CN112887138A - Network equipment adding method, system, terminal and storage medium - Google Patents

Abstract

The application relates to a network equipment adding method, which comprises the steps of obtaining network request information of current network equipment; acquiring the bandwidth allowance of the current network; determining a bandwidth threshold based on the bandwidth margin of the current network, wherein the bandwidth threshold is lower than the bandwidth margin; based on the network request information of the current network device, the occupied bandwidth of the network device is limited and is lower than the bandwidth threshold. The method and the device have the effect of reducing the influence of the newly accessed network device on other network devices.

Description

Network equipment adding method, system, terminal and storage medium

Technical Field

The present application relates to the field of network management, and in particular, to a method, a system, a terminal, and a storage medium for adding a network device.

Background

The network equipment is a physical entity connected to the network, and has various kinds, including bridge equipment and terminal equipment, the bridge equipment includes switches, routers, gateways, etc., and mainly plays roles of network distribution, management, protocol conversion, etc., and the terminal equipment includes computers, broadband televisions, mobile phones, intelligent sound equipment, etc., and is mainly used for uploading and downloading network data.

The network bandwidth is a short term "bandwidth" and refers to the amount of data that can be transmitted in a unit time, and the larger the bandwidth is, the larger the amount of data that can be transmitted is. At present, after the network device accesses the broadband, the occupied bandwidth of the network device is in a freely allocable state, for example, the network device may directly occupy the whole bandwidth when automatically upgrading the system or updating software, so that it is difficult for other network devices to normally download or upload data.

For the above related technologies, the inventor thinks that there is a defect that the way of freely allocating the bandwidth of the newly accessed network device easily affects the normal internet access of other network devices, thereby affecting the normal operation of other network devices.

Disclosure of Invention

In a first aspect, the present application provides a network device adding method for reducing the influence of a new access network device on other network devices.

The application provides a network equipment adding method, which adopts the following technical scheme:

a network device adding method includes the steps of,

acquiring network request information of current network equipment;

acquiring the bandwidth allowance of the current network;

determining a bandwidth threshold based on the bandwidth margin of the current network, wherein the bandwidth threshold is lower than the bandwidth margin;

based on the network request information of the current network device, the occupied bandwidth of the network device is limited and is lower than the bandwidth threshold.

By adopting the technical scheme, when the network request information of the network equipment is acquired, the new network equipment is added to the current network, or the new network equipment starts to start the networking function, the bandwidth threshold of the network equipment is determined according to the bandwidth allowance of the current network, so that the network equipment can be kept on line under the condition of being lower than the bandwidth threshold under the condition of not being specially specified by a user, the impact on the current network is reduced, and the influence of the newly accessed network equipment on other network equipment is reduced.

Preferably, the bandwidth threshold value is a percentage value or a fixed value;

if the bandwidth threshold value adopts a fixed value, modifying the bandwidth threshold value of the current network equipment when the setting information input by the user is acquired;

and if the bandwidth threshold value adopts a percentage value, the bandwidth threshold value is equal to the ratio of the highest occupied bandwidth value of the network equipment to the bandwidth allowance of the current network.

By adopting the technical scheme, the bandwidth threshold can be adjusted according to the intention of a user, and for some network equipment which is not commonly used and has stable network use condition, a fixed value such as a broadband television can be selected, so that the network equipment can not be normally used; the bandwidth threshold is suitable for devices without an upper limit of bandwidth utilization, such as computers, and the like, and is reasonably distributed according to the current bandwidth allowance, so that the situation that part of network devices cannot surf the internet normally due to congestion of network utilization is relieved.

Preferably, a priority designation operation is included, the priority designation operation including,

acquiring the adding information of the network equipment;

determining the priority level of the network equipment based on the adding information of the network equipment;

and determining the bandwidth threshold value of the current network equipment based on the priority level of the current network equipment and the bandwidth allowance of the current network, wherein the higher the priority level of the current network equipment is, the higher the bandwidth threshold value is.

By adopting the technical scheme, the bandwidth of the newly added network equipment is distributed according to the priority of the network equipment appointed by the user, the higher the priority is, the higher the ratio of the bandwidth threshold to the bandwidth allowance is, namely, the higher the bandwidth which can be occupied by the current network equipment is, so that the priority used by the network equipment is divided, the bandwidth is reasonably distributed, and the network utilization rate is improved.

