CN111405545A

CN111405545A - Efficient station opening method and system for batch base stations

Info

Publication number: CN111405545A
Application number: CN202010200326.4A
Authority: CN
Inventors: 张杰锋
Original assignee: Ankexun Fujian Technology Co ltd
Current assignee: Ankexun Fujian Technology Co ltd
Priority date: 2017-01-23
Filing date: 2017-01-23
Publication date: 2020-07-10
Anticipated expiration: 2037-01-23
Also published as: CN106658481B; CN106658481A; CN111405545B

Abstract

The invention relates to the technical field of communication, in particular to an efficient station opening method and system for batch base stations, which realizes the station opening of the efficient batch base stations through the following steps: after a plurality of base stations are respectively connected with a network management system, the base stations acquire configuration files which are sent by the network management system and used for initializing the base stations; initializing the base station according to the configuration file; the base station establishes connection with a service network management system through a security gateway; and after the service network management system acquires the serial number of the base station, distributing the cell ID number corresponding to the serial number to the base station. The invention realizes the high-efficiency station opening of the base stations in batches without manual intervention, improves the station opening efficiency of the base stations in batches and reduces the use cost of the base stations.

Description

Efficient station opening method and system for batch base stations

The application is a divisional application of a parent application named as 'a method and a system for opening a base station in batch' with the application number of 201710057881.4 and the application date of 2017, 1 month and 23 days.

Technical Field

The invention relates to the technical field of communication, in particular to an efficient station opening method and system for batch base stations.

Background

With the rapid development of the mobile internet, the number of mobile users, the increase of the mobile 4G service data volume and the load-bearing capacity of the indoor coverage network are unbalanced, and under the background, 4G small base stations are generated.

The 4G small base station refers to an integrated base station with a single carrier (20MHz bandwidth) power below 500mW and integrated BBU, RRU and antenna, and can be subdivided into two types of pico base stations (100mW-500mW) and femto base stations (below 100 mW) according to the single carrier power. The 4G small base station is a low-cost indoor coverage solution, can be used as an effective coverage supplement and capacity expansion means of a cellular network, and is mainly used in the scenes that the network coverage or the capacity is insufficient, the construction difficulty is relatively high, and the self-owned return resources are provided. On one hand, the method can be used indoors such as families, small enterprises, business halls and supermarkets, solves the problem of insufficient indoor deep coverage, reduces user complaints, improves the service shunting capacity and improves the user experience. On the other hand, the system can also be used as a home/enterprise wireless application comprehensive platform for coping with all-service competition, provides a home/enterprise market entrance carrier, enhances user stickiness, synergistically expands value-added services such as broadband services and digital home/enterprise services, and improves client value.

In recent years, the scale of network construction is continuously enlarged and the service load is continuously increased, and the limitations of the traditional macro station and indoor distribution system construction in the aspects of property coordination, matching construction, depth and accurate coverage, capacity expansion and reconstruction and the like are increasingly highlighted. The small base station technology represented by the pico-station and the femto-station adopts plug-and-play access equipment with low cost, miniaturization, low power and low power consumption, and accesses the core network of an operator through a wired broadband return link based on IP and a small base station gateway, so that the problems can be better solved, and the small base station technology becomes a beneficial supplement of the traditional macro-station and indoor distribution system.

The main network elements of the 4G small cell system include a 4G small cell (4G Nanocell), a small cell gateway, and a network management system (Nanocell hems).

The 4G small base station provides L TE access for the terminal, the 4G small base station gateway comprises a security gateway and a signaling gateway, the security gateway authenticates the 4G small base station equipment and ensures the safety of transmission data, the signaling gateway converges an S1 interface signaling plane, and the 4G small base station network management system manages the 4G small base station gateway to realize the manageability and controllability of the system.

Compared with a macro station, the 4G small base station has the advantages of low hardware cost and convenience in installation, however, the small base stations are deployed relatively dispersedly in the existing network, and on the basis of increasing the use scale, if technicians are required to make configuration optimization one by one, the cost consumed in engineering implementation is comparable to that of the macro station.

