CN114786188A

CN114786188A - Base station processing method and device

Info

Publication number: CN114786188A
Application number: CN202210303797.7A
Authority: CN
Inventors: 彭仁芳
Original assignee: Alibaba China Co Ltd
Current assignee: Alibaba China Co Ltd
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2022-07-22
Anticipated expiration: 2042-03-24
Also published as: CN114786188B

Abstract

The embodiment of the application provides a base station processing method and a base station processing device, wherein the method comprises the following steps: the method comprises the steps of obtaining the number of devices to be networked in a preset area and network requirement parameters of each device to be networked. And determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters. Determining deployment information of the wireless base station according to the working parameters and the area range of the preset area, wherein the deployment information comprises at least one of the following items: the number of radio base stations, the deployment location of each radio base station, and the type of each radio base station. And displaying the deployment information so that all the wireless base stations in the preset area are deployed according to the deployment information. The technical scheme of the application can effectively guarantee the network supply of the industrial equipment in the building site.

Description

Base station processing method and device

Technical Field

The present disclosure relates to communications technologies, and in particular, to a method and an apparatus for processing a base station.

Background

With the continuous development of the building field, at present, network supply is often required in a building site.

When the network is provided in a building site in the prior art, a router is usually installed in some fixed places, so as to provide the network for the terminal device. However, in the prior art, when the router is installed in the building site, a single router is usually deployed at a fixed position, but the network coverage of the single router in the building site cannot be guaranteed, and the network parameters cannot meet the network use requirements in the building site.

Therefore, the network requirements of the industrial equipment in the construction site cannot be met by deploying the router.

Disclosure of Invention

The embodiment of the application provides a base station processing method and device, and aims to solve the problem that the network requirements of industrial equipment in a building site cannot be met.

In a first aspect, an embodiment of the present application provides a base station processing method, including:

acquiring the number of devices to be networked in a preset area and a network requirement parameter of each device to be networked;

determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters;

determining deployment information of the wireless base station according to the working parameters and the area range of the preset area, wherein the deployment information comprises at least one of the following: the number of wireless base stations, the deployment position of each wireless base station, and the type of each wireless base station;

and displaying the deployment information so as to deploy all the wireless base stations in the preset area according to the deployment information.

In one possible design, the determining deployment information of the radio base station according to the operating parameter and the area range of the preset area includes:

according to the working parameters, determining a target type matched with the working parameters in a plurality of preset types of the wireless base station;

acquiring a preset coverage range of the wireless base station of the target type;

determining the target number N of the wireless base stations and the target deployment positions of the N wireless base stations according to the area range of the preset area and the preset coverage range, wherein the total range formed by the preset coverage ranges of the N wireless base stations covers the area range;

determining that the deployment information of the wireless base stations comprises the target number N of the wireless base stations, the target deployment positions of the N wireless base stations, and the type of each wireless base station as a target type.

In one possible design, the operating parameter includes at least one of: online capabilities, transmission parameters; wherein the online capability comprises continuous online and intermittent online, and the transmission parameter comprises at least one of the following: bandwidth, packet loss rate;

the determining, according to the operating parameter, a target type matched with the operating parameter in a plurality of preset types of the wireless base station includes:

and determining the type which supports the online capability and meets the transmission parameters as the target type in a plurality of preset types of the wireless base station.

In a possible design, before obtaining the number of devices to be networked in the preset area, the method further includes:

displaying a deployment page, wherein a building site is displayed in the deployment page;

determining the preset area in the building site.

In one possible design, the determining the predetermined area in the construction site includes:

determining a pre-divided area in the building site as the preset area; or,

determining a preset area according to the received area selection operation in the building site of the deployment page; or;

dividing the building site into a plurality of preset regions according to the positions of the devices to be networked marked in the building site, wherein the preset regions comprise a plurality of devices to be networked.

In one possible design, the displaying the deployment information includes:

and in the building site displayed in the deployment page, marking each wireless base station at the deployment position of each wireless base station by adopting a preset pattern corresponding to the type of the wireless base station.

In a second aspect, an embodiment of the present application provides a base station processing apparatus, including:

the acquisition module is used for acquiring the number of the devices to be networked in a preset area and the network requirement parameter of each device to be networked;

the first determining module is used for determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters;

a second determining module, configured to determine deployment information of the wireless base station according to the operating parameter and the area range of the preset area, where the deployment information includes at least one of the following: the number of wireless base stations, the deployment positions of the wireless base stations, and the types of the wireless base stations;

and the processing module is used for displaying the deployment information so as to deploy all the wireless base stations in the preset area according to the deployment information.

In one possible design, the second determining module is specifically configured to:

the second determining module is specifically configured to:

In one possible design, the processing module is further to:

before the number of the devices to be networked in the preset area is obtained, displaying a deployment page, wherein a building site is displayed in the deployment page;

and determining the preset area in the building site.