Preferably, further comprising a forced deactivation operation, said forced deactivation operation comprising,

acquiring the bandwidth allowance of the current network;

judging whether vacancy information is output or not based on the bandwidth allowance of the current network, and outputting the vacancy information if the bandwidth allowance is lower than a set threshold;

and outputting a deactivation instruction for keeping the network channel of the new access network equipment in a closed state based on the vacancy information.

By adopting the technical scheme, if the bandwidth allowance of the current network is lower than the set threshold value when the new network equipment is added, the bandwidth allowance is insufficient, and at the moment, the network channel of the new access network equipment is kept in a closed state, namely, the new network equipment is prevented from entering an activation state of a system or software updating in a networking manner, so that the normal use of the new access equipment is influenced.

Preferably, the forced disabling operation further comprises,

acquiring forced occupation information corresponding to other network equipment under the current network;

and outputting a deactivation instruction for keeping the network channel of the new access network equipment in a closed state based on the forced occupation information.

By adopting the technical scheme, if other network equipment occupies the bandwidth emergently, the forced occupation information is output, and the newly accessed network equipment is shielded based on the forced occupation information, so that the influence of the newly accessed network equipment on the emergently occupied network equipment is reduced.

Preferably, a bandwidth allocation operation is further included, the bandwidth allocation operation including,

acquiring the adding information of the network equipment;

determining an optimal bandwidth value of the network device based on the adding information of the network device;

acquiring the total bandwidth of the current network;

the method comprises the steps of obtaining the network starting state of each network device in the current network, calculating the bandwidth allowance of the current network based on the network starting state and the bandwidth total amount of the current network, if any network device is in a stopping state, the optimal bandwidth value is counted into the bandwidth allowance, and if any network device is in a starting state, the optimal bandwidth value is not counted into the bandwidth allowance.

By adopting the technical scheme, the optimal bandwidth value can ensure the normal operation of the network equipment under the condition of reducing the bandwidth occupation as much as possible, and when part of the equipment is possibly idle, namely the condition of temporarily not needing the network exists, but the available bandwidth, namely the optimal bandwidth value, needs to be reserved, so that if the network equipment is in a starting state, the optimal bandwidth value is not counted into the bandwidth allowance, the influence on the normal operation of the current equipment due to the fact that the other network equipment occupies the bandwidth allowance is avoided, and if the network equipment is stopped, the idle bandwidth is distributed to the other network equipment, so that the network utilization rate is improved.

Preferably, the step of obtaining the optimal bandwidth value in the step of allocating bandwidth includes,

acquiring network request information of current network equipment;

determining a given bandwidth of the network device based on a bandwidth margin of a current network;

acquiring the running condition of the current network equipment under a given bandwidth, and starting debugging operation when the running condition is in a normal running state;

the debugging operation comprises the steps of debugging the data to be stored,

based on the given bandwidth of the current network equipment, outputting a debugging instruction for gradually reducing the value of the given bandwidth, monitoring the running condition of the network equipment in real time, interrupting the debugging instruction when the running condition is switched from a normal running state to an abnormal running state, and generating an optimal bandwidth value based on the previously recorded value of the given bandwidth.

By adopting the technical scheme, when the bandwidth margin of the current network is enough for the normal operation of the current network equipment, debugging is started, the given bandwidth is gradually reduced, the lowest given bandwidth of the network equipment in a normal operation state is tested, and then the lowest given bandwidth, namely the optimal bandwidth value, is recorded, and the optimal bandwidth value can ensure the normal operation of the network equipment under the condition of reducing the bandwidth occupation as much as possible, so that the influence on other network equipment can be reduced when the network equipment works at the optimal bandwidth value.

In a second aspect, in order to reduce the influence of a newly accessed network device on other network devices, the application provides a network device adding system, which adopts the following technical scheme:

a network device addition system includes a network device adding unit,

the network request information acquisition module is used for acquiring the network request information of the current network equipment;

the bandwidth allowance obtaining module is used for obtaining the bandwidth allowance of the current network;

a threshold determination module, configured to determine a bandwidth threshold based on a bandwidth margin of a current network, where the bandwidth threshold is lower than the bandwidth margin;

and the network allocation module is used for limiting the occupied bandwidth of the network equipment and enabling the occupied bandwidth to be lower than the bandwidth threshold value based on the network request information of the current network equipment.

