CN108307305B - Dynamically-deployable automobile mobile base station array system and control method - Google Patents

Abstract

The invention discloses a dynamically deployable automobile mobile base station array system and a control method thereof, which solve the problems that a fixed base station is troublesome to install, cannot be dynamically adjusted according to use due to relative fixation, and has insufficient resources or waste of resources. The system comprises a user mobile phone end, a fixed base station, a control end and an automobile mobile base station, wherein the fixed base station is connected with the user mobile phone end and the control end, the control end is connected with the automobile mobile base station, the control end comprises a base station use analysis unit, a mobile phone position calculation unit, a concentrated area acquisition unit, a mobile base station distribution unit and a mobile base station state detection unit, and the user mobile phone end comprises a GPS unit. The invention uses the vehicle as a transfer and relay base station, installs the mobile communication base station in the vehicle, and dynamically controls the mobile base station of the vehicle to work according to the use condition of the number of the mobile phone terminals of the user, so that the density of the base station is changed and self-optimized, thereby realizing the dynamic matching and real-time adjustment among people, the vehicle and the base station.

Description

Dynamically-deployable automobile mobile base station array system and control method

Technical Field

The invention relates to the technical field of base stations, in particular to a dynamically deployable automobile mobile base station array system with dynamic matching and adjustment and a control method.

Background

Conventional mobile communication base stations are generally fixed relative to the ground. For example, the base station is installed on a tower or upstairs. The base station itself cannot move.

The installation process of the base station is troublesome, and the base station needs to negotiate, discuss and sign contracts with landowners, land owners and the like of the installed land. Then pulling the wire, arranging a power supply and the like.

In addition, when there are many people, there should be more base stations. When there are few, only few base stations are needed. The density of conventional ground base stations is fixed, while the number of people varies. For example, a commercial center is large in number of people and mobile phone users in the daytime, and a base station is not enough; and at night, most of the base stations are idle and wasted. The system is not optimized.

Also, if a large group of people is present in a location, such as a meeting, for a short period of time, the local base station is not sufficient.

So far, no good method is available for solving the problem.

Disclosure of Invention

The invention mainly solves the problems that in the prior art, a fixed base station is troublesome to install, cannot be dynamically adjusted according to use relatively fixedly, and has insufficient resources or resource waste, and provides a dynamically-deployable automobile mobile base station array system which is dynamically matched and adjusted.

The invention also provides a dynamically-deployable automobile mobile base station array system control method with dynamic matching and adjustment.

The technical problem of the invention is mainly solved by the following technical scheme: a mobile phone base station array system which is constructed by an automobile array and can be dynamically deployed comprises a user mobile phone end, a fixed base station, a control end and an automobile mobile base station, wherein the fixed base station is connected with the user mobile phone end in the coverage range of the fixed base station, the fixed base station is connected to the control end, the control end is connected with the automobile mobile base station, the control end comprises a base station use analysis unit, a mobile phone position calculation unit, a centralized region acquisition unit, a mobile base station distribution unit and a mobile base station state detection unit which are sequentially connected, the fixed base station is connected with the base station use analysis unit, the mobile base station distribution unit and the mobile base station state detection unit are respectively connected with the automobile mobile base station, the user mobile phone end comprises a GPS unit, the fixed base station comprises a position query unit, and the position query. The fixed base station detects the user mobile phone end in the coverage area of the fixed base station and acquires the parameter information of the signal sent to the fixed base station by the user mobile phone end. The control end is used for analyzing the usage amount of the mobile phone end of the user and the distribution of the concentrated area, and distributing the automobile mobile base station to work according to the distribution of the concentrated area; the base station usage analysis unit is used for detecting the usage of the user mobile phone end in the coverage range of the fixed base station and judging whether the usage exceeds the usage range; the mobile phone position calculating unit calculates the position of each user mobile phone end according to the parameter information of the acquired signal; a signal concentration area acquisition unit acquires a signal concentration area according to the position of a user mobile phone end in the coverage area of a fixed base station; the mobile base station distribution unit selects a proper automobile mobile base station to work according to the signal concentration area and the distribution position of the automobile mobile base station; the mobile base station state detection unit is used for detecting the working state of the automobile mobile base station in real time and feeding back the working state to the mobile base station distribution unit. The GPS unit positions the user mobile phone ends, the position inquiry unit is used for initiating position inquiry to each user mobile phone end, and the user mobile phone ends in the coverage range of the fixed base station send the position information to the fixed base station after receiving the inquiry. The invention uses traditional cars, electric cars or other vehicles as transfer and relay base stations, installs mobile communication base stations in cars, and can dynamically control the work of car mobile base stations according to the number of user mobile phone terminals, so that the density of the base stations is variable and self-optimized.