In one possible design, the processing module is specifically configured to:

determining a pre-divided area in the building site as the preset area; or,

determining a preset area according to the area selection operation received in the building site of the deployment page; or;

according to the position of the equipment to be networked marked in the building site, dividing the building site into a plurality of preset areas, wherein the preset areas comprise a plurality of equipment to be networked.

In one possible design, the processing module is specifically configured to:

and marking each wireless base station at the deployment position of each wireless base station by adopting a preset pattern corresponding to the type of the wireless base station in the building site displayed in the deployment page.

In a third aspect, an embodiment of the present application provides a base station processing apparatus, including:

a memory for storing a program;

a processor for executing the program stored by the memory, the processor being adapted to perform the method of the first aspect as well as any of the various possible designs of the first aspect, when the program is executed.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium, which includes instructions that, when executed on a computer, cause the computer to perform the method as described above in the first aspect and any one of various possible designs of the first aspect.

In a fifth aspect, embodiments of the present application provide a computer program product comprising a computer program that, when executed by a processor, performs the method of the first aspect as well as any one of the various possible designs of the first aspect.

The embodiment of the application provides a base station processing method and a base station processing device, wherein the method comprises the following steps: the method comprises the steps of obtaining the number of devices to be networked in a preset area and network requirement parameters of each device to be networked. And determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters. Determining deployment information of the wireless base station according to the working parameters and the area range of the preset area, wherein the deployment information comprises at least one of the following items: the number of radio base stations, the deployment location of each radio base station, and the type of each radio base station. And displaying the deployment information so that all the wireless base stations in the preset area are deployed according to the deployment information. The number of the devices to be networked in the preset area in the building field is determined, and the network demand parameters of the devices to be networked are determined, so that the working parameters required to be provided by the base stations in the preset area are determined, then the deployment information of the wireless base stations is determined according to the working parameters and the range of the preset area, and the deployment information of the wireless base stations is displayed, so that the wireless base stations capable of meeting the network demand of the industrial devices can be effectively arranged in the building field, and the network supply of the industrial devices in the building field can be effectively guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic diagram of an arrangement of a mobile wireless base station according to an embodiment of the present application;

fig. 2 is a flowchart of a base station processing method according to an embodiment of the present disclosure;

fig. 3 is a second flowchart of a base station processing method according to an embodiment of the present application;

fig. 4 is a schematic diagram of an implementation of a building site provided in an embodiment of the present application;

fig. 5 is a schematic diagram illustrating an implementation of determining a preset area according to an embodiment of the present application;

fig. 6 is a schematic diagram illustrating an implementation of determining deployment information of a wireless base station according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a base station processing apparatus according to an embodiment of the present application;

fig. 8 is a schematic hardware structure diagram of a base station processing device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In order to better understand the technical solution of the present application, the following provides further detailed description of the related art related to the present application.

With the continuous development of the building field, at present, network supply in a building site is an urgent problem to be solved, and in the related art, when the network supply in the building site is ensured, a router is usually arranged in a fixed room or a fixed position, and a device requiring network connection can enter a network coverage range of the router to realize network connection. Or, the equipment in the building site can also realize network connection in a mobile network mode.

Meanwhile, in the prior art, when a router is deployed, a single router is usually deployed at a fixed location, however, such a deployment manner is only to install a router at a convenient deployment location, for example, a guard room, for example, a security booth, etc., so as to facilitate connection of mobile devices such as a mobile phone. Therefore, when the router is deployed, the network requirement in the building site is not considered, and the network coverage in the building site is not considered. Deployment of routers at fixed locations to provide a network implementation may result in an inability to cover network requirements within a building site.

And, both the network connection mode of the router and the network connection mode of the mobile network are generally used for supporting the civil network, so the network parameters cannot meet the network use requirements in the industrial aspect.

It is understood that a large number of industrial devices are usually present in a building site, and the network supply of the industrial devices cannot be satisfied based on the above manner, so that the realization of the network requirement of the industrial devices in the building site cannot be guaranteed.

Aiming at the problems in the prior art, the application provides the following technical conception: through the network user demand according to industrial equipment in the predetermined area in the building place, set up mobilizable basic station in the some positions in predetermined area to can effectively guarantee the satisfaction of the network demand of industrial equipment in the building place.

Based on the above description, the following may understand, for example, with reference to fig. 1, where fig. 1 is a schematic diagram of an arrangement of a mobile radio base station according to an embodiment of the present application.

As shown in fig. 1, the wireless base station in this application is a mobile micro base station, which can be installed in a construction site, which in this application can be understood as a construction site in a colloquial sense.

