WO2012139400A1 - 一种小区负荷控制方法及装置 - Google Patents

一种小区负荷控制方法及装置 Download PDF

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Publication number
WO2012139400A1
WO2012139400A1 PCT/CN2011/084351 CN2011084351W WO2012139400A1 WO 2012139400 A1 WO2012139400 A1 WO 2012139400A1 CN 2011084351 W CN2011084351 W CN 2011084351W WO 2012139400 A1 WO2012139400 A1 WO 2012139400A1
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cell
load
service
comp
primary
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PCT/CN2011/084351
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English (en)
French (fr)
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姬广锋
樊荣
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中兴通讯股份有限公司
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Publication of WO2012139400A1 publication Critical patent/WO2012139400A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W36/00Hand-off or reselection arrangements
    • H04W36/08Reselecting an access point

Definitions

  • the present invention relates to the field of mobile communications, and in particular to a load control method and apparatus in a CoMP (Cooperative Multi-Point) transmission system.
  • CoMP Cooperative Multi-Point
  • handover or dropped calls are usually used to reduce the load of the cell.
  • LTE Long Term Evolution
  • the load balancing and load control methods are generally used to reduce the cell load, that is, one UE (User Equipment) of the current cell is selected and switched. Go to the target cell; or a business dropout occurs.
  • the quality of service provided by the cell is guaranteed.
  • the switching process is complicated, and the dropped calls will seriously affect the KPI (Key Performance Indication) of the network.
  • LTE-A Advanced LTE
  • CoMP transmission technology has been formally studied as an alternative technology.
  • the basic principle is that a plurality of cells with strong interference to edge users reduce interference to users at the edge of the cell through joint scheduling, and further improve the receiving power of the user at the edge of the cell through joint transmission, thereby improving the feeling of the user at the edge of the cell.
  • the characteristics of multi-point cooperative transmission technology are:
  • Each cell serves one or more UEs simultaneously on the same radio resource.
  • a cell load control method includes:
  • the first cell When the first cell is overloaded, the first cell is served by the user equipment served by the first cell
  • the services of the selected UE in the first cell are transferred to other cells in the coordinated multi-point CoMP cell set serving the selected UE.
  • the step of transferring the services of the selected UE in the first cell to other cells in the CoMP cell set serving the selected UE includes:
  • the first cell transfers the service of the selected UE to the secondary cell in the CoMP cell set;
  • the step of selecting one or more UEs from the UEs served by the first cell to perform service transfer includes:
  • the first cell selects one or more UEs to form an alternate UE queue according to the service throughput and/or priority of the UE served by the first cell, to sequentially transfer the services of the UE in the candidate UE queue until The load of the first cell is normal.
  • the step of the first cell transferring the service of the selected UE to the secondary cell in the CoMP cell set includes:
  • the first cell transfers the service of the selected UE to one or more secondary cells in the CoMP cell set according to the load condition of the secondary cell in the CoMP cell, and receives or transmits the service data of the selected UE.
  • the physical resource informs the one or more secondary cells.
  • the load overload indication includes: an ID of the first cell, an ID of the selected UE, service information to be transferred by the selected UE, and bearer information to be transferred by the selected UE;
  • the method further includes: after receiving the load overload indication, the primary cell according to the load condition of the primary cell and the other secondary cells except the first cell in the CoMP cell set
  • the load situation transfers traffic of the selected UE in the first cell to the primary cell and/or the other secondary cells;
  • the present invention further provides a cell load control apparatus, including a UE selection module and a load transfer module.
  • the UE selection module is configured to: when the load of the first cell is overloaded, from the first One or more UEs selected by the cell are sent to the load transfer module;
  • the load transfer module is configured to transfer the UE selected by the UE selection module in the first cell to other cells in the CoMP cell set serving the UE.
  • the load transfer module is configured to: in the following manner, the UE selected by the UE selection module in the first cell is transferred to another cell in the CoMP cell set: if the first cell is The primary cell in the CoMP cell set transfers the service of the UE selected by the UE selection module to the secondary cell in the CoMP cell set;
  • the UE selection module is configured to select the one or more UEs by: selecting one or more UEs to be selected according to service throughput and/or priority of the UE served by the first cell.
  • the UE queue sends the UE in the candidate UE queue to the load transfer module until it is detected that the load of the first cell is below the threshold.
  • the load transfer module is configured to transfer the service of the UE selected by the UE selection module to the secondary cell in the CoMP cell set by: if the first cell is the master of the CoMP cell set The cell, according to the load condition of the secondary cell in the CoMP cell, transfers the service of the UE selected by the UE selection module to one or more secondary cells in the CoMP cell set, and receives or transmits the selected UE.
  • the physical resources of the service data inform the one or more secondary cells.
  • the load overload indication sent by the load transfer module includes: an ID of the first cell, an ID of the selected UE, service information to be transferred by the selected UE, and bearer information to be transferred by the selected UE;
  • the module is further configured to: when the first cell serves as a primary cell in a second CoMP cell set serving the UE selected by the second cell, receive a load overload indication sent by the second cell, according to the load condition of the first cell Transmitting, in the second CoMP cell set, a load condition of the secondary cell other than the second cell to the first cell and/or the service of the second cell selected UE in the second cell And in another secondary cell; and, if the service selected by the second cell in the second cell is transferred to the other secondary cell, the service data of the selected UE of the second cell is received or sent.
  • the physical resources inform the other secondary cells.
  • the load of the cell can be effectively reduced, the call drop rate of the UE is reduced, the probability of UE handover is reduced, and the KPL of the system is improved.
  • FIG. 1 is a schematic diagram of a CoMP cell set according to the present invention.
  • FIG. 2 is a flowchart of cell load control according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of an application example 1 of the present invention.
