WO2015135338A1 - 一种资源分配方法及基站控制器 - Google Patents
一种资源分配方法及基站控制器 Download PDFInfo
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- WO2015135338A1 WO2015135338A1 PCT/CN2014/091938 CN2014091938W WO2015135338A1 WO 2015135338 A1 WO2015135338 A1 WO 2015135338A1 CN 2014091938 W CN2014091938 W CN 2014091938W WO 2015135338 A1 WO2015135338 A1 WO 2015135338A1
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- WIPO (PCT)
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- sector
- antenna
- data traffic
- base station
- listening period
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/29—Control channels or signalling for resource management between an access point and the access point controlling device
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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
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/52—Allocation or scheduling criteria for wireless resources based on load
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/53—Allocation or scheduling criteria for wireless resources based on regulatory allocation policies
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/54—Allocation or scheduling criteria for wireless resources based on quality criteria
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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
- H04W88/085—Access point devices with remote components
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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
- H04W88/12—Access point controller devices
Definitions
- the present invention relates to the field of communications, and in particular, to a resource allocation method and a base station controller.
- the generalized base station is an abbreviation of a BSS (Base Station Subsystem), and includes a base station controller and a base station antenna.
- the base station antenna is further divided into an access antenna, a backhaul antenna, and a listening antenna.
- the listening antenna is used.
- the reference signal sent by the user equipment is received during the listening period, so as to detect the reference signal of the active user equipment, thereby determining the location of the active user, and the access antenna and the return antenna are antennas for performing service communication, and the receiving antenna It is an antenna for performing communication between the base station and the user, and the return antenna is an antenna for transmitting data between the base station and the base station.
- the access antenna and the backhaul antenna are two different components in a base station, and the resources of the access antenna and the resources of the backhaul antenna are both fixed values, and the resources and backhaul of the access antenna are selected.
- the resources of the antenna are in a resource-intensive manner.
- the resource is redundant.
- the resources of the access antenna and the return antenna are set to be two to three times the actual amount of resources, or larger, to avoid data traffic bursts of user equipment.
- the occurrence of a sudden situation such as a 100-element unit access antenna and a 150-element unit return antenna enables the user equipment in the area where the base station is located to operate normally. In fact, the antenna is accessed.
- the amount of resources will be set to 200 array units, and the amount of resources for the return antenna will be set to 300 array units. However, if the user equipment does not have such a sudden situation for a long time, the resources of the redundant part are idle for a long time, which causes waste of resources of the base station antenna, and the resource utilization of the base station is low.
- Embodiments of the present invention provide a resource allocation method and a base station controller, which can improve resource utilization.
- a base station controller including:
- a receiving unit configured to receive a reference signal of a first sector in a current listening period sent by all active user equipments, where the first sector is any sector of a base station antenna in a base station where the base station controller is located;
- a determining unit configured to determine all active user equipments according to the reference signal
- a first acquiring unit configured to acquire, according to the all active user equipments, total data traffic of the first sector in the current listening period
- a determining unit configured to determine, according to the total data traffic of the first sector in the current listening period, a resource amount of the access antenna and a resource amount of the backhaul antenna adjusted in resources of the base station antenna;
- a generating unit configured to generate control information, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna;
- a first sending unit configured to send the control information to the base station antenna, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna, so that the base station antenna is configured according to the The control information adjusts resources of the access antenna and resources of the backhaul antenna.
- the resources of the initial base station antenna allocate resources according to preset ratios of the access antenna, the backhaul antenna, and the listening antenna.
- the determining unit is specifically configured to:
- the determining unit is further configured to:
- the total data traffic of the first sector in the previous listening period is less than or equal to a preset peak value of the first sector, according to the total data of the first sector in the current listening period.
- the flow difference between the traffic and the preset average data traffic of the first sector is obtained
- the amount of resources of the corresponding backhaul antenna is reduced and the amount of resources of the corresponding access antenna is increased.
- the adjustment resource is also used to:
- the difference between the total data traffic and the preset average data traffic of the first sector is obtained by increasing the amount of resources of the corresponding backhaul antenna and reducing the amount of resources of the corresponding access antenna.
- the base station controller further includes:
- a second acquiring unit configured to acquire a total number of all the active user equipments
- a determining unit configured to determine whether the total number of all active user equipments is 0;
- a second sending unit configured to: when the total number of all the active user equipments is 0, send a shutdown indication to the base station antenna, to indicate that all access antennas in the first sector are closed.
