CN113543185A - Automatic-opening-assistance-based 5G high-density base station rapid operation method and system - Google Patents

Abstract

The invention discloses a method and a system for rapidly operating a 5G high-density base station based on automatic station opening assistance, wherein the method comprises the following steps: s1, collecting multiple data; s2, converting configuration data; s3, end-to-end automatic activation; and S4, verifying the start performance. Has the advantages that: the building and maintenance integration is really realized through a 5G automatic station-entering system, the whole station-entering process is end-to-end online automatic, about 1 day is needed for manually opening a base station in the traditional process, only about 1 hour is needed after the automatic opening is changed, and the efficiency is improved by more than 95 percent, so that the station-opening efficiency is greatly improved, and the contradiction between the traditional means for opening the base station to access the network and the greatly increased workload for opening the base station is solved; by providing uniform template introduction, online filling, system interface docking and APP/small program code scanning uploading, integration of planning data, transmission data and construction data is achieved, the current offline scattered flow is opened, and data collection efficiency is improved.

Description

Automatic-opening-assistance-based 5G high-density base station rapid operation method and system

Technical Field

The invention relates to the technical field of communication base stations, in particular to a method and a system for quickly operating a 5G high-density base station based on automatic station opening assistance.

Background

The 5G era has come, large-scale construction is struggled, and in order to respond to the call of China to build a 'advanced technology, wide coverage, fast network speed, good experience, high efficiency and world leading 5G premium network', each large operator is increasing the power to open the 5G base station.

The prior 4G base station and the current 5G base station adopt a pnp remote station opening mode to open the base stations, the opening mode can relate to network optimization, network construction, operation and maintenance, outside line personnel, manufacturer supervision and the like, and the base stations can be opened only through multiparty coordination and manual operation, and the traditional base station opening process is as follows:

firstly, the network optimization department sends planning data to a network construction department through a mail;

the operation and maintenance department sends the transmission data to the network construction department through the mail

The outside staff sends the construction data (SN serial number) to the network construction through the WeChat;

fourthly, a manufacturer of the network establishment department supervises to associate the data to a specific base station, and manually fills information into a manufacturer data conversion tool to generate a configuration file;

fifthly, the manufacturer of the network construction department supervises to lead the configuration file into the manufacturer OMC and executes the opening;

sixthly, the network management system sends the configuration data to the corresponding base station equipment;

seventhly, the network construction supervision conducts base station alarm checking through telephone and network management;

and the outside department feeds the result back to the network building department. In summary, when the current 5G base station is opened, there are breakpoints between links such as parameter configuration, execution issue, and quality verification and peripheral systems, and the 5G base station is opened by manual means under line, which is low in efficiency and has a series of problems to be solved:

firstly, the efficiency of collecting multiple data is low: the 5G base station opening relates to more parameter entering data, and comprises the following steps: the data are respectively 9 planning data, 9 transmission data and 2 field construction data, the data are managed by different departments and specialties, a unified system is not used for management, the data need to be acquired by cross-department in an offline mode such as mail/WeChat/telephone, the time of one week or more is needed, the consumed time is long, the cooperation is not good, and the station opening preparation time is too long.

II, a 5G new mode, the structure is complex: in the construction of the 5G base station, multi-system networking and multi-mode station construction exist, and different data are required to be configured in each mode, so that the complexity of manual station opening is higher, and a large amount of time is consumed.

1) The implementation process of the 5G technology is not all-at-one, which results in that a multi-standard networking structure (including NSA and SA) exists in the 5G network construction process, and different parameters need to be configured for different standard base stations. For example: the NSA mode needs to be configured with anchoring information, and the SA mode needs to be configured with core network information;

2) in the current 5G base station construction, the base station construction comprises an exclusive construction station and a co-construction shared construction station. For the co-establishment sharing mode, parameter information of a corresponding operator needs to be added during configuration.

3) In the process of opening the base station, about 20 pieces of entry parameter information need to be converted into about 100 configuration parameters required by each manufacturer, because the conversion rules and parameters of each manufacturer have large manufacturer difference, the requirement of the traditional station opening mode on the specialty of a station opening engineer is high, and a front-line worker is difficult to have the station opening capability in a short period and is not beneficial to the self-establishment, self-maintenance and self-optimization of the base station by an operator.

