CN112469049A - One-key opening method for 5G wireless base station - Google Patents
One-key opening method for 5G wireless base station Download PDFInfo
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- H—ELECTRICITY
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Abstract
The invention discloses a one-key switching method for a 5G wireless base station, which comprises the following steps: step one, inputting parameters on an opening page; step two, after the input is finished, generating an opening file; step three: and transmitting the opening file to the equipment, executing issuing operation, and finally saving and submitting to complete the opening configuration. The method solves the contradiction between the traditional means of opening the base station and accessing the network and the greatly increased work load of opening the base station, and greatly improves the efficiency of base station construction.
Description
Technical Field
The invention relates to the field of base stations of mobile operators, in particular to a wireless base station opening method.
Background
The 5G base station is a core device of the 5G network, and the architecture and the form of the base station directly affect the deployment strategy of the 5G network. In the current technical standard, the frequency band of 5G is much higher than the current frequency bands of 2G and 3G, and the characteristic of 5G also determines that the density of 5G base stations is higher when the 3G coverage quality is achieved.
Although the 5G technology is not commercially available on a large scale, it is beginning to be deployed in large and medium cities in the united states, japan, europe and china, such as shanghai, shenzhen, and hangzhou in China, and a 5G base station has been beginning to be deployed on a small scale to provide a 5G communication transmission service. The 5G base station adopts the technologies of multi-input multi-output, high-frequency communication, ultra-dense networking and the like, the installation difficulty of the antenna feeder system is increased, and the number of the base stations is increased, so that the environment evaluation and evaluation become important contents in the construction process of the 5G base station. At present, the Ministry of industry and communications in China begins to select and deploy 5G networks in first-line cities, and 5G base station construction is expected to be rapidly developed nationwide by 2020.
The 5G base station is a core device of the 5G network, provides wireless coverage, and realizes wireless signal transmission between a wired communication network and a wireless terminal. When a traditional base station is opened, broken points exist between links such as parameter configuration, execution issuing and quality verification and peripheral systems, the 5G base station is opened basically in a manual mode under a line, and efficiency is low.
Disclosure of Invention
In order to solve the contradiction between the traditional means for opening the base station to access the network and the greatly increased workload of opening the base station, a one-key opening method of the 5G wireless base station is needed to be introduced, and the efficiency of base station construction is greatly improved.
In order to achieve the purpose, the invention adopts the following technical scheme:
in one embodiment of the present invention, a 5G wireless base station one-touch opening method is provided,
step one, inputting parameters on an opening page;
step two, after the input is finished, generating an opening file;
step three: and transmitting the opening file to the equipment, executing issuing operation, and finally saving and submitting to complete the opening configuration.
Further, the parameter input in the first step includes: sequentially inputting scene information configuration, transmission data configuration, operator information configuration, network management information configuration, routing information configuration, core network information configuration, planning work parameter configuration, BBU information configuration and radio frequency information configuration.
Further, the scene information configuration includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a deployment scene name, configuration and manufacturing scene description, opening scene description configuration and creating site deployment scene information.
Further, the transmitting the data configuration comprises: the method comprises the steps of sequentially inputting a gNodeB name, a gNodeB identifier, a local terminal transmission identifier, an operator name, an ESN, a maintenance channel VLAN identifier, a maintenance channel IPV6 address, a maintenance channel next hop IPV6 address, a maintenance channel address prefix length, a service channel next hop IPV6 address, a service channel IPV6 address, a service channel VLAN identifier, a service channel address prefix length, a product type, a network element version, a software version, a base station template, a wireless template, a transmission port number, a transmission port attribute, a transmission port rate, an Xn local terminal SCTP port, an NG local terminal SCTP port and an NTP server IPV6 address configuration, and creating gNodeB transmission basic information.
Further, the operator information configuration includes: and sequentially inputting a gNodeB name, a gNodeB identifier, an operator type, an operator name, a mobile country code and mobile network code configuration to create gNodeB operator basic information.
Further, the network management information configuration includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the network management IPV6 address, the network management address prefix length, the network management name and the label configuration to create the gNodeB network management basic information.
Further, the routing information configuration includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the route index, the destination IPV6 address, the destination address prefix length, the next IPV6 address and the label configuration to create gNodeB route information.
Further, the core network information configuration includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a core network identifier, a signaling plane IPV6 address, a signaling plane address prefix length, a signaling plane port number, a user plane IPV6 address, a user plane address prefix length, a SCTP opposite terminal identifier and operator name configuration, and creating basic information of the gNodeB core network.