- the second aspect provides a resource allocation method, which is applied to a base station controller, and includes:
- the first sector is any sector of a base station antenna in a base station where the base station controller is located;
- control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna
- control information Transmitting the control information to the base station antenna, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna, so as to facilitate the base station antenna Adjusting resources of the access antenna and resources of the backhaul antenna according to the control information.
- the resources of the initial base station antenna allocate resources according to a preset ratio of the access antenna, the backhaul antenna, and the listening antenna.
- the parameter of the listening antenna is preset by the base station controller, and the parameter of the listening antenna includes a beamwidth of the listening antenna. , beam angle, listening period, and listening time.
- Determining, according to the total number of active user equipments of the first sector and the total data traffic of the active user equipment of the first sector, the amount of resources of the access antenna adjusted in the resources of the base station antenna and The amount of resources returned by the antenna also includes:
- the traffic difference between the traffic and the preset average data traffic of the first sector is reduced by reducing the amount of resources of the corresponding backhaul antenna and increasing the amount of resources of the corresponding access antenna.
- the resource allocation method further includes:
- the difference between the total data traffic and the preset average data traffic of the first sector is increased by increasing the amount of resources of the corresponding backhaul antenna and reducing the corresponding access antenna. Resources.
- the resource allocation method further includes:
- An embodiment of the present invention provides a resource acquisition method and a base station controller, including: receiving a reference signal sent by all active user equipments of a first sector in a current listening period, where the first sector is the base station controller Any sector of the base station antenna in the base station; determining, according to the reference signal, all active user equipments; acquiring, according to the all active user equipments, total data traffic of the first sector in the current listening period; according to the current detection And determining, according to the total data traffic of the first sector in the period, the resource amount of the access antenna and the resource amount of the backhaul antenna adjusted in the resource of the base station antenna; generating control information, where the control information includes Adjusting the amount of resources of the access antenna and the amount of resources of the backhaul antenna; transmitting the control information to the base station antenna.
- the base station console can adjust the resources of the access antenna and the resources of the backhaul antenna according to the total number of active user equipments in the current listening period and the total data traffic of the first sector, thereby improving the resources of the base station antenna.
- the utilization rate saves the resources of the base station.
- FIG. 1 is a schematic structural diagram of a base station controller according to an embodiment of the present disclosure
- FIG. 2 is a schematic structural diagram of another base station controller according to an embodiment of the present invention.
- FIG. 3 is a schematic structural diagram of still another base station controller according to an embodiment of the present disclosure.
- FIG. 4 is a flowchart of a resource allocation method according to an embodiment of the present invention.
- FIG. 5 is a flowchart of another resource allocation method according to an embodiment of the present invention.
- the embodiment of the present invention provides a base station controller 10, as shown in FIG. 1, including:
- the receiving unit 101 is configured to receive a reference signal sent by all active user equipments of the first sector in the current listening period, where the first sector is any sector of the base station antenna in the base station where the base station controller is located.
- the first determining unit 102 is configured to determine all active user equipments according to the reference signal.
- the second determining unit 104 is configured to determine, according to the total data traffic of the first sector in the current listening period, the resource amount of the access antenna and the resource of the backhaul antenna adjusted in the resource of the base station antenna. the amount.
- the parameter of the listening antenna is preset by the base station controller, and the parameters of the listening antenna include a beam width, a beam angle, a listening period, and a listening time of the listening antenna.
- the generating unit 105 is configured to generate control information, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna.
- the first sending unit 106 is configured to send the control information to the base station antenna, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna, so that the base station antenna is configured according to the The control information adjusts resources of the access antenna and resources of the backhaul antenna.
- the base station console can be based on the active user equipment of the current listening period.
- the total number of data and the total data traffic of the first sector adjust the amount of resources of the access antenna and the amount of resources of the backhaul antenna, thereby improving the utilization of resources of the base station antenna and saving resources of the base station.
- the resources of the initial base station antenna allocate resources according to a preset proportion of the access antenna, the backhaul antenna, and the listening antenna.
- each base station antenna can allocate resources for the access antenna and the backhaul antenna at the same time, instead of only one of the access antenna and the backhaul antenna, thereby saving resources of the base station antenna and enabling access.
