CN112738841B - SSB wave beam dynamic configuration method in 5G base station and 5G base station - Google Patents
SSB wave beam dynamic configuration method in 5G base station and 5G base station Download PDFInfo
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- CN112738841B CN112738841B CN202011582915.XA CN202011582915A CN112738841B CN 112738841 B CN112738841 B CN 112738841B CN 202011582915 A CN202011582915 A CN 202011582915A CN 112738841 B CN112738841 B CN 112738841B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/08—Testing, supervising or monitoring using real traffic
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/18—Network planning tools
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/046—Wireless resource allocation based on the type of the allocated resource the resource being in the space domain, e.g. beams
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
Abstract
The invention discloses a dynamic configuration method of SSB wave beams in a 5G base station, which comprises the following steps: dividing the load classes of the 5G base stations according to the loads of the 5G base stations, and configuring different SSB scene configuration parameters according to the load classes; testing the 5G base station by using different SSB scene configuration parameters, wherein the testing of the 5G base station by using different SSB scene configuration parameters is to execute a plurality of SSB scene configuration parameters in sequence; and comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, and selecting the SSB scene configuration parameter corresponding to the optimal network performance index of the 5G base station to configure the 5G base station. The invention can realize the self-adaptive adjustment of the SSB channel beam configuration parameters so as to realize the optimal coverage effect.
Description
Technical Field
The invention relates to the technical field of 5G base stations, in particular to a dynamic configuration method of SSB beams in a 5G base station and the 5G base station.
Background
When the station is built and deployed, field workers of a network operator select a scene close to the site from typical scenes according to the surrounding environment and the people flow condition of the base station, and configure a beam mode of a corresponding base station synchronous broadcast control signal, so that the optimal coverage of the cell synchronous broadcast control signal is realized. However, on the one hand, with the change of the environment of the coverage area of the base station, such as the construction of new buildings, the addition of new base stations around, and the change of the normal distribution position of people in the coverage area, the signal coverage area of the base station is also changed. However, in the current mode of fixedly configuring the SSB beam, the beam configuration is generally not modified with the change of the external surrounding environment, so that the SSB signal coverage of the base station is not optimal, and even signals of the SSB beam cannot be received in some cases, thereby affecting the access of some users, and causing the traffic that can be absorbed by the base station to be not maximized. On the other hand, since field personnel are required to configure the SSB beam coverage according to the actual coverage scenario, the coverage scenario cannot be defined in too detail, and can only be divided into a plurality of categories of scenarios, otherwise it is inconvenient for ordinary construction personnel to select and configure, which results in that the SSB beam coverage cannot be matched with the surrounding environment more accurately, thereby achieving more accurate coverage.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides a dynamic configuration method of SSB beams in a 5G base station, which is characterized by comprising the following steps:
dividing the load classes of the 5G base stations according to the loads of the 5G base stations, and configuring different SSB scene configuration parameters according to the load classes;
testing the 5G base station by using different SSB scene configuration parameters, wherein the testing of the 5G base station by using different SSB scene configuration parameters is to execute a plurality of SSB scene configuration parameters in sequence;
and comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, automatically selecting the SSB scene configuration parameters corresponding to the optimal network performance indexes of the 5G base station and suitable for the corresponding load types through an SSB beam dynamic configuration module according to the load types of the 5G base station at different time, and automatically configuring the 5G base station.
Further, the dividing the 5G base station load categories according to the load of the 5G base station includes the following processes:
counting the proportion of the peak value of the number of users, the uplink flow and the downlink flow which are simultaneously accessed by the 5G base station in the total flow respectively; the number of users accessed simultaneously is a first priority, the condition that the proportion of the downlink flow is greater than the proportion of the uplink flow is a second priority, and the condition that the proportion of the uplink flow is greater than the proportion of the downlink flow is a third priority; the SSB scene configuration of the 5G base station sequentially meets the first priority, the second priority and the third priority.
Further, the step of the 5G base station sequentially executing the multiple SSB scenario configuration parameters includes:
the 5G base station executes one SSB scene configuration parameter and then automatically executes the next SSB scene configuration parameter after the preset time is reached until all the SSB scene configuration parameters are completely executed;
and counting the network performance index of the 5G base station in the scene after executing one SSB scene configuration parameter.
Furthermore, the SSB scene configuration parameters include SSB main scene configuration parameters and SSB sub-scene configuration parameters, and each of the SSB main scene configuration parameters corresponds to a plurality of SSB sub-scene configuration parameters;
the 5G base station sequentially executes a plurality of SSB scene configuration parameters, including: after determining the SSB main scene configuration parameters which enable the 5G base station to reach the network performance indexes, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters;
the comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, and selecting the SSB scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station includes: and comparing the network performance indexes of the 5G base station under each SSB sub-scene configuration parameter, and selecting the SSB sub-scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station.
