CN112235809B - 5G inter-base station communication method and communication device - Google Patents

Abstract

A5G inter-base station communication method and communication device includes transferring data to be communicated between the first 5G client terminal device and a second 5G client terminal in a transit manner between 5G base stations during the communication, and the 5G base stations are required to store the data; the storing includes, in addition to storing data to be communicated between the first 5G client terminal device and the second 5G client terminal in the 5G base station, the following steps: the 5G base station receives the instruction of data storage according to the preset time period one transmission requirement. The method and the system effectively avoid the defects that in the prior art, data to be communicated between the first 5G client terminal equipment and the second 5G client terminal of all the 5G base stations cannot be stored and have high functional requirements on corresponding data distribution equipment when the data distribution equipment fails due to too much dependence on the data distribution equipment.

Description

5G inter-base station communication method and communication device

Technical Field

The invention relates to the technical field of 5G base stations, in particular to a communication method and a communication device between 5G base stations.

Background

Refers to a submerged building constructed of steel or reinforced concrete. The building can be an independent building, and can also be an underwater part or an underwater foundation of the building, such as an underwater oil and gas storage tank, a submarine nuclear power station, a submarine tunnel, an underwater structure part of a drilling platform, an underwater structure part of a wharf building and the like. It is subjected to huge water pressure and hydrodynamic force, attack of seawater corrosion and attachment of marine organisms, so that the requirements on structural design, manufacturing and raw materials are high. The concrete underwater building is soaked under water for a long time, and the safety problem is increasingly remarkable due to the influence of structural aging, earthquake and other geological disasters. There is then an underwater building inspection system comprising a first 5G client terminal device and a second 5G client terminal device, the first 5G client terminal device and the second 5G client terminal device enabling 5G communication via a 5G base station.

The first 5G client terminal device and the second 5G client terminal device implement 5G communication through the 5G base station, during the execution of the communication, the method also includes transferring data to be communicated between the first 5G client terminal device and the second 5G client terminal in a transit manner between the 5G base stations, in order for the 5G base station to record the transit data, the 5G base station needs to store the data, so that the data can be checked from the 5G base station in the future, but only the data to be communicated between the first 5G client terminal device and the second 5G client terminal stored on the 5G base station is easily lost when a problem occurs in the external memory of the 5G base station, and the data to be communicated between the first 5G client terminal device and the second 5G client terminal is synchronously stored on other data storage devices during the storage period, in a data decentralized storage system and a condition with a plurality of 5G base stations, the data storage system can be balanced between each data storage system and each second 5G client terminal needs to ensure the balanced storage performance of the data storage system; the current system for data distributed storage is generally configured by using a configuration device, namely each 5G base station directly transmits data to be stored between the first 5G client terminal device and the second 5G client terminal to a data distribution device, and the data distribution device fully configures the data to different data storage devices in a balanced manner; however, such a storage method is too dependent on the data distribution device, and when the data distribution device fails, data to be communicated between the first 5G client terminal device and the second 5G client terminal device of all the 5G base stations cannot be stored; in addition, with the increase of the data capacity to be communicated between the first 5G client terminal device and the second 5G client terminal to be stored, the same data distribution device is often connected with a plurality of 5G base stations, and in such a state, the function of the data distribution device is definitely high, and the poor function of the data distribution device is directly unfavorable for the application of the whole data distributed storage system.

Disclosure of Invention

In order to solve the problems, the invention provides a communication method and a communication device between 5G base stations, which effectively solve the defects that the data to be communicated between the first 5G client terminal equipment and the second 5G client terminal of all the 5G base stations cannot be stored and have high functional requirements on corresponding data distribution equipment when the data distribution equipment fails due to the fact that the data distribution equipment is too dependent on the data storage mode between the first 5G client terminal equipment and the second 5G client terminal.