In a possible implementation manner, the movable micro base station may be disposed inside a box, the box at least includes a mounting component, and the micro base station may be mounted at a predetermined position in a predetermined area. The preset area may be an area where a micro base station is to be installed, and the preset position may be, for example, a curtain wall shown in fig. 1, for example, referring to fig. 1, where the micro base station 101 is arranged on the curtain wall; or the tower crane may also be a tower crane, for example, referring to fig. 1, a micro base station 102 is disposed on the tower crane, and the like. The present embodiment does not limit the preset position for installing the micro base station, as long as the preset position can ensure the installation of the micro base station, and in the actual implementation process, the preset position may be any position in the preset area.

It should be noted that, in the prior art, when network provisioning is performed through a router, the router generally needs to perform wired connection to be able to provide the network. However, in the embodiment, the micro base station is usually installed with a mobile communication module, such as a 5G module, a 4G module, and the like, so that in the embodiment, network provisioning is performed by deploying the micro base station, and a deployment position and a deployment manner of the micro base station can be flexibly selected, thereby effectively improving flexibility of network provisioning and operation simplicity.

Based on the above description, the following describes a base station processing method provided in the present application with reference to specific embodiments. It should be noted that, in the present application, an execution main body of each embodiment may be, for example, a terminal device, where the terminal device may be, for example, a mobile phone, a computer, a tablet, a vehicle-mounted terminal, and the like.

First, description is made with reference to fig. 2, and fig. 2 is a flowchart of a base station processing method according to an embodiment of the present application.

As shown in fig. 2, the method includes:

s201, acquiring the number of devices to be networked in a preset area and network requirement parameters of each device to be networked.

The preset area is an area within the building site, and it is understood that the preset area is smaller than or equal to the building site, for example, the building site is a 10 × 10 area, and the preset area may be, for example, a 2 × 2 area therein. Or, the preset area may also be a 10 × 10 area of a building site, and the specific implementation of the preset area is not limited in this embodiment as long as it is a complete area in the building site, and on this basis, the specific implementation of the preset area may be selected and set according to actual requirements.

The device to be networked in this embodiment is an industrial device in the building site, for example, a camera, a sensor, an unmanned aerial vehicle, an intercom, a code scanning device, a vehicle capable of being networked, and the like.

In this embodiment, the number of devices to be networked in the preset area may be obtained. In a possible implementation manner, the device number of the devices to be networked here may be, for example, a peak value of the number of devices to be networked that are simultaneously present in the preset area in the historical time.

For example, it may be statistically determined that the number of devices to be networked that have appeared simultaneously in the preset area 1 at the historical time is at most 100, and although only 50 devices to be networked may exist in the preset area 1 at the current time, the number of devices to be networked in the preset area is still determined to be 100. The wireless base stations are deployed by considering the maximum number of the devices possibly appearing in the preset area, so that the network supply of the devices in the preset area can be effectively ensured.

In this embodiment, after the number of the devices to be networked is determined, the network requirement parameter of each device to be networked in the devices to be networked needs to be determined, for example, in the above example, when the number of the devices to be networked is determined to be 100, the network requirement parameter of each device to be networked in the 100 devices to be networked needs to be determined.

The network requirement parameters may include, for example, bandwidth requirements, packet loss rate requirements, network speed requirements, and the like, all parameters that may indicate network transmission capability may be used as the network requirement parameters in this embodiment, and the remaining implementation manners may be selected and expanded according to actual requirements.

And it can be understood that there is a corresponding network requirement parameter for each device to be networked, where the network requirement parameter indicates what network parameter the device to be networked needs to ensure its normal operation. For example, for a certain camera, the corresponding packet loss rate requirement may be, for example, that the packet loss rate is not higher than 5%, and for a certain sensor, the corresponding packet loss rate requirement may be, for example, that the packet loss rate is not higher than 10%.

In the actual implementation process, the network requirement parameters of each device to be networked can be selected and set according to actual requirements, as long as the network requirement parameters can indicate the network parameters required by the normal operation of the device to be networked.

S202, determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and the plurality of network requirement parameters.

After the number of the devices and the respective network requirement parameters of the multiple devices to be networked are determined, the operating parameters of the wireless base station to be deployed in the preset area can be determined according to the number of the devices and the multiple network requirement parameters.

It can be understood that the operating parameters of the radio base station need to ensure that the access of the devices to be networked can satisfy the number of devices, for example, the device access amount of the radio base station is limited, and then the number of the radio base station needs to be determined according to the device access amount of the radio base station and the number of devices in the preset area. Moreover, the working parameters of the wireless base station also need to ensure the satisfaction of the network requirement parameters of each device to be networked.

In a possible implementation manner, the operating parameters in this embodiment may include, for example, a bandwidth, a packet loss rate, a network speed, and the like, where the operating parameters may be understood as network parameters that are required to be met by the wireless base stations in the preset area, and in an actual implementation process, the operating parameters may be selected and set according to actual requirements.