Further, after determining the SSB main scene configuration parameters that reach the network performance index, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters, including:
judging whether the network performance index of the 5G base station after executing a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index or not;
if not, replacing an SSB main scene configuration parameter of the 5G base station until the preset performance index is reached;
and if so, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters.
Further, the sequentially executing, by the 5G base station, a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameter includes:
the 5G base station executes one SSB sub-scene configuration parameter and then automatically executes the next SSB sub-scene configuration parameter after reaching a second preset period until all the SSB sub-scene configuration parameters are completely executed;
and counting the network performance index of the 5G base station in the scene after executing one SSB sub-scene configuration parameter.
Further, the first preset period is n times the second preset period, where each SSB main scene configuration parameter corresponds to n SSB sub-scene configuration parameters, and n is a positive integer.
Further, after the determining whether the network performance index after the 5G base station executes a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index, the method further includes:
if the preset performance index is not reached, checking whether a special activity condition occurs in the coverage area of the 5G base station;
if special activity occurs, the SSB main scene configuration parameters of the 5G base station are modified, and the previous configuration is recovered after the special activity is finished;
and if no special activity occurs, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters.
A5G base station comprises a signal transceiving module, a data processing module, a fire-fighting alarm module, a data storage module, a power supply device and a data interface; the fire-fighting alarm module, the data storage module, the power supply device, the data interface and the signal transceiving module are respectively connected with the data processing module.
The invention has the beneficial effects that: the invention can realize the self-adaptive adjustment of the SSB channel beam configuration parameters so as to realize the optimal coverage effect.
Drawings
Fig. 1 is a flowchart illustrating a method for dynamically configuring SSB beams in a 5G base station.
Detailed Description
The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.
As shown in fig. 1, a method for dynamically configuring SSB beams in a 5G base station includes the following steps:
dividing the load category of the 5G base station according to the load of the 5G base station, and configuring different SSB scene configuration parameters according to the load category;
testing the 5G base station by using different SSB scene configuration parameters, wherein the testing of the 5G base station by using different SSB scene configuration parameters is to execute a plurality of SSB scene configuration parameters in sequence;
and comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, automatically selecting the SSB scene configuration parameters corresponding to the optimal network performance indexes of the 5G base station and suitable for the corresponding load types through an SSB beam dynamic configuration module according to the load types of the 5G base station at different time, and automatically configuring the 5G base station.
The step of dividing the 5G base station load categories according to the load of the 5G base station comprises the following processes:
counting the proportion of the peak value of the number of users, the uplink flow and the downlink flow which are simultaneously accessed by the 5G base station in the total flow respectively; the number of users accessed simultaneously is a first priority, the condition that the proportion of the downlink flow is greater than the proportion of the uplink flow is a second priority, and the condition that the proportion of the uplink flow is greater than the proportion of the downlink flow is a third priority; the SSB scene configuration of the 5G base station sequentially meets the first priority, the second priority and the third priority.
The 5G base station sequentially executes a plurality of SSB scene configuration parameters, including:
the 5G base station executes one SSB scene configuration parameter and then automatically executes the next SSB scene configuration parameter after the preset time is reached until all the SSB scene configuration parameters are completely executed;
and counting the network performance index of the 5G base station in the scene after executing one SSB scene configuration parameter.
The SSB scene configuration parameters comprise SSB main scene configuration parameters and SSB sub-scene configuration parameters, and each SSB main scene configuration parameter corresponds to a plurality of SSB sub-scene configuration parameters;
the 5G base station sequentially executes a plurality of SSB scene configuration parameters, including: after determining the SSB main scene configuration parameters which enable the 5G base station to reach the network performance indexes, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters;
the comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, and selecting the SSB scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station includes: and comparing the network performance indexes of the 5G base station under each SSB sub-scene configuration parameter, and selecting the SSB sub-scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station.
After determining the SSB main scene configuration parameters reaching the network performance index, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters, wherein the plurality of SSB sub-scene configuration parameters comprise:
judging whether the network performance index of the 5G base station after executing a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index or not;
if not, replacing an SSB main scene configuration parameter of the 5G base station until the preset performance index is reached;
and if so, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters.
The 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters, including:
the 5G base station executes one SSB sub-scene configuration parameter and then automatically executes the next SSB sub-scene configuration parameter after reaching a second preset period until all the SSB sub-scene configuration parameters are completely executed;
and counting the network performance index of the 5G base station in the scene after executing one SSB sub-scene configuration parameter.