- the antenna and the return antenna are in the same base station, and the integration of the base station antenna is realized.
- the determining unit 104 is specifically configured to:
- the determining unit 104 is further configured to:
- adjustment resource 104 is further configured to:
- the difference between the total data traffic and the preset average data traffic of the first sector is obtained by increasing the amount of resources of the corresponding backhaul antenna and reducing the amount of resources of the corresponding access antenna.
- the base station controller 10 further includes:
- the second obtaining unit 107 is configured to acquire the total number of all active user equipments.
- the second sending unit 109 is configured to send a shutdown indication to the base station antenna to indicate that all access antennas in the first sector are closed if the total number of all active user equipments is zero.
- the embodiment of the present invention provides a base station controller 20, as shown in FIG. 3, including:
- the receiver 201 is configured to receive a reference signal sent by all active user equipments of the first sector in the current listening period, where the first sector is any sector of the base station antenna in the base station where the base station controller is located.
- the processor 202 is configured to determine all active user equipments according to the reference signal.
- the processor 202 is further configured to acquire, according to the all active user equipments, total data traffic of the first sector in the current listening period.
- the processor 202 is further configured to determine, according to the total data traffic of the first sector in the current listening period, the resource amount of the access antenna and the backhaul antenna adjusted in the resource of the base station antenna. Resources.
- the parameter of the listening antenna is preset by the base station controller, and the parameters of the listening antenna include a beam width, a beam angle, a listening period, and a listening time of the listening antenna.
- the transmitter 203 is configured to send the control information to the base station antenna, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna, so that the base station antenna is controlled according to the The information adjusts resources of the access antenna and resources of the backhaul antenna.
- the resources of the initial base station antenna allocate resources according to a preset proportion of the access antenna, the backhaul antenna, and the listening antenna.
- each base station antenna can allocate resources for the access antenna and the backhaul antenna at the same time, instead of only one of the access antenna and the backhaul antenna, thereby saving resources of the base station antenna and enabling access.
- the antenna and the return antenna are in the same base station, and the integration of the base station antenna is realized.
- the processor 202 is further configured to:
- processor 202 is further configured to:
- the traffic difference between the traffic and the preset average data traffic of the first sector is reduced by reducing the amount of resources of the corresponding backhaul antenna and increasing the amount of resources of the corresponding access antenna.
- processor 202 is further configured to:
- the preset average data traffic of the first sector is obtained according to the traffic difference between the total data traffic of the first sector and the preset average data traffic of the first sector in the current listening period. Increasing the amount of resources of the corresponding backhaul antenna and reducing the amount of resources of the corresponding access antenna.
- the base station controller 10 further includes:
- the processor 202 is further configured to acquire the total number of all active user equipments.
- the processor 202 is further configured to determine whether the total number of all active user equipments is zero.
- the embodiment of the invention provides a resource allocation method, which is applied to a base station controller.
- the specific steps are as shown in FIG. 4, and include:
- Step 301 Receive a reference signal sent by all active user equipments in a first sector in a current listening period, where the first sector is any sector of a base station antenna in a base station where the base station controller is located.
- the listening antenna is configured to receive a reference new signal sent by the active user equipment, and then send the reference signal to the base station controller, where the parameter of the listening antenna is preset by the base station controller, where the listening antenna is The parameter includes a beam width, a beam angle, a listening period, and a listening time of the listening antenna, where the active user equipment is a user equipment that performs data service with the base station, and the silent user equipment has the capability of performing data services with the base station, User equipment for data services.
- Step 302 Determine all active user equipments according to the reference signal.
- Step 304 Determine, according to the total data traffic of the first sector in the current listening period, the amount of resources of the access antenna and the amount of resources of the backhaul antenna adjusted in the resources of the base station antenna.
- Step 305 Generate control information, where the control information includes the adjusted resource amount of the access antenna and the resource amount of the backhaul antenna.
- Step 306 Send control information to the base station antenna.
- the resources of the antenna allocate resources according to a preset proportion of the access antenna, the back-transmitting antenna and the listening antenna.
- the base station console can adjust the resources of the access antenna and the resources of the backhaul antenna according to the total number of active user equipments in the current listening period and the total data traffic of the first sector, thereby improving the resources of the base station antenna.