  • Figure 5 is a schematic diagram of an application example 3 of the present invention.
  • FIG. 6 is a schematic diagram of an application example 4 of the present invention.
  • FIG. 7 is a schematic diagram of an application example 5 of the present invention.
  • FIG. 8 is a schematic diagram of Application Example 6 of the present invention.
  • a CoMP cell set serves one UE.
  • cells 1, 2, 3, and 7 constitute one CoMP cell set and simultaneously serve the UE.
  • the cell 1 is a primary cell, and performs unified scheduling of all cell resources in the CoMP cell set, and has signaling interaction with the UE; as shown in FIG. 1, the cells 2, 3, and 7 are secondary cells, and assist the primary cell to serve the UE.
  • the present invention provides a cell load control method, including:
  • the first cell When the first cell is overloaded, the first cell selects one or more UEs from the user equipment UEs it serves to perform service transfer;
  • the services of the selected UE in the first cell are transferred to other cells serving the CoMP cell set of the selected UE.
  • the cell load control device of the present invention includes a UE selection module and a load transfer module.
  • the UE selection module is configured to: when detecting a load overload of the first cell, select one of the UEs served by the first cell or Multiple UEs are sent to the load transfer module;
  • the load transfer module is configured to transfer the UE selected by the UE selection module in the first cell to other cells in the CoMP cell set serving the UE.
  • the load transfer module transfers the service of the UE selected by the UE selection module to the secondary cell in the CoMP cell set;
  • the load transfer module sends a load overload indication to the primary cell in the CoMP cell set, and notifies the primary cell transfer station
  • the UE selects a service selected by the UE in the first cell.
  • the UE selection module is configured to select one or more UEs to form an alternate UE queue according to the service throughput and/or priority of the UE served by the first cell, and sequentially select the candidate UE in the queue.
  • the UE is sent to the load transfer module until it is detected that the load of the first cell is below the threshold.
  • the load transfer module selects according to the load condition of the secondary cell of the UE selected by the UE selection module.
  • the service of the UE is transferred to one or more secondary cells in the CoMP cell set, and the physical resources that receive or transmit the service data of the selected UE are notified to the one or more secondary cells.
  • the load overload indication sent by the load transfer module includes: the first cell
  • the load transfer module is further configured to: receive a load overload indication of the second cell, and select the second cell according to the load condition of the first cell and the load condition of other secondary cells of the selected UE of the second cell
  • the service in the second cell is transferred to the first cell and/or the second cell to the other secondary cell of the selected UE; if it is transferred to another secondary cell of the selected UE in the second cell, And notifying, by the physical resource that receives or sends the service data of the selected UE of the second cell, the second cell, the selected UE, and other secondary cells.
  • FIG. 2 is a specific flowchart of an embodiment of a cell load control method according to the present invention.
  • Step 201 The cell A detects the overload of its own load
  • Step 202 Select, according to the service throughput and/or priority of the UE served by the cell A, N (N is a positive integer) UE to form an alternate UE queue;
  • Step 203 Determine whether the cell A is the primary cell in the CoMP cell set of the first UE in the candidate UE queue, and if yes, go to step 204, if no, go to step 210;
  • Step 204 The cell A transfers the service of the first UE to the secondary cell in the CoMP cell set.
  • the cell transfers the service of the UE to one or more secondary cells in the CoMP cell set, and notifies the one or more secondary cells of the physical resource that receives or sends the service data of the UE;
  • the cell A may select a secondary cell with the smallest load, or may select multiple secondary cells with a smaller load to receive or send the service data of the UE;
  • the cell A may notify the one or more secondary cells by using a MAC (Media Access Control) scheduling indication to indicate a physical resource that receives or sends the service data of the UE.
  • MAC Media Access Control
  • Step 205 The secondary cell receives the MAC scheduling indication, and after receiving the scheduling, sends a scheduling success response to the cell A.
  • Step 206 The cell A releases the service of the UE.
  • Step 207 the cell A detects whether the cell load is normal, and if so, the process ends, and if not, step 208 is performed;
  • Step 208 Delete the UE that has performed the service transfer in the candidate UE queue, and decrement the value of N by one;
  • Step 209 determining whether the value of N is equal to 0, and if so, executing step 202; if not, executing step 203;
  • Step 210 The cell A sends a load overload indication to the primary cell of the team head UE, and notifies the primary cell that the service of the UE needs to be transferred.
  • the load overload indication may include an ID of the current cell, an ID of the selected UE, service information to be transferred by the selected UE, and bearer information to be transferred by the selected UE;
  • Step 211 The primary cell determines whether its own load can carry the service to be transferred by the UE, and if yes, step 212 is performed; if not, step 214 is performed;
  • Step 212 The primary cell transfers the service to be transferred to the primary cell.
  • Step 213 The primary cell sends a scheduling success response to the cell A, and step 206 is performed.
  • Step 214 The primary cell forwards the service to be transferred to the other secondary cell of the UE.
  • Step 215 The other secondary cell that receives the scheduling indication sends a scheduling success response to the primary cell, and the primary cell forwards the message to the cell A, and performs step 206.
  • the uplink service of UE1 is normally shared by the primary cell (cell 1) and the secondary cell (cell 2). Which part of UE1 uplink service is assumed by the primary cell, and which part is undertaken by the secondary cell, is coordinated by the primary cell.
  • the primary cell and the secondary cell respectively receive the uplink data of the UE1, and the secondary cell transmits the received uplink data to the primary cell, and the primary cell transmits all the uplink data of the UE1 to the core network.