Thirdly, the verification of the station opening result is complicated: in the traditional station opening mode, constructors need to confirm telephone with rear-end network management personnel, check the performance of a transmission side return network and a wireless side network, and can complete the base station opening if no abnormity exists. In this process, multiple people are required to assist, and the real-time performance is poor and time-consuming.

For example, patent No. CN106658481B, which is published on 17.04.2020, discloses a method and a system for opening a plurality of base stations, wherein after a plurality of base stations are respectively connected to a network management system, the base stations acquire configuration files sent by the network management system for initializing the base stations; completing initialization of a plurality of base stations through the configuration file; by the method, batch initial configuration of the base stations can be completed without manual intervention; after the initial configuration is completed, the base station establishes connection with a service network management system through a security gateway; after the service network management system acquires the serial number of the base station, distributing a cell ID number corresponding to the serial number to the base station; because the factory serial numbers of different base stations are different, batch base station differential configuration can be realized by the method, and the problem of conflict caused by the same cell ID number when different base stations establish service connection is avoided; by the method, the base stations can be opened in batches without manual intervention, the station opening efficiency of the base stations in batches is improved, and the use cost of the base stations is reduced. However, in the patent, the base stations are differentiated and distinguished only by serial numbers and are connected with a management system, configuration and record of other parameter information of the base stations are lacked, and the base stations of different manufacturers, specifications or standards are not opened, so that the method has certain limitation.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides a method and a system for quickly operating a 5G high-density base station based on automatic station opening assistance, so as to overcome the technical problems in the prior related art.

Therefore, the invention adopts the following specific technical scheme:

according to one aspect of the invention, a method for rapidly operating a 5G high-density base station based on automatic station opening assistance is provided, and the method comprises the following steps:

s1, collecting multiple data;

s2, converting configuration data;

s3, end-to-end automatic activation;

and S4, verifying the start performance.

Further, the multiple data collection comprises the steps of:

s11, importing a unified template of planning data and filling the data on line through a global wide area network (WW AN) page;

s12, scanning the two-dimensional code of the base station through application or small programs, uploading a product serial number (SN code), and meanwhile, carrying out fuzzy matching on the name of the base station;

and S13, automatically acquiring the transmission data corresponding to the base station by butting with the transmission gateway.

Further, the configuration data conversion includes the following steps:

s21, establishing a template library of configuration parameters on the basis of the existing data;

s22, establishing a configuration data template in the template library according to different information data;

s23, matching the template base according to the access information, and automatically associating the corresponding configuration data template;

and S24, matching and calculating the parameters, and filling the parameters into the configuration data template to generate a configuration data instance.

Further, the information data includes manufacturer information, an Operation Maintenance Center (OMC) version, a standard, a station building mode, and a cell type; the parameter information comprises planning data, transmission data and construction data.

Further, the method for matching the parameters comprises the steps of automatically inserting planning data, transmission data and construction data into parameter items corresponding to the configuration data template, and verifying the integrity and accuracy of the parameters; the method for calculating the parameters is to automatically calculate the values of other parameters according to the information of some parameters.

Further, the configuration data instance is a specific format generated by the related data;

the related data includes eight categories of global configuration, base station information configuration, equipment, baseband equipment, radio frequency units, optical fiber and Ethernet port connection, transmission configuration and 5G wireless configuration.

Further, the end-to-end automatic activation comprises the following steps:

s31, automatically associating data, automatically associating base station information with complete open station data, splicing planning data, transmission data and construction data, and automatically generating work order information of 5G automatic station loading to realize process automation;

and S32, performing Application Program Interface (API) butt joint on different operation and maintenance centers, configuring an activation process and instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

Further, the step of performing Application Program Interface (API) docking on different operation and maintenance centers, and configuring the activation process and the instruction parameters includes the following steps:

s321, establishing a session, adapting access interfaces of different manufacturers, and obtaining authentication;

s322, opening a site, acquiring worker parameter information, automatically generating a configuration file of a corresponding manufacturer, and automatically opening and configuring according to an interface;

and S323, acquiring a report.

Further, the open station performance verification comprises the following steps:

s41, acquiring transmission performance quality through the interface and the transmission network management, and ensuring normal transmission of base station services;

s42, the wireless alarm is obtained by the interface and the network management of the operation and maintenance center, whether the abnormal fault exists after the base station is opened or not is verified, and the abnormal fault is pushed to the application and the small program of the outside line personnel.