In order to overcome the defects in the prior art, the invention provides a solution of a 5G inter-base station communication method and a communication device, which concretely comprises the following steps:

A5G inter-base station communication method comprises the following steps:

a first 5G client terminal device and a second 5G client terminal device of the underwater building detection system realize 5G communication through a 5G base station, wherein during the communication, the data of the first 5G client terminal device and the second 5G client terminal device are transferred in a transit way between the 5G base stations, and during the communication, the data to be communicated between the first 5G client terminal device and the second 5G client terminal device are transferred in a transit way between the 5G base stations, so that the 5G base station is required to store the data;

the storing includes, in addition to storing data to be communicated between the first 5G client terminal device and the second 5G client terminal in the 5G base station, the following steps:

TA-1, receiving the instruction of the 5G base station to store the data according to the requirement transmitted in the preset time period I at regular time;

the 5G base station transmits a command for requesting data storage to the master control device at regular time according to a preset time period, and the command for requesting data storage is just like the 5G base station with the identification code. The first preset period can be flexibly set according to practical situations, which is not limited in this embodiment, just like the first preset period can be 200T, and the identifier code of the 5G base station can be its MAC address.

TA-2, taking out a data storage device by means of a preset mode to serve as a designated data storage device of the 5G base station, wherein the data storage device is oriented to each instruction requiring data storage;

and when receiving the command for requesting data storage transmitted by the 5G base station each time, the main control device feeds back the command for requesting data storage, and configures a new designated data storage device for the 5G base station according to a preset mode.

As such, the preset patterns may be of several types, such as: the main control device searches the current service number of each data storage device, and also takes out the data storage device with the lowest current service number as the designated data storage device of the 5G base station; here, the number of services of each data storage device is consistent with the number of 5G base stations that each data storage device keeps linked; when the method is specifically applied, after receiving the instruction for requesting data storage, the master control device monitors the number of 5G base stations linked with each data storage device at present; again just like: the master control device inquires the size of the available data storage area of each data storage device, and then fetches the data storage device with the highest size of the available data storage area to serve as the designated data storage device of the 5G base station.

When the preset mode is that the master control device searches the number of current service of each data storage device, and when the data storage device with the lowest number of current service is taken out to serve as the designated data storage device of the 5G base station, the master control device can search the number of current service of each data storage device by a method of sequentially reading each data storage device, can also perform storage by a method of receiving the number of current service transmitted by each data storage device at regular time, and can search the number of current service of each data storage device stored in the master control device when necessary; here, the time size of the number of the present traffic transmitted by each data storage device is lower than the predetermined period one.

TA-3, transmitting the data of the appointed data storage device to the 5G base station to enable the 5G base station and the appointed data storage device to construct a link;

the main control device transmits the data of the appointed data storage device to the 5G base station, and the 5G base station constructs a link with the appointed data storage device after receiving the data of the appointed data storage device.

For example, to better balance the data capacity stored by each data storage device and prevent data from being lost, the data storage device that has been linked with the 5G base station is removed each time the 5G base station is again configured with the designated data storage device.

The master device may store the data of the designated data storage device in association with the 5G base station, that is, the master device stores the data of the data storage device which is linked with the 5G base station for each of the predetermined time periods, each time the designated data storage device is configured to be allocated to the 5G base station.

In the TA-2, the method for taking out a data storage device by means of a preset mode to serve as the designated data storage device of the 5G base station comprises the following procedures:

TB-1, whereby said master device executes TB-2 if not, and TB-3 if;

TB-2, remove the data of the data storage equipment that links with said 5G base station structure in every said time interval that is set up in advance in the said master control device, and regard the data storage equipment with the lowest number of present business as the appointed data storage equipment of the said 5G base station;

and TB-3, using the data storage device with the lowest current service number in the data storage devices which are not linked with the 5G base station as the designated data storage device of the 5G base station.

When the designated data storage device is fetched from the 5G base station each time, the data storage device with the lowest current service number is required to be fetched from the data storage devices which are not linked with the 5G base station, and is used as the designated data storage device of the 5G base station, after all the data storage devices are linked with the 5G base station, the data of the designated data storage device of the 5G base station in the main control device is removed, the current service number of all the data storage devices is retrieved again, and the data of the designated data storage device of the 5G base station is started again.

As such, in the implementation of the data storage method, each data storage device may periodically transmit the current number of traffic to the master device, so that the master device may perform a search within the stored data if necessary, without having to listen to each data storage device sequentially.

The storage further comprises the following steps: .

TA-4, receiving the number of current business transmitted by each data storage device according to the preset time period II at fixed time;

the number of the current service is transmitted to the main control device through each data storage device at regular time according to a preset time period II, so that the time period of the number of the current service of each data storage device searched by the main control device can be saved, and the concurrency of the number of the current service of each data storage device in the main control device can be ensured even if the main control device is started again due to the problem; here, the first predetermined period is lower than the first predetermined period, which may be 40T, as if the first predetermined period is 200T.