S203, determining deployment information of the wireless base station according to the working parameters and the area range of the preset area, wherein the deployment information comprises at least one of the following: the number of radio base stations, the deployment location of each radio base station, and the type of each radio base station.

After the operating parameters of the wireless base station are determined, the deployment mode of the wireless base station needs to be determined according to the operating parameters, and meanwhile, when the deployment mode of the wireless base station is determined, the area range of the preset area needs to be considered, so that the arrangement of the wireless base station can cover the area range of the preset area.

Therefore, in this embodiment, the deployment information of the wireless base stations may be determined according to the operating parameters and the area range of the preset area, and the deployment information in this embodiment may include, for example, the number of wireless base stations, the deployment positions of the wireless base stations, and the types of the wireless base stations.

It can be understood that the number of the wireless base stations is used to indicate how many wireless base stations are installed in the preset area, for example, the number of the wireless base stations is n, and then the installation of the n wireless base stations needs to ensure that the network supply of the preset area can be met, and at the same time, the above-mentioned operation parameters need to be met. And the deployment positions of the radio base stations are used to indicate where the respective radio base stations are installed in the preset area.

And the type of radio base station in this embodiment can be understood as, for example, the model of the radio base station, wherein the model of the radio base station selected needs to satisfy the above-described operating parameters.

By determining the deployment information of the wireless base stations, it needs to be determined that one or more wireless base stations deployed in a preset area can meet the network supply of each device to be networked in the preset area with specified operating parameters.

And S204, displaying the deployment information so as to deploy all the wireless base stations in the preset area according to the deployment information.

After determining the deployment information of the wireless base stations, the deployment information may be displayed, and in one possible implementation, for example, the deployment information may be displayed on a screen of the terminal device, so that all the wireless base stations in the preset area may be deployed according to the deployment information.

The base station processing method provided by the embodiment of the application comprises the following steps: the method comprises the steps of obtaining the number of devices to be networked in a preset area and network requirement parameters of each device to be networked. And determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters. Determining deployment information of the wireless base station according to the working parameters and the area range of the preset area, wherein the deployment information comprises at least one of the following items: the number of radio base stations, the deployment location of each radio base station, and the type of each radio base station. And displaying the deployment information so that all the wireless base stations in the preset area are deployed according to the deployment information. The number of the devices to be networked in the preset area in the building field and the network demand parameters of all the devices to be networked are determined, so that the working parameters required to be provided by the base stations in the preset area are determined, then the deployment information of the wireless base stations is determined according to the working parameters and the range of the preset area, and the deployment information of the wireless base stations is displayed, so that the wireless base stations capable of meeting the network demand of the industrial devices can be effectively arranged in the building field, and the network supply of the industrial devices in the building field can be effectively guaranteed.

Based on the above embodiments, the following describes the base station processing method provided in the present application in further detail with reference to fig. 3 to fig. 6. Fig. 3 is a second flowchart of a base station processing method provided in the embodiment of the present application, fig. 4 is a schematic implementation diagram of a building site provided in the embodiment of the present application, fig. 5 is a schematic implementation diagram of determining a preset area provided in the embodiment of the present application, and fig. 6 is a schematic implementation diagram of determining deployment information of a wireless base station provided in the embodiment of the present application.

As shown in fig. 3, the method includes:

s301, displaying a deployment page, wherein a building site is displayed in the deployment page.

In this embodiment, before acquiring the number of devices of the devices to be networked in the preset area, for example, the preset area may be determined first.

In this embodiment, when the preset area is determined, for example, a deployment page may be displayed in a graphical user interface of the processing device, information related to deployment of the wireless base station may be provided in the deployment page, and a building site may also be displayed in the deployment page in this embodiment.

It can be understood that the deployment of the wireless base station is performed in a building site, so that the building site currently displayed in the deployment page may be, for example, a building site to be deployed of the wireless base station, which may specifically be a planning image of the building site, or may also be a real-scene image of the building site, and the like, which is not limited in this embodiment.

In an alternative implementation manner, the building site displayed in the deployment page may also include, for example, real-time information of the building site, where the real-time information may include, for example, a location of each device to be networked in the building site at the current time, a type of each device to be networked, a parameter of each device to be networked, and the like.

For example, as can be understood with reference to fig. 4, as shown in fig. 4, a building site 401 is currently displayed in the deployment page, and the locations of a plurality of devices to be networked are displayed in the building site 401, for example, 402 in fig. 4 indicates the location of one device to be networked. In the actual implementation process, the display of the specific building site and the positions of the devices to be networked can be determined according to actual requirements, which is not limited in this embodiment.

S302, determining a preset area in a building site.

After the building site is displayed in the deployment page, for example, a preset area may be determined in the building site.

In one possible implementation, for example, a plurality of areas are pre-divided in the building site, so that the pre-divided areas in the building site may be determined as the pre-set areas.