As a preferred scheme, the automobile mobile base station further comprises an automobile owner control end for controlling the opening and closing of the automobile mobile base station, and the automobile owner control end is connected with the automobile mobile base station in a control mode. The car owner can control the car to move the basic station and open and close in this scheme. If the owner of the automobile does not want the own automobile to become the base station, the automobile moving base station in the automobile can be closed through the owner control end. The vehicle owner control end can be remotely controlled with the vehicle mobile base station, and the vehicle owner control end is a special remote control device or a mobile phone.

A control method for a dynamically deployable mobile phone base station array system constructed by an automobile array comprises the following steps:

s1, detecting the use number of user mobile phone ends in the coverage range of a fixed base station in real time;

s2, judging whether the usage quantity of the mobile phone terminals of the user exceeds the current upper limit value of the usage of the fixed base station;

s3, when the use upper limit value is not exceeded, closing the automobile mobile base station in the coverage range of the fixed base station, and returning to the step S2; when the usage upper limit value is exceeded, position information is acquired from each user mobile phone end through polling;

s4, screening out a position concentrated area of the mobile phone end of the user according to the position information of the mobile phone end of each user;

and S5, selecting a proper automobile mobile base station to start to work according to the region screening condition.

The invention can dynamically control the automobile mobile base station to work according to the number of the mobile phone terminals of the user, so that the density of the base station is changed and self-optimized, when people gather more at some time and the corresponding automobile mobile base station works more and more, after people leave, the multiple base stations are not needed, the automobile mobile base stations are also reduced, the density of the base station is also low, and the dynamic matching among people, automobiles and the base station and the real-time adjustment are realized.

As a preferable scheme, the specific step of calculating the location information of the mobile phone end of each user in step S3 includes:

s31, the position query unit sends a position query request to each user mobile phone end in the coverage range of the fixed base station;

and S32, the user mobile phone terminal receives the query request and then verifies the query request, and after the verification is passed, the position information acquired by the GPS unit is sent to the position query unit.

As a preferable scheme, the specific step of screening out the concentrated area of the end position of the mobile phone of the user in step S4 includes:

s41, establishing a coordinate system by taking the fixed base station as a dot, and converting the position information of each user mobile phone end into coordinates in the coordinate system;

s42, dividing the coverage range of the fixed base station into four partitions according to a coordinate system axis, respectively counting the number of user mobile phone ends in the four partitions, setting a partition number threshold value N, judging whether the number of the user mobile phone ends in each partition is larger than N, if not, judging that no concentrated area exists, and entering the next step; the partition number threshold N is the minimum number of user mobile phone terminals that will form a concentration area, and N can be set according to the size of the statistical circle and the requirement. According to the scheme, the coverage area is divided into four partitions for calculation, if the number of the mobile phone terminals of the partition users is small, the partitions do not need to be calculated, the calculation amount is reduced, and the efficiency is improved.

S43, traversing each user mobile phone end in the selected part, taking the coordinate of the user mobile phone end as the circle center and the circle with the radius R as the statistic circle, and acquiring the number n of all the user mobile phone ends in the statistic circle of each user mobile phone end_jJ is the number of the user mobile phone ends in the current subarea; for each user mobile phone terminal n_iThe statistics performed. Counting the number n of all user mobile phone ends in a counting circle of the user mobile phone ends, wherein the current user mobile phone end coordinate is taken as a center, a square area with the side length of 2R is taken as a counting area, the counting area is traversed from left to right and from top to bottom, the distance from the found user mobile phone end to the center is calculated, counting is carried out if the distance is less than or equal to R, and finally the number n of all user mobile phone ends in the counting circle of the user mobile phone ends is counted_i。

S44, setting a statistical circle user mobile phone end number threshold n₀Judging n of each user mobile phone terminal_iWhether or not it is greater than n₀If not, judging the non-centralized area center of the user mobile phone end, and if so, recording the user mobile phone end as a pre-selection user mobile phone end; and selecting the user mobile phone ends meeting the conditions, and simultaneously recording the information of the user mobile phone ends, wherein the information comprises the coordinate information of the user mobile phone ends, and the user mobile phone ends count the quantity information of all the user mobile phone ends in the circle.

