poor, the network parameter adjustment may be performed timely, so that the network state of the target device becomes good.

Referring to fig. 9, the present application provides a parameter adjustment method, which includes:

s510: and acquiring network data information corresponding to each of the plurality of target devices to obtain a plurality of network data information.

The target device may be an intelligent home device, for example: air conditioner, camera, socket, switch etc. For example, the network data information corresponding to each of the plurality of target devices may include network data information corresponding to each of an air conditioner, a camera, a socket, and a switch.

S520: acquiring target network data information from a plurality of network data information, and acquiring adjustment information corresponding to the current network state of target equipment, wherein the target equipment is the target equipment corresponding to the target network data information, and the target network data information represents the current network state difference of the target equipment corresponding to the target network data information.

After the data platform acquires the plurality of network data information, the network state of the plurality of target devices can be analyzed through the plurality of network data information, and if the corresponding network state difference of the target devices is analyzed according to the network data information, the network data information is used as the target network data information. The data platform obtains network data information corresponding to the air conditioner, the camera, the socket and the switch, and analyzes the network state difference of the camera, the switch and the socket according to the network data information, and takes the network data information of the camera, the switch and the socket as target network data information.

In one manner, the adjustment information corresponding to the current network state of the target device corresponding to the target network data information may be obtained by obtaining an input of a display interface of the target device in the client. For example, as shown in fig. 10, the target device may be a camera, a socket, or a switch, and the display interface of the target device may be accessed by clicking a picture corresponding to the target device. Illustratively, clicking on the socket in fig. 10 will enter a display interface as shown in fig. 4, where the display interface displays relevant information of the intelligent wall socket T1, where two controls, "manual adjustment" or "automatic adjustment" under "device network parameter adjustment" may be set in advance by an adjuster or a user to adjust network parameters of the intelligent wall socket T1 in a manual or automatic adjustment manner.

For example, if the network parameter adjustment is manually obtained through the display interface of fig. 4, an interface for manually adjusting the network parameter as shown in fig. 5 may be displayed under the "device network parameter adjustment" or may be displayed as a separate window interface. Clicking on the "batch device network parameter adjustment" in fig. 5, as shown in fig. 11, the interface for manually adjusting the network parameter may display contents such as "device ID", "resource ID", and "resource value", where "device ID" may indicate a target device that needs to adjust the network parameter, "resource ID" may indicate a network parameter that needs to be adjusted, and "resource value" may indicate adjustment information of a corresponding network parameter. By inputting the IDs of a plurality of target devices, the respective corresponding adjustment information acquisition of each target device inputting the ID can be realized.

In an exemplary manner, if the network parameter adjustment is automatically adjusted through the display interface of fig. 4, the data platform may obtain intelligent configuration information corresponding to the plurality of target devices, so that the data platform may obtain adjustment information corresponding to the current network states of the plurality of target devices.

S530: and adjusting network parameters of the target equipment corresponding to the target network data information based on the adjustment information.

According to the parameter adjustment method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to the fact that the network state is poor is avoided. In addition, in this embodiment, the network parameters of the plurality of target devices can be adjusted at the same time, so that the adjustment efficiency can be improved, and further, the network states of the plurality of target devices can be recovered well more quickly.

Referring to fig. 12, the method for adjusting parameters provided by the present application is applied to an electronic device, and includes:

S610: and sending network data information of the electronic equipment to the data platform, wherein the network data information characterizes the current network state of the electronic equipment.

The electronic device may be an intelligent home device, for example: air conditioner, camera, socket, switch etc.

As one way, the electronic device may actively send its own network data information to the data platform.

Wherein, alternatively, the electronic device may periodically send network data information to the data platform.

Alternatively, the electronic device may also aperiodically transmit network data information to the data platform. When the user finds that the electronic device does not respond, has serious response delay, is frequently offline and the like, the user can open an application program for controlling the electronic device and click the electronic device, an information display interface of the electronic device can appear at the moment, a control for adjusting the network state can be arranged in the interface, and when the user clicks the control, the electronic device can send own network data information to the data platform.