  • UE1 After cell 1 detects its own load overload, UE1 is selected to perform service transfer, because cell 1 For the primary cell of UE1, the primary cell will coordinate with the secondary cell of UE1, the primary cell will no longer receive the uplink service of UE1, and the secondary cell will bear all the uplink services of UE1, and then the uplink data of UE1 will be passed.
  • the X2 port is sent to the primary cell, and is sent by the primary cell to the core network.
  • Application example 2 The downlink load of the cell 1 is overloaded, and the UE1 is selected for service transfer, and the cell 1 is
  • the core network transmits the downlink data to the primary cell (cell 1) of the UE1, and the primary cell performs resource coordinated scheduling, and the primary cell and the secondary cell (cell 2) jointly bear the downlink service data of the UE1. And scheduling which are transmitted to the UE1 by the secondary cell (Cell 2), and which are directly transmitted to the UE1 by the primary cell.
  • the UE1 When the cell 1 detects the overload of its own load, the UE1 is selected to perform the service transfer. Since the cell 1 is the primary cell of the UE1, the downlink data transmitted by the core network to the primary cell is all scheduled by the primary cell to the secondary cell of the UE1, and the primary cell It is no longer serving the downlink service of the candidate UE.
  • Application example 3 Cell 2 uplink load overload, UE1 is selected for service transfer, cell 2 is
  • the uplink service of UE1 is normally shared by the primary cell (cell 1) and the secondary cell (cell 2). Which part of UE1 uplink service is assumed by the primary cell, and which part is undertaken by the secondary cell, is coordinated by the primary cell.
  • the primary cell and the secondary cell respectively receive the uplink data of the UE1, and the secondary cell transmits the received uplink data to the primary cell, and the primary cell transmits all the uplink data of the UE1 to the core network.
  • the cell 2 After detecting the overload of the load, the cell 2 selects the UE1 to perform the service transfer. Since the cell 2 is the secondary cell of the UE1, the cell 2 sends a load overload indication to the primary cell (cell 1) of the UE1, and informs the ID of the primary cell 2, UE1 The information of the ID, the service bearer information, and the service transmission status, the primary cell determines whether the primary cell itself or the other secondary cell bears the uplink of the UE1 originally assumed by the cell 2 according to the load condition of itself and other secondary cells. business.
  • the uplink service of the UE1 originally assumed by the cell 2 is assumed by the primary cell, and the primary cell receives all the uplink services of the UE1 when performing resource coordinated scheduling.
  • the data is sent to the core network after receiving, and the cell 2 no longer receives the uplink service data of the UE1.
  • Application example 4 Cell 2 downlink load overload, UE1 is selected for service transfer, and cell 2 is the secondary cell of UE1.
  • the core network transmits the downlink data to the primary cell (cell 1) of the UE1, and the primary cell performs resource coordinated scheduling, and the primary cell and the secondary cell (cell 2) jointly bear the downlink service data of the UE1. And scheduling which are transmitted to the UE1 by the secondary cell (Cell 2), and which are directly transmitted to the UE1 by the primary cell.
  • the UE1 When the cell 2 detects the overload of the load, the UE1 is selected to perform the service transfer. Since the cell 2 is the secondary cell of the UE1, the cell 2 sends a load overload indication to the primary cell (cell 1) of the UE1, and informs the ID of the primary cell 2, UEl The ID, the service bearer information, and the service transmission status, etc., the primary cell determines whether the downlink data of the UE1 originally assumed by the cell 2 is assumed by the primary cell or by other auxiliary resources according to the load situation of itself and other secondary cells. The community will bear.
  • the uplink service of UE1 originally assumed by the cell 2 is assumed by the primary cell.
  • the cell 2 is no longer allowed to receive the downlink data of the UE1, and the primary cell receives the downlink data from the core network.
  • the downlink data of UE1 is directly transmitted to UE1.
  • Application example 5 Cell 2 uplink load overload, UE1 is selected for service transfer, and cell 2 is the secondary cell of UE1.
  • the uplink service of UE1 is normally used by the primary cell (cell 1) and the secondary cell.
  • Cell 2 and Cell 3 share responsibility. Which part of the UE1 uplink service is assumed by the primary cell, and which part is assumed by the cell 2 and the cell 3 are all coordinated by the primary cell.
  • the primary cell and the secondary cell respectively receive the uplink data of the UE1, and the secondary cell transmits the received uplink data to the primary cell, and the primary cell transmits all the uplink data of the UE1 to the core network.
  • the cell 2 After detecting that the load is overloaded, the cell 2 selects UE1 for service transfer, because cell 2 is
  • the cell 2 sends a load overload indication to the primary cell (cell 1) of the UE1, and informs the ID of the primary cell 2, the ID of the UE1, the service bearer information, and the service transmission status, and the primary cell according to itself and The load situation of other secondary cells is determined by the primary cell itself, or The uplink service of the UE1 originally assumed by the cell 2 is assumed by the other secondary cells.
  • the primary cell determines that its own load can no longer carry the service in the load overload indication, and the service is scheduled to the other secondary cell (cell 3), and the cell 3 carries the service to ensure the QoS (Quality of Service) of the service.
  • the cell 3 sends the uplink data of the UE1 to the primary cell, and the primary cell sends all uplink data of the UE1 to the core network.
  • Application Example 6 Cell 2 downlink load overload, UE1 is selected for service transfer, and cell 2 is the secondary cell of UE1.
  • the core network transmits the downlink data to the primary cell (cell 1) of the UE1, and the primary cell performs resource coordinated scheduling, and the primary cell and the secondary cell (the cell 2 and the cell 3) jointly assume the downlink of the UE1.