Further, the planning parameter configuration includes: sequentially inputting longitude, latitude, a gNodeB name, a gNodeB identifier, a cell name, an NR cell identifier, a transceiving mode, an NRDU cell identifier, a physical cell identifier, a tracking area code, a frequency band, a downlink frequency point, a downlink bandwidth, a time slot structure, a time slot ratio, an SSB frequency point, an SsbDescMethod, a root sequence index, a cell radius, maximum transmitting power, a baseband board slot position, a physical sector number, an NR cell template and an NRDU cell template configuration, and creating gNodeB wireless basic information.
Further, the BBU information configuration includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the BBU cabinet number, the BBU machine frame number, the BBU groove number and the single board model configuration, and creating the gNodeBBBU basic information.
Further, the radio frequency information configuration includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a physical sector number, a sector equipment number, a RRUCHAIN chain number, a networking mode, a chain head cabinet number, a chain head frame number, a chain head groove number, a chain head port number, a radio frequency module frame number, a radio frequency module model, a radio frequency module name and working system configuration, and creating gNodeB radio frequency basic information.
The above-mentioned English abbreviation is explained,
gNodeB: a 5G RAN base station;
ESN: a serial number;
xn: a ground interface;
SCTP: stream Control Transmission Protocol;
NG interface: an interface between the radio access network and the 5G core network;
NTP server: a time synchronization server.
Has the advantages that:
1. an automatic 5G wireless base station opening method;
2. the method can quickly open the bureau, complete the initialization configuration and improve the network delivery capability.
Drawings
Fig. 1 is a flowchart of a one-touch opening method of a 5G wireless base station according to an embodiment of the present invention;
fig. 2 is a detailed flowchart of the generation of the opening file in fig. 1.
Detailed Description
The principles and spirit of the present invention will be described below with reference to several exemplary embodiments, which should be understood to be presented only to enable those skilled in the art to better understand and implement the present invention, and not to limit the scope of the present invention in any way. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.
As will be appreciated by one skilled in the art, embodiments of the present invention may be embodied as a system, apparatus, device, method, or computer program product. Accordingly, the present disclosure may be embodied in the form of: entirely hardware, entirely software (including firmware, resident software, micro-code, etc.), or a combination of hardware and software.
According to the embodiment of the invention, the one-key starting method and the one-key starting device for the 5G wireless base station are provided, the contradiction between the traditional base station starting and network accessing means and the greatly increased base station starting workload is solved, the base station construction efficiency is greatly improved, the full automation is realized, and compared with the traditional manual starting, the network capacity can be rapidly delivered, and the network operation and maintenance capacity is greatly improved.
For a more clear explanation of the above one-key opening method of the 5G wireless base station, a specific embodiment is described below, but it should be noted that the embodiment is only for better explaining the present invention and is not to be construed as an undue limitation on the present invention.
Fig. 1 is a flowchart of a push-to-open method of a 5G wireless base station according to an embodiment of the present invention. As shown in fig. 1, a 5G wireless base station push-to-open method,
step one, inputting parameters on an opening page;
step two, after the input is finished, generating an opening file;
step three: and transmitting the opening file to the equipment, executing issuing operation, and finally saving and submitting to complete the opening configuration.
Fig. 2 is a detailed flowchart of the generation of the opening file in fig. 1. As shown in fig. 2, a scene information configuration S101, a transmission data configuration S102, an operator information configuration S103, a network management information configuration S104, a routing information configuration S105, a core network information configuration S106, a planning project parameter configuration S107, a BBU information configuration S108, and a radio frequency information configuration S109 are sequentially input.
The scene information configuration S101 includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a deployment scene name, configuration and manufacturing scene description, opening scene description configuration and creating site deployment scene information.
The transmission data configuration S102 includes: the method comprises the steps of sequentially inputting a gNodeB name, a gNodeB identifier, a local terminal transmission identifier, an operator name, an ESN, a maintenance channel VLAN identifier, a maintenance channel IPV6 address, a maintenance channel next hop IPV6 address, a maintenance channel address prefix length, a service channel next hop IPV6 address, a service channel IPV6 address, a service channel VLAN identifier, a service channel address prefix length, a product type, a network element version, a software version, a base station template, a wireless template, a transmission port number, a transmission port attribute, a transmission port rate, an Xn local terminal SCTP port, an NG local terminal SCTP port and an NTP server IPV6 address configuration, and creating gNodeB transmission basic information.
The operator information configuration S103 includes: and sequentially inputting a gNodeB name, a gNodeB identifier, an operator type, an operator name, a mobile country code and mobile network code configuration to create gNodeB operator basic information.
The network management information configuration S104 includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the network management IPV6 address, the network management address prefix length, the network management name and the label configuration to create the gNodeB network management basic information.