TA-5, recording the number of the current service transmitted by each data storage device, and determining whether the data storage device has the number of the current service which is not transmitted in the preset time period three;

and TA-6, when the data storage equipment with the number of the undelivered current service in the preset time period three is provided, judging that the data storage equipment is dead, and removing the data of the data storage equipment recorded in the main control device.

The main control device records the number of the current service transmitted by each data storage device so that the main control device can execute searching when necessary, and the main control device judges whether the data storage device is in a dead state or not through the data storage device which has the preset time period of three times of not transmitting the number of the current service; when the number of current business transmitted by a certain data storage device is not received in a period three preset by the main control device, judging that the data storage device is dead, and removing the data of the data storage device recorded in the main control device to enable the data stored in the main control device and the specific conditions of the data storage devices to be concurrent; after the data of the data storage device is removed, the master device does not perform retrieval on the data storage device when the data storage device is reconfigured for the 5G base station.

Here, the preset period three is higher than the preset period two;

here, the capacity of each data storage device may be configured according to the following mode:

each 5G base station has an upper limit value of data capacity in the preset life period, takes out the highest value in the upper limit value of all data capacity, and takes the value obtained by multiplying the highest value and the number of the 5G base stations as the sum value of the storage capacity of all the data storage devices.

The preset lifetime is the lifetime of the data in each data storage device that the user wants to exist, and can be changed by specific status.

When the capacity of each data storage device is configured according to the preset lifetime and the capacities of the data storage areas in the external memories of the data storage devices of each data storage device are consistent, the sum of the capacities of the data to be communicated between the first 5G client terminal device and the second 5G client terminal device obtained by each 5G base station in one preset lifetime is uniformly distributed to each data storage device according to time.

If the total number of the data storage devices is K, under the condition that each data storage device operates smoothly, the data capacity configured by each data storage device is the sum of the data capacities obtained by each 5G base station in the preset lifetime of 1/K, and K is a positive integer.

The storage method can also comprise the following steps:

each data storage device transmits a prompt message to the intermediate terminal I when the data storage area in the external memory overflows;

when the intermediate terminal receives the prompt message, the prompt is executed for the user, and the prompt can be that the intermediate terminal is connected with a buzzer to sound to achieve the prompt effect, so that the user can check whether the data storage equipment is in a dead state or not, and when the data storage equipment is in a dead state, some data in each data storage equipment can be manually removed by the number of the dead data storage equipment to prevent the data from being lost.

The number of 5G base stations can be several, and the 5G base stations are connected with the master control device through a 5G network.

An apparatus for 5G inter-base station communication, comprising:

the first 5G client terminal device and the second 5G client terminal device of the underwater building detection system realize 5G communication through a 5G base station;

the device for communication between 5G base stations further comprises:

a main control device and a plurality of data storage devices;

the 5G base station and the plurality of data storage devices are respectively connected with the main control device through a 5G network, and the 5G base station and the plurality of data storage devices can be linked through a 5G network structure to execute data transmission among the data storage devices. The main control device and the data storage equipment can also be notebook computers, and flexible movement is facilitated. The master control device may communicate with a 5G base station and a number of data storage devices.

Here, the master control device includes a storage request receiving unit, a fetch specification storage unit, and a specification data transfer unit;

the storage request receiving unit is used for receiving the instruction of the 5G base station for storing the request data transmitted according to the preset time period.

The fetching and designating storage unit is used for fetching a data storage device serving as a designated data storage device of the 5G base station by means of a preset mode respectively for each instruction requiring data storage.

The specified data transfer unit transfers data of the specified data storage device to the 5G base station to cause the 5G base station and the specified data storage device to construct a link.

The main control device also comprises a business number receiving unit and a transmission monitoring unit;

the number receiving unit is used for receiving the number of the current service transmitted by each data storage device according to a preset time period II at fixed time;

the transmission monitoring unit is used for recording the number of the current service transmitted by each data storage device, and determining whether the data storage device is the data storage device with the number of the current service which is not transmitted in the preset time period three, and judging that the data storage device is dead when the data storage device with the number of the current service which is not transmitted in the preset time period three is the data storage device, and removing the data of the data storage device recorded in the main control device.

