CN111901821A - Network state monitoring management system and method based on big data - Google Patents

Abstract

The invention discloses a network state monitoring and managing system and a method based on big data, the monitoring and managing system comprises an area position obtaining module, a historical access network counting module, a historical access network judging module and an access network selecting module, the area position acquisition module is used for acquiring the current area position of the mobile terminal, the historical access network counting module is used for acquiring and counting the historical access networks of the current area position of the mobile terminal within a period of time preset recently, the historical access network judging module is used for judging the number of the networks in the historical access networks, only one network is in the historical access networks, the mobile terminal is directly accessed to the network, and the access network selection module selects the access network of the mobile terminal according to the motion state of the mobile terminal and the current information of each historical access network when the number of the historical access networks is more than or equal to two.

Description

A network status monitoring and management system and method based on big data

technical field

The invention relates to the field of big data, in particular to a network state monitoring and management system and method based on big data.

Background technique

With the rapid development of mobile communication technology, more and more families, communities, and enterprises cover the network inside, which is convenient for users to connect to the network at any time. However, there are many networks that are restricted networks. The restricted networks often only cover a certain area, and only users with permissions are allowed to access. These restrictions result in a limited number of users in the restricted network, and often there is no terminal connection for a long time. In the case of access, the network is in a working state for a long time, resulting in a waste of resources.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a network state monitoring and management system and method based on big data, so as to solve the problems in the prior art.

To achieve the above object, the present invention provides the following technical solutions:

A network state monitoring and management system based on big data, the monitoring and management system includes a regional location acquisition module, a historical access network statistics module, a historical access network judgment module and an access network selection module, and the regional location acquisition module uses For acquiring the current location of the mobile terminal, the historical access network statistics module is used to acquire and count the historical access networks of the current location of the mobile terminal within a preset period of time, and the historical access network judging module determines the historical access network. There is only one network in the historical access network, and the mobile terminal is directly connected to this network. If the number of historical access networks is greater than or equal to two, make the access network selection module according to the mobile terminal The access network of the mobile terminal is selected based on the motion state and the current information of each historical access network.

More optimally, the access network selection module includes a motion state acquisition module, a first network selection module and a second network selection module, and the motion state acquisition module is used to acquire the motion state of the mobile terminal. The first network selection module is instructed to select the access network when the stationary state and the duration of the stationary state is greater than or equal to the retention duration threshold, and in other cases, the second network selection module is instructed to select the access network.

Preferably, the first network selection module includes a first priority network selection module, a first priority network state acquisition module, a first connection control module and a second connection control module, and the monitoring and management system further includes a first priority network. A control module and an identification adding module, the first priority network selection module is used to obtain the network used by the mobile terminal in the current area location for the last time as the first priority network, and the first priority network state acquisition module is used to obtain the first priority network. Whether the current state information of a priority network is the working state or the dormant state, when the first connection control module is in the working state, the mobile terminal is connected to the first priority network; The access network of the mobile terminal is selected from among them, wherein the first candidate network is a historical access network other than the first priority network, and the second connection control module includes a channel acquisition module, a second candidate network screening module, and a network switching acquisition module. module, a network tendency index calculation module, a best candidate network selection module and a network tendency index comparison module, the channel collection module collects the average channel utilization rate of each first candidate network in the current time period, the second candidate network screening module The first candidate network whose average utilization rate of the channel is less than or equal to the average utilization threshold is used as the second candidate network, and the network switching collection module is used to collect the number of times that the mobile terminal actively switches the network at the current location in the most recent preset period of time, and the number of times that the mobile terminal actively switches the network from other networks. The number of times that the network is switched to each second candidate network and the number of times that the network is switched from each second candidate network to other networks. The candidate network selection module sorts the network tendency index of each second candidate network in descending order, and obtains the second candidate network whose network tendency index is ranked first as the best candidate network. The network propensity index of the best candidate network is compared with the network propensity threshold. When the network propensity index is greater than or equal to the network propensity threshold, the mobile terminal is connected to the best candidate network. When the network propensity index is less than the network propensity threshold, the information is transmitted to the first priority network. The control module switches the first priority network to the working state, and connects the mobile terminal to the first priority network; the first priority network control module is used to control the switching state information of the first priority network, and the identification adding module is used to connect the mobile terminal to the first priority network. A priority identifier is added to the data when the mobile terminal interacts with the first priority network.