The application numbers are: 201110296600.3 discloses a method and a device for opening a base station, which solves the problems of low efficiency of opening a base station, large workload of manual planning in the process of opening a base station, and difficulty in deploying a large number of base stations. The technical scheme of the invention is as follows: a base station to be opened receives an instruction for scanning neighbor cell information sent by an OAM system; the base station to be opened scans the information of the adjacent region; the base station to be opened sends the scanned neighbor cell information to the OAM system; the base station to be opened receives configuration data required by opening the station, which is sent by the OAM system, and the station is opened by using the configuration data, wherein the configuration data comprises: the self-planning configuration parameters corresponding to the base station to be opened and the pre-configured public configuration parameters corresponding to the self-opening area to which the base station to be opened belongs. The invention improves the station opening efficiency of the base station on a certain program, but the invention can not realize the station opening of the base station in batch, and the cost required by the station opening of the base station is higher.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the efficient station opening method and system for the batch base stations provided by the invention reduce the station opening cost of the base stations, improve the station opening efficiency of the base stations and realize the station opening of the batch base stations.

In order to solve the technical problem, the invention provides an efficient station opening method for batch base stations, which comprises the following steps:

s1: after a plurality of base stations are respectively connected with a network management system, the base stations acquire configuration files which are sent by the network management system and used for initializing the base stations;

s2: initializing the base station according to the configuration file;

s3: the base station establishes connection with a service network management system through a security gateway;

s4: and after the service network management system acquires the serial number of the base station, distributing the cell ID number corresponding to the serial number to the base station.

The invention also provides an efficient station opening system for batch base stations, which comprises the following steps:

the base station comprises an acquisition module, a configuration module and a configuration module, wherein the acquisition module is used for acquiring a configuration file which is sent by a network management system and used for initializing the base station after a plurality of base stations are respectively connected with the network management system;

the initialization module is used for initializing the base station according to the configuration file;

the establishing module is used for establishing connection between the base station and a service network management system through a security gateway;

and the distribution module is used for distributing the cell ID number corresponding to the serial number to the base station after the service network management system acquires the serial number of the base station.

The invention has the beneficial effects that:

after a plurality of base stations are respectively connected with a network management system, the base stations acquire configuration files which are sent by the network management system and used for initializing the base stations; completing initialization of a plurality of base stations through the configuration file; by the method, the initial configuration of the base stations in batches with high efficiency 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.

Drawings

Fig. 1 is a flowchart illustrating main steps of a method for opening base stations in batch with high efficiency according to an embodiment of the present invention;

fig. 2 is a structural diagram of an efficient system for opening base stations in batches according to an embodiment of the present invention;

description of reference numerals:

1. an acquisition module; 2. initializing a module; 3. establishing a module; 4. and a distribution module.

Detailed Description

In order to explain technical contents, objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

The most key concept of the invention is as follows: after initializing the base station according to the configuration file, the base station acquires the cell ID number corresponding to the serial number of the base station from the service network management system, so that differentiated configuration of the base station is completed, cell ID number parameters of all the base stations are uniformly configured and issued only once in the service network management system, manual intervention is not needed, the station starting efficiency is improved, and the use cost is reduced.

Referring to fig. 1, the present invention provides an efficient method for opening base stations in batches, which includes the following steps:

s2: initializing the base station according to the configuration file;

As can be seen from the above description, in the present invention, after a plurality of base stations respectively establish a connection with a network management system, the base stations acquire a configuration file sent by the network management system and used 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.

Further, the S1 specifically includes:

setting a plurality of domain names of the base stations as a preset first domain name;

the base station establishes connection with a preset dynamic host configuration protocol server;

the base station sends a DHCP request message to the dynamic host configuration protocol server;

the base station receives a first IP address of a domain name server sent by the dynamic host configuration protocol server and an interface IP address allocated to the base station;

according to the first IP address and the interface IP address, the base station is connected with the domain name server;

the domain name server sends a second IP address of the network management system corresponding to the first domain name;

according to the second IP address and the interface IP address, the base station establishes connection with the network management system;

the network management system sends the configuration file to the base station; the configuration file includes a third IP address of the security gateway and a fourth IP address of the serving network management system.

