WO2011157131A2 - 基于基带池的处理方法及装置 - Google Patents

基于基带池的处理方法及装置 Download PDF

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Publication number
WO2011157131A2
WO2011157131A2 PCT/CN2011/074996 CN2011074996W WO2011157131A2 WO 2011157131 A2 WO2011157131 A2 WO 2011157131A2 CN 2011074996 W CN2011074996 W CN 2011074996W WO 2011157131 A2 WO2011157131 A2 WO 2011157131A2
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Prior art keywords
powered
baseband
baseband board
board
power
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PCT/CN2011/074996
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English (en)
French (fr)
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WO2011157131A3 (zh
Inventor
刘珏君
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华为技术有限公司
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Priority to PCT/CN2011/074996 priority Critical patent/WO2011157131A2/zh
Priority to CN2011800006229A priority patent/CN102918909A/zh
Publication of WO2011157131A2 publication Critical patent/WO2011157131A2/zh
Publication of WO2011157131A3 publication Critical patent/WO2011157131A3/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/50Allocation or scheduling criteria for wireless resources
    • H04W72/52Allocation or scheduling criteria for wireless resources based on load
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a processing method and apparatus based on a baseband pool. Background technique
  • RRU Radio Remote Unit
  • the RRU can implement wireless coverage in a certain area, and the RRU is connected to the baseband pool through the transmission device. Multiple RRUs are processed by the baseband pool. Based on the processing of the baseband pool, in order to ensure the maximum number of users that the system can support, sufficient baseband boards must be configured in the system. The number of baseband boards determines the amount of traffic that the wireless network can handle.
  • the load of the wireless communication system covering the area is maximized, and after the evening of work, the load of the wireless communication system covering the area is significant. reduce.
  • the baseband pool in the wireless communication system needs to be configured with sufficient baseband boards in order to ensure the normal operation of the working hours during the day, so that when the load is reduced in the entire wireless communication system, the baseband boards configured in the wireless communication system are still all powered. Operational state, resulting in a lot of energy waste.
  • Embodiments of the present invention provide a baseband pool-based processing method and apparatus that can effectively save energy.
  • a baseband pool-based processing method including: determining a load state of a powered baseband board in a baseband pool;
  • a baseband pool-based processing apparatus comprising: a determining module for determining a load state of a powered baseband board in a baseband pool;
  • a selected module configured to select at least one powered baseband board with a load state lower than a set threshold according to a load state of the powered baseband board;
  • a processing module configured to migrate traffic on the selected powered baseband board to at least one powered baseband board other than the selected powered baseband board, and to the selected powered baseband
  • the board is energy-efficient.
  • the baseband pool-based processing method and apparatus provided by the embodiments of the present invention determine the load status of each power-on baseband board in the baseband pool by detecting the operating state of each power-on baseband board in the baseband pool, in each of the baseband pools. When the load of the electric baseband board is under a low load state, the services on the selected power-on baseband board are migrated to other power-on baseband boards, and the selected power-up baseband board is energy-savingly processed.
  • the embodiment of the invention can reasonably allocate resources according to the load state of each power-on baseband board in the baseband pool, thereby achieving an effect of effectively saving energy.
  • FIG. 1 is a flowchart of a method for processing a baseband pool according to an embodiment of the present invention
  • FIG. 2 is a flowchart of a baseband pool-based processing method according to another embodiment of the present invention
  • FIG. 3 is a schematic structural diagram of a baseband pool-based processing apparatus according to an embodiment of the present invention
  • a schematic diagram of the structure of a processing device based on a baseband pool is detailed description
  • An embodiment of the present invention provides a method for processing a baseband pool. As shown in FIG. 1, the method includes:
  • Step 101 Determine a load state of the powered baseband board in the baseband pool.
  • the baseband board load detection is performed to detect the running state of the power-on baseband board in the baseband pool, and according to the detection result, the load of the power-on baseband board in the current baseband pool is obtained. Detect the running status of the power-on baseband board in the baseband pool according to the set period; or detect the running status of the power-on baseband board in the baseband pool when a specific event is triggered (for example, after a new user is connected to the baseband pool) .
  • Step 102 Select at least one powered baseband board whose load state is lower than a set threshold according to a load state of the powered baseband board.
  • Step 103 Transfer the services on the selected power-on baseband board to at least one power-on baseband board other than the selected powered baseband board, and perform the selected power-on baseband board Energy saving treatment.