- the utilization rate saves the resources of the base station.
- the resource allocation method further includes: receiving, by the base station controller, a registration request sent by the first user equipment, where the first user equipment is any one of all unregistered user equipments; The first user equipment allocates a registration identifier, where the registration identifier is in one-to-one correspondence with the first user equipment, and sends registration response information to the first user equipment, where the registration response information includes the registration identifier.
- step 304 according to the total number of the active user equipments and the total data traffic of the first sector, determining the resource amount of the access antenna and the backhaul antenna adjusted in the resources of the base station antenna
- the amount of resources including:
- the base station controller may obtain the preset average data traffic of the first sector, and determine whether the total data traffic of the first sector in the current listening period is greater than a preset average data traffic of the first sector. Obtaining a preset peak value of the first sector if the total data traffic of the first sector in the current listening period is greater than a preset average data traffic of the first sector; determining the current detection Whether the total data traffic of the first sector in the listening period is greater than a preset peak value of the first sector;
- the total data traffic of the first sector in the current listening period is greater than a preset peak value of the first sector, acquiring total data traffic of the first sector in the previous listening period; determining the Whether the total data traffic of the first sector in the previous listening period is greater than a preset peak value of the first sector; if the total data traffic of the first sector in the previous listening period is less than or Equal to the preset peak of the first sector, sending a protocol to other base stations And the work request, so that the other base station performs information transmission with the user equipment in the first sector according to the collaborative work request.
- the resource allocation method further includes:
- the difference between the total data traffic and the preset average data traffic of the first sector is obtained by increasing the amount of resources of the corresponding backhaul antenna and reducing the amount of resources of the corresponding access antenna.
- the resource allocation method further includes:
- the base station antenna Sending a shutdown indication for instructing to close all access antennas in the first sector.
- the resources of the initial base station antenna allocate resources according to a preset ratio of the access antenna, the backhaul antenna, and the listening antenna.
- each base station antenna can allocate resources for the access antenna and the backhaul antenna at the same time, instead of only one of the access antenna and the backhaul antenna, thereby saving resources of the base station antenna and enabling access.
- the antenna and the return antenna are in the same base station, and the integration of the base station antenna is realized.
- the embodiment of the present invention provides a resource allocation method, which is applied to a base station controller.
- the base station starts working as an example, and the user equipment is a mobile phone, and the mobile phone includes an active mobile phone and a silent mobile phone.
- the specific steps are as shown in FIG. 5 . include:
- Step 401 Receive a registration request sent by each mobile phone.
- the registration request is received by the base station antenna and transmitted to the base station controller.
- Step 402 Assign a registration identifier to each mobile phone according to the registration request, and the registration identifier is in one-to-one correspondence with each mobile phone.
- Step 403 Send a registration response to each mobile phone.
- the registration response carries the registration identifier of the mobile phone, and the base station controller sends the registration response to the corresponding mobile phone through the base station antenna.
- Step 404 Receive a reference signal sent by all active mobile phones of the first sector in the current listening period.
- the listening antenna sends the reference signal to the base station controller, where the reference signal of the active mobile phone is received through the monitoring antenna.
- the parameters of the listening antenna are preset by the base station controller, and the parameters of the listening antenna include the beam width of the listening antenna, the beam angle, the listening period, and the listening time.
- Step 405 Determine all active mobile phones according to the reference signal.
- the active mobile phone can receive the wireless local area hotspot signal and obtain wireless
- the signal strength of the local area hotspot is sent to the base station controller as a reference signal, and the base station controller can calculate the strength of the signal and the preset signal strength of the wireless local area network hotspot to obtain the mobile phone location to the transmitting end of the wireless local area network hotspot.
- Distance if there are multiple wireless local area network hotspots, you can get the distance of the mobile phone from each transmitting end, and then calculate the position coordinates of the active mobile phone according to the position coordinates of the transmitting end of each wireless local area network hotspot to obtain the first fan.
- the range of the area determines whether the location coordinates of the active mobile phone are within the range of the first sector, and the active mobile phone is the active mobile phone of the first sector. It should be noted that there are many methods for obtaining the position of the active mobile phone of the first sector, for example, the direction of arrival angle estimation method.
- Step 406 Acquire total data traffic of the first sector in the current listening period according to all active mobile phones.