From the above description, it can be known that the method can obtain the relevant configuration files of the security gateway and the service network management system, and complete the initialization configuration of the plurality of base stations through the configuration files, so that manual intervention is not required, and the efficiency of opening the base stations is improved.

Further, the S3 specifically includes:

the base station establishes connection with the security gateway;

the base station acquires a service IP address allocated to the base station by the security gateway;

and according to the service IP address and the fourth IP address, the base station establishes connection with the service network management system through the security gateway.

As can be seen from the above description, the connection between the base station and the service network management system is realized by the above method; the base station is connected with the service network management system by adopting a standard protocol, can be applied by crossing manufacturers, and has flexibility and simplicity.

Further, the S2 specifically includes:

reading a first parameter in the configuration file;

updating the parameters of the base station to be the first parameters;

and restarting the base station.

From the above description, it can be known that the base station is restarted after the connection parameters of the base station are updated through the configuration file, and the method can realize batch initial configuration of the base station without manual intervention, thereby improving the efficiency of the initial configuration of the base station.

Further, the S4 specifically includes:

the service network management system acquires a serial number of the base station;

allocating a cell ID number corresponding to the sequence number to the base station;

and according to the cell ID number, the base station sends a request message to a preset core network.

It can be known from the above description that after the initial configuration of a plurality of base stations is completed, the differential configuration of the plurality of base stations can be realized by the above method, and the problem of collision caused by the same cell ID number when different base stations establish service connection is avoided.

Referring to fig. 2, the present invention provides an efficient system for opening base stations in batches, including:

an obtaining module 1, configured to, after a plurality of base stations respectively establish connection with a network management system, obtain, by the base stations, a configuration file sent by the network management system and used for initializing the base stations;

an initialization module 2, configured to initialize the base station according to the configuration file;

the establishing module 3 is used for establishing connection between the base station and a service network management system through a security gateway;

and the allocation module 4 is configured to allocate, after the service network management system obtains the serial number of the base station, a cell ID number corresponding to the serial number to the base station.

Referring to fig. 1, a first embodiment of the present invention is:

setting the domain names of a plurality of base stations as a preset first domain name;

the network management system sends a configuration file to the base station; the configuration file comprises a third IP address of the security gateway and a fourth IP address of the service network management system;

reading a first connection parameter in the configuration file;

updating the connection parameters of the base station to the first connection parameters;

restarting the base station;

the base station establishes connection with the security gateway;

according to the service IP address and the fourth IP address, the base station establishes connection with the service network management system through the security gateway;

Referring to fig. 2, the second embodiment of the present invention is:

the setting unit sets a plurality of domain names of the base stations as a preset first domain name and sends the first domain name to a second sending unit; the first establishing unit establishes connection with a preset dynamic host configuration protocol server through the base station; the first sending unit sends a DHCP request message to the dynamic host configuration protocol server through the base station and sends the DHCP request message to the first distribution unit; the first allocation unit receives a first IP address of a domain name server and an interface IP address allocated to the base station, which are sent by the dynamic host configuration protocol server, through the base station, and sends the first IP address and the interface IP address to the connection unit and the second establishment unit; according to the first IP address and the interface IP address, the connection unit is connected with the domain name server through the base station; the second sending unit sends a second IP address of the network management system corresponding to the first domain name through the domain name server and sends the second IP address to the second establishing unit; according to the second IP address and the interface IP address, a second establishing unit establishes connection with the network management system through the base station; a third sending unit sends the configuration file to the base station through the network management system; the configuration file comprises a third IP address of the security gateway and a fourth IP address of the service network management system, and is sent to the reading unit and the fourth IP address is sent to the fourth establishing unit; the reading unit reads the first parameter in the configuration file and sends the reading result to the updating unit; the updating unit updates the parameter of the base station to be the first parameter; the restarting unit restarts the base station; the third establishing unit establishes connection with the security gateway through the base station; the first acquisition unit acquires the service IP address allocated to the base station by the security gateway through the base station and sends the service IP address to the fourth establishment unit; the fourth establishing unit establishes connection between the base station and the service network management system through the security gateway according to the service IP address and the fourth IP address; a second obtaining unit, configured to obtain, by the serving network management system, a sequence number of the base station, and send the sequence number to a second allocating unit; the second distributing unit distributes the cell ID number corresponding to the serial number to the base station and sends the cell ID number to the fourth sending unit; and the fourth sending unit sends a request message to a preset core network by the base station according to the cell ID number.