According to another aspect of the invention, a rapid operation system of a 5G high-density base station based on automatic station opening assistance is also provided, and the system comprises the following modules:

the application interface module is used for providing a webpage interface for a client and realizing the unified entry and management of the website opening data;

the work order processing module is used for receiving, analyzing, scheduling and feeding back an external work order;

the base station equipment management module is used for synchronizing base station data of the resource system and managing the manufacturer, type and model of each base station equipment;

the configuration parameter management module is used for managing the parameter information of the configuration files of different manufacturers;

the monitoring management module is used for checking the station opening state of the base station and checking the station opening state of the base station according to the dimensions of the work order, the area and the time;

the configuration file generation module is used for converting data of different manufacturers and generating a configuration data example which is issued to the manufacturer operation maintenance center for execution;

and the station starting execution module is used for configuring the activating flow and the instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

The invention has the beneficial effects that:

1. the building and maintenance integration is really realized through a 5G automatic station-loading system, the whole station-loading process is end-to-end online automatic, about 1 day is needed for manually opening a base station in the traditional process, only about 1 hour is needed after the automatic opening is changed, and the efficiency is improved by more than 95 percent, so that the station-opening efficiency is greatly improved, and the contradiction between the traditional means for opening the base station to access the network and the greatly increased workload for opening the base station is solved; by providing uniform template import, online filling, system interface docking and application/small program code scanning uploading, integration of planning data, transmission data and construction data is realized, the current offline scattered flow is opened, data entry and flow management are unified, and the data collection efficiency is improved.

2. By establishing the template library for different manufacturers, different OMC versions, different systems, different station building modes and different cell types, the corresponding templates and conversion parameters can be automatically matched for the station starting task, the requirements of manufacturer differences and speciality are shielded, and the configuration files are quickly generated, issued and executed.

3. By opening the network management interface, the application/small program is provided to check the performance and alarm of the transmission side and the wireless side in real time, so that the fault problems of the base station return network and the wireless side can be found in advance and checked in time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flow chart of a method for rapidly operating a 5G high-density base station based on automatic power-assisted opening according to an embodiment of the invention;

fig. 2 is a flow chart of configuration data conversion in a fast operation method of a 5G high-density base station based on automatic power-assisted opening according to an embodiment of the present invention;

fig. 3 is a flow chart of end-to-end automatic activation in a fast operation method of a 5G high-density base station based on automatic power-assisted opening according to an embodiment of the present invention;

fig. 4 is a system block diagram of a fast operation system of a 5G high-density base station based on automatic power-assisted opening according to an embodiment of the present invention;

fig. 5 is a flow chart of a conventional open base station;

fig. 6 is a schematic flow chart of an automatic open base station implemented based on an automatic power-assisted 5G high-density base station fast operation system according to an embodiment of the present invention.

In the figure:

1. an application interface module; 2. a work order processing module; 3. a base station device management module; 4. a configuration parameter management module; 5. a monitoring management module; 6. a configuration file generation module; 7. and an open station execution module.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to the embodiment of the invention, a method and a system for rapidly operating a 5G high-density base station based on automatic station opening assistance are provided.

Referring to the drawings and the detailed description, the invention will be further described, as shown in fig. 1 to 3, in an embodiment of the invention, a method for fast operating a 5G high-density base station based on automatic power-assisted start-up includes the following steps:

s1, collecting multiple data;

s2, converting configuration data;

s3, end-to-end automatic activation;

and S4, verifying the start performance.

In one embodiment, the multiple data collection includes the steps of:

s11, importing a unified template of planning data and filling the data on line through a global wide area network (WW AN) page;

the 5G automatic station-loading system provides uniform template import/data online filling, system interface docking and APP/small programs, integration of planning data, transmission data and construction data is achieved, the current offline scattered flow is opened, and uniform data entry and flow management are provided; the main parameters for online filling of data comprise: base station name, physical base station name, area/manufacturer, network element ID, service type, anchor IP, TAC, PCI and cell number.

S12, scanning the two-dimensional code of the base station through application or small programs, uploading a product serial number (SN code), and meanwhile, carrying out fuzzy matching on the name of the base station;

and S13, automatically acquiring the transmission data corresponding to the base station by butting with the transmission gateway.