Preferably, the second network selection module includes a coverage acquisition module and a coverage comparison module, the coverage acquisition module is used to acquire the network coverage of each historical access network, and the coverage comparison module compares each network coverage, and connect the mobile terminal to the historical access network with the widest coverage.

Preferably, the monitoring and management system further includes a network change monitoring module, a first network state collection module, a second network state collection module, a priority identification ratio calculation module, and a priority identification ratio comparison module, the network change monitoring module. Monitor the mobile terminal, when it is detected that the mobile terminal leaves the current area, and when the mobile terminal accesses other networks, it transmits information to make the first network status acquisition module collect the channel utilization of the first priority network, and in the first priority network The channel utilization is less than or equal to the second channel utilization threshold, so that the second network state acquisition module collects the number of other mobile terminals each accessing the first priority network, and the number of priority identifiers on the data when interacting with the first priority network data. The priority identifier ratio calculation module calculates the priority identifier ratio according to the data collected by the network state second collection module, and the priority identifier ratio comparison module transmits the information to the first priority identifier ratio when the priority identifier ratio is less than or equal to the ratio threshold. A priority network control module switches the first priority network to a sleep state.

A network state monitoring and management method based on big data, the monitoring and management method comprises the following steps:

Obtaining the current area location of the mobile terminal, and obtaining the historical access network of the current area location of the mobile terminal in the most recent preset period of time,

If there is only one network in the historical access network, directly connect the mobile terminal to this network;

If the number of historical access networks is greater than or equal to two,

Obtain the motion state of the mobile terminal, if it is monitored that the mobile terminal is in a static state, and the holding time of the static state is greater than or equal to the holding time threshold, select the access network of the mobile terminal according to the current information of each historical access network;

Otherwise, the network coverage of each historical access network is obtained separately, and the mobile terminal is connected to the historical access network with the widest coverage.

Preferably, the selecting the access network of the mobile terminal according to the current information of each historical access network includes:

Step S100: the network used by the mobile terminal in the current area for the last time is the first priority network,

If the current state information of the first priority network is a working state, connect the mobile terminal to the first priority network, and add a priority identifier to the data when the mobile terminal exchanges data with the first priority network, wherein the state information includes working state and dormancy state, the working state is that the channel of the network is in a transmitting state, and the dormant state is that the channel of the network is in a non-transmitting state,

If the current state information of the first priority network is the dormant state, go to step S200;

Step S200: Select the historical access network in working state as the first candidate network from the historical access networks other than the first priority network, collect the average channel utilization rate of each first candidate network in the current time period, and classify the channel as the first candidate network. The network whose average utilization rate is less than or equal to the average utilization threshold is used as the second candidate network, and the number K of the mobile terminal actively switching the network in the current area and the number of switching from other networks to each second candidate network in the most recent preset period of time are respectively collected. M and the number of times N of switching from each second candidate network to other networks, go to step S300;

Step S300: Select the best candidate network according to the number K, the number M and the number N of each second candidate network, and go to step S400;

Step S400: Compare the network propensity index of the best candidate network with the network propensity threshold, if the network propensity index is greater than or equal to the network propensity threshold, connect the mobile terminal to the best candidate network, and if the network propensity index is less than the network propensity threshold, transmit information For the first priority network, the first priority network is switched to the working state, the mobile terminal is connected to the first priority network, and a priority identifier is added to the data when the mobile terminal exchanges data with the first priority network.

More optimally, selecting the best candidate network in the step S300 includes:

Calculate the network propensity index P=M/K+(1-N/K) of each second candidate network,

The network propensity indices of each second candidate network are sorted in descending order, and the second candidate network whose network propensity index is ranked first is obtained as the best candidate network.

Preferably, in the step S400, the first priority network is switched to the working state, and after the mobile terminal is connected to the first priority network, the steps include:

Monitor the mobile terminal, when it is detected that the mobile terminal leaves the current area and the mobile terminal accesses other networks, it is judged whether to adjust according to the channel utilization of the first priority network and the data interaction between the first priority network and other mobile terminals Status information of the first priority network.