The third embodiment of the invention is as follows:

when a plurality of 4G small base stations leave a factory, a fixed domain name is used as network management UR L configuration by default, after the 4G small base stations are connected with a dynamic host configuration protocol server, the 4G small base stations send DHCP request messages to the dynamic host configuration protocol server, the base stations receive IP addresses of a domain name server sent by the dynamic host configuration protocol server and interface IP addresses distributed to the base stations, after the 4G small base stations are connected with the domain name server through the first IP addresses and the interface IP addresses, the domain name server resolves the default UR L addresses of the 4G small base stations leaving the factory into IP addresses of an initial network management system, the 4G small base stations establish connection with the initial network management system according to the IP addresses and the interface IP addresses of the initial network management system, the initial network management system sends configuration files to the base stations, the configuration files comprise IP addresses of a security gateway and IP addresses of a service network management system, according to the configuration files, first connection parameters in the configuration files are read, connection parameters of the 4G small base stations are updated to be the first connection parameters, after the 4G small base stations are restarted, the 4G small base stations and the serial numbers of the small base stations are obtained through the initialization of the network management system, and the corresponding network management system, the small base stations are obtained through the ID of the security network management system, and the small base stations.

In summary, in the present invention, after a plurality of base stations respectively establish a connection with a network management system, the base stations acquire a configuration file sent by the network management system and used 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.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to other related technical fields, are included in the scope of the present invention.

Claims

1. A station opening method for efficient batch base stations is characterized by comprising the following steps:

s2: initializing the base station according to the configuration file;

s4: after the service network management system acquires the serial number of the base station, the service network management system uniformly configures and issues cell ID number parameters of all the base stations at one time and distributes the cell ID number corresponding to the serial number to the base station;

the sequence numbers of different base stations are different.

2. The method of claim 1, wherein the S1 is specifically:

3. The method of claim 2, wherein the S3 is specifically:

the base station establishes connection with the security gateway;

4. The method of claim 1, wherein the S4 is specifically:

5. The utility model provides an efficient batch base station's system of opening station which characterized in that includes:

the distribution module is used for distributing cell ID number parameters of all base stations in one-time unified configuration after the service network management system acquires the serial number of the base station, and distributing the cell ID number corresponding to the serial number to the base station;

the sequence numbers of different base stations are different.

6. The system of claim 5, wherein the obtaining module comprises:

a setting unit, configured to set domain names of the plurality of base stations as a preset first domain name;

the first establishing unit is used for establishing connection between the base station and a preset dynamic host configuration protocol server;

a first sending unit, configured to send, by the base station, a DHCP request packet to the dynamic host configuration protocol server;

a first allocation unit, configured to receive, by the base station, a first IP address of a domain name server sent by the dynamic host configuration protocol server and an interface IP address allocated to the base station;

the connection unit is used for connecting the base station with the domain name server according to the first IP address and the interface IP address;

a second sending unit, configured to send, by the domain name server, a second IP address of the network management system corresponding to the first domain name;

a second establishing unit, configured to establish a connection between the base station and the network management system according to the second IP address and the interface IP address;

a third sending unit, configured to send, by the network management system, the configuration file to the base station; the configuration file includes a third IP address of the security gateway and a fourth IP address of the serving network management system.

7. The system of claim 6, wherein the establishing module comprises:

a third establishing unit, configured to establish a connection between the base station and the security gateway;

a first obtaining unit, configured to obtain, by the base station, a service IP address allocated by the security gateway to the base station;

and the fourth establishing unit is used for establishing connection between the base station and the service network management system through the security gateway according to the service IP address and the fourth IP address.

8. The system of claim 5, wherein the allocating module comprises:

a second obtaining unit, configured to obtain, by the serving network management system, a serial number of the base station;

a second allocating unit configured to allocate a cell ID number corresponding to the sequence number to the base station;

and the fourth sending unit is used for sending the request message to a preset core network by the base station according to the cell ID number.