  • the UE1 When the cell 2 detects the overload of the load, the UE1 is selected to perform the service transfer. Since the cell 2 is the secondary cell of the UE1, the cell 2 sends a load overload indication to the primary cell (cell 1) of the UE1, and informs the ID of the primary cell 2, UEl The ID, the service bearer information, and the service transmission status, etc., the primary cell determines whether the downlink data of the UE1 originally assumed by the cell 2 is assumed by the primary cell or by other auxiliary resources according to the load situation of itself and other secondary cells. The community will bear.
  • the primary cell determines that its own load can no longer carry the traffic in the load overload indication, and schedules the traffic to other secondary cells (cell 3), and the cell 3 carries the service. After receiving the downlink data of UE1 sent by the core network, the primary cell transmits the downlink data previously undertaken by the cell 2 to the cell 3, and the cell 3 sends the data to the UE1.
  • all or part of the steps of the foregoing embodiments may also be implemented by using an integrated circuit. These steps may be separately fabricated into individual integrated circuit modules, or multiple modules or steps may be fabricated into a single integrated circuit module. achieve.
  • the invention is not limited to any particular combination of hardware and software.
  • the devices/function modules/functional units in the above embodiments may be implemented by using a general-purpose computing device, which may be concentrated on a single computing device or distributed among multiple computing devices. On the network.
  • Each device/function module/functional unit in the above embodiments can be stored in a computer readable storage medium when implemented in the form of a software function module and sold or used as a standalone product.
  • the above mentioned computer readable storage medium may be a read only memory, a magnetic disk or an optical disk or the like.
  • the present invention can effectively reduce the load of the cell, reduce the call drop rate of the UE, reduce the probability of UE handover, and improve the KPI of the system without causing handover or dropped calls of the UE. .

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Abstract

本发明提供一种小区负荷控制方法及装置,所述方法包括:当第一小区负荷过载时,所述第一小区从其所服务的用户设备UE中选择一个或多个UE进行业务转移;以及,将所选UE在所述第一小区中的业务转移到服务于所选UE的多点协作CoMP小区集中的其他小区中。采用本发明的方案,即使不使UE发生切换或者掉话,也可以有效的降低小区的负荷,减少了UE的掉话率,减少了UE切换的几率,提高了系统的KPI。

Description

一种小区负荷控制方法及装置
技术领域
本发明涉及移动通信领域, 具体涉及在 CoMP ( Cooperative Multi-Point , 多点协作)传输系统中的负荷控制方法及装置。