Or, in another possible implementation manner, a region selection operation for the building site may also be received, where the region selection operation may be an operation of selecting a finished region in the building site. For example, referring to fig. 4, where the area selection operation may select a completed area 403 within the construction site, the preset area may be determined according to the area selection operation received in the construction site of the deployment page.

Or, in another possible implementation manner, since the locations of the devices to be networked are marked in the building site, in this embodiment, for example, clustering processing may be performed according to the marked locations of the devices to be networked in the building site, so as to divide the building site into a plurality of preset areas. Wherein, a plurality of devices to be networked are included in each preset area.

For example, as can be understood by referring to fig. 5, assuming that there are 7 devices to be networked in the building site 501, clustering processing may be performed according to the locations of the 7 devices to be networked, where the clustering processing actually determines the devices to be networked that are closer to each other as a class, so as to obtain multiple classes, and each class includes at least one device to be networked.

In the example of fig. 5, for example, 2 categories are determined according to 7 devices to be networked, then 2 preset regions may be correspondingly determined, which are the region 501 and the region 502 in fig. 5, respectively, where 3 devices to be networked are included in the region 501, and 4 devices to be networked are included in the region 502.

In an actual implementation process, when clustering is performed to determine a plurality of preset regions, clustering is mainly performed according to the distance of the positions of the devices to be networked, so that the preset regions obtained by division are not limited in this embodiment.

S303, acquiring the number of the devices to be networked in the preset area and the network requirement parameter of each device to be networked.

The implementation manner of S303 is similar to that of S201 described above, and is not described herein again.

S304, determining all working parameters of the wireless base stations to be deployed in the preset area according to the number of the devices and the plurality of network requirement parameters.

The implementation manner of S304 is similar to the implementation manner of S202 described above, and is not described herein again.

Further, the operating parameter of the radio base station in this embodiment may include at least one of the following: online capabilities, transmission parameters; wherein the online capability comprises continuous online and intermittent online, and the transmission parameter comprises at least one of the following: bandwidth, packet loss rate.

Here, the continuous online means that the radio base station remains online regardless of the presence of network connection, and the intermittent online means that the radio base station remains online when network connection is present, and the radio base station can be in a sleep state when network connection is absent.

Besides the bandwidth and the packet loss rate, the transmission parameters of the wireless base station may be selected and expanded according to actual requirements, and all the parameters that can reflect network transmission may be used as the transmission parameters in this embodiment.

S305, according to the working parameters, determining a target type matched with the working parameters in a plurality of preset types of the wireless base station.

After determining the operating parameters of the radio base station, the type of radio base station to be configured may be determined first, for example, from the operating parameters of the radio base station.

In one possible implementation, for example, there are multiple types of radio base stations, and then, for example, a target type matching the operating parameter may be determined among multiple preset types of radio base stations according to the operating parameter of the radio base station determined as described above.

In particular, the matching of the operating parameters described herein may be, for example, the meeting of the online capability described above and the meeting of the transmission parameters described above.

It can be explained with reference to a specific example, for example, there are currently 3 types of radio base stations, where the online capability of the radio base station of type 1 is continuous online, the bandwidth is 40Mhz, and the packet loss rate is 10%; and the online capability of the wireless base station of the type 2 is intermittent online, the bandwidth is 20Mhz, and the packet loss rate is 5%; and, the online capability of the type 3 radio base station is continuously online, the bandwidth is 60Mhz, and the packet loss rate is 2%.

Meanwhile, the determined operating parameters of the radio base station are assumed to be: the online capability is continuous online, the bandwidth is more than 50Mhz, and the packet loss rate is less than 5%. Then, in conjunction with the currently determined operating parameters of the radio base station, and the above-described 3 types of radio base stations, it can be determined that the radio base station of type 3 satisfies the determined operating parameters, and thus type 3 can be determined as the target type.

S306, acquiring the preset coverage range of the wireless base station of the target type.

After determining the target type, it may be determined that the radio base station of the target type is a radio base station to be currently deployed in a preset area.

Meanwhile, it can be understood that, when the wireless base stations are deployed in the preset area, it is required to ensure that the deployed wireless base stations can cover the range of the preset area, thereby ensuring that network provisioning at each position in the preset area can be satisfied.

After the target type is determined, a predetermined coverage of the radio base station of the target type can be obtained, where the predetermined coverage is a range that can be covered by one radio base station, and can be represented as one coverage area.

S307, determining the target number N of the wireless base stations and the target deployment positions of the N wireless base stations according to the area range and the preset coverage range of the preset area, wherein the preset coverage ranges of the N wireless base stations jointly form a total coverage area range.

It can be understood that, when deploying the wireless base stations, it should be considered that the deployed multiple wireless base stations may cover the preset area, so as to ensure that the required network can be acquired no matter where the device to be networked is located in the preset area.