Wherein, the main book parameters of the transmission data comprise: the method comprises the following steps of base station name, base station operation maintenance address, subnet mask, next hop IP address maintenance, VLAN maintenance, base station service address, subnet mask, next hop IP address of service and VLAN service.

In one embodiment, the configuration data conversion comprises the steps of:

s21, establishing a template library of configuration parameters on the basis of the existing data;

s22, establishing a configuration data template in the template library according to different information data;

s23, matching the template base according to the access information, and automatically associating the corresponding configuration data template;

and S24, matching and calculating the parameters, and filling the parameters into the configuration data template to generate a configuration data instance.

In one embodiment, the information data includes manufacturer information, Operation and Maintenance Center (OMC) version, standards (NSA and SA), station establishment mode (independent station establishment and shared station establishment), and cell type (normal cell, high-speed rail cell, and channel cell); the parameter information comprises planning data, transmission data and construction data.

In one embodiment, the method for matching parameters includes automatically inserting planning data, transmission data and construction data into parameter items corresponding to a configuration data template, and verifying integrity and accuracy of the parameters; the method for calculating the parameters is to automatically calculate the values of other parameters according to the information of some parameters.

For example: according to the number of the entering reference cells, automatically calculating information such as cell ID, NR carrier ID, uplink frequency band and the like; and according to the 'network element ID' of the entry parameter, automatically calculating the RU equipment identification, the sector function, the sector frequency band and the power.

In one embodiment, the configuration data instance is generated by generating a specific format for related data (for example, the system automatically splices data of a cheng manufacturer into a message in an xml format, and automatically inserts data of the cheng manufacturer into an excel file);

the related data includes eight categories, i.e., global configuration, base station information configuration, device, baseband device, radio frequency unit, optical fiber and ethernet port connection, transmission configuration, and 5G wireless configuration, as shown in table 1.

Table 1: configuration file parameter page name

In one embodiment, the end-to-end automatic activation comprises the steps of:

s31, automatically associating data, and in the original opening process, a technician is required to associate various types of data and manually input the data into a network manager to open a base station, the system supports automatic association of base station information with complete open station data, splices planning data, transmission data and construction data, and automatically generates 5G automatic work order information for getting on the station, so that manually initiated base station opening configuration is automatically completed through the system, and flow automation is realized;

and S32, performing Application Program Interface (API) butt joint on different operation and maintenance centers, configuring an activation process and instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

In an embodiment, as shown in fig. 3, the interfacing Application Program Interfaces (APIs) to different operation and maintenance centers, and configuring the provisioning activation flow and the instruction parameter includes the following steps:

s321, establishing a session, adapting access interfaces of different manufacturers, and obtaining authentication;

s322, opening a site, acquiring worker parameter information, automatically generating a configuration file of a corresponding manufacturer, and automatically opening and configuring according to an interface;

and S323, acquiring a report.

In one embodiment, the open station performance verification comprises the following steps:

s41, acquiring transmission performance quality through the interface and the transmission network management, and ensuring normal transmission of base station services;

s42, the wireless alarm is obtained by the interface and the network management of the operation and maintenance center, whether the abnormal fault exists after the base station is opened or not is verified, and the abnormal fault is pushed to the application and the small program of the outside line personnel.

According to another embodiment of the present invention, as shown in fig. 4 to 6, there is also provided a 5G high density base station fast operation system based on automatic power-assisted departure, which includes the following modules:

the application interface module 1 is used for providing a webpage interface for a client and realizing the unified input and management of the opening data;

the work order processing module 2 is used for receiving, analyzing, scheduling and feeding back the external work orders;

a base station equipment management module 3, configured to synchronize base station data of the resource system, and manage a manufacturer, a type, and a model of each base station equipment;

the configuration parameter management module 4 is used for managing the parameter information of the configuration files of different manufacturers;

the monitoring management module 5 is used for checking the station opening state of the base station and checking the station opening state of the base station according to the dimensions of the work order, the area and the time;

the configuration file generation module 6 is used for converting data of different manufacturers and generating a configuration data example which is issued to the manufacturer operation maintenance center for execution;

and the station starting execution module 7 is used for configuring a starting activation flow and instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