Alternatively, the data platform may send a network data information acquisition request to the electronic device, and the electronic device may send its own network data information to the data platform in response to the acquisition request.

The network data information acquisition request may be sent periodically or aperiodically.

S620: and receiving adjustment information corresponding to the current network state of the electronic equipment, which is returned by the data platform, and adjusting network parameters of the electronic equipment based on the adjustment information, wherein the adjustment information is acquired by the data platform when the network data information is determined to represent the current network state difference of the electronic equipment.

In one mode, the electronic device can analyze the message with the adjustment information sent by the data platform to adjust its own network parameters.

According to the parameter adjustment method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to the fact that the network state is poor is avoided. In addition, in the embodiment, because the electronic device can send the network data information in various modes, the data platform can respond in time and send the adjustment information to the electronic device, and the efficiency of adjusting the network state of the electronic device is improved.

In order to better understand the schemes of all embodiments of the present application, the following describes the basic flow of the parameter adjustment method of the present application in combination with the electronic device side and the data platform side.

Referring to fig. 13, the electronic device may send its own network data information to the data platform, after the data platform obtains the network data information, analyze the network data information, if the network data information characterizes the current network state of the electronic device is poor, obtain a mode of adjusting network parameters of the electronic device, obtain adjustment information corresponding to the current network state of the electronic device based on different modes, and send the adjustment information to the electronic device, and the electronic device adjusts its own network parameters after receiving the adjustment information. At this time, the data platform can further monitor the network data information after the at least one time of electronic device adjusts the network parameters, and if the monitored last time of network data information represents the network state difference of the electronic device, the data platform can acquire the adjustment mode of the network parameters of the electronic device, and perform network parameter adjustment on the electronic device again.

Referring to fig. 14, a parameter adjusting apparatus 800 according to the present application is provided, the apparatus 800 includes:

A network data information obtaining unit 810, configured to obtain network data information of the target device, where the network data information characterizes a current network state of the target device.

The adjustment information obtaining unit 820 is configured to characterize a current network state of the target device based on the network data information, and obtain adjustment information corresponding to the current network state of the target device.

The network parameter adjusting unit 830 is configured to perform network parameter adjustment on the target device based on the adjustment information.

Wherein, optionally, the adjustment information includes an adjusted network parameter, and the adjustment information obtaining unit 820 is specifically configured to obtain the adjusted network parameter corresponding to the current network state of the target device. The network parameter adjusting unit 830 is specifically configured to send the adjusted network parameter to the target device, so that the target device adjusts the current network parameter to the adjusted network parameter.

As a way, the adjustment information obtaining unit 820 is specifically configured to obtain the current network parameter of the target device if the network data information characterizes the current network state difference of the target device; and acquiring adjustment information corresponding to the current network state of the target equipment based on the current network parameters.

As another way, the adjustment information obtaining unit 820 is specifically configured to obtain an adjustment manner of the network parameter of the target device if the network data information characterizes the current network state difference of the target device; and acquiring adjustment information corresponding to the current network state of the target equipment based on the adjustment mode of the network parameters of the target equipment.

Wherein, optionally, the adjustment information obtaining unit 820 is specifically configured to obtain automatically generated intelligent configuration information if the adjustment mode of the network parameter of the target device is automatic adjustment, and take the intelligent configuration information as adjustment information corresponding to the current network state of the target device.

Optionally, the adjustment information obtaining unit 820 is specifically configured to trigger the client to display an input interface of the network parameter of the target device if the adjustment mode of the network parameter of the target device is manual adjustment; and acquiring network parameters input through the input interface, and taking the network parameters input through the input interface as adjustment information corresponding to the current network state of the target equipment.

As still another way, the adjustment information obtaining unit 820 is specifically configured to obtain, if the network data information characterizes the current network state difference of the target device, a first network parameter to be adjusted corresponding to the current network state of the target device; detecting whether the adjusted first network parameter to be adjusted exceeds a threshold corresponding to the first network parameter to be adjusted; and if the adjusted first network parameter to be adjusted exceeds the threshold value corresponding to the first network parameter to be adjusted, acquiring a second network parameter to be adjusted corresponding to the current network state of the target equipment, and acquiring adjustment information corresponding to the current network state of the target equipment based on the second network parameter to be adjusted.