Therefore, in a possible implementation manner, when determining the number of wireless base stations and the deployment positions of the wireless base stations in this embodiment, the target number N of wireless base stations and the target deployment positions of N wireless base stations may be jointly determined according to the area range of the preset area and the preset coverage range of the wireless base stations of the determined target type.

For example, the wireless base stations may be uniformly deployed according to the area range of the current preset area and the determined preset coverage range, and then it is determined how many wireless base stations are required for uniform deployment to cover the preset area, so as to obtain the target number N of the wireless base stations. After the target number N of radio base stations is determined, the N radio base stations may be uniformly deployed in the preset area, so as to obtain respective target deployment positions of the N radio base stations.

For example, as can be understood in conjunction with fig. 6, it is assumed that there currently exists the preset area 601 shown in fig. 6, wherein the area range of the preset area 601 is shown by the rectangle in fig. 6. And the preset coverage area of the current target type of radio base station may be, for example, an ellipse shown in fig. 6, so that the radio base stations are deployed uniformly in the preset area, and for example, the radio base stations at 5 target deployment positions a, b, c, d, and e in fig. 6 may be determined. It can be determined by referring to fig. 6 that the wireless base stations at the 5 target deployment positions can ensure that the area range of the preset area is covered, that is, when the 5 wireless base stations are at the respective target deployment positions, the total range formed by the preset coverage ranges of the 5 wireless base stations together covers the area range of the preset area.

Or, the preset position where the wireless base station can be deployed in the preset area may be first obtained, and then the number N of the wireless base stations is determined according to the setting of the preset position, so as to ensure that the deployed N wireless base stations can cover the area range of the preset area.

Therefore, the present embodiment does not limit the specific implementation of determining the target number of the wireless base stations and the target deployment position of each wireless base station, as long as it is ensured that when the determined N wireless base stations are at the respective target deployment positions, a total range formed by the N wireless base stations together covers an area range of the preset area. On this basis, the deployment number N of the wireless base stations and the specific deployment position of each wireless base station may be selected and set according to actual requirements, which is not limited in this embodiment.

S308, determining that the deployment information of the wireless base stations comprises target deployment positions of the target number N, N wireless base stations of the wireless base stations, and the type of each wireless base station is a target type.

After the target number N of radio base stations and the target deployment positions of the N radio base stations are determined as described above, deployment information of the radio base stations can be determined.

In this embodiment, the deployment information of the radio base stations may include the above-determined target number N of radio base stations, and the target deployment positions of the N radio base stations, and the type of each radio base station is the above-determined target type.

And in a possible implementation manner, the specific deployment information of the wireless base station may be selected and expanded according to actual requirements, in addition to the content described above, which is not particularly limited in this embodiment.

For example, while the above describes that different types of wireless base stations may have different on-line capabilities, which may include continuous on-line and intermittent on-line, it is understood that different on-line capabilities may require different power supplies. Among them, the requirement of the continuously online wireless base station on the power is higher, and the power supply mode of the wireless base station is also considered.

In a possible implementation manner, for a wireless base station that needs to be continuously on-line, in order to ensure its long-time high-demand power supply (for example, power supply still needs to be ensured when power is off), its power supply manner may include at least one of the following: the power supply modes can be combined with each other to ensure high quality and long time common use of the continuously online wireless base station. Accordingly, for the wireless base station with intermittent online, because the requirement for the electric quantity is not very high, for example, one of the solar power supply, the storage battery power supply, the wired power supply and the like may be simply adopted, or a combination of the foregoing power supply manners may also be adopted, which is not limited in this embodiment.

For the power supply modes of different types of wireless base stations, the power supply modes may be selected and set according to actual requirements, which is not limited in this embodiment. For example, the power supply modes corresponding to the radio base stations of the respective types may be preset, and then after the target type of the radio base station is determined, the power supply mode of the radio base station of the target type may be quickly and effectively used.

On the basis of the above-mentioned content, the deployment information of the wireless base station may further include a power supply mode, and in an actual implementation process, the deployment information of the wireless base station may also be selected and set according to an actual requirement, which is not limited in this embodiment.

S309, displaying the deployment information so that all the wireless base stations in the preset area are deployed according to the deployment information.

After the deployment information is determined, the deployment information may be displayed in a deployment page, for example, so that the relevant person can deploy all the wireless base stations within the preset area according to the determined deployment information.

In one possible implementation manner, a preset pattern corresponding to each type of wireless base station is set in the present embodiment. Therefore, in this embodiment, for example, in a building site displayed in the deployment page, a preset pattern corresponding to the type of the wireless base station may be adopted to mark each wireless base station at the deployment position of each wireless base station.

By adopting the wireless style corresponding to the type of the wireless base station, the wireless base station is marked at each deployment position, so that the deployment position of the wireless base station and the type of the deployed wireless base station can be displayed quickly and effectively.