Preferably, the determining whether to adjust the state information of the first priority network according to the channel utilization of the first priority network and the data interaction between the first priority network and other mobile terminals includes:

Collect the channels of the first priority network, if the channel utilization of the first priority network is less than or equal to the second channel utilization threshold, count the number Q _z of other mobile terminals accessing the first priority network and the data related to the first priority network. During the interaction, there is the number Q _b of priority identifiers on the data, and the priority identifier ratio K=Q _b /Q _z is calculated. If the priority identifier ratio is less than or equal to the ratio threshold, the first priority network is switched to the sleep state.

Compared with the prior art, the beneficial effects of the present invention are: the present invention first obtains the historical access network of the area where the mobile terminal is located, selects the network access with connection authority for the mobile terminal from the historical access network, and Restricting the network to be in a sleep mode when there is no mobile terminal access or when the mobile terminal is not necessary to access the network, thereby saving resources.

Description of drawings

FIG. 1 is a schematic block diagram of a network state monitoring and management system based on big data of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Referring to FIG. 1 , in an embodiment of the present invention, a network status monitoring and management system based on big data includes a regional location acquisition module, a historical access network statistics module, a historical access network judgment module and an access network a network selection module, the regional location acquisition module is used to acquire the current location of the mobile terminal, and the historical access network statistics module is used to acquire and count the historical access networks of the current location of the mobile terminal in the most recent preset period of time, The historical access network judging module determines the number of networks in the historical access network, there is only one network in the historical access network, and the mobile terminal is directly connected to the network, and the number of the historical access network is greater than or equal to two. Each instructs the access network selection module to select the access network of the mobile terminal according to the motion state of the mobile terminal and the current information of each historical access network.

The access network selection module includes a motion state acquisition module, a first network selection module, and a second network selection module, and the motion state acquisition module is used to acquire the motion state of the mobile terminal. The first network selection module is instructed to select the access network when the state retention duration is greater than or equal to the retention duration threshold, and in other cases, the second network selection module is instructed to select the access network.

The first network selection module includes a first priority network selection module, a first priority network state acquisition module, a first connection control module and a second connection control module, and the monitoring and management system further includes a first priority network control module and an identifier A module is added, the first priority network selection module is used to obtain the network used by the mobile terminal in the current area for the last time as the first priority network, and the first priority network state obtaining module is used to obtain the current state of the first priority network. Whether the state information is the working state or the dormant state, when the first connection control module is in the working state, the mobile terminal is connected to the first priority network, and the second connection control module is in the dormant state to select the mobile terminal from the first candidate network. The access network, wherein the first candidate network is a historical access network other than the first priority network, and the second connection control module includes a channel collection module, a second candidate network screening module, a network switching collection module, a network trend The index calculation module, the best candidate network selection module and the network tendency index comparison module, the channel collection module collects the average channel utilization rate of each first candidate network in the current time period, and the second candidate network screening module averages the channel utilization rate. The first candidate network whose rate is less than or equal to the average utilization threshold is used as the second candidate network, and the network switching collection module is used to collect the number of times that the mobile terminal actively switches the network at the current location within the most recent preset period of time, and switches from other networks to every network. The number of second candidate networks and the number of times of switching from each second candidate network to other networks, the network tendency index calculation module calculates the network tendency index according to the data collected by the network switching acquisition module, and the best candidate network selection module Sort the network propensity indices of each second candidate network in descending order, and obtain the second candidate network ranked first in the network propensity index as the best candidate network, and the network propensity index comparison module compares the best candidate network The network propensity index is compared with the network propensity threshold. When the network propensity index is greater than or equal to the network propensity threshold, the mobile terminal is connected to the best candidate network. When the network propensity index is less than the network propensity threshold, the information is transmitted to the first priority network control module to order the first network propensity. A priority network is switched to the working state, and the mobile terminal is connected to the first priority network; the first priority network control module is used to control the switching state information of the first priority network, and the identification adding module is used to communicate with the first priority network between the mobile terminal and the first priority network. A priority identifier is added to the data when a priority network performs data interaction.

The second network selection module includes a coverage acquisition module and a coverage comparison module, the coverage acquisition module is used to acquire the network coverage of each historical access network, and the coverage comparison module compares the coverage of each network, And connect the mobile terminal to the historical access network with the widest coverage.