As one manner, the plurality of target devices are provided, and the network data information obtaining unit 810 is specifically configured to obtain the network data information corresponding to each of the plurality of target devices, so as to obtain the plurality of network data information. The adjustment information obtaining unit 820 is specifically configured to obtain target network data information from a plurality of network data information, and obtain adjustment information corresponding to a current network state of a target device, where the target device is a target device corresponding to the target network data information, and the target network data information characterizes a current network state difference of the target device corresponding to the target network data information. The network parameter adjusting unit 830 is specifically configured to perform network parameter adjustment on the target device corresponding to the target network data information based on the adjustment information.

Optionally, the network parameter includes at least one of a data link layer retransmission number of the target device, a message transmission failure count threshold, a route aging count threshold, a network layer retransmission number, an enabled network layer retransmission number, a user operation layer retransmission number, an enabled user operation layer acknowledgement, a remote reset, a clear channel assessment threshold, and a transmit power.

Optionally, the network data information includes at least one of whether the target device successfully transmits the message, the number of message transmission failures, the reason of the message transmission failure, and whether the target device is removed.

Wherein the apparatus 800 further comprises:

A network data information monitoring unit 840, configured to monitor network data information of the target device within a monitoring window time;

If the last network data information represents the current network state difference of the target equipment in the monitoring window time, acquiring adjustment information corresponding to the last network data information of the target equipment;

and adjusting the network parameters of the target equipment based on the adjustment information corresponding to the last network data information of the target equipment.

Wherein, optionally, the network data information obtaining unit 810 is specifically configured to periodically obtain the network data information of the target device. The network data information monitoring unit 840 is specifically configured to determine a monitoring window time based on an acquisition time period of the network data information of the target device, where the monitoring window time is greater than or equal to the acquisition time period of the network data information of the target device.

Referring to fig. 15, a parameter adjusting apparatus 1000 according to the present application is provided, and the parameter adjusting apparatus 1000 is operated in an electronic device, and the apparatus 1000 includes:

The network data information sending unit 1010 is configured to send network data information of the electronic device itself to the data platform, where the network data information characterizes a current network state of the electronic device.

And the adjustment information receiving unit 1020 is configured to receive adjustment information corresponding to a current network state of the electronic device, which is returned by the data platform, and adjust network parameters of the electronic device based on the adjustment information, where the adjustment information is acquired by the data platform when determining that the network data information characterizes a current network state difference of the electronic device.

A server provided by the present application will be described with reference to fig. 16.

Referring to fig. 16, based on the above-mentioned parameter adjustment method and device, another server 100 capable of executing the above-mentioned parameter adjustment method is provided in the embodiment of the present application, and the server 100 may be used to run the data platform shown in the foregoing embodiment. The server 100 includes one or more (only one shown) processors 102, memory 104 coupled to each other. The memory 104 stores therein a program capable of executing the contents of the foregoing embodiments, and the processor 102 can execute the program stored in the memory 104.

Wherein the processor 102 may include one or more processing cores. The processor 102 utilizes various interfaces and lines to connect various portions of the overall server 100, perform various functions of the electronic device and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 104, and invoking data stored in the memory 104. Alternatively, the processor 102 may be implemented in hardware in at least one of digital signal Processing (DIGITAL SIGNAL Processing, DSP), field-Programmable gate array (Field-Programmable GATE ARRAY, FPGA), programmable logic array (Programmable Logic Array, PLA). The processor 102 may integrate one or a combination of several of a central processing unit (Central Processing Unit, CPU), an image processor (Graphics Processing Unit, GPU), and a modem, etc. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for being responsible for rendering and drawing of display content; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 102 and may be implemented solely by a single communication chip.

The Memory 104 may include random access Memory (Random Access Memory, RAM) or Read-Only Memory (ROM). Memory 104 may be used to store instructions, programs, code sets, or instruction sets. The memory 104 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (e.g., a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described below, etc. The storage data area may also store data created by the terminal in use (such as phonebook, audio-video data, chat-record data), etc.