In a possible implementation manner, for example, the remaining deployment information of each wireless base station, such as the power supply manner and the like described above, may also be displayed in a deployment page, or the deployment information of the wireless base station may also be displayed when the click operation on the label information of the wireless base station is detected, and the like.

After the deployment information of the wireless base station is displayed in the deployment page, the wireless base station can be controlled correspondingly, for example, in response to the control operation of the labeling control acting on the wireless base station. For example, the label of the wireless base station can be moved in response to the moving operation of the label control for the wireless base station; or the label of the wireless base station can be deleted in response to the deletion operation of the label control of the wireless base station so as to cancel the preparation deployment of the wireless base station; or, the marking control of the wireless base station can be added in the deployment page, so as to add the deployed wireless base station. Or the type of radio base station may be modified, etc.

That is to say, in this embodiment, after determining the deployment information of the wireless base station, corresponding addition, deletion, modification, and the like may be performed on the wireless base station to be deployed according to an actual requirement.

And it is understood that the devices to be networked in the preset area may be updated, possibly due to the movement of some movable devices, or due to the removal, addition, etc. of some fixedly deployed devices. In summary, the devices to be networked in the preset area are in a fluctuating state.

Meanwhile, based on the above description, it can be determined that, in the present embodiment, when the deployment of the wireless base station is performed in the preset area, the deployment is performed based on the maximum number of devices to be networked that exist in the preset area at the same time. Therefore, after the wireless base station is deployed, the actual number of devices in the preset area may not reach the determined number of devices to be networked.

Therefore, in a possible implementation manner, in order to implement energy saving of the wireless base station, after the wireless base station is deployed in the preset area, the number of actual networking devices in the preset area may also be obtained, and the operating parameters of the wireless base station may be dynamically adjusted according to the network requirement parameters of the actual networking devices. As long as the working parameters of the wireless base station are ensured, the network requirements of actual networking equipment in the preset area can be met.

It is further understood that some devices to be networked in the building site are not movable, such as a camera, and some devices to be networked are movable, such as a drone, a walkie-talkie, a vehicle, and the like. Therefore, in a preset area in the building site, the number of the devices to be networked is always not fixed, and in this embodiment, the peak number of the devices to be networked in the preset area is determined, and the subsequent deployment mode of the micro base station is determined based on the peak number. In the subsequent implementation process, the wireless parameters of the micro base stations can be adjusted according to the number of the devices in the preset area, so that the deployed micro base stations can be effectively ensured to dynamically meet the networking requirements in the building site.

According to the base station processing method provided by the embodiment of the application, the construction site is displayed in the deployment page, and the deployment information is displayed, so that an operator can quickly, intuitively and effectively determine the deployment related information of the wireless base station. Meanwhile, the working parameters of the wireless base station are determined according to the network requirement parameters of the devices to be networked in the preset area, so that the working parameters of the wireless base station can be ensured to meet the network requirements of the devices to be networked in the preset area. After the working parameters are determined, deployment information of the wireless base stations is determined according to the working parameters, wherein the deployment information comprises the types of the wireless base stations, the number of the wireless base stations and the deployment positions of the wireless base stations, the types of the wireless base stations are matched with the working parameters, and the number of the wireless base stations and the deployment positions of the wireless base stations can be guaranteed to cover the area range of the preset area, so that network provision can be effectively guaranteed for all devices to be networked in the preset area. Meanwhile, the embodiment also supports dynamic adjustment of the working parameters of the wireless base station according to the number of actual networking devices and network requirements in the preset area, so that energy-saving processing can be further realized on the basis of ensuring network coverage and network supply in the preset area.

On the basis of the above introduction, the beneficial effects of the base station processing method provided by the present application are further explained herein. It can be understood that, as the construction engineering continues to be performed, the number of devices to be networked in the construction site is different at different stages of the construction engineering, for example, at a certain stage of the construction engineering, the deployment of the camera is required, and then the devices to be networked in the construction site include the camera. For another example, in another stage of the building engineering, the camera may be turned off or the arrangement of the camera may be cancelled without deploying the camera, so that it can be understood that the equipment networking requirement in the building site is dynamically changed in different stages of the building engineering.

In the prior art, when network deployment is performed, dynamic changes of networking requirements in a building site are not considered, and fixed network devices (such as the routers and the like described above) are usually set to provide network connections for the devices in the building site with fixed network parameters. Then, it follows that if the network parameter settings are higher, and as the project progresses, the networking equipment in the construction site becomes fewer, this can result in a waste of resources. Accordingly, if the network parameter setting is low and as the project progresses, the number of networking devices in the construction site increases, the network use requirements of the networking devices cannot be met.

Therefore, the base station processing method carries out the deployment of the micro base stations based on the equipment number of the preset area in the building site at the peak moment, and the parameters of the micro base stations can be dynamically adjusted based on the number of the actual networking equipment in the preset area along with the change of the engineering progress, so that the waste of network resources in the building site can be effectively avoided, and the problem of insufficient supply of network demands in the building site can be avoided.