S45, selecting n from the mobile phone end of the user in advance_iThe largest preselection user mobile phone end takes the statistical circle as a centralized area, then all preselection user mobile phone ends with coordinates in the centralized area are excluded, and n is selected from the rest preselection user mobile phone ends_iAnd (4) preselecting the user mobile phone end to the maximum extent, taking the statistical circle as a concentrated area, and repeating the operation until all the concentrated areas of the user mobile phone end positions are screened out.

The scheme selects the concentrated area of the user mobile phone end, preferentially selects the automobile mobile base station to provide the base station for the concentrated area of the user mobile phone end, and can more conveniently and more quickly solve the problem that the fixed base station is not enough.

As a preferable scheme, the specific process of selecting a suitable automobile mobile base station to start for operation in step S5 includes:

s51, the control end collects position information of the automobile mobile base station in real time;

s52, if the concentrated areas exist, analyzing each concentrated area, judging whether an automobile mobile base station covering the concentrated area exists, if so, selecting the automobile mobile base station closest to the concentrated area, controlling the automobile mobile base station to start working, and if not, sending a request and central position information of the concentrated area to the automobile mobile base stations near the concentrated area;

and S53, if no centralized area exists, sequentially judging whether automobile mobile base stations exist in each subarea, if so, randomly selecting the automobile mobile base stations in one subarea to control the automobile mobile base stations to start, and if no mobile automobile base stations exist in all the subareas, sending a request and position information of the fixed base stations to the automobile mobile base stations nearby the coverage area of the fixed base stations.

As a preferable scheme, after selecting a suitable automobile mobile base station to start to operate according to the region screening condition in step S5, the method further includes a process for detecting the operating state of the automobile mobile base station, where the process includes:

and S54, detecting the working state of the automobile mobile base station after the automobile mobile base station is started, if the automobile mobile base station is closed by an automobile owner, judging whether the using quantity of the user mobile phone ends of the fixed base station in the coverage area of the automobile mobile base station exceeds the use upper limit value, and if the automobile mobile base station which covers a concentrated area and is closest to the closed automobile mobile base station is selected, controlling the automobile mobile base station to start. The automobile mobile base station is powered by an automobile, when an automobile owner does not want the automobile to become the base station, the automobile mobile base station is closed through the owner control end, and when the use upper limit value is exceeded, the control end reselects a proper automobile mobile base station to work, so that enough base stations are ensured.

Therefore, the invention has the advantages that: the traditional automobile, the electric automobile or other vehicles are used as a transfer and relay base station, the mobile communication base station is installed in the automobile, and the work of the automobile mobile base station can be dynamically controlled according to the number of the user mobile phone terminals, so that the density of the base station is changed and self-optimized.

Drawings

FIG. 1 is a block diagram of one construction of the present invention;

FIG. 2 is a schematic flow diagram of the present invention;

FIG. 3 is a schematic diagram of an example of a method in an embodiment of the invention.

1-user mobile phone end 11-GPS unit 2-fixed base station 21-position query unit 3-control end 31-base station use analysis unit 32-mobile phone position calculation unit 33-centralized region acquisition unit 34-mobile base station distribution unit 35-mobile base station state detection unit 4-automobile mobile base station 5-vehicle owner control end.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b):

in this embodiment, an array system of a dynamically deployable automobile mobile base station, as shown in fig. 1, includes a plurality of user mobile phone terminals 1, a fixed base station 2, a control terminal 3, and a plurality of automobile mobile base stations 4. The fixed base station is connected with a user mobile phone end in the coverage range of the fixed base station, the fixed base station is connected to the control end, and the control end is connected with the automobile mobile base station.