背景技术
在现有移动通信系统的负荷管理场景中, 通常使用切换或者掉话来降低 小区的负荷。 对于 LTE ( Long Term Evolution )系统, 当小区的负荷达到预设 置的门限时, 通常使用负荷均衡和负荷控制的方法来降低小区负荷, 即选定 本小区的一个 UE ( User Equipment ) , 使之切换到目标小区; 或者发生业务 掉话。 通过这两种方式来保证小区所提供的业务质量。 而切换的流程比较复 杂,掉话会严重影响网络的 KPI( Key Performance Indication, 关键业绩指标), 这两种降低小区负荷的方式都有各自很难克服的固有缺点。
在 LTE-A ( Advanced LTE ) 中, 已经正式将 CoMP传输技术作为一种备 选技术进行研究。 其基本原理是对边缘用户干扰较强的多个小区通过联合调 度降低对小区边缘用户的干扰, 通过联合传输进一步地提高小区边缘用户的 接收功率, 从而改善小区边缘用户的感受。 多点协作传输技术特点在于:
1) 多个小区在相同的无线资源上协作, 共同为一个 UE服务;
2) 每个小区在相同的无线资源上同时为一个或多个 UE服务。
在 LTE— A中引入 CoMP传输技术后, 小区负荷管理的方式将发生改变。 目前, 已有公开专利还未有在 CoMP传输技术下对小区负荷管理的方法。
发明内容
本发明提供一种小区负荷控制方法及装置, 以解决如何在 CoMP传输系 统中实现小区负荷管理的问题。 为解决上述技术问题, 本发明提供了如下技 术方案: 一种小区负荷控制方法, 包括:
当第一小区负荷过载时, 所述第一小区从该第一小区所服务的用户设备
UE中选择一个或多个 UE以进行业务转移; 以及
将所选 UE在所述第一小区中的业务转移到服务于所选 UE的多点协作 CoMP小区集中的其他小区中。 其中, 将所选 UE在所述第一小区中的业务转移到服务于所选 UE 的 CoMP小区集中的其他小区中的步骤包括:
若所述第一小区是所述 CoMP小区集中的主小区, 所述第一小区将所选 UE的业务转移到所述 CoMP小区集中的辅小区中;
若所述第一小区是所述 CoMP小区集中的辅小区,所述第一小区向 CoMP 小区集中的主小区发送负荷过载指示, 通知所述主小区转移所选 UE在所述 第一小区中的业务。 其中,从所述第一小区所服务的 UE中选择一个或多个 UE以进行业务转 移的步骤包括:
所述第一小区根据该第一小区所服务的 UE的业务吞吐量和 /或优先级选 择一个或多个 UE组成备选 UE队列, 以依次对备选 UE队列中的 UE的业务 进行转移直到所述第一小区的负荷正常。 其中, 所述第一小区将所选 UE的业务转移到所述 CoMP小区集中的辅 小区中的步骤包括:
所述第一小区根据所述 CoMP小区集中辅小区的负荷情况, 将所选 UE 的业务转移到所述 CoMP小区集中的一个或多个辅小区中, 并将接收或者发 送所选 UE的业务数据的物理资源告知所述一个或多个辅小区。 其中, 所述负荷过载指示包括: 所述第一小区的 ID、 所选 UE的 ID、 所 选 UE要转移的业务信息以及所选 UE要转移的承载信息;
所述方法还包括: 所述主小区接收到所述负荷过载指示之后, 根据该主 小区的负荷情况和所述 CoMP小区集中除所述第一小区之外的其他辅小区的 负荷情况将所选 UE在所述第一小区中的业务转移到所述主小区和 /或所述其 他辅小区中; 以及
若所选 UE在所述第一小区中的业务被转移到其他辅小区中, 则所述主 小区将接收或者发送所选 UE的业务数据的物理资源告知所述其他辅小区。 为解决上述技术问题, 本发明还提供一种小区负荷控制装置, 包括 UE 选择模块和负荷转移模块; 其中, 所述 UE选择模块设置成: 在第一小区的负荷过载时, 从所述第一小区 所服务的 UE中选择一个或多个 UE发送给所述负荷转移模块;
所述负荷转移模块设置成将所述 UE选择模块选择的 UE在所述第一小区 中的业务转移到服务于所述 UE的 CoMP小区集中的其他小区中。 其中, 所述负荷转移模块是设置成通过如下方式将所述 UE选择模块选 择的 UE在所述第一小区中的业务转移到所述 CoMP小区集中的其他小区中: 若所述第一小区是所述 CoMP小区集中的主小区, 将所述 UE选择模块 所选 UE的业务转移到所述 CoMP小区集中的辅小区中;
若所述第一小区是所述 CoMP小区集中的辅小区, 向所述 CoMP小区集 中的主小区发送负荷过载指示, 通知所述主小区转移所述 UE选择模块所选 UE在所述第一小区中的业务。 其中,所述 UE选择模块是设置成通过如下方式选择所述一个或多个 UE: 根据所述第一小区所服务的 UE 的业务吞吐量和 /或优先级选择一个或多个 UE组成备选 UE队列, 依次将备选 UE队列中的 UE发送给负荷转移模块, 直到检测到所述第一小区的负荷在门限值之下。 其中, 所述负荷转移模块是设置成通过如下方式将所述 UE选择模块所 选 UE的业务转移到所述 CoMP小区集中的辅小区中: 若所述第一小区是所 述 CoMP小区集中的主小区, 根据所述 CoMP小区集中辅小区的负荷情况, 将所述 UE选择模块所选 UE的业务转移到所述 CoMP小区集中的一个或多 个辅小区中, 并将接收或者发送所选 UE的业务数据的物理资源告知所述一 个或多个辅小区。 其中,所述负荷转移模块发送的负荷过载指示包括:所述第一小区的 ID、 所选 UE的 ID、 所选 UE要转移的业务信息以及所选 UE要转移的承载信息; 所述负荷转移模块还设置成: 在所述第一小区作为服务于第二小区所选 UE的第二 CoMP小区集中的主小区时, 接收第二小区发送的负荷过载指示, 根据所述第一小区的负荷情况和所述第二 CoMP小区集中除所述第二小区之 外其他辅小区的负荷情况将第二小区所选 UE在所述第二小区中的业务转移 到所述第一小区和 /或所述其他辅小区中; 以及, 若所述第二小区所选 UE在 所述第二小区中的业务被转移到所述其他辅小区中, 将接收或者发送所述第 二小区所选 UE的业务数据的物理资源告知所述其他辅小区。