The extraction designated storage unit comprises a data retrieval subunit, an extraction subunit I and an extraction subunit II;

the data retrieval subunit is configured to retrieve, by means of the data, whether or not the data storage device has a link not constructed with the 5G base station;

the extraction subunit is used for removing the data of the data storage equipment which is linked with the 5G base station in each preset period I in the main control device, and taking the data storage equipment with the lowest current service number as the appointed data storage equipment of the 5G base station;

and the second extraction subunit is used for using the data storage device with the lowest current service number in the data storage devices which are not linked with the 5G base station as the designated data storage device of the 5G base station.

The beneficial effects of the invention are as follows:

the 5G base station of the invention requests the designated data storage equipment to the main control device at regular time according to a preset time period, the main control device configures the designated data storage equipment to the 5G base station according to a preset mode, so that the 5G base station directly transfers the data to be stored between the first 5G client terminal equipment and the second 5G client terminal equipment to the designated data storage equipment for storage; the management and configuration of the master control device can ensure that the data to be stored between the first 5G client terminal equipment and the second 5G client terminal in the 5G base station are distributed on each data storage equipment in a time balance manner, so that the defect caused by the storage mode that the data distribution equipment receives the data of all the 5G base stations and distributes the data in an integral manner is prevented.

Drawings

Fig. 1 is a partial flow chart of a communication method between 5G base stations according to the present invention.

Fig. 2 is a flow chart of another part of the 5G inter-base station communication method of the present invention.

Detailed Description

The invention will be further described with reference to the drawings and examples.

As shown in fig. 1 and 2, the 5G inter-base station communication method includes the steps of:

a first 5G client terminal device and a second 5G client terminal device of the underwater building detection system realize 5G communication through a 5G base station, wherein during the communication, data of the first 5G client terminal device and the second 5G client terminal are transferred in a transfer mode between the 5G base stations, and during the communication, data to be communicated between the first 5G client terminal device and the second 5G client terminal are transferred in a transfer mode between the 5G base stations, and in order for the data recorded by the 5G base stations to be transferred, the data need to be stored by the 5G base stations;

the storing includes, in addition to storing data to be communicated between the first 5G client terminal device and the second 5G client terminal in the 5G base station, the following steps:

TA-1, receiving the instruction of the 5G base station to store the data according to the requirement transmitted in the preset time period I at regular time;

the 5G base station transmits a command for requesting data storage to the master control device at regular time according to a preset time period, and the command for requesting data storage is just like the 5G base station with the identification code. The first preset period can be flexibly set according to practical situations, which is not limited in this embodiment, just like the first preset period can be 200T, and the identifier code of the 5G base station can be its MAC address.

TA-2, taking out a data storage device by means of a preset mode to serve as a designated data storage device of the 5G base station, wherein the data storage device is oriented to each instruction requiring data storage;

and when receiving the command for requesting data storage transmitted by the 5G base station each time, the main control device feeds back the command for requesting data storage, and configures a new designated data storage device for the 5G base station according to a preset mode.

As such, the preset patterns may be of several types, such as: the main control device searches the current service number of each data storage device, and also takes out the data storage device with the lowest current service number as the designated data storage device of the 5G base station; here, the number of services of each data storage device is consistent with the number of 5G base stations that each data storage device keeps linked; when the method is specifically applied, after receiving the instruction for requesting data storage, the master control device monitors the number of 5G base stations linked with each data storage device at present; again just like: the master control device inquires the size of the available data storage area of each data storage device, and then fetches the data storage device with the highest size of the available data storage area to serve as the designated data storage device of the 5G base station.

When the preset mode is that the master control device searches the number of current service of each data storage device, and when the data storage device with the lowest number of current service is taken out to serve as the designated data storage device of the 5G base station, the master control device can search the number of current service of each data storage device by a method of sequentially reading each data storage device, can also perform storage by a method of receiving the number of current service transmitted by each data storage device at regular time, and can search the number of current service of each data storage device stored in the master control device when necessary; here, the time size of the number of the present traffic transmitted by each data storage device is lower than the predetermined period one.