In addition, as shown in fig. 5, the base station is opened in both the previous 4G base station and the current 5G base station by using a pnp remote station opening method, which involves multiple personnel such as network optimization, network construction, operation and maintenance, outside line personnel and manufacturer supervision, and the base station can be opened only by multiple coordination and manual operation. The traditional base station opening process is as follows:

firstly, the network optimization department sends planning data to a network construction department through a mail;

the operation and maintenance department sends the transmission data to the network construction department through the mail

The outside staff sends the construction data (SN serial number) to the network construction through the WeChat;

fourthly, a manufacturer of the network establishment department supervises to associate the data to a specific base station, and manually fills information into a manufacturer data conversion tool to generate a configuration file;

fifthly, the manufacturer of the network construction department supervises to lead the configuration file into the manufacturer OMC and executes the opening;

sixthly, the network management system sends the configuration data to the corresponding base station equipment;

seventhly, the network construction supervision conducts base station alarm checking through telephone and network management;

and the outside department feeds the result back to the network building department.

The method improves the traditional method, as shown in fig. 6, optimizes the current traditional online switching-off mode aiming at the difficulties of multiple data collection, large difference of factory configuration and low concurrent processing efficiency encountered by the base station activation, realizes intelligent mode identification, data collection and correlation system butt joint, and finally completes the base station automatic activation; aiming at the problem that the configuration of the wireless network management system has larger manufacturer difference, the 5G automatic station-loading system establishes a template library of configuration parameters on the basis of the existing data to realize the conversion of the data of each manufacturer, thereby generating a configuration data instance which is issued to the OMC of the manufacturer for execution. In practical application, the specific operation flow can be summarized as follows:

firstly, importing planning data through a WEB page provided by a system by network construction, and initiating a station opening task;

the system is butted with a transmission network manager to obtain transmission data such as IP, VLAN and the like;

exterior personnel electrify the base station, and perform code scanning identification of SN serial numbers and binding with the name of the base station through APP/small programs provided by the system;

fourthly, the construction team reports the SN serial number of the required base station to the system through the APP/small program;

the system associates the multi-party data and automatically generates a work order; matching the parameter information with a configuration template, and automatically generating a configuration file meeting the manufacturer, version, standard, mode and cell type; generating a corresponding station opening instruction according to the work order information;

sixthly, the system uploads the configuration file and opens the station to execute through an API (application program interface);

the OMC sends configuration service to the corresponding base station;

after executing, the OMC feeds back a result to the system;

ninthly, the system acquires performance data executed by opening the station and feeds back the performance data to outside line personnel for checking through the APP/small program;

after checking for non-problem at the r, the outside staff completes the order.

Furthermore, the efficiency of the open station and the conventional open station modes by using the method is shown in table 2:

table 2: comparison of open station efficiency

As can be seen from the table, the method adopts an intelligent station opening system, and compared with a transmission station opening mode, the time consumption is greatly reduced, so that the station opening efficiency is greatly improved.

In conclusion, by means of the technical scheme, the building and maintenance integration is really realized through the 5G automatic station-entering system, the whole station-entering process is end-to-end online automatic, about 1 day is needed for manually opening a base station in the traditional process, only about 1 hour is needed after the automatic opening is changed, and the efficiency is improved by more than 95 percent, so that the station-opening efficiency is greatly improved, and the contradiction between the traditional means for opening the base station and accessing the network and the greatly increased workload for opening the base station is solved; by providing uniform template import, online filling, system interface docking and application/small program code scanning uploading, integration of planning data, transmission data and construction data is realized, the current offline scattered flow is opened, data entry and flow management are unified, and the data collection efficiency is improved.

By establishing the template library for different manufacturers, different OMC versions, different systems, different station building modes and different cell types, the corresponding templates and conversion parameters can be automatically matched for the station starting task, the requirements of manufacturer differences and speciality are shielded, and the configuration files are quickly generated, issued and executed.

By opening the network management interface, the application/small program is provided to check the performance and alarm of the transmission side and the wireless side in real time, so that the fault problems of the base station return network and the wireless side can be found in advance and checked in time.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A rapid operation method of a 5G high-density base station based on automatic station opening assistance is characterized by comprising the following steps:

s1, collecting multiple data;

s2, converting configuration data;

s3, end-to-end automatic activation;

and S4, verifying the start performance.