Fig. 7 is a schematic structural diagram of a base station processing apparatus according to an embodiment of the present application. As shown in fig. 7, the apparatus 7 includes: an acquisition module 701, a first determination module 702, a second determination module 703, and a processing module 704.

An obtaining module 701, configured to obtain the number of devices to be networked in a preset area and a network requirement parameter of each device to be networked;

a first determining module 702, configured to determine, according to the number of devices and a plurality of network requirement parameters, all working parameters of the wireless base stations to be deployed in the preset area;

a second determining module 703, configured to determine deployment information of the wireless base station according to the working parameter and the area range of the preset area, where the deployment information includes at least one of the following: the number of wireless base stations, the deployment position of each wireless base station, and the type of each wireless base station;

a processing module 704, configured to display the deployment information, so that all the wireless base stations in the preset area are deployed according to the deployment information.

In one possible design, the second determining module 703 is specifically configured to:

the second determining module 703 is specifically configured to:

In one possible design, the processing module 704 is further configured to:

and determining the preset area in the building site.

In one possible design, the processing module 704 is specifically configured to:

determining a pre-divided area in the building site as the preset area; or,

The apparatus provided in this embodiment may be used to implement the technical solutions of the above method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.

Fig. 8 is a schematic diagram of a hardware structure of a base station processing device according to an embodiment of the present application, and as shown in fig. 8, a base station processing device 80 according to the present embodiment includes: a processor 801 and a memory 802; wherein

A memory 802 for storing computer-executable instructions;

the processor 801 is configured to execute the computer execution instructions stored in the memory, so as to implement the steps performed by the base station processing method in the foregoing embodiments. Reference may be made in particular to the description relating to the method embodiments described above.

Alternatively, the memory 802 may be separate or integrated with the processor 801.

When the memory 802 is separately provided, the base station processing apparatus further includes a bus 803 for connecting the memory 802 and the processor 801.

An embodiment of the present application further provides a computer-readable storage medium, where a computer executing instruction is stored in the computer-readable storage medium, and when a processor executes the computer executing instruction, the base station processing method executed by the above base station processing device is implemented.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and other divisions may be realized in practice, for example, a plurality of modules may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some interfaces, indirect coupling or communication connection between devices or modules, and may be in an electrical, mechanical or other form.

The integrated module implemented in the form of a software functional module may be stored in a computer-readable storage medium. The software functional module is stored in a storage medium and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device) or a processor (in english: processor) to execute some steps of the methods described in the embodiments of the present application.

It should be understood that the Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of hardware and software modules.

The memory may comprise a high speed RAM memory, and may further comprise a non-volatile storage NVM, such as at least one magnetic disk memory, and may also be a usb disk, a removable hard disk, a read-only memory, a magnetic or optical disk, or the like.

The bus may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, the buses in the figures of the present application are not limited to only one bus or one type of bus.

The storage medium may be implemented by any type or combination of volatile and non-volatile memory devices, such as Static Random Access Memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic or optical disks. A storage media may be any available media that can be accessed by a general purpose or special purpose computer.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A base station processing method, comprising:

acquiring the number of devices to be networked in a preset area and network requirement parameters of each device to be networked;

determining working parameters of all wireless base stations to be deployed in the preset area according to the number of the devices and a plurality of network requirement parameters;

2. The method according to claim 1, wherein the determining deployment information of the radio base station according to the operating parameter and the area range of the preset area comprises:

3. The method of claim 2, wherein the operating parameter comprises at least one of: online capabilities, transmission parameters; wherein the online capability comprises continuous online and intermittent online, and the transmission parameter comprises at least one of the following: bandwidth, packet loss rate;

4. The method according to any one of claims 1-3, wherein before the obtaining the number of devices of the devices to be networked in the preset area, the method further comprises:

determining the preset area in the building site.

5. The method of claim 4, wherein said determining said predetermined area in said construction site comprises:

determining the area which is divided in advance in the building site as the preset area; or,

6. The method according to any one of claims 1-5, wherein the displaying the deployment information comprises:

7. A base station processing apparatus, comprising:

a first determining module, configured to determine, according to the number of devices and a plurality of network requirement parameters, all working parameters of the wireless base stations to be deployed in the preset area;

8. The apparatus of claim 7, wherein the wireless base station is a mobile micro base station, the micro base station is disposed inside a housing, the housing comprises at least a mounting component, and the micro base station is mountable at a predetermined position within the predetermined area.

9. A base station processing device, comprising:

a memory for storing a program;

a processor for executing the program stored by the memory, the processor being configured to perform the method of any of claims 1 to 6 when the program is executed.

10. A computer-readable storage medium comprising instructions which, when executed on a computer, cause the computer to perform the method of any one of claims 1 to 6.