TA-3, transmitting the data of the appointed data storage device to the 5G base station to enable the 5G base station and the appointed data storage device to construct a link;

the main control device transmits the data of the appointed data storage device to the 5G base station, and the 5G base station constructs a link with the appointed data storage device after receiving the data of the appointed data storage device.

For example, to better balance the data capacity stored by each data storage device and prevent data from being lost, the data storage device that has been linked with the 5G base station is removed each time the 5G base station is again configured with the designated data storage device.

The master device may store the data of the designated data storage device in association with the 5G base station, that is, the master device stores the data of the data storage device which is linked with the 5G base station for each of the predetermined time periods, each time the designated data storage device is configured to be allocated to the 5G base station.

In the TA-2, the method for taking out a data storage device by means of a preset mode to serve as the designated data storage device of the 5G base station comprises the following procedures:

TB-1, whereby said master device executes TB-2 if not, and TB-3 if;

TB-2, remove the data of the data storage equipment that links with said 5G base station structure in every said time interval that is set up in advance in the said master control device, and regard the data storage equipment with the lowest number of present business as the appointed data storage equipment of the said 5G base station;

and TB-3, using the data storage device with the lowest current service number in the data storage devices which are not linked with the 5G base station as the designated data storage device of the 5G base station.

When the designated data storage device is fetched from the 5G base station each time, the data storage device with the lowest current service number is required to be fetched from the data storage devices which are not linked with the 5G base station, and is used as the designated data storage device of the 5G base station, after all the data storage devices are linked with the 5G base station, the data of the designated data storage device of the 5G base station in the main control device is removed, the current service number of all the data storage devices is retrieved again, and the data of the designated data storage device of the 5G base station is started again.

As such, in the implementation of the data storage method, each data storage device may periodically transmit the current number of traffic to the master device, so that the master device may perform a search within the stored data if necessary, without having to listen to each data storage device sequentially.

The storage further comprises the following steps: .

TA-4, receiving the number of current business transmitted by each data storage device according to the preset time period II at fixed time;

the number of the current service is transmitted to the main control device through each data storage device at regular time according to a preset time period II, so that the time period of the number of the current service of each data storage device searched by the main control device can be saved, and the concurrency of the number of the current service of each data storage device in the main control device can be ensured even if the main control device is started again due to the problem; here, the first predetermined period is lower than the first predetermined period, which may be 40T, as if the first predetermined period is 200T.

TA-5, recording the number of the current service transmitted by each data storage device, and determining whether the data storage device has the number of the current service which is not transmitted in the preset time period three;

and TA-6, when the data storage equipment with the number of the undelivered current service in the preset time period three is provided, judging that the data storage equipment is dead, and removing the data of the data storage equipment recorded in the main control device.

The main control device records the number of the current service transmitted by each data storage device so that the main control device can execute searching when necessary, and the main control device judges whether the data storage device is in a dead state or not through the data storage device which has the preset time period of three times of not transmitting the number of the current service; when the number of current business transmitted by a certain data storage device is not received in a period three preset by the main control device, judging that the data storage device is dead, and removing the data of the data storage device recorded in the main control device to enable the data stored in the main control device and the specific conditions of the data storage devices to be concurrent; after the data of the data storage device is removed, the master device does not perform retrieval on the data storage device when the data storage device is reconfigured for the 5G base station.

Here, the preset time period three is higher than the preset time period two, that is, the preset time period three divides the preset time period two; as in the case where the preset period two is 60T, the preset period three may be 120T.

Here, it is only necessary to ensure that each data storage device can store data generated by each 5G base station during the lifetime; therefore, to save the size of the capacity of the stored data, the capacity of each data storage device can be configured according to the following mode:

each 5G base station has an upper limit value of data capacity in the preset life period, takes out the highest value in the upper limit value of all data capacity, and takes the value obtained by multiplying the highest value and the number of the 5G base stations as the sum value of the storage capacity of all the data storage devices.

The preset lifetime is the lifetime of the data in each data storage device that the user wants to exist, and can be changed by specific status. Just like this, the preset lifetime can be 45 days.

Because the storage method is to perform balance configuration according to the number of services, rather than to perform balance configuration according to storage capacity, to prevent data from being lost due to data storage areas in the external memory of the data storage devices with partial storage capacity not being large when the life period is not reached, and to better achieve balance of the data capacity stored by each data storage device, the capacity of each data storage device can be consistent; the capacity of a data storage device is the capacity of a data storage area within the external memory of the data storage device.