The routing information configuration S105 includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the route index, the destination IPV6 address, the destination address prefix length, the next IPV6 address and the label configuration to create gNodeB route information.
The core network information configuring S106 includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a core network identifier, a signaling plane IPV6 address, a signaling plane address prefix length, a signaling plane port number, a user plane IPV6 address, a user plane address prefix length, a SCTP opposite terminal identifier and operator name configuration, and creating basic information of the gNodeB core network.
The planning tool parameter configuration S107 includes: sequentially inputting longitude, latitude, a gNodeB name, a gNodeB identifier, a cell name, an NR cell identifier, a transceiving mode, an NRDU cell identifier, a physical cell identifier, a tracking area code, a frequency band, a downlink frequency point, a downlink bandwidth, a time slot structure, a time slot ratio, an SSB frequency point, an SsbDescMethod, a root sequence index, a cell radius, maximum transmitting power, a baseband board slot position, a physical sector number, an NR cell template and an NRDU cell template configuration, and creating gNodeB wireless basic information.
The BBU information configuration S108 includes: and sequentially inputting the gNodeB name, the gNodeB identifier, the BBU cabinet number, the BBU machine frame number, the BBU groove number and the single board model configuration, and creating the gNodeBBBU basic information.
The radio frequency information configuring S109 includes: and sequentially inputting a gNodeB name, a gNodeB identifier, a physical sector number, a sector equipment number, a RRUCHAIN chain number, a networking mode, a chain head cabinet number, a chain head frame number, a chain head groove number, a chain head port number, a radio frequency module frame number, a radio frequency module model, a radio frequency module name and working system configuration, and creating gNodeB radio frequency basic information.
S101-109 specifically transmit data as follows:
type ═ transmission data >
Type ═ gNodeB Transmission basic information' >
<attributes>
< gNodename > SHBCG1156 Yubei Tianbao male lesson room 2 group-project period </gNod eB name >
< gNodeB identifier >10110881</gNodeB identifier >
< local terminal transmission identifier >1 </local terminal transmission identifier >
< operator name > unicom </operator name >
<ESN>2102311VBKN0L3036601</ESN>
< maintain tunnel VLAN identification >875 maintain tunnel VLAN identification >
< maintenance channel IPV6 Address >2408:8162: C020:0FFF:0000:0000:0000:0282 maintenance channel IPV6 Address >
< maintenance channel next hop IPV6 Address >2408:8162: C020:0FFF:0000:0000:0000:0281 </maintenance channel next hop IPV6 Address >
< maintaining a channel Address Prefix Length >126 >
< address of service channel next hop IPV6 >2408:8162: C020:0000:0000:0000:0000:0281 </address of service channel next hop IPV6 >
< address of service channel IPV6 >2408:8162: C020:0000:0000:0000:0000:0282 </address of service channel IPV6 >
< traffic channel VLAN identification >843 >
< service channel Address Prefix Length >126 </service channel Address Prefix Length >
< product type > DBS5900_5G </product type >
< network element version > BTS 5900V100R016C00SPC120e >
< software Release > BTS3900_5900V100R016C00SPC120e >
< base station template > DBS5900_5G _ BBU5900_ VIRTUAL _ NR _ CLOUDAIR _3SEC _ S IMPTRANSMODE >
< RADIO template > NR _ RADIO >
< transport port number >1 >
< Transmission Port Attribute > Fiber >
< Transmission Port Rate >10G </Transmission Port Rate >
< Xn home terminal SCTP Port >38422</Xn home terminal SCTP Port >
< NG local terminal SCTP Port >38412 >
< NTP server IPV6 Address >2408:8162: C0FF: FFFF: FFFF: FFFF: FFFF: FF02</NTP server IPV6 Address >
</attributes>
</moi>
It should be noted that although the operations of the method of the present invention have been described in the above embodiments and the accompanying drawings in a particular order, this does not require or imply that these operations must be performed in this particular order, or that all of the operations shown must be performed, to achieve the desired results. Additionally or alternatively, certain steps may be omitted, multiple steps combined into one step execution, and/or one step broken down into multiple step executions.
Compared with the conventional manual starting, the one-key starting method and the one-key starting device for the 5G wireless base station can be used for rapidly delivering the network capacity, greatly improve the network operation and maintenance capacity, solve the contradiction between the traditional base station starting and network accessing means and the greatly increased base station starting workload, and greatly improve the base station construction efficiency. .
While the spirit and principles of the invention have been described with reference to several particular embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, nor is the division of aspects, which is for convenience only as the features in such aspects may not be combined to benefit. The invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.