By adopting the technical scheme, the network request information is acquired through the network request information acquisition module, and the bandwidth allowance of the current network is acquired through the bandwidth allowance acquisition module; determining a bandwidth threshold by a threshold determination module; and controlling the occupied bandwidth of the network equipment not to be higher than a bandwidth threshold value through a network allocation module, thereby ensuring that the bandwidth margin is not zero under the normal condition, coping with the condition of network congestion and reducing the influence of newly accessed network equipment on other network equipment.

In a third aspect, to reduce the impact of a new access network device on other network devices. The application provides an intelligent terminal, adopts following technical scheme:

an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the network equipment adding method.

By adopting the technical scheme, the bandwidth threshold of the network equipment is determined according to the bandwidth allowance of the current network, so that the new network equipment can be kept on line under the condition of being lower than the bandwidth threshold under the condition of not being specially specified by a user, the impact on the current network is reduced, and the influence of the newly accessed network equipment on other network equipment is reduced.

In a fourth aspect, to reduce the impact of a new access network device on other network devices. The application provides a computer-readable storage medium, which adopts the following technical scheme:

a computer-readable storage medium storing a computer program that can be loaded by a processor and executes any of the above-described network device addition methods.

By adopting the technical scheme, the bandwidth threshold of the network equipment is determined according to the bandwidth allowance of the current network, so that the new network equipment can be kept on line under the condition of being lower than the bandwidth threshold under the condition of not being specially specified by a user, the impact on the current network is reduced, and the influence of the newly accessed network equipment on other network equipment is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when network request information of the network equipment is acquired, the fact that new network equipment is added to a current network is indicated, or the new network equipment starts to start a networking function, a bandwidth threshold value of the network equipment is determined according to the bandwidth allowance of the current network, so that the network equipment can be kept on line under the condition that the bandwidth allowance is lower than the bandwidth threshold value under the condition that the network equipment is not specially specified by a user, impact on the current network is reduced, and the influence of newly accessed network equipment on other network equipment is reduced;

2. the method comprises the steps that bandwidth allocation is carried out on newly added network equipment according to the priority of the network equipment appointed by a user, the higher the priority is, the higher the ratio of a bandwidth threshold value to bandwidth allowance is, namely the higher the bandwidth which can be occupied by the current network equipment is, so that the priority used by the network equipment is divided, the bandwidth is allocated reasonably, and the network utilization rate is improved;

3. the optimal bandwidth value can guarantee the normal operation of the network equipment under the condition of reducing the bandwidth occupation as much as possible, if the network equipment is in a starting state, the optimal bandwidth value does not count the bandwidth allowance, the influence of the bandwidth allowance occupied by other network equipment on the normal operation of the current equipment is avoided, and if the network equipment is stopped, the idle bandwidth is distributed to other network equipment, so that the network utilization rate is improved.

Drawings

Fig. 1 is a system block diagram of a network device addition system according to an embodiment of the present application.

Fig. 2 is a flowchart of a method of a network device adding method according to an embodiment of the present application.

Fig. 3 is a partial method flowchart of a network device adding method according to an embodiment of the present application, and mainly shows a step of acquiring a bandwidth margin.

Fig. 4 is a partial method flowchart of a network device adding method according to an embodiment of the present application, and mainly shows an obtaining step of an optimal bandwidth value.

Fig. 5 is a partial method flowchart of a network device adding method according to an embodiment of the present application, which mainly shows an operation step of forced deactivation.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a network equipment adding system. Referring to fig. 1, the network device adding system includes a network request information obtaining module, a bandwidth margin obtaining module, a threshold determining module, and a network allocating module. The network request information acquisition module, the bandwidth margin acquisition module, the threshold determination module and the network allocation module can all adopt processors.

The embodiment of the application also discloses a network equipment adding method and a network equipment adding system applying the network equipment adding method. Referring to fig. 1 and 2, the network device adding method includes the following steps:

s100: the network request information acquisition module acquires the network request information of the current network equipment.