The first preset period is n times the second preset period, wherein each SSB main scene configuration parameter corresponds to n SSB sub-scene configuration parameters, and n is a positive integer.
After the step of judging whether the network performance index after the 5G base station executes a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index, the method further includes:
if the preset performance index is not reached, checking whether a special activity condition occurs in the coverage area of the 5G base station;
if special activity occurs, the SSB main scene configuration parameters of the 5G base station are modified, and the previous configuration is recovered after the special activity is finished;
and if no special activity occurs, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters.
The 5G base station comprises a signal transceiving module, a data processing module, a fire-fighting alarm module, a data storage module, a power supply device and a data interface; the fire-fighting alarm module, the data storage module, the power supply device, the data interface and the signal transceiving module are respectively connected with the data processing module.
The fire alarm system comprises a signal receiving and transmitting module, a data processing module and a fire alarm module, wherein the signal receiving and transmitting module is used for receiving and transmitting signals, the data processing module is used for processing related data, and the fire alarm module is used for performing fire alarm on a base station; the data interface is used for connecting different access devices; the power supply device is used for supplying power to the base station.
The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (1)
1. A method for dynamically configuring SSB wave beams in a 5G base station is characterized by comprising the following steps:
dividing the load classes of the 5G base stations according to the loads of the 5G base stations, and configuring different SSB scene configuration parameters according to the load classes;
testing the 5G base station by using different SSB scene configuration parameters, wherein the testing of the 5G base station by using different SSB scene configuration parameters is to execute a plurality of SSB scene configuration parameters in sequence;
comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, automatically selecting the SSB scene configuration parameters corresponding to the optimal network performance indexes of the 5G base station and suitable for the corresponding load types through an SSB beam dynamic configuration module according to the load types of the 5G base station at different time, and automatically configuring the 5G base station;
the step of dividing the 5G base station load categories according to the load of the 5G base station comprises the following processes:
counting the proportion of the peak value of the number of users, the uplink flow and the downlink flow which are simultaneously accessed by the 5G base station in the total flow respectively; the number of users accessed simultaneously is a first priority, the condition that the proportion of the downlink flow is greater than the proportion of the uplink flow is a second priority, and the condition that the proportion of the uplink flow is greater than the proportion of the downlink flow is a third priority; the SSB scene configuration of the 5G base station sequentially meets a first priority, a second priority and a third priority;
the 5G base station sequentially executes a plurality of SSB scene configuration parameters, including:
the 5G base station executes one SSB scene configuration parameter and then automatically executes the next SSB scene configuration parameter after the preset time is reached until all the SSB scene configuration parameters are completely executed;
after each SSB scene configuration parameter is executed, network performance indexes of the 5G base station in the scene are counted;
the SSB scene configuration parameters comprise SSB main scene configuration parameters and SSB sub-scene configuration parameters, and each SSB main scene configuration parameter corresponds to a plurality of SSB sub-scene configuration parameters;
the 5G base station sequentially executes a plurality of SSB scene configuration parameters, including: after determining the SSB main scene configuration parameters which enable the 5G base station to reach the network performance indexes, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters;
the comparing the network performance indexes of the 5G base station under each SSB scene configuration parameter, and selecting the SSB scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station includes: comparing the network performance indexes of the 5G base station under each SSB sub-scene configuration parameter, and selecting the SSB sub-scene configuration parameter corresponding to the optimal network performance index to configure the 5G base station;
after determining the SSB main scene configuration parameters reaching the network performance index, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters, wherein the plurality of SSB sub-scene configuration parameters comprise:
judging whether the network performance index of the 5G base station after executing a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index or not;
if not, replacing the SSB main scene configuration parameter of the 5G base station until the preset performance index is reached;
if yes, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters;
the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters, including:
the 5G base station executes one SSB sub-scene configuration parameter and then automatically executes the next SSB sub-scene configuration parameter after reaching a second preset period until all the SSB sub-scene configuration parameters are completely executed;
after each SSB sub-scene configuration parameter is executed, network performance indexes of the 5G base station in the scene are counted;
the first preset period is n times the second preset period, wherein each SSB main scene configuration parameter corresponds to n SSB sub-scene configuration parameters, and n is a positive integer;
after the step of judging whether the network performance index after the 5G base station executes a certain SSB main scene configuration parameter for a first preset period reaches a preset performance index, the method further includes:
if the preset performance index is not reached, checking whether a special activity condition occurs in the coverage area of the 5G base station;
if special activity occurs, the SSB main scene configuration parameters of the 5G base station are modified, and the previous configuration is recovered after the special activity is finished;
and if no special activity occurs, the 5G base station sequentially executes a plurality of SSB sub-scene configuration parameters corresponding to the SSB main scene configuration parameters.
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