The monitoring and management system further includes a network change monitoring module, a first network state collection module, a second network state collection module, a priority identifier ratio calculation module, and a priority identifier ratio comparison module, the network change monitoring module monitors the mobile terminal, When it is monitored that the mobile terminal leaves the current area, and the mobile terminal accesses other networks, it transmits information so that the first network status acquisition module collects the channel utilization of the first priority network, and the channel utilization of the first priority network is less than It is equal to the second channel utilization threshold, and the second network state collection module collects the number of other mobile terminals each accessing the first priority network, and the number of priority identifiers on the data when interacting with the first priority network data. The identification proportion calculation module calculates the priority identification proportion according to the data collected by the network state second acquisition module, and the priority identification proportion comparison module transmits information to the first priority network control when the priority identification proportion is less than or equal to the proportion threshold. The module switches the first priority network to a sleep state.

A network state monitoring and management method based on big data, the monitoring and management method comprises the following steps:

Obtaining the current area location of the mobile terminal, and obtaining the historical access network of the current area location of the mobile terminal in the most recent preset period of time,

If there is only one network in the historical access network, directly connect the mobile terminal to this network;

If the number of historical access networks is greater than or equal to two,

Obtain the motion state of the mobile terminal, if it is monitored that the mobile terminal is in a static state, and the holding time of the static state is greater than or equal to the holding time threshold, select the access network of the mobile terminal according to the current information of each historical access network;

Otherwise, obtain the network coverage of each historical access network separately, and connect the mobile terminal to the historical access network with the widest coverage; if the mobile terminal does not stay in one place for a long time, but the location changes all the time, directly The mobile terminal accesses the historical access network with the widest coverage, reducing frequent network switching caused by the location change of the mobile terminal.

The selecting the access network of the mobile terminal according to the current information of each historical access network includes:

Step S100: the network used by the mobile terminal in the current area for the last time is the first priority network,

If the current state information of the first priority network is a working state, connect the mobile terminal to the first priority network, and add a priority identifier to the data when the mobile terminal exchanges data with the first priority network, wherein the state information includes working state and dormancy state, the working state is that the channel of the network is in a transmitting state, and the dormant state is that the channel of the network is in a non-transmitting state,

If the current state information of the first priority network is the dormant state, go to step S200; when the channel of the first priority network is not transmitting, determine in advance whether it is necessary to use the first priority network, and reduce the need to order The first priority network is in a working state, reducing the phenomenon that the first priority network channel is in a transmitting state to reduce co-channel interference;

Step S200: Select the historical access network in working state as the first candidate network from the historical access networks other than the first priority network, collect the average channel utilization rate of each first candidate network in the current time period, and classify the channel as the first candidate network. The network whose average utilization rate is less than or equal to the average utilization threshold is used as the second candidate network, and the number K of the mobile terminal actively switching the network in the current area and the number of switching from other networks to each second candidate network in the most recent preset period of time are respectively collected. M and the number of times N of switching from each second candidate network to other networks, go to step S300;

Step S300: Calculate the network tendency index P=M/K+(1-N/K) of each second candidate network,

Sort the network propensity indices of each second candidate network in descending order, and obtain the second candidate network with the first ranking of the network propensity indices as the best candidate network; go to step S400;

Step S400: Compare the network propensity index of the best candidate network with the network propensity threshold, if the network propensity index is greater than or equal to the network propensity threshold, connect the mobile terminal to the best candidate network, and if the network propensity index is less than the network propensity threshold, transmit information For the first priority network, the first priority network is switched to the working state, the mobile terminal is connected to the first priority network, and a priority identifier is added to the data when the mobile terminal exchanges data with the first priority network.

In the step S400, the first priority network is switched to the working state, and after the mobile terminal is connected to the first priority network, the steps include:

Monitor the mobile terminal, when it is detected that the mobile terminal leaves the current area and the mobile terminal accesses other networks,

Collect the channels of the first priority network, if the channel utilization of the first priority network is less than or equal to the second channel utilization threshold, count the number Q _z of other mobile terminals accessing the first priority network and the data related to the first priority network. During the interaction, there is the number Q _b of priority identifiers on the data, and the priority identifier ratio K=Q _b /Q _z is calculated. If the priority identifier ratio is less than or equal to the ratio threshold, the first priority network is switched to the sleep state.