Specifically, after the network device is accessed to the current network through a WLAN port or wifi, the network device sends network request information to devices such as a gateway and a router, and requests to allocate bandwidth for networking, and the network device cannot surf the internet before obtaining corresponding networking permissions.

S200: the bandwidth allowance obtaining module obtains the bandwidth allowance of the current network.

Specifically, the bandwidth margin, that is, the bandwidth remaining after subtracting the bandwidth quota allocated by all the networked network devices from the total bandwidth under the current network, may be represented by a quantized number or may be represented by a percentage, for example, if the total bandwidth is 100M, the allocated credit is 50M, and the bandwidth margin is 50M or 50%.

S300: the threshold determination module determines a bandwidth threshold based on a bandwidth headroom of a current network, the bandwidth threshold being lower than the bandwidth headroom.

S400: the network allocation module limits the occupied bandwidth of the network equipment and makes the occupied bandwidth of the network equipment lower than a bandwidth threshold value based on the network request information of the current network equipment.

Specifically, the bandwidth threshold is lower than the bandwidth margin, and the occupied bandwidth of the newly accessed network device is lower than the bandwidth threshold, so that the newly accessed network device is prevented from occupying the bandwidth limit of other network devices, and the influence of the newly accessed network device on other network devices is reduced.

The bandwidth threshold in the step S300 is a percentage value or a fixed value, and is divided into the following two cases:

if the bandwidth threshold value is a fixed value, when the setting information input by the user is acquired, the bandwidth threshold value of the current network equipment is modified, the setting information is input by the user or an installer, and the bandwidth threshold value is obtained through calculation of the setting information. For example, in a current network device, such as a broadband television, a video with a definition of 1080P can be smoothly played in a network with a bandwidth of 8M, and a jam phenomenon occurs in a network with a bandwidth lower than 8M, the bandwidth threshold may be 8M, and 8M may also be an optimal bandwidth value of the broadband television.

If the bandwidth threshold value adopts a percentage value, the bandwidth threshold value is equal to the ratio of the highest occupied bandwidth value of the network equipment to the bandwidth allowance. The bandwidth threshold is applicable to devices without an upper limit of bandwidth utilization, such as computers, and the like, in a percentage manner, a gateway, a route and the like directly perform percentage allocation according to the bandwidth allowance of the current network, for example, the computer acquires 60% of the bandwidth allowance, and the intelligent sound acquires 10% of the bandwidth allowance, so that the situation that part of network devices cannot surf the internet normally due to congestion of network utilization is relieved.

Referring to fig. 3, the optimal bandwidth value is obtained through a bandwidth allocation operation, which includes the specific steps of S1: the method includes acquiring added information of the network device, where the added information may be device parameters, supported functions and applications of the network device. And S2, determining an optimal bandwidth value according to the added information, for example, 1080P video and live broadcast of broadband television are generally played, so that the bandwidth of 8M can support normal operation of the broadband television, and the bandwidth threshold can be 8M. When the occupied bandwidth of the network equipment is not lower than the optimal bandwidth value, the network equipment can normally operate; when the occupied bandwidth of the network device is lower than the optimal bandwidth value, the network device may run and play.

And because the system and software version of the newly accessed network device may be an old version, the network device generally activates the update function after networking, and the general system and software cannot be normally used during updating, for example, a television set top box cannot play videos during upgrading. To alleviate this problem, the bandwidth allocation operation further comprises the steps of:

and S3, acquiring the total bandwidth of the current network.

S4, obtaining the network starting state of each network device in the current network, calculating the bandwidth allowance of the current network based on the network starting state and the bandwidth total amount of the current network, if any network device is in the stopping state, the best bandwidth value is counted into the bandwidth allowance, and if any network device is in the starting state, the best bandwidth value is not counted into the bandwidth allowance.

Specifically, the optimal bandwidth value is a bandwidth limit reserved for the network device, when the network device needs to keep a stable network, the user can specify the optimal bandwidth value of the network device, when the network device is enabled, the bandwidth limit equal to the optimal bandwidth value of the network device needs to be separated from the bandwidth margin, and other network devices cannot use the separated bandwidth limit in a non-emergency state, so that the optimal bandwidth value is not included in the bandwidth margin, and the influence of encroachment on the normal operation of the network device is avoided. The bandwidth margin is the bandwidth total amount minus the optimal bandwidth value or the bandwidth threshold of the network device, and the network device does not repeatedly designate the bandwidth threshold after designating the optimal bandwidth value.