The limitation of the protection scope of the present invention is understood by those skilled in the art, and various modifications or changes which can be made by those skilled in the art without inventive efforts based on the technical solution of the present invention are still within the protection scope of the present invention.
Claims (11)
1. A5G wireless base station one-key opening method is characterized by comprising the following steps:
step one, inputting parameters on an opening page;
step two, after the input is finished, generating an opening file;
step three: and transmitting the opening file to the equipment, executing issuing operation, and finally saving and submitting to complete the opening configuration.
2. The method of claim 1, wherein the parameter input in the first step comprises: sequentially inputting scene information configuration, transmission data configuration, operator information configuration, network management information configuration, routing information configuration, core network information configuration, planning work parameter configuration, BBU information configuration and radio frequency information configuration.
3. The method of claim 2, wherein the configuration of the scene information comprises: and sequentially inputting a gNodeB name, a gNodeB identifier, a deployment scene name, configuration and manufacturing scene description, opening scene description configuration and creating site deployment scene information.
4. The 5G wireless base station one-touch opening method according to claim 2, wherein the transmission data configuration comprises: the method comprises the steps of sequentially inputting a gNodeB name, a gNodeB identifier, a local terminal transmission identifier, an operator name, an ESN, a maintenance channel VLAN identifier, a maintenance channel IPV6 address, a maintenance channel next hop IPV6 address, a maintenance channel address prefix length, a service channel next hop IPV6 address, a service channel IPV6 address, a service channel VLAN identifier, a service channel address prefix length, a product type, a network element version, a software version, a base station template, a wireless template, a transmission port number, a transmission port attribute, a transmission port rate, an Xn local terminal SCTP port, an NG local terminal SCTP port and an NTP server IPV6 address configuration, and creating gNodeB transmission basic information.
5. The method of claim 2, wherein the operator information configuration comprises: and sequentially inputting a gNodeB name, a gNodeB identifier, an operator type, an operator name, a mobile country code and mobile network code configuration to create gNodeB operator basic information.
6. The method for opening an office by one key of a 5G wireless base station according to claim 2, wherein the network management information configuration comprises: and sequentially inputting the gNodeB name, the gNodeB identifier, the network management IPV6 address, the network management address prefix length, the network management name and the label configuration to create the gNodeB network management basic information.
7. The 5G wireless base station one-touch switching method according to claim 2, wherein the routing information configuration comprises: and sequentially inputting the gNodeB name, the gNodeB identifier, the route index, the destination IPV6 address, the destination address prefix length, the next IPV6 address and the label configuration to create gNodeB route information.
8. The method of claim 2, wherein the core network information configuration comprises: and sequentially inputting a gNodeB name, a gNodeB identifier, a core network identifier, a signaling plane IPV6 address, a signaling plane address prefix length, a signaling plane port number, a user plane IPV6 address, a user plane address prefix length, a SCTP opposite terminal identifier and operator name configuration, and creating basic information of the gNodeB core network.
9. The method of claim 2, wherein the planning of configuration parameters comprises: sequentially inputting longitude, latitude, a gNodeB name, a gNodeB identifier, a cell name, an NR cell identifier, a transceiving mode, an NRDU cell identifier, a physical cell identifier, a tracking area code, a frequency band, a downlink frequency point, a downlink bandwidth, a time slot structure, a time slot ratio, an SSB frequency point, an SsbDescMethod, a root sequence index, a cell radius, maximum transmitting power, a baseband board slot position, a physical sector number, an NR cell template and an NRDU cell template configuration, and creating gNodeB wireless basic information.
10. The 5G wireless base station one-touch opening method according to claim 2, wherein the BBU information configuration comprises: and sequentially inputting the gNodeB name, the gNodeB identifier, the BBU cabinet number, the BBU machine frame number, the BBU groove number and the single board model configuration, and creating the gNodeBBBU basic information.
11. The method of claim 2, wherein the configuring of the radio frequency information comprises: and sequentially inputting a gNodeB name, a gNodeB identifier, a physical sector number, a sector equipment number, a RRUCHAIN chain number, a networking mode, a chain head cabinet number, a chain head frame number, a chain head groove number, a chain head port number, a radio frequency module frame number, a radio frequency module model, a radio frequency module name and working system configuration, and creating gNodeB radio frequency basic information.
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Cited By (2)
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| CN113543185A (en) * | 2021-09-16 | 2021-10-22 | 浩鲸云计算科技股份有限公司 | Automatic-opening-assistance-based 5G high-density base station rapid operation method and system |
| CN113873548A (en) * | 2021-09-03 | 2021-12-31 | 中盈优创资讯科技有限公司 | One-key opening method and device for white box equipment |
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