- Step 407 Determine, according to the total data traffic of the first sector in the current listening period, the amount of resources of the access antenna and the amount of resources of the backhaul antenna adjusted in the resources of the base station antenna.
- the base station controller first obtains a preset average data traffic of the first sector, and then determines whether the total data traffic of the first sector in the current listening period is greater than a preset average data traffic of the first sector; The total data traffic of the first sector in the listening period is greater than the preset average data traffic of the first sector, and the base station controller first acquires the preset peak value of the first sector, and then determines the first sector of the current listening period. Whether the total data traffic is greater than a preset peak value of the first sector;
- the base station controller may obtain the total data traffic of the first sector in the previous listening period, and determine the previous interception. Whether the total data traffic of the first sector in the period is greater than a preset peak value, and if the data traffic of the first sector in the previous listening period is less than or equal to the preset peak value, the base station controller may send a cooperative working request to other base stations, so that According to the cooperative operation request, the base station controller performs a difference between the total data traffic of the first sector in the current listening period and the preset peak of the first sector to obtain a traffic difference, according to the traffic. The difference is selected by one or more base stations for allocation, and the resource allocation methods of other base stations are the same as the base station;
- the base station controller may obtain the total data traffic of the first sector in the previous listening period; Whether the data traffic of the listening period is greater than the preset peak of the first sector; if the data traffic of the previous listening period is greater than the preset peak of the first sector, the base station controller sends a coordinated stop request to other base stations, so as to facilitate The other base station stops the mobile phone information transmission in the first sector according to the coordinated stop request, and uses the total data traffic of the first sector in the current listening period and the preset average data traffic of the first sector.
- the traffic difference is obtained, and the resource amount of the resource is obtained according to the traffic difference, thereby increasing the resource amount of the corresponding access antenna and reducing the resource amount of the corresponding back-transmitting antenna; if the data traffic of the previous listening period is less than or Equal to the preset peak value of the first sector, the total data traffic of the first sector in the current listening period is compared with the preset average data traffic of the first sector, and the traffic difference is obtained, and the traffic is obtained according to the traffic difference.
- Resource amount the corresponding increase in the amount of resources to obtain access to the antenna and a reduced amount of resources corresponding backhaul antenna.
- the difference between the total data traffic and the preset average data traffic of the first sector is obtained by increasing the amount of resources of the corresponding backhaul antenna and reducing the amount of resources of the corresponding access antenna.
- Step 408 Generate control information.
- the control information includes: increasing a resource amount of the corresponding backhaul antenna and reducing a resource amount of the corresponding access antenna; or reducing a resource amount of the corresponding backhaul antenna and increasing a resource amount of the corresponding access antenna to generate control information. .
- Step 409 Send control information to the base station antenna, so as to adjust the ratio of resources of the base station antenna.
- the controller can obtain the total data traffic of the first sector in the current listening period, obtain the preset average data traffic of the first sector, acquire the preset peak value of the first sector, and assume the first sector in the current listening period.
- Total data traffic is greater than Predetermining the average data traffic, and determining whether the total data traffic of the first sector in the current listening period is greater than a preset peak value of the first sector, and if so, obtaining the total data traffic of the first sector in the previous listening period, If the total data traffic of the first sector in the previous listening period is less than or equal to the data traffic of the first listening period, the coordinated request is sent to other base stations; when the soccer event ends, the base station controller may acquire the current listening period.
- the total data traffic of the first sector acquires the preset average data traffic of the first sector, and assumes that the total data traffic of the first sector in the current listening period is greater than the preset average data traffic, and then determines the current listening period.
- the coordinated stop request is sent to other base stations.
- the base station controller can obtain the current The total data traffic of the first sector in the listening period is obtained, and the preset average data traffic of the first sector is obtained, and the total data traffic of the first sector in the current listening period is less than or equal to the preset average data traffic, and the base station is adjusted.
- the resources of the antenna increase the resources of the corresponding back-transmitting antenna and reduce the resources of the corresponding access antenna; when the soccer field tube is closed, there is no active mobile phone in the first sector, and the base station controller sends a shutdown indication to the base station antenna, It is used to instruct to close the access antenna corresponding to the first sector.