The control end comprises a base station use analysis unit 31, a mobile phone position calculation unit 32, a concentrated area acquisition unit 33, a mobile base station distribution unit 34 and a mobile base station state detection unit 35 which are connected in sequence, the fixed base station is connected with the base station use analysis unit, and the mobile base station distribution unit and the mobile base station state detection unit are respectively connected with the automobile mobile base station. The user mobile phone end comprises a GPS unit 11, the fixed base station comprises a position inquiry unit 21, and the position inquiry units are respectively connected with the GPS units.

The base station uses the analysis unit: the device is used for detecting the usage amount of the user mobile phone end in the coverage range of the fixed base station and judging whether the usage amount exceeds the usage amount range;

the mobile phone position calculating unit: calculating the position of each user mobile phone end according to the acquired parameter information of the signal;

a signal concentrated region acquisition unit: acquiring a signal concentrated area according to the position of a user mobile phone end in the coverage area of a fixed base station;

mobile base station allocation unit: selecting a proper automobile mobile base station to work according to the signal concentration area and the distribution position of the automobile mobile base station;

mobile base station state detection unit: the system is used for detecting the working state of the automobile mobile base station in real time and feeding back the working state to the mobile base station distribution unit.

The automobile mobile base station also comprises an automobile owner control end 5 for controlling the opening and closing of the automobile mobile base station, and the automobile owner control ends are connected with the corresponding automobile mobile base stations in a control mode.

A method for controlling a dynamically deployable mobile base station array system, as shown in fig. 2, includes the following steps:

s1, detecting the use number of the user mobile phone ends in the coverage range of the fixed base station in real time; the fixed base station receives the signal of the mobile phone and sends the signal to the control end, and the control end calculates the number of the mobile phone ends of the user in the set unit time.

S2, judging whether the usage quantity of the mobile phone terminals of the user exceeds the current upper limit value of the usage of the fixed base station;

s3, when the use upper limit value is not exceeded, closing the automobile mobile base station in the coverage range of the fixed base station, and returning to the step S2; when the usage upper limit value is exceeded, position information is acquired from each user mobile phone end through polling; the specific steps of acquiring the position information of the mobile phone end of each user comprise:

s31, the position query unit sends a position query request to each user mobile phone end in the coverage range of the fixed base station;

and S32, the user mobile phone terminal receives the query request and then verifies the query request, and after the verification is passed, the position information acquired by the GPS unit is sent to the position query unit.

S4, screening out a position concentrated area of the mobile phone end of the user according to the position information of the mobile phone end of each user; the method comprises the following specific steps:

s41, establishing a coordinate system by taking the fixed base station as a dot, and converting the position information of each user mobile phone end into coordinates in the coordinate system; as shown in fig. 3, the large dotted circle is the coverage of the fixed base station, and the dots represent the positions of the mobile phone terminals of the users.

And S42, dividing the coverage range of the fixed base station into four partitions according to the axis of the coordinate system, and respectively counting the number of the user mobile phone ends in the four partitions. And the coordinate characteristics in the four subareas divided according to the coordinate axis are different, and the subarea where the mobile phone end of the user is located can be distinguished according to the coordinate characteristics. Setting a partition quantity threshold value N, judging whether the quantity of the user mobile phone ends in each partition is greater than N, if not, judging that no concentrated area exists, and entering the next step if the concentrated area does not exist;

s43, traversing each user mobile phone end in the selected part, taking the coordinate of the user mobile phone end as the circle center and the circle with the radius R as the statistic circle, and acquiring the number n of all the user mobile phone ends in the statistic circle of each user mobile phone end_jJ is the number of the user mobile phone ends in the current subarea;

s44, setting a statistical circle user mobile phone end number threshold n₀Judging n of each user mobile phone terminal_iWhether or not it is greater than n₀If not, judging the non-centralized area center of the user mobile phone end, and if so, recording the user mobile phone end as a pre-selection user mobile phone end;

s45, selecting n from the mobile phone end of the user in advance_iThe largest preselected user mobile phone end has its statistical circle as a concentrated area, such as the real circle in fig. 3. Then, all the preselected user mobile phone terminals with the coordinates in the concentrated area are excluded, and n is selected from the rest preselected user mobile phone terminals_iAnd (4) taking the statistical circle of the largest preselected user mobile phone end as a concentrated area, and repeating the operation until the rest preselected user mobile phone ends fall in the concentrated area, so that the concentrated areas of the positions of all the user mobile phone ends are screened out. For example, fig. 3, two regions of concentration are obtained by screening, where the solid circles represent the regions of concentration.