When the network equipment is closed and stopped, because the network equipment has no networking requirement, the optimal bandwidth value is re-counted into the bandwidth allowance, so that the optimal bandwidth value can be distributed to other network equipment, and the network utilization rate is further improved on the premise of not influencing the operation stability of part of the network equipment. When the network device is restarted, the optimal bandwidth value is separated from the bandwidth margin, and if the optimal bandwidth value is higher than the bandwidth margin of the current network, the user is required to manually adjust the bandwidth allocation.

Referring to fig. 4, the optimal bandwidth value may be obtained by a user according to the addition information of the network device, or may be obtained by debugging, and the optimal bandwidth value obtained by debugging is relatively more accurate, which includes the specific steps of,

a1, acquiring network request information of the current network equipment;

a2, determining the given bandwidth of the network equipment based on the bandwidth margin of the current network;

specifically, the given bandwidth is lower than the bandwidth margin, and the given bandwidth provided for the first time can be set manually or randomly, and is mainly used for trial and error.

A3, acquiring the running condition of the current network equipment under the given bandwidth, and enabling debugging operation when the running condition is in a normal running state.

Specifically, if the given bandwidth output by the gateway, the router, and other devices is not enough to enable the current network device to operate normally, the given bandwidth of the current network device is reassigned, that is, the given bandwidth is increased until the given bandwidth is enough to support the corresponding network device to enter a normal operation state, at this time, a debugging operation is started, and the debugging is started.

The debugging operation comprises the following steps:

the processor outputs debugging instructions for gradually reducing the value of the given bandwidth based on the given bandwidth of the current network equipment, and monitors the running condition of the network equipment in real time. And when the running condition of the network equipment is switched from the normal running state to the abnormal running state, interrupting the debugging instruction, and generating an optimal bandwidth value based on the previously recorded given bandwidth value.

Specifically, the value of the given bandwidth is gradually reduced, so that the bandwidth bottom limit of the network equipment is tested on the premise of ensuring normal operation. The switching from the normal operation state to the abnormal operation state can be represented as a process that the network device changes from smooth playing to a pause phenomenon in the playing process of the online video, the online song or the live content, and at the moment, the value of the given bandwidth recorded last time before the network device is in the abnormal operation state is the optimal bandwidth value. The optimal bandwidth value obtained through debugging can ensure the normal operation of the network equipment under the condition of reducing the bandwidth occupation of the network equipment as much as possible, so that the influence on other network equipment can be reduced when the network equipment works at the optimal bandwidth value.

In the same network, there may be some network devices that need to occupy the network bandwidth urgently, such as downloading important data, performing video chat, performing live network broadcast, etc., at this time, it is necessary to reduce the network fluctuation as much as possible so as to ensure normal use, and therefore, it is necessary to perform priority level designation operation and forced deactivation operation.

Referring to fig. 1, the priority designation operation includes:

b1, acquiring the adding information of the network equipment;

b2, determining the priority level of the network equipment based on the adding information of the network equipment;

specifically, the added information includes the type of network device, supported functions and purposes, etc., such as a computer used for live broadcasting, and live broadcasting needs to ensure the network stability to avoid affecting the work yield, so the computer generally needs to be assigned a higher priority. And some accessory devices, such as intelligent sound equipment with rich life sentiment, can select relatively low priority.

B3, determining the bandwidth threshold value based on the priority level of the current network device and the bandwidth allowance of the current network, wherein the higher the priority level of the current network device is, the higher the bandwidth threshold value is.

Specifically, the network requirements of the network devices may be sorted by priority, for example, two computers accessing the same network, one for entertainment and the other for live broadcast work, the priority of the computer for live broadcast work is generally higher than that of the computer for entertainment, and the bandwidth threshold of the computer for live broadcast work is higher than that of the computer for entertainment. Through the mode of priority assignment, the network bandwidth can be allocated according to the actual condition of the network equipment and the requirement of the user, so that the rationality of network utilization is improved, and the working efficiency of the user is improved.