釆用本发明的方案, 即使不使 UE发生切换或者掉话, 也可以有效的降 低小区的负荷, 减少了 UE的掉话率, 减少 UE切换的几率, 提高了系统的 KPL
附图概述
图 1 为本发明的 CoMP小区集的示意图;
图 2 为本发明实施例的小区负荷控制流程图;
图 3 为本发明应用实例一的示意图;
图 4为本发明应用实例二的示意图;
图 5为本发明应用实例三的示意图;
图 6为本发明应用实例四的示意图;
图 7为本发明应用实例五的示意图;
图 8为本发明应用实例六的示意图。
本发明的较佳实施方式
为使本发明的目的、 技术方案和优点更加清楚明白, 下文中将结合附图 对本发明的实施例进行详细说明。 需要说明的是, 在不冲突的情况下, 本申 请中的实施例及实施例中的特征可以相互任意组合。 本发明基于 CoMP技术, 一个 CoMP小区集服务于一个 UE, 如图 1所 示, 小区 1、 2、 3和 7构成一个 CoMP小区集同时服务于 UE。 其中, 小区 1 为主小区, 执行 CoMP小区集中所有小区资源的统一调度, 且与 UE存在信 令交互; 如附图 1小区 2、 3和 7为辅小区, 协助主小区为 UE服务。
本发明提供一种小区负荷控制方法, 包括:
当第一小区负荷过载时, 所述第一小区从其所服务的用户设备 UE 中选 择一个或多个 UE进行业务转移; 以及
将所选 UE在所述第一小区中的业务转移到服务于所选 UE的 CoMP小 区集中的其他小区中。
本发明的小区负荷控制装置, 包括 UE选择模块和负荷转移模块; 所述 UE选择模块设置成: 在检测到第一小区的负荷过载时, 从所述第 一小区所服务的 UE中选择一个或多个 UE发送给负荷转移模块;
所述负荷转移模块设置成将所述 UE选择模块选择的 UE在所述第一小区 中的业务转移到服务于所述 UE的 CoMP小区集中的其他小区中。
优选地, 若所述第一小区是所述 CoMP小区集中的主小区, 所述负荷转 移模块将所述 UE选择模块所选 UE的业务转移到所述 CoMP小区集中的辅 小区中;
若所述第一小区是服务于所述 UE选择模块所选 UE的 CoMP小区集中 的辅小区, 所述负荷转移模块向该 CoMP小区集中的主小区发送负荷过载指 示,通知所述主小区转移所述 UE选择模块所选 UE在所述第一小区中的业务。
优选地,所述 UE选择模块是设置成根据所述第一小区所服务的 UE的业 务吞吐量和 /或优先级选择一个或多个 UE组成备选 UE队列, 并依次将备选 UE队列中的 UE发送给负荷转移模块, 直到检测到所述第一小区的负荷在门 限值之下。
优选地, 若所述第一小区是月良务于其所选 UE的 CoMP小区集中的主小 区, 所述负荷转移模块根据所述 UE选择模块所选 UE的辅小区的负荷情况, 将所选 UE的业务转移到所述 CoMP小区集中的一个或多个辅小区中, 并将 接收或者发送所选 UE的业务数据的物理资源告知所述一个或多个辅小区。 优选地, 所述负荷转移模块发送的负荷过载指示包括: 所述第一小区的
ID、 所选 UE的 ID、 所选 UE要转移的业务信息以及所选 UE要转移的承载 信息;
所述负荷转移模块还设置成: 接收第二小区的发送的负荷过载指示, 根 据第一小区的负荷情况和所述第二小区所选 UE的其他辅小区的负荷情况将 第二小区所选 UE在所述第二小区中的业务转移到所述第一小区和 /或所述第 二小区所选 UE其他辅小区中;若转移到所述第二小区所选 UE其他辅小区中 , 还用于将接收或者发送所述第二小区所选 UE的业务数据的物理资源告知所 述第二小区所选 UE其他辅小区。
如图 2所示为本发明的小区负荷控制方法实施例的具体流程图。
步骤 201 , 小区 A检测到自身负荷过载;
步骤 202, 根据小区 A所服务的 UE的业务吞吐量和 /或优先级选择 N个 ( N为正整数 ) UE组成备选 UE队列;
步骤 203 ,判断小区 A是否是备选 UE队列中队首 UE的 CoMP小区集中 的主小区, 若是, 执行步骤 204, 若否, 执行步骤 210;
步骤 204, 小区 A将该队首 UE的业务转移到 CoMP小区集中的辅小区 中;
小区 艮据辅小区的负荷情况, 将 UE的业务转移到所述 CoMP小区集 中的一个或多个辅小区中, 将接收或者发送 UE的业务数据的物理资源告知 所述一个或多个辅小区;
可选地, 小区 A可选择负荷最小的辅小区, 也可选择负荷较小的多个辅 小区来接收或发送该 UE的业务数据;
可选地, 小区 A可通过 MAC ( Media Access Control )调度指示将接收或 者发送 UE的业务数据的物理资源告知所述一个或多个辅小区。
步骤 205, 辅小区接收到 MAC调度指示, 接受调度后向小区 A发送调 度成功响应;
步骤 206, 小区 A释放该 UE的业务; 步骤 207, 小区 A检测小区负荷是否正常, 若是, 结束流程, 若否, 执 行步骤 208;
步骤 208,在备选 UE队列中将已进行业务转移的 UE删除, 并将 N的值 减 1 ;
步骤 209, 判断 N的值是否等于 0, 若是, 执行步骤 202; 若否, 执行步 骤 203;
步骤 210, 小区 A向队首 UE的主小区发送负荷过载指示, 通知主小区 需要将该 UE的业务转移;
可选地, 所述负荷过载指示可包括本小区的 ID、 所选 UE的 ID、 所选 UE要转移的业务信息以及所选 UE要转移的承载信息;
步骤 211 ,主小区判断自身负荷是否可以承载该 UE要转移的业务,若是, 执行步骤 212; 若不是执行步骤 214;
步骤 212, 主小区将要转移的业务转移到主小区中;
步骤 213 , 主小区向小区 A发送调度成功响应, 执行步骤 206;
步骤 214, 主小区将要转移的业务转移到该 UE的其他辅小区中; 步骤 215 , 接收到调度指示的其他辅小区向主小区发送调度成功响应, 主小区转发给小区 A, 执行步骤 206。
以下为本发明的应用实例:
应用实例一: 小区 1上行负荷过载, 选择 UE1进行业务转移, 小区 1为
UE1的主小区