2. The method for fast operating a 5G high-density base station based on automatic station opening assistance according to claim 1, wherein the multi-data collection comprises the following steps:

s11, importing a unified template of planning data and filling the data on line through a global wide area network (WW AN) page;

s12, scanning the two-dimensional code of the base station through application or small programs, uploading a product serial number, and simultaneously carrying out fuzzy matching on the name of the base station;

and S13, automatically acquiring the transmission data corresponding to the base station by butting with the transmission gateway.

3. The method for rapidly operating a 5G high-density base station based on automatic station opening assistance according to claim 2, wherein the configuration data conversion comprises the following steps:

s21, establishing a template library of configuration parameters on the basis of the existing data;

s22, establishing a configuration data template in the template library according to different information data;

s23, matching the template base according to the access information, and automatically associating the corresponding configuration data template;

and S24, matching and calculating the parameters, and filling the parameters into the configuration data template to generate a configuration data instance.

4. The automatic station-opening-assisting 5G high-density base station rapid operation method as claimed in claim 3, wherein the information data includes manufacturer information, operation and maintenance center version, standard, station building mode and cell type; the parameter information comprises planning data, transmission data and construction data.

5. The automatic station-opening assistance-based 5G high-density base station rapid operation method according to claim 4, wherein the parameter matching method comprises the steps of automatically inserting planning data, transmission data and construction data into parameter items corresponding to configuration data templates, and checking the integrity and accuracy of the parameters; the method for calculating the parameters is to automatically calculate the values of other parameters according to the information of some parameters.

6. The method for rapidly operating a 5G high-density base station based on automatic station opening assistance according to claim 5, wherein the configuration data instance is a specific format generated by related data;

the related data includes eight categories of global configuration, base station information configuration, equipment, baseband equipment, radio frequency units, optical fiber and Ethernet port connection, transmission configuration and 5G wireless configuration.

7. The automatic start-up assistance-based 5G high-density base station rapid operation method according to claim 6, wherein the end-to-end automatic activation comprises the following steps:

s31, automatically associating data, automatically associating base station information with complete open station data, splicing planning data, transmission data and construction data, and automatically generating work order information of 5G automatic station loading to realize process automation;

and S32, performing application program interface butt joint on different operation and maintenance centers, configuring a starting activation flow and instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

8. The automatic station-opening power-assisted 5G high-density base station rapid operation method according to claim 7, wherein the step of performing application program interface docking on different operation and maintenance centers, configuring an activation process and command parameters comprises the steps of:

s321, establishing a session, adapting access interfaces of different manufacturers, and obtaining authentication;

s322, opening a site, acquiring worker parameter information, automatically generating a configuration file of a corresponding manufacturer, and automatically opening and configuring according to an interface;

and S323, acquiring a report.

9. The automatic station-opening-assisting 5G high-density base station rapid operation method according to claim 8, wherein the station opening performance verification comprises the following steps:

s41, acquiring transmission performance quality through the interface and the transmission network management, and ensuring normal transmission of base station services;

s42, the wireless alarm is obtained by the interface and the network management of the operation and maintenance center, whether the abnormal fault exists after the base station is opened or not is verified, and the abnormal fault is pushed to the application or the small program of the outside line personnel.

10. The automatic power-assisted 5G high-density base station rapid operation system is used for the steps of the automatic power-assisted 5G high-density base station rapid operation method according to any one of claims 1 to 9, and is characterized by comprising the following modules:

the application interface module 1 is used for providing a webpage interface for a client and realizing the unified input and management of the opening data;

the work order processing module 2 is used for receiving, analyzing, scheduling and feeding back the external work orders;

a base station equipment management module 3, configured to synchronize base station data of the resource system, and manage a manufacturer, a type, and a model of each base station equipment;

the configuration parameter management module 4 is used for managing the parameter information of the configuration files of different manufacturers;

the monitoring management module 5 is used for checking the station opening state of the base station and checking the station opening state of the base station according to the dimensions of the work order, the area and the time;

the configuration file generation module 6 is used for converting data of different manufacturers and generating a configuration data example which is issued to the manufacturer operation maintenance center for execution;

and the station starting execution module 7 is used for configuring a starting activation flow and instruction parameters, and realizing automatic station starting execution and wireless troubleshooting.

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