- An embodiment of the present invention provides a resource acquisition method and a base station controller, including: receiving a reference signal sent by all active user equipments of a first sector in a current listening period, where the first sector is the base station controller Any sector of the base station antenna in the base station; determining, according to the reference signal, all active user equipments; obtaining, according to the all active user equipments, total data traffic of the first sector in the current listening period; according to the current listening period a total data traffic of the first sector, determining a resource amount of the access antenna and a resource amount of the backhaul antenna adjusted in resources of the base station antenna; generating control information, where the control information includes the adjusted access The amount of resources of the antenna and the amount of resources of the backhaul antenna; the control information is sent to the base station antenna.
- the base station console can The resource amount of the access antenna and the resource of the back-transmitting antenna are adjusted according to the total number of active user equipments in the current listening period and the total data traffic of the first sector, thereby improving the utilization of resources of the base station antenna and saving the base station. resource of.
- the foregoing program may be stored in a computer readable storage medium, and the program is executed when executed.
- the foregoing steps include the steps of the foregoing method embodiments; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.
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Abstract
Description
Claims (14)
- 一种基站控制器,其特征在于,包括:接收单元,用于接收当前侦听周期内第一扇区的所有活跃用户设备发送的参考信号,所述第一扇区是所述基站控制器所在基站中的基站天线的任意一个扇区;确定单元,用于根据所述参考信号确定所有活跃用户设备;第一获取单元,用于根据所述所有活跃用户设备获取当前侦听周期内第一扇区的总数据流量;确定单元,用于根据所述当前侦听周期内所述第一扇区的总数据流量,确定在所述基站天线的资源中调整的接入天线的资源量和回传天线的资源量;生成单元,用于生成控制信息,所述控制信息包括所述调整的接入天线的资源量和回传天线的资源量;第一发送单元,用于向所述基站天线发送所述控制信息,以便于所述基站天线根据所述控制信息调整所述接入天线的资源和回传天线的资源。
- 根据权利要求1所述的基站控制器,其特征在于,所述初始的基站天线的资源按照接入天线、回传天线和侦听天线的预设比例分配资源。
- 根据权利要求2所述的基站控制器,其特征在于,所述侦听天线的参数是所述基站控制器预先设置的,所述侦听天线的参数包括所述侦听天线的波束宽度、波束角度、侦听周期和侦听时间。
- 根据权利要求3所述的基站控制器,其特征在于,所述确定单元,具体用于:获取所述第一扇区的预设平均数据流量;判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设平均数据流量;若所述当前侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设平均数据流量,获取所述第一扇区的预设峰值;判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述当前侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设峰值,则获取前一侦听周期内第一扇区的总数据流量;判断所述前一侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述前一侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,则向其他基站发送协同工作请求,以便于所述其他基站根据所述协同工作请求与所述第一扇区内的用户设备进行信息传输。
- 根据权利要求4所述的基站控制器,其特征在于,所述确定单元,还用于:若所述当前侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,则获取前一侦听周期内第一扇区的总数据流量;判断所述前一侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述前一侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设峰值,则向其他基站发送协同停止请求,以便于所述其他基站根据所述协同停止请求停止与所述第一扇区内的用户设备信息传输;根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到减少相应的回传天线的资源量和增大相应的接入天线的资源量;若所述前一侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到减少相应的回传天线的资源量和增大相应的接入天线的资源量。