S5, selecting a proper automobile mobile base station to start to work according to the region screening condition,

the specific process comprises the following steps:

s51, the control end collects position information of the automobile mobile base station in real time; the positions of three mobile stations of the car are shown as points A, B, C in fig. 3.

And S52, if the concentrated areas exist, analyzing each concentrated area, judging whether the automobile mobile base station covering the concentrated area exists, if so, selecting the automobile mobile base station closest to the concentrated area, and controlling the automobile mobile base station to start working, wherein if a point A is selected, the coverage area of the point A just covers one concentrated area, and is closer to the concentrated area than a point B, so that the automobile mobile base station A is selected to start working. If not, sending a request and the central position information of the concentrated area to the automobile mobile base station near the concentrated area; if no automobile mobile base station is near the second concentration area, the control end sends a request and concentration area center position information to a nearby point C.

And S53, if no centralized area exists, sequentially judging whether automobile mobile base stations exist in each subarea, if so, randomly selecting the automobile mobile base stations in one subarea to control the automobile mobile base stations to start, and if no mobile automobile base stations exist in all the subareas, sending a request and position information of the fixed base stations to the automobile mobile base stations nearby the coverage area of the fixed base stations.

The system carries out detection once at intervals of set time, and if the system is always beyond the upper limit value of the current fixed base station, the system always keeps the current working state; and if the current use upper limit value of the fixed base station is not exceeded, controlling the automobile mobile base station to close and stop working.

In addition, in the working process of the automobile mobile base station, the automobile owner actively closes the automobile mobile base station, and the method further comprises the following steps: the control end detects the working state of the automobile mobile base station after the automobile mobile base station is started in real time, if the automobile mobile base station is closed by an automobile owner, whether the using quantity of the user mobile phone ends of the fixed base station in the coverage area of the automobile mobile base station exceeds the use upper limit value is judged, and if the automobile mobile base station which covers a concentrated area and is closest to the closed automobile mobile base station is selected, the automobile mobile base station is controlled to be started. If the usage upper limit value is not exceeded, the operation is not performed.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of user mobile phone end, fixed base station, control end, base station using analysis unit, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (6)

1. A dynamically deployable automobile mobile base station array system is characterized in that: including user's cell-phone end, fixed base station, control end and car mobile base station, fixed base station links to each other with the user's cell-phone end in its coverage, fixed base station is connected to the control end, the control end links to each other with car mobile base station, the control end uses the analytic unit including the basic station that connects gradually, cell-phone position calculation unit, the concentrated region obtains the unit, mobile base station distribution unit and mobile base station state detecting element, fixed base station uses the analytic unit with the basic station to link to each other, mobile base station distribution unit, mobile base station state detecting element links to each other with car mobile base station respectively, user's cell-phone end is including the GPS unit, fixed base station is including position inquiry unit, position inquiry unit links to each GPS unit respectively, wherein concentrated region obtains the intensive region of unit screening mobile terminal:

establishing a coordinate system by taking the static base station as a dot, and converting the position information of each mobile terminal into coordinates in the coordinate system; dividing the coverage range of the static base station into four subareas according to a coordinate system axis, respectively counting the number of mobile terminals in the four subareas, setting a subarea number threshold value N, judging whether the number of the mobile terminals in each subarea is greater than N, and if not, judging that no dense area exists, and entering the next step;

traversing each user mobile phone terminal in the selected partition,the method comprises the steps of taking a coordinate of a mobile phone end of a user as a circle center and a circle with a radius of R as a statistic circle, and obtaining the number n of all mobile terminals in the statistic circle of each mobile terminal_jJ is the number of mobile terminals in the current subarea;

setting a counting circle mobile terminal quantity threshold n₀Judging n of each mobile terminal_iWhether or not it is greater than n₀If not, judging the non-dense area center of the mobile terminal, and if so, recording the mobile terminal as a pre-selection mobile terminal;

selecting n from pre-mobile terminal_iSelecting the largest preselected mobile terminal, using the statistical circle as a dense area, then excluding all preselected mobile terminals with coordinates in the dense area, and selecting n from the rest preselected mobile terminals_iAnd (4) preselecting the mobile terminal to the maximum extent, taking the statistical circle of the mobile terminal as a dense area, and repeating the operation until all the dense areas of the mobile terminal positions are screened out.