It will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Therefore, the embodiments are to be regarded in all respects as illustrative and not restrictive, and the scope of the invention is to be defined by the appended claims rather than the foregoing description, which are therefore intended to fall within the scope of the claims. All changes within the meaning and scope of the equivalents of , are included in the present invention. Any reference signs in the claims shall not be construed as limiting the involved claim.

Claims (10)

1. A network state monitoring management system based on big data is characterized in that: the monitoring management system comprises an area position acquisition module, a historical access network counting module, a historical access network judging module and an access network selecting module, wherein the area position acquisition module is used for acquiring the current area position of the mobile terminal, the historical access network counting module is used for acquiring and counting the historical access networks of the current area position of the mobile terminal within a preset period of time recently, the historical access network judging module judges the number of the networks in the historical access networks, only one network is arranged in the historical access networks, the mobile terminal is directly accessed into the network, and the access network selecting module selects the access network of the mobile terminal according to the motion state of the mobile terminal and the current information of each historical access network when the number of the historical access networks is more than or equal to two.

2. The big data based network status monitoring and managing system according to claim 1, wherein: the access network selection module comprises a motion state acquisition module, a first network selection module and a second network selection module, wherein the motion state acquisition module is used for acquiring the motion state of the mobile terminal, when the mobile terminal is monitored to be in a static state and the holding time of the static state is greater than or equal to the holding time threshold, the first network selection module is enabled to select the access network, and the second network selection module is enabled to select the access network under other conditions.

3. The big data based network status monitoring and managing system according to claim 2, wherein: the first network selection module comprises a first priority network selection module, a first priority network state acquisition module, a first connection control module and a second connection control module, the monitoring management system also comprises a first priority network control module and an identification adding module, the first priority network selection module is used for acquiring a network which is used by the mobile terminal at the current area position last time as a first priority network, the first priority network state acquisition module is used for acquiring whether the current state information of the first priority network is in a working state or a dormant state, the mobile terminal is accessed into the first priority network when the first priority network is in the working state, the second connection control module is used for selecting an access network of the mobile terminal from first candidate networks when the first priority network is in the dormant state, wherein the first candidate network is a historical access network except the first priority network, the second connection control module comprises a channel acquisition module, a second candidate network screening module, a network switching acquisition module, a network tendency index calculation module, an optimal candidate network selection module and a network tendency index comparison module, wherein the channel acquisition module acquires the average channel utilization rate of each first candidate network in the current time period, the second candidate network screening module takes the first candidate network with the average channel utilization rate less than or equal to the average utilization threshold value as a second candidate network, the network switching acquisition module is used for acquiring the times of actively switching the network of the mobile terminal at the current area within the latest preset period of time, the times of switching from other networks to each second candidate network and the times of switching from each second candidate network to other networks, and the network tendency index calculation module calculates the network tendency index according to the data acquired by the network switching acquisition module, the network tendency index selection module sorts the network tendency indexes of the second candidate networks in a descending order, the second candidate network with the first network tendency index sorted is obtained as the optimal candidate network, the network tendency index comparison module compares the network tendency index of the optimal candidate network with a network tendency threshold value, when the network tendency index is larger than or equal to the network tendency threshold value, the mobile terminal is accessed into the optimal candidate network, when the network tendency index is smaller than the network tendency threshold value, information is transmitted to the first priority network control module, the first priority network is switched to a working state, and the mobile terminal is accessed into the first priority network; the first priority network control module is used for controlling the switching state information of the first priority network, and the identifier adding module is used for adding a priority identifier to the data when the mobile terminal performs data interaction with the first priority network.

4. The big data based network status monitoring and managing system according to claim 3, wherein: the second network selection module comprises a coverage area acquisition module and a coverage area comparison module, the coverage area acquisition module is used for acquiring the network coverage area of each historical access network, and the coverage area comparison module is used for comparing the coverage areas of the networks and accessing the mobile terminal to the historical access network with the widest coverage area.

5. The big data based network status monitoring and managing system according to claim 4, wherein: the monitoring management system also comprises a network change monitoring module, a network state first acquisition module, a network state second acquisition module, a priority identifier proportion calculation module and a priority identifier proportion comparison module, wherein the network change monitoring module monitors the mobile terminal, when the mobile terminal is monitored to leave the current area position and is accessed into other networks, information is transmitted to enable the network state first acquisition module to acquire the channel utilization rate of the first priority network, and when the channel utilization rate of the first priority network is less than or equal to a second channel utilization rate threshold value, the network state second acquisition module acquires the number of other mobile terminals accessed into the first priority network and the number of priority identifiers on data when the data are interacted with the first priority network data, the priority identifier proportion calculation module calculates the priority identifier proportion according to the data acquired by the network state second acquisition module, and the priority identifier ratio comparison module transmits information to the first priority network control module to enable the first priority network to be switched to a dormant state when the priority identifier ratio is less than or equal to a ratio threshold value.