- 根据权利要求4所述的基站控制器,其特征在于,所述调整 资源,还用于:若所述当前侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设平均数据流量,则根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到增大相应的回传天线的资源量和减少相应的接入天线的资源量。
- 根据权利要求6所述的基站控制器,其特征在于,所述基站控制器还包括:第二获取单元,用于获取所述所有活跃用户设备的总数量;判断单元,用于判断所述所有活跃用户设备的总数量是否为0;第二发送单元,用于若所述所有活跃用户设备的总数量为0时,则向所述基站天线发送关闭指示,用于指示关闭所述第一扇区内所有接入天线。
- 一种资源分配方法,其特征在于,应用于基站控制器,包括:接收当前侦听周期内第一扇区的所有活跃用户设备发送的参考信号,所述第一扇区是所述基站控制器所在基站中的基站天线的任意一个扇区;根据所述参考信号确定所有活跃用户设备;根据所述所有活跃用户设备获取当前侦听周期内第一扇区的总数据流量;根据所述当前侦听周期内所述第一扇区的总数据流量,确定在所述基站天线的资源中调整的接入天线的资源量和回传天线的资源量;生成控制信息,所述控制信息包括所述调整的接入天线的资源量和回传天线的资源量;向所述基站天线发送所述控制信息,所述控制信息包括所述调整的接入天线的资源量和回传天线的资源量,以便于所述基站天线根据所述控制信息调整所述接入天线的资源和回传天线的资源。
- 根据权利要求8所述的资源分配方法,其特征在于,在所述根据所述当前侦听周期内所述第一扇区的总数据流量,确定在所述基 站天线的资源中调整的接入天线的资源量和回传天线的资源量之前,所述初始的基站天线的资源按照接入天线、回传天线和侦听天线的预设比例分配资源。
- 根据权利要求9所述的资源分配方法,其特征在于,所述侦听天线的参数是所述基站控制器预先设置的,所述侦听天线的参数包括所述侦听天线的波束宽度、波束角度、侦听周期和侦听时间。
- 根据权利要求10所述的资源分配方法,其特征在于,根据所述当前侦听周期内所述第一扇区的总数据流量,确定在所述基站天线的资源中调整的接入天线的资源量和回传天线的资源量,包括:获取所述第一扇区的预设平均数据流量;判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设平均数据流量;若所述当前侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设平均数据流量,获取所述第一扇区的预设峰值;判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述当前侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设峰值,则获取前一侦听周期内第一扇区的总数据流量;判断所述前一侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述前一侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,则向其他基站发送协同工作请求,以便于所述其他基站根据所述协同工作请求与所述第一扇区内的用户设备进行信息传输。
- 根据权利要求11所述的资源分配方法,其特征在于,在所述判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值之后,所述根据所述第一扇区的活跃用户设备的总数量和所述第一扇区的活跃用户设备的总数据流量,确定在所述基站天线的资源中调整 的接入天线的资源量和回传天线的资源量,还包括:若所述当前侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,则获取前一侦听周期内第一扇区的总数据流量;判断所述前一侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设峰值;若所述前一侦听周期内所述第一扇区的总数据流量大于所述第一扇区的预设峰值,则向其他基站发送协同停止请求,以便于所述其他基站根据所述协同停止请求停止与所述第一扇区内的用户设备信息传输;根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到减少相应的回传天线的资源量和增大相应的接入天线的资源量;若所述前一侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设峰值,根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到减少相应的回传天线的资源量和增大相应的接入天线的资源量。
- 根据权利要求11所述的资源分配方法,其特征在于,在所述判断所述当前侦听周期内所述第一扇区的总数据流量是否大于所述第一扇区的预设平均数据流量之后,所述资源分配方法还包括:若所述当前侦听周期内所述第一扇区的总数据流量小于或等于所述第一扇区的预设平均数据流量,则根据所述当前侦听周期内所述第一扇区的总数据流量和所述第一扇区的预设平均数据流量的流量差,得到增大相应的回传天线的资源量和减少相应的接入天线的资源量。
- 根据权利要求13所述的资源分配方法,其特征在于,在根据所述参考信号确定所有活跃用户设备之后,所述资源分配方法还包括:获取所述所有活跃用户设备的总数量;判断所述所有活跃用户设备的总数量是否为0;若所述所有活跃用户设备的总数量为0时,则向所述基站天线发送关闭指示,用于指示关闭所述第一扇区内所有接入天线。
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CN110063067B (zh) * | 2016-12-20 | 2022-09-30 | 瑞典爱立信有限公司 | 管理无线通信网络中的参考信号 |
SG11202010581RA (en) * | 2018-04-25 | 2020-11-27 | Beijing Xiaomi Mobile Software Co Ltd | Method and apparatus for indicating information and interpreting information, base station and user equipment |
WO2020197464A1 (en) * | 2019-03-26 | 2020-10-01 | Telefonaktiebolaget Lm Ericsson (Publ) | Interconnect in multiple-input multiple-output communication system |
CN112351478A (zh) * | 2019-08-09 | 2021-02-09 | 中兴通讯股份有限公司 | 一种节能方法及装置 |
CN113056005A (zh) * | 2019-12-26 | 2021-06-29 | 北京三星通信技术研究有限公司 | 波束确定方法、装置、电子设备及计算机可读存储介质 |
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CN106105349A (zh) | 2016-11-09 |
US20160381678A1 (en) | 2016-12-29 |
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