2. The array system of claim 1, wherein the mobile base station further comprises a main control end for controlling the mobile base station to open and close, and the main control end is connected to the mobile base station.

3. A method for controlling a dynamically deployable mobile base station array system, using the system of claim 1 or 2, comprising the steps of:

s1, detecting the use number of user mobile phone ends in the coverage range of a fixed base station in real time;

s2, judging whether the usage quantity of the mobile phone terminals of the user exceeds the current upper limit value of the usage of the fixed base station;

s3, when the use upper limit value is not exceeded, closing the automobile mobile base station in the coverage range of the fixed base station, and returning to the step S2; when the usage upper limit value is exceeded, position information is acquired from each user mobile phone end through polling;

s4, screening out a position concentrated area of the mobile phone end of the user according to the position information of the mobile phone end of each user; the method comprises the following specific steps:

s41, establishing a coordinate system by taking the fixed base station as a dot, and converting the position information of each user mobile phone end into coordinates in the coordinate system;

s42, dividing the coverage range of the fixed base station into four partitions according to a coordinate system axis, respectively counting the number of user mobile phone ends in the four partitions, setting a partition number threshold value N, judging whether the number of the user mobile phone ends in each partition is larger than N, if not, judging that no concentrated area exists, and entering the next step;

s43, traversing each user mobile phone end in the selected part, taking the coordinate of the user mobile phone end as the circle center and the circle with the radius R as the statistic circle, and acquiring the number n of all the user mobile phone ends in the statistic circle of each user mobile phone end_jJ is the number of the user mobile phone ends in the current subarea;

s44, setting a statistical circle user mobile phone end number threshold n₀Judging n of each user mobile phone terminal_iWhether or not it is greater than n₀If not, judging the non-centralized area center of the user mobile phone end, and if so, recording the user mobile phone end as a pre-selection user mobile phone end;

s45, selecting n from the mobile phone end of the user in advance_iThe largest preselection user mobile phone end takes the statistical circle as a centralized area, then all preselection user mobile phone ends with coordinates in the centralized area are excluded, and n is selected from the rest preselection user mobile phone ends_iSelecting the largest user mobile phone end in advance, taking the statistical circle as a concentrated area, and repeating the operation until all the concentrated areas of the user mobile phone end positions are screened out;

and S5, selecting a proper automobile mobile base station to start to work according to the region screening condition.

4. The method as claimed in claim 3, wherein the step S3 of obtaining location information of each user' S mobile phone end includes the following steps:

s31, the position query unit sends a position query request to each user mobile phone end in the coverage range of the fixed base station;

and S32, the user mobile phone terminal receives the query request and then verifies the query request, and after the verification is passed, the position information acquired by the GPS unit is sent to the position query unit.

5. The method as claimed in claim 3, wherein the step S5 of selecting a suitable mobile base station to start up comprises:

s51, the control end collects position information of the automobile mobile base station in real time;

s52, if the concentrated areas exist, analyzing each concentrated area, judging whether an automobile mobile base station covering the concentrated area exists, if so, selecting the automobile mobile base station closest to the concentrated area, controlling the automobile mobile base station to start working, and if not, sending a request and central position information of the concentrated area to the automobile mobile base stations near the concentrated area;

and S53, if no centralized area exists, sequentially judging whether automobile mobile base stations exist in each subarea, if so, randomly selecting the automobile mobile base stations in one subarea to control the automobile mobile base stations to start, and if no mobile automobile base stations exist in all the subareas, sending a request and position information of the fixed base stations to the automobile mobile base stations nearby the coverage area of the fixed base stations.

6. The method as claimed in claim 3, wherein after selecting the appropriate mobile station to start for operation according to the area screening condition in step S5, the method further comprises a step of detecting the operating status of the mobile station, the step includes:

and S54, detecting the working state of the automobile mobile base station after the automobile mobile base station is started, if the automobile mobile base station is closed by an automobile owner, judging whether the using quantity of the user mobile phone ends of the fixed base station in the coverage area of the automobile mobile base station exceeds the use upper limit value, and if the automobile mobile base station which covers a concentrated area and is closest to the closed automobile mobile base station is selected, controlling the automobile mobile base station to start.

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