6. A network state monitoring management method based on big data is characterized in that: the monitoring management method comprises the following steps:

acquiring the current area position of the mobile terminal, acquiring the historical access network of the current area position of the mobile terminal within a period of time preset recently,

if only one network exists in the historical access networks, the mobile terminal is directly accessed to the network;

if the number of historical access networks is greater than or equal to two,

acquiring the motion state of the mobile terminal, and if the mobile terminal is monitored to be in a static state and the holding time of the static state is greater than or equal to the holding time threshold, selecting the access network of the mobile terminal according to the current information of each historical access network;

otherwise, the network coverage range of each historical access network is respectively obtained, and the mobile terminal is accessed to the historical access network with the widest coverage range.

7. The big data-based network state monitoring and management method according to claim 6, wherein: the selecting the access network of the mobile terminal according to the current information of each historical access network comprises:

step S100: the network used by the mobile terminal at the current area position is the first priority network,

if the current state information of the first priority network is a working state, accessing the mobile terminal to the first priority network, and adding a priority identifier to data when the mobile terminal performs data interaction with the first priority network, wherein the state information comprises a working state and a dormant state, the working state is that a channel of the network is in a transmitting state, the dormant state is that the channel of the network is in a non-transmitting state,

if the current state information of the first priority network is in a dormant state, turning to step S200;

step S200: screening historical access networks in a working state from the historical access networks except the first priority network as first candidate networks, acquiring the average channel utilization rate of each first candidate network in the current time period, taking the network with the average channel utilization rate less than or equal to the average utilization threshold as second candidate networks, respectively acquiring the number K of times that the mobile terminal actively switches the network in the current area position, the number M of times that the mobile terminal switches to each second candidate network from other networks and the number N of times that the mobile terminal switches to other networks from each second candidate network in the latest preset time period, and turning to the step S300;

step S300: selecting the best candidate network according to the times K, M and N of the second candidate networks, and turning to the step S400;

step S400: comparing the network tendency index of the best candidate network with a network tendency threshold, if the network tendency index is greater than or equal to the network tendency threshold, accessing the mobile terminal to the best candidate network, if the network tendency index is smaller than the network tendency threshold, transmitting information to the first priority network, switching the first priority network to a working state, accessing the mobile terminal to the first priority network, and adding a priority identifier to data when the mobile terminal performs data interaction with the first priority network.

8. The big data-based network state monitoring and management method according to claim 7, wherein: the step S300 of selecting the best candidate network includes:

calculating a network tendency index P ═ M/K + (1-N/K) for each second candidate network,

and sequencing the network tendency indexes of the second candidate networks according to the descending order, and acquiring the second candidate network with the first network tendency index sequence as the best candidate network.

9. The big data-based network state monitoring and management method according to claim 8, wherein: the step S400 of switching the first priority network to the working state, and accessing the mobile terminal to the first priority network includes:

and monitoring the mobile terminal, and judging whether to adjust the state information of the first priority network according to the channel utilization rate of the first priority network and the data interaction condition of the first priority network and other mobile terminals when the mobile terminal leaves the current position of the area and is accessed to other networks.

10. The big data-based network status monitoring and management method according to claim 9, wherein: the judging whether to adjust the state information of the first priority network according to the channel utilization rate of the first priority network and the data interaction situation of the first priority network and other mobile terminals comprises the following steps:

collecting the channel of the first priority network, and counting the number Q of other mobile terminals accessing the first priority network if the channel utilization rate of the first priority network is less than or equal to the threshold value of the second channel utilization rate_zAnd the number Q of the data with the priority marks when interacting with the first priority network data_bCalculating the ratio K ═ Q of the priority identifiers_b/Q_zAnd if the occupation ratio of the priority identifier is less than or equal to the occupation ratio threshold value, the first priority network is switched to the dormant state.

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