Referring to fig. 5, the foregoing forced disabling operation is divided into two cases, one for the case of insufficient bandwidth margin and the other for the case of emergency occupation of the network device. Wherein the forced disabling operation for insufficient bandwidth margin comprises the steps of:

c1, acquiring the bandwidth allowance of the current network through a bandwidth allowance acquisition module;

c2, judging whether to output vacancy information or not based on the bandwidth allowance of the current network, and outputting vacancy information if the bandwidth allowance is lower than a set threshold;

specifically, when the bandwidth margin is not enough to support the use of the new network device, that is, the bandwidth margin is lower than the set threshold, vacancy information is output to indicate that the network has no vacant position, so as to remind the user to adjust the network bandwidth of other network devices or access the network devices to other networks, thereby avoiding the phenomenon of network congestion caused by excessive network devices and avoiding the influence on the normal internet access of each network device. The set threshold value may be a fixed value or a fixed percentage, or may be set to any value not higher than the optimal bandwidth value of the network device to be accessed to the current network.

And C3, outputting a deactivation instruction for keeping the network channel of the new access network device in a closed state based on the vacancy information.

Specifically, when the vacancy information is output, that is, the network has no vacant position, the gateway, the router and the like receive the deactivation instruction and close the network channel with the network device, so as to prevent the new network device from entering the activation state of the system or software update in a networking manner, thereby affecting the normal use of the new access device.

And the forced deactivation operation for the emergency occupation situation of the network equipment further comprises the following steps:

d1, acquiring forced occupation information corresponding to other network equipment under the current network;

and D2, outputting a deactivation instruction for keeping the network channel of the new access network device in a closed state based on the forced occupation information.

Specifically, the forced occupation information may be manually input by a user, the input mode may be a computer keyboard input mode, and when the user needs to perform an important work through a certain network device, the forced occupation information may be input, and a part or all of the bandwidth margin is forcibly occupied. When the forced occupation information corresponding to other network equipment in the same network is acquired, namely other network equipment is in an emergency occupation state and outputs the forced occupation information, a deactivation instruction is output, and at the moment, a gateway, a route and the like receive the deactivation instruction and close a network channel with the network equipment, so that the situation that the new network equipment enters an activation state of a system or software update in a networking mode is avoided, and the normal use of the new access equipment is influenced.

The embodiment also provides an intelligent terminal, which comprises a memory and a processor, wherein the processor can adopt a central processing unit such as a CPU or an MPU or a host system which is constructed by taking the CPU or the MPU as a core, and the memory can adopt storage devices such as a RAM, a ROM, an EPROM, an EEPROM, a FLASH, a magnetic disk and an optical disk. The memory has stored thereon a computer program that can be loaded by the processor and that executes the network device adding method described above.

The embodiment also provides a computer readable storage medium, which can adopt various media capable of storing program codes, such as a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk. The computer readable storage medium has stored therein a computer program that can be loaded by a processor and executes the above-described network device addition method.

The implementation principle of the network equipment adding method and system in the embodiment of the application is as follows: when a new network device is accessed, the system can determine the bandwidth threshold value, namely the bandwidth limit which can be occupied by the system according to the bandwidth allowance, so that the bandwidth limit is reserved for other network devices, the bandwidth occupation of the newly accessed network device is avoided, and the influence of the newly accessed network device on other network devices is reduced.

And the user can designate the priority of the newly accessed network equipment, the higher the priority is, the higher the bandwidth threshold value is, the network equipment can designate the lower priority when initially accessing the network, and the user can artificially increase the priority so as to increase the bandwidth threshold value.

When a user needs to execute emergency or important work through a certain network device, the network device can be controlled to output forced occupation information, and at the moment, a gateway, a route and the like receive a stop command and close a network channel with a newly accessed network device, so that the influence of the newly accessed network device on the network device is reduced, and the work is facilitated. And if the bandwidth allowance of the network is insufficient when the new network equipment is accessed to the current network, the system can refuse the network equipment to be networked.