如图 3所示, 正常情况下 UE1的上行业务由主小区 (小区 1 )和辅小区 (小区 2 )共同承担。 UE1 上行业务哪部分由主小区承担, 哪部分由辅小区 承担, 都由主小区来统一协调。 主小区和辅小区分别接收 UE1的上行数据, 辅小区再将其接收的上行数据传送给主小区, 由主小区将 UE1的全部上行数 据传送给核心网。
小区 1检测到自身负荷过载之后, 选择 UE1进行业务转移, 由于小区 1 为 UEl的主小区,这时主小区就会和 UEl的辅小区进行资源协调,主小区不 再接收 UE1 的上行业务, 由辅小区来承担 UE1 的全部上行业务, 之后再将 UE1的上行数据通过 X2口发给主小区, 由主小区发给核心网。
应用实例二: 小区 1下行负荷过载, 选择 UE1进行业务转移, 小区 1为
UE1的主小区
如图 4所示, 正常情况下核心网将下行数据传送给 UE1的主小区 (小区 1 ) , 主小区进行资源协调调度, 由主小区和辅小区 (小区 2 )共同承担 UE1 的下行业务数据, 并调度哪些是由辅小区 (小区 2 )传给 UE1 , 哪些由主小 区直接传给 UE1。
当小区 1检测到自身负荷过载, 选定 UE1进行业务转移, 由于小区 1为 UE1的主小区,此时,核心网传到主小区的下行数据由主小区全部调度给 UE1 的辅小区, 主小区不再为备选 UE的下行业务服务。
应用实例三: 小区 2上行负荷过载, 选择 UE1进行业务转移, 小区 2为
UE1的辅小区
如图 5所示, 正常情况下 UE1的上行业务由主小区 (小区 1 )和辅小区 (小区 2 )共同承担。 UE1 上行业务哪部分由主小区承担, 哪部分由辅小区 承担, 都由主小区来统一协调。 主小区和辅小区分别接收 UE1的上行数据, 辅小区再将其接收的上行数据传送给主小区, 由主小区将 UE1的全部上行数 据传送给核心网。
小区 2检测到自身负荷过载后, 选择 UE1进行业务转移, 由于小区 2是 UE1的辅小区, 小区 2向 UE1的主小区 (小区 1 )发送负荷过载指示, 告知 主小区小区 2的 ID, UEl的 ID、 业务承载信息以及业务传输状态等信息, 主 小区就会根据自身和其它辅小区的负荷情况, 来决定是由主小区自身, 还是 由其它辅小区来承担原来由小区 2承担的 UE1的上行业务。
在主小区自身负荷允许的条件下, 原来由小区 2所承担的 UE1的上行业 务由主小区来承担, 主小区在进行资源协调调度时接收 UE1的全部上行业务 数据, 接收后发到核心网, 小区 2不再接收 UE1的上行业务数据。
应用实例四: 小区 2下行负荷过载, 选择 UE1进行业务转移, 小区 2为 UE1的辅小区
如图 6所示, 正常情况下核心网将下行数据传送给 UE1的主小区 (小 区 1 ) , 主小区进行资源协调调度, 由主小区和辅小区 (小区 2 )共同承担 UE1的下行业务数据, 并调度哪些是由辅小区 (小区 2 )传给 UE1 , 哪些由 主小区直接传给 UE1。
当小区 2检测到自身负荷过载, 选定 UE1进行业务转移, 由于小区 2为 UE1的辅小区, 小区 2向 UE1的主小区 (小区 1 )发送负荷过载指示, 告知 主小区小区 2的 ID, UEl的 ID、 业务承载信息以及业务传输状态等信息, 主 小区就会根据自身和其它辅小区的负荷情况, 来决定是原来由小区 2承担的 UE1的下行数据由主小区自己承担, 还是由其它辅小区来承担。
在主小区自身负荷允许的条件下, 原来由小区 2所承担的 UE1的上行业 务由主小区来承担, 资源协调调度时不再让小区 2来接收 UE1的下行数据, 主小区从核心网接收到 UE1的下行数据后直接传给 UE1。
应用实例五: 小区 2上行负荷过载, 选择 UE1进行业务转移, 小区 2为 UE1的辅小区
如图 7所示, 正常情况下 UE1的上行业务由主小区 (小区 1 )和辅小区
(小区 2和小区 3 )共同承担。 UE1上行业务哪部分由主小区承担, 哪部分 由小区 2及小区 3承担, 都由主小区来统一协调。 主小区和辅小区分别接收 UE1 的上行数据, 辅小区再将其接收的上行数据传送给主小区, 由主小区将 UE1的全部上行数据传送给核心网。
小区 2检测到自身负荷过载后, 选择 UE1进行业务转移, 由于小区 2是
UE1的辅小区, 小区 2向 UE1的主小区 (小区 1 )发送负荷过载指示, 告知 主小区小区 2的 ID, UEl的 ID、 业务承载信息以及业务传输状态等信息, 主 小区就会根据自身和其它辅小区的负荷情况, 来决定是由主小区自身, 还是 由其它辅小区来承担原来由小区 2承担的 UE1的上行业务。
主小区判断自身负荷不能再 担所述负荷过载指示中的业务, 将该业务 调度到其它辅小区 (小区 3 ) , 由小区 3来承载该业务, 保证该业务的 QoS ( Quality of Service )。 小区 3将 UEl的上行数据发给主小区, 主小区将 UE1 的全部上行数据发送到核心网。
应用实例六: 小区 2下行负荷过载, 选择 UE1进行业务转移, 小区 2为 UE1的辅小区
如图 8所示, 正常情况下核心网将下行数据传送给 UE1的主小区 (小 区 1 ) , 主小区进行资源协调调度, 由主小区和辅小区 (小区 2和小区 3 )共 同承担 UE1的下行业务数据, 并调度哪些是由辅小区 (小区 2和小区 3 )传 给 UE1 , 哪些由主小区直接传给 UE1。
当小区 2检测到自身负荷过载, 选定 UE1进行业务转移, 由于小区 2为 UE1的辅小区, 小区 2向 UE1的主小区 (小区 1 )发送负荷过载指示, 告知 主小区小区 2的 ID, UEl的 ID、 业务承载信息以及业务传输状态等信息, 主 小区就会根据自身和其它辅小区的负荷情况, 来决定是原来由小区 2承担的 UE1的下行数据由主小区自己承担, 还是由其它辅小区来承担。
主小区判断自身负荷不能再 担所述负荷过载指示中的业务, 将该业务 调度到其它辅小区 (小区 3 ) , 由小区 3来承载该业务。 主小区接收到核心 网下发的 UE1的下行数据后, 将之前由小区 2承担的下行数据传给小区 3 , 由小区 3发给 UE1。
可选地, 上述实施例的全部或部分步骤也可以使用集成电路来实现, 这 些步骤可以被分别制作成一个个集成电路模块, 或者将它们中的多个模块或 步骤制作成单个集成电路模块来实现。 这样, 本发明不限制于任何特定的硬 件和软件结合。