Thus, when the data storage area in the external memory of the random data storage device overflows, the data storage time in the data storage device can be considered to reach the preset life period.

For example, to prevent the data storage area in the external memory of each data storage device from overflowing to form data to be lost, an intermediate terminal I can be provided, and the intermediate terminal I can remove the stored data before a preset life period in each data storage device according to a preset time period IV; the intermediate terminal can also be a notebook computer.

In a specific application, each data storage device may record a storage time when storing data to be communicated between the first 5G client terminal device and the second 5G client terminal transmitted from each 5G base station, and form a text document, where the text document has a storage time of all data. The intermediate terminal checks the text document once at a timing according to a preset time period four, and removes the stored data before a preset lifetime of the check time rollback, so as to prevent the overflow of the data storage area in the external memory of each data storage device. Here, the previously set period four is lower than the lifetime. Just like this, the preset lifetime can be 45 days, and the preset period four can be 2 days.

When the capacity of each data storage device is configured according to the preset lifetime and the capacities of the data storage areas in the external memories of the data storage devices of each data storage device are consistent, the sum of the capacities of the data to be communicated between the first 5G client terminal device and the second 5G client terminal device obtained by each 5G base station in one preset lifetime is uniformly distributed to each data storage device according to time. The capacity of the data storage device here is the capacity of the data storage area within the external memory of the data storage device.

If the total number of the data storage devices is K, under the condition that each data storage device operates smoothly, the data capacity configured by each data storage device is the sum of the data capacities obtained by each 5G base station in the preset lifetime of 1/K, and K is a positive integer.

However, during specific operation, a phenomenon that a data storage device cannot be operated often occurs, and when a data storage device crashes, the data capacity configured by the data storage device cannot be stored, that is, the time for which the data stored in each data storage device can be kept is reduced by 1/N, so that when the preset lifetime is not reached, a phenomenon that the data storage area in the external memory of part of the data storage device overflows occurs, and such a state cannot be detected.

Because the storage method provided by the application configures the designated data storage equipment for each 5G base station according to the number of the current service of each data storage equipment, and the number of the current service of each data storage equipment is the number of the 5G base stations which are kept linked with each data storage equipment, certain 5G base stations frequently occur and the data storage equipment with the overflow problem is taken out to execute data storage, so that the data is lost.

To overcome such a drawback, as the storage method, the following procedures may be included:

each data storage device transmits a prompt message to the intermediate terminal I when the data storage area in the external memory overflows;

when the intermediate terminal receives the prompt message, the prompt is executed for the user, and the prompt can be that the intermediate terminal is connected with a buzzer to sound to achieve the prompt effect, so that the user can check whether the data storage equipment is in a dead state or not, and when the data storage equipment is in a dead state, some data in each data storage equipment can be manually removed by the number of the dead data storage equipment to prevent the data from being lost.

The number of 5G base stations can be several, and the 5G base stations are connected with the master control device through a 5G network.

An apparatus for 5G inter-base station communication, comprising:

the underwater building detection system comprises an on-water monitoring device, on-board operation equipment and an underwater robot, wherein the on-water monitoring device comprises a first monitoring device and a first 5G client terminal device of the underwater building detection system which are connected with each other, the on-board operation equipment comprises a second monitoring device and a second 5G client terminal device which are connected with each other, the first 5G client terminal device and the second 5G client terminal device of the underwater building detection system realize 5G communication through a 5G base station, the on-board operation equipment is in communication connection with the underwater robot, and the on-board operation equipment is used for controlling the underwater robot;

the device for communication between 5G base stations further comprises:

a main control device and a plurality of data storage devices;

the 5G base station and the plurality of data storage devices are respectively connected with the main control device through a 5G network, and the 5G base station and the plurality of data storage devices can be linked through a 5G network structure to execute data transmission among the data storage devices. The main control device and the data storage equipment can also be notebook computers, and flexible movement is facilitated. The master control device may communicate with a 5G base station and a number of data storage devices.

Here, the master control device includes a storage request receiving unit, a fetch specification storage unit, and a specification data transfer unit;

the storage request receiving unit is used for receiving the instruction of the 5G base station for storing the request data transmitted according to the preset time period.