The user can set the optimal bandwidth value of the network device through debugging operation or adding information of the network device, and when the network device is started, even if the network device does not download or upload data currently, the optimal bandwidth value is not counted in the bandwidth allowance, so that the influence of the bandwidth limit on the normal operation of the network device due to the encroachment is avoided. When the network equipment is closed and stopped, the system re-records the optimal bandwidth value into the bandwidth allowance, and the original bandwidth allowance can be distributed to other network equipment, so that the network utilization rate is improved on the premise of not influencing the running stability of part of network equipment.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A network device adding method is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

acquiring network request information of current network equipment;

acquiring the bandwidth allowance of the current network;

determining a bandwidth threshold based on the bandwidth margin of the current network, wherein the bandwidth threshold is lower than the bandwidth margin;

based on the network request information of the current network device, the occupied bandwidth of the network device is limited and is lower than the bandwidth threshold.

2. The network device adding method according to claim 1, wherein: the bandwidth threshold value adopts a percentage value or a fixed value;

if the bandwidth threshold value adopts a fixed value, modifying the bandwidth threshold value of the current network equipment when the setting information input by the user is acquired;

and if the bandwidth threshold value adopts a percentage value, the bandwidth threshold value is equal to the ratio of the highest occupied bandwidth value of the network equipment to the bandwidth allowance of the current network.

3. The network device adding method according to claim 1, wherein: further comprising a priority designation operation, the priority designation operation comprising,

acquiring the adding information of the network equipment;

determining the priority level of the network equipment based on the adding information of the network equipment;

and determining the bandwidth threshold value of the current network equipment based on the priority level of the current network equipment and the bandwidth allowance of the current network, wherein the higher the priority level of the current network equipment is, the higher the bandwidth threshold value is.

4. The network device adding method according to claim 1, wherein: further comprising a forced deactivation operation, the forced deactivation operation comprising,

acquiring the bandwidth allowance of the current network;

judging whether vacancy information is output or not based on the bandwidth allowance of the current network, and outputting the vacancy information if the bandwidth allowance is lower than a set threshold;

and outputting a deactivation instruction for keeping the network channel of the new access network equipment in a closed state based on the vacancy information.

5. The network device adding method according to claim 4, wherein: the operation of forcing a deactivation further comprises,

acquiring forced occupation information corresponding to other network equipment under the current network;

and outputting a deactivation instruction for keeping the network channel of the new access network equipment in a closed state based on the forced occupation information.

6. The network device adding method according to claim 1, wherein: further comprising a bandwidth allocation operation comprising,

acquiring the adding information of the network equipment;

determining an optimal bandwidth value of the network device based on the adding information of the network device;

acquiring the total bandwidth of the current network;

the method comprises the steps of obtaining the network starting state of each network device in the current network, calculating the bandwidth allowance of the current network based on the network starting state and the bandwidth total amount of the current network, if any network device is in a stopping state, the optimal bandwidth value is counted into the bandwidth allowance, and if any network device is in a starting state, the optimal bandwidth value is not counted into the bandwidth allowance.

7. The network device adding method according to claim 6, wherein: the optimal bandwidth value acquiring step in the bandwidth allocation operation step includes,

acquiring network request information of current network equipment;

determining a given bandwidth of the network device based on a bandwidth margin of a current network;

acquiring the running condition of the current network equipment under a given bandwidth, and starting debugging operation when the running condition is in a normal running state;

the debugging operation comprises the steps of debugging the data to be stored,

based on the given bandwidth of the current network equipment, outputting a debugging instruction for gradually reducing the value of the given bandwidth, monitoring the running condition of the network equipment in real time, interrupting the debugging instruction when the running condition is switched from a normal running state to an abnormal running state, and generating an optimal bandwidth value based on the previously recorded value of the given bandwidth.

8. A network device adding system, comprising,

the network request information acquisition module is used for acquiring the network request information of the current network equipment;

the bandwidth allowance obtaining module is used for obtaining the bandwidth allowance of the current network;

a threshold determination module, configured to determine a bandwidth threshold based on a bandwidth margin of a current network, where the bandwidth threshold is lower than the bandwidth margin;

and the network allocation module is used for limiting the occupied bandwidth of the network equipment and enabling the occupied bandwidth to be lower than the bandwidth threshold value based on the network request information of the current network equipment.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the network device adding method according to any one of claims 1 to 7.

10. A computer-readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which executes the network device adding method according to any one of claims 1 to 7.

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