上述实施例中的各装置 /功能模块 /功能单元可以釆用通用的计算装置来 实现, 它们可以集中在单个的计算装置上, 也可以分布在多个计算装置所组 成的网络上。
上述实施例中的各装置 /功能模块 /功能单元以软件功能模块的形式实现 并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。 上述提到的计算机可读取存储介质可以是只读存储器, 磁盘或光盘等。
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围并不局限 于此, 任何熟悉本技术领域的技术人员在本发明揭露的技术范围内, 可轻易 想到变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明的保护 范围应以权利要求所述的保护范围为准。
工业实用性
与现有技术相比, 本发明在不使 UE发生切换或者掉话的情况下, 也可 以有效降低小区的负荷, 减少了 UE的掉话率, 减少了 UE切换的几率, 提高 了系统的 KPI。

Claims

权 利 要 求 书
1、 一种小区负荷控制方法, 包括:
当第一小区负荷过载时, 所述第一小区从该第一小区所服务的用户设备 UE中选择一个或多个 UE以进行业务转移; 以及
将所选 UE在所述第一小区中的业务转移到服务于所选 UE的多点协作
CoMP小区集中的其他小区中。
2、 如权利要求 1所述的方法, 其中, 将所选 UE在所述第一小区中的业 务转移到服务于所选 UE的 CoMP小区集中的其他小区中的步骤包括:
若所述第一小区是所述 CoMP小区集中的主小区, 所述第一小区将所选 UE的业务转移到所述 CoMP小区集中的辅小区中;
若所述第一小区是所述 CoMP小区集中的辅小区,所述第一小区向 CoMP 小区集中的主小区发送负荷过载指示, 通知所述主小区转移所选 UE在所述 第一小区中的业务。
3、 如权利要求 1或 2所述的方法, 其中, 从所述第一小区所服务的 UE 中选择一个或多个 UE以进行业务转移的步骤包括:
所述第一小区根据该第一小区所服务的 UE的业务吞吐量和 /或优先级选 择一个或多个 UE组成备选 UE队列, 以依次对备选 UE队列中的 UE的业务 进行转移直到所述第一小区的负荷正常。
4、 如权利要求 2所述的方法, 其中,
所述第一小区将所选 UE的业务转移到所述 CoMP小区集中的辅小区中 的步骤包括:
所述第一小区根据所述 CoMP小区集中辅小区的负荷情况, 将所选 UE 的业务转移到所述 CoMP小区集中的一个或多个辅小区中, 并将接收或者发 送所选 UE的业务数据的物理资源告知所述一个或多个辅小区。
5、 如权利要求 2所述的方法, 其中, 所述负荷过载指示包括: 所述第一小区的 ID、 所选 UE的 ID、 所选 UE 要转移的业务信息以及所选 UE要转移的承载信息;
所述方法还包括: 所述主小区接收到所述负荷过载指示之后, 根据该主 小区的负荷情况和所述 CoMP小区集中除所述第一小区之外的其他辅小区的 负荷情况将所选 UE在所述第一小区中的业务转移到所述主小区和 /或所述其 他辅小区中; 以及
若所选 UE在所述第一小区中的业务被转移到其他辅小区中, 则所述主 小区将接收或者发送所选 UE的业务数据的物理资源告知所述其他辅小区。
6、 一种小区负荷控制装置, 包括 UE选择模块和负荷转移模块; 其中, 所述 UE选择模块设置成: 在第一小区的负荷过载时, 从所述第一小区 所服务的 UE中选择一个或多个 UE发送给所述负荷转移模块;
所述负荷转移模块设置成将所述 UE选择模块选择的 UE在所述第一小区 中的业务转移到服务于所述 UE的 CoMP小区集中的其他小区中。
7、 如权利要求 6所述的装置, 其中,
所述负荷转移模块是设置成通过如下方式将所述 UE选择模块选择的 UE 在所述第一小区中的业务转移到所述 CoMP小区集中的其他小区中:
若所述第一小区是所述 CoMP小区集中的主小区, 将所述 UE选择模块 所选 UE的业务转移到所述 CoMP小区集中的辅小区中;
若所述第一小区是所述 CoMP小区集中的辅小区, 向所述 CoMP小区集 中的主小区发送负荷过载指示, 通知所述主小区转移所述 UE选择模块所选 UE在所述第一小区中的业务。
8、 如权利要求 6或 7所述的装置, 其中,
所述 UE选择模块是设置成通过如下方式选择所述一个或多个 UE: 根据 所述第一小区所服务的 UE的业务吞吐量和 /或优先级选择一个或多个 UE组 成备选 UE队列, 依次将备选 UE队列中的 UE发送给负荷转移模块, 直到检 测到所述第一小区的负荷在门限值之下。
9、 如权利要求 7所述的装置, 其中,
所述负荷转移模块是设置成通过如下方式将所述 UE选择模块所选 UE 的业务转移到所述 CoMP小区集中的辅小区中:若所述第一小区是所述 CoMP 小区集中的主小区,才艮据所述 CoMP小区集中辅小区的负荷情况,将所述 UE 选择模块所选 UE的业务转移到所述 CoMP小区集中的一个或多个辅小区中, 并将接收或者发送所选 UE的业务数据的物理资源告知所述一个或多个辅小 区。
10、 如权利要求 7所述的装置, 其中,
所述负荷转移模块发送的负荷过载指示包括: 所述第一小区的 ID、 所选 UE的 ID、 所选 UE要转移的业务信息以及所选 UE要转移的承载信息;
所述负荷转移模块还设置成: 在所述第一小区作为服务于第二小区所选 UE的第二 CoMP小区集中的主小区时, 接收第二小区发送的负荷过载指示, 根据所述第一小区的负荷情况和所述第二 CoMP小区集中除所述第二小区之 外其他辅小区的负荷情况将第二小区所选 UE在所述第二小区中的业务转移 到所述第一小区和 /或所述其他辅小区中; 以及, 若所述第二小区所选 UE在 所述第二小区中的业务被转移到所述其他辅小区中, 将接收或者发送所述第 二小区所选 UE的业务数据的物理资源告知所述其他辅小区。
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