Referring to fig. 17, a block diagram of a computer readable storage medium according to an embodiment of the present application is shown. The computer-readable storage medium 3000 has stored therein program code that can be invoked by a processor to perform the methods described in the above method embodiments.

The computer-readable storage medium 3000 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer readable storage medium 800 comprises a non-volatile computer readable storage medium (non-transitory computer-readable storage medium). The computer readable storage medium 3000 has storage space for program code 3010 to perform any of the method steps described above. The program code can be read from or written to one or more computer program products. Program code 3010 may be compressed, for example, in a suitable form.

In summary, the method, the device, the server, the computer program product and the storage medium for parameter adjustment provided by the application are used for obtaining the network data information of the target device, characterizing the current network state of the target device according to the network data information, obtaining the adjustment information corresponding to the current network state of the target device according to the current network state of the target device, and adjusting the network parameters of the target device according to the adjustment information. By the method, the network parameters of the target equipment can be adjusted based on the network data information uploaded by the target equipment, and the network state of the target equipment is adjusted, so that the target equipment can have a more stable network state, the probability of normal linkage of the target equipment is improved, and the manpower consumption caused by the fact that the position of the target equipment needs to be changed due to poor network state is avoided.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the application has been described in detail with reference to the foregoing embodiments, it will be appreciated by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (13)

1. A method of parameter adjustment, the method comprising:

acquiring network data information of target equipment, wherein the network data information characterizes the current network state of the target equipment;

Characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment;

The step of characterizing the current network state of the target device based on the network data information, and obtaining adjustment information corresponding to the current network state of the target device includes:

if the network data information represents the current network state difference of the target equipment, acquiring an adjustment mode of network parameters of the target equipment;

If the adjustment mode of the network parameters of the target equipment is automatic adjustment, automatically-generated intelligent configuration information is obtained, the intelligent configuration information is used as adjustment information corresponding to the current network state of the target equipment, and the intelligent configuration information is generated by automatically analyzing the reason causing the current network state difference of the target equipment according to the network data information by a data platform;

adjusting network parameters of the target equipment based on the adjustment information;

Monitoring at least two pieces of network data information of the target equipment in a monitoring window time;

if the network data information represents the current network state difference of the target equipment in the last time within the time of the monitoring window, acquiring adjustment information corresponding to the network data information of the target equipment in the last time;

And adjusting network parameters of the target equipment based on the adjustment information corresponding to the network data information of the last time of the target equipment.

2. The method according to claim 1, wherein the adjustment information includes adjusted network parameters, and the obtaining adjustment information corresponding to the current network state of the target device includes:

acquiring the adjusted network parameters corresponding to the current network state of the target equipment;

The adjusting the network parameters of the target device based on the adjustment information includes:

And sending the adjusted network parameters to the target equipment so that the target equipment adjusts the current network parameters into the adjusted network parameters.

3. The method according to claim 1, wherein the method further comprises:

If the adjustment mode of the network parameters of the target equipment is manual adjustment, triggering the client to display an input interface of the network parameters of the target equipment;

And acquiring the network parameters input through the input interface, and taking the network parameters input through the input interface as adjustment information corresponding to the current network state of the target equipment.

4. The method of claim 1, wherein the obtaining network data information of the target device comprises:

Periodically acquiring the network data information of the target device;

The method further comprises the steps of:

and determining the monitoring window time based on the acquisition time period of the network data information of the target device, wherein the monitoring window time is greater than or equal to the acquisition time period of the network data information of the target device.

5. The method according to claim 1, wherein the characterizing the current network state of the target device based on the network data information, and obtaining the adjustment information corresponding to the current network state of the target device, comprises:

if the network data information represents the current network state difference of the target equipment, acquiring a first network parameter to be adjusted corresponding to the current network state of the target equipment;

Detecting whether the adjusted first network parameter to be adjusted exceeds a threshold corresponding to the first network parameter to be adjusted;

And if the adjusted first network parameter to be adjusted exceeds the threshold value corresponding to the first network parameter to be adjusted, acquiring a second network parameter to be adjusted corresponding to the current network state of the target equipment, and acquiring adjustment information corresponding to the current network state of the target equipment based on the second network parameter to be adjusted.