The fetching and designating storage unit is used for fetching a data storage device serving as a designated data storage device of the 5G base station by means of a preset mode respectively for each instruction requiring data storage.

The specified data transfer unit transfers data of the specified data storage device to the 5G base station to cause the 5G base station and the specified data storage device to construct a link.

The main control device also comprises a business number receiving unit and a transmission monitoring unit;

the number receiving unit is used for receiving the number of the current service transmitted by each data storage device according to a preset time period II at fixed time;

the transmission monitoring unit is used for recording the number of the current service transmitted by each data storage device, and determining whether the data storage device is the data storage device with the number of the current service which is not transmitted in the preset time period three, and judging that the data storage device is dead when the data storage device with the number of the current service which is not transmitted in the preset time period three is the data storage device, and removing the data of the data storage device recorded in the main control device.

The extraction designated storage unit comprises a data retrieval subunit, an extraction subunit I and an extraction subunit II;

the data retrieval subunit is configured to retrieve, by means of the data, whether or not the data storage device has a link not constructed with the 5G base station;

the extraction subunit is used for removing the data of the data storage equipment which is linked with the 5G base station in each preset period I in the main control device, and taking the data storage equipment with the lowest current service number as the appointed data storage equipment of the 5G base station;

and the second extraction subunit is used for using the data storage device with the lowest current service number in the data storage devices which are not linked with the 5G base station as the designated data storage device of the 5G base station.

In short, the designated data storage device is configured for the 5G base station according to the preset mode, so that the data to be communicated between the first 5G client terminal device and the second 5G client terminal to be stored in each 5G base station can be distributed in each data storage device in a time-balanced manner, and the defect that the data distribution device depends too high at present is prevented.

While the present invention has been described with respect to the process illustrated by the embodiments, it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that each of the variations, changes, and substitutions can be made without departing from the scope of the present invention.

Claims (2)

1. A method for 5G inter-base station communication, comprising the steps of:

a first 5G client terminal device and a second 5G client terminal device of the underwater building detection system realize 5G communication through a 5G base station, wherein during the communication, the data of the first 5G client terminal device and the second 5G client terminal device are transferred in a transit way between the 5G base stations, and during the communication, the data to be communicated between the first 5G client terminal device and the second 5G client terminal device are transferred in a transit way between the 5G base stations, so that the 5G base station is required to store the data;

the storing includes, in addition to storing data to be communicated between the first 5G client terminal device and the second 5G client terminal in the 5G base station, the following steps:

TA-1, receiving the instruction of the 5G base station to store the data according to the requirement transmitted in the preset time period I at regular time;

the 5G base station transmits an instruction for requesting data storage to the master control device at regular time according to a preset time period;

TA-2, taking out a data storage device by means of a preset mode to serve as a designated data storage device of the 5G base station, wherein the data storage device is oriented to each instruction requiring data storage;

when receiving the command of the required data storage transmitted by the 5G base station each time, the main control device feeds back the command of the required data storage, and configures a new designated data storage device for the 5G base station according to a preset mode;

the preset mode is the number of current services of the main control device for searching each data storage device;

TA-3, transmitting the data of the appointed data storage device to the 5G base station to enable the 5G base station and the appointed data storage device to construct a link;

when a designated data storage device is configured for a 5G base station each time, the master control device can associate the data of the designated data storage device with the 5G base station and then perform storage, that is, the master control device stores the data of the data storage device which is linked with the 5G base station in each preset period one;

in the TA-2, the method for taking out a data storage device by means of a preset mode to serve as the designated data storage device of the 5G base station comprises the following procedures:

TB-1, whereby the master device performs TB-2 if not, and performs TB-3 if not, by means of whether the master device stores therein the data storage devices linked with the 5G base station configuration for each of the predetermined time periods;

TB-2, remove the data of the data storage equipment that links with said 5G base station structure in every said time interval that is set up in advance in the said master control device, and regard the data storage equipment with the lowest number of present business as the appointed data storage equipment of the said 5G base station;

and TB-3, using the data storage device with the lowest current service number in the data storage devices which are not linked with the 5G base station as the designated data storage device of the 5G base station.

2. The method according to claim 1, wherein the master device transfers the data of the designated data storage device to the 5G base station, and the 5G base station constructs a link with the designated data storage device after receiving the data of the designated data storage device.