6. The method of claim 1, wherein the target device is a plurality of target devices, and wherein the obtaining network data information of the target device comprises:

acquiring the network data information corresponding to each of a plurality of target devices to obtain a plurality of network data information;

The step of characterizing the current network state of the target device based on the network data information, and obtaining adjustment information corresponding to the current network state of the target device includes:

Acquiring target network data information from a plurality of pieces of network data information, and acquiring adjustment information corresponding to the current network state of target equipment, wherein the target equipment is target equipment corresponding to the target network data information, and the target network data information represents the current network state difference of the target equipment corresponding to the target network data information;

The adjusting the network parameters of the target device based on the adjustment information includes:

and adjusting network parameters of target equipment corresponding to the target network data information based on the adjustment information.

7. The method of any of claims 1-6, wherein the network parameters include at least one of a number of data link layer retransmissions, a message transmission failure count threshold, a route aging count threshold, a number of network layer retransmissions, an enabled network layer retransmission, a number of user operation layer retransmissions, an enabled user operation layer acknowledgement, a remote reset, a clear channel assessment threshold, a transmit power of the target device.

8. The method of any of claims 1-6, wherein the network data information includes at least one of whether the target device sent the message successfully, the number of message sending failures, the reason for the message sending failure, and whether the target device was removed.

9. A method of parameter adjustment, the method comprising:

Transmitting network data information of the electronic equipment to a data platform, wherein the network data information characterizes the current network state of the electronic equipment;

receiving adjustment information corresponding to the current network state of the electronic equipment, which is returned by the data platform, and adjusting network parameters of the electronic equipment based on the adjustment information, wherein the adjustment information is acquired by the data platform when the network data information is determined to represent the current network state difference of the electronic equipment, and the adjustment information is intelligent configuration information automatically generated by automatically analyzing the reason for the current network state difference of the electronic equipment according to the network data information when the adjustment mode of the network parameters of the electronic equipment is automatic adjustment;

transmitting at least two pieces of network data information of the electronic equipment in the monitoring window time to a data platform;

and receiving adjustment information corresponding to the network data information of the electronic equipment for the last time returned by the data platform, and adjusting network parameters of the electronic equipment based on the adjustment information.

10. A parameter adjustment device, the device comprising:

A network data information obtaining unit, configured to obtain network data information of a target device, where the network data information characterizes a current network state of the target device;

An adjustment information acquisition unit, configured to acquire network data information of a target device, where the network data information characterizes a current network state of the target device; characterizing the current network state of the target equipment based on the network data information, and acquiring adjustment information corresponding to the current network state of the target equipment; the step of characterizing the current network state of the target device based on the network data information, and obtaining adjustment information corresponding to the current network state of the target device includes: if the network data information represents the current network state difference of the target equipment, acquiring an adjustment mode of network parameters of the target equipment; if the adjustment mode of the network parameters of the target equipment is automatic adjustment, automatically-generated intelligent configuration information is obtained, the intelligent configuration information is used as adjustment information corresponding to the current network state of the target equipment, and the intelligent configuration information is intelligently generated by a data platform according to the network data information by automatically analyzing the reason causing the current network state difference of the target equipment;

A network parameter adjustment unit, configured to adjust network parameters of the target device based on the adjustment information; monitoring at least two pieces of network data information of the target equipment in a monitoring window time; if the network data information represents the current network state difference of the target equipment in the last time within the time of the monitoring window, acquiring adjustment information corresponding to the network data information of the target equipment in the last time; and adjusting network parameters of the target equipment based on the adjustment information corresponding to the network data information of the last time of the target equipment.

11. A server comprising one or more processors and memory;

One or more programs stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-8.

12. A computer program product comprising computer programs/instructions which, when executed by a processor, implement the steps of the method of any of claims 1-8.

13. A computer readable storage medium, characterized in that the computer readable storage medium has stored therein a program code, wherein the method of any of claims 1-8 is performed when the program code is run.