  • the selected power-on baseband board is at least one of the power-on baseband boards in the baseband pool.
  • the load state of the reserved power-up baseband board is below the set threshold.
  • the energy-saving treatment of the selected powered baseband board comprises at least one of the following methods:
  • the selected powered baseband board may be powered down by a switching power supply;
  • the layered control design does not power down the entire powered baseband board, and at least one device on the selected powered baseband board is powered down.
  • the core component on the power-up baseband board can be For example, the power reserve of the CPU is turned off, and the power of the peripheral (such as the I/O interface) is turned off; and after the power-on baseband board is selected by a certain program or hardware design, the power-on baseband board is put into the power-saving mode, In this mode, the power-up baseband board only performs some necessary procedures, such as the handshake procedure, and most of the other programs go to sleep.
  • the baseband pool-based processing method provided by the embodiment of the present invention detects the running state of the powered baseband board in the baseband pool by detecting the event triggered by a specific event or by setting a cycle, and determining the power-on baseband board when determining the power-on baseband board
  • the load is in a low load state
  • at least one power-up baseband board in a low-load state is selected, and the services on the selected power-on baseband board are evenly distributed to the reserved power-on baseband boards in the baseband pool, and then the selection is performed.
  • Set the power baseband board for energy saving With existing Compared with the technology, the embodiment of the present invention can reasonably allocate resources according to the load state of the powered baseband board in the baseband pool, thereby achieving an effective energy saving effect.
  • Another embodiment of the present invention provides a processing method based on a baseband pool. As shown in FIG. 2, the method includes:
  • Step 201 Detect an operating state of the powered baseband board in the baseband pool, and obtain a load state of the powered baseband board.
  • the detecting the running state of the power-on baseband board may include the following two methods: detecting the running state of each power-based baseband board of the baseband pool according to the setting period; or
  • the operating status of the powered baseband board in the baseband pool is detected.
  • Step 202 Determine whether the load of each power-on baseband board is in a low load state. If the load of each power-on baseband board is in a low load state, perform steps 203-204. If the load of each power-up baseband board is not in a low load state, Go to step 205.
  • Step 203 Allocate the services in the powered-on baseband board that is selected to be closed to the reserved power-on baseband board, and the load of each of the allocated power-on baseband boards is in a low-load state.
  • Step 204 Perform energy-saving processing on the powered baseband board that is selected to be closed.
  • the energy-saving processing of the selected powered baseband board may be:
  • the entire power-up baseband board is powered down by the switching power supply; or
  • the overall baseband board is not powered down, only the power of the core components (such as the CPU) on the baseband board is reserved, and the power of peripherals (such as I/O) is turned off; or through certain programming, After the power-up baseband board is selected, the baseband board enters the power-saving mode through program instructions. In this mode, the baseband board only performs some necessary handshake procedures, and most of the other instructions enter the sleep state to avoid idling.
  • the core components such as the CPU
  • peripherals such as I/O
  • Step 205 Determine whether the load of each power-on baseband board is in a high load state. If the load of each power-on baseband board is in a high load state, go to step 206. If the load of each power-on baseband board is not in a high load state, return to the step. 201. Step 206: Determine whether there is an alternate baseband board in the baseband pool. If yes, go to step 207. If not, go to step 208.
  • Step 207 Perform power-on processing on the standby baseband board and perform data configuration, and redistribute the load in the baseband pool on all available power-on baseband boards.
  • Step 208 The system issues an overload warning, and returns to step 201.
  • the method may further include:
  • the load on the powered baseband board is redistributed so that the load of each powered baseband board after distribution is in a low load state.
  • the baseband pool-based processing method provided by the embodiment of the present invention detects the running state of the powered baseband board in the baseband pool by detecting the event triggered by a specific event or by setting a cycle, and determining the power-on baseband board when determining the power-on baseband board
  • the load is in a low load state
  • at least one power-up baseband board in a low-load state is selected, and the services on the selected power-on baseband board are evenly distributed to the reserved power-on baseband boards in the baseband pool, and then the selection is performed.
  • Set the power baseband board for energy saving Compared with the prior art, the embodiment of the present invention can effectively allocate resources according to the load state of the powered baseband board in the baseband pool, thereby achieving an effective energy saving effect.
  • a further embodiment of the present invention provides a processing device based on a baseband pool. As shown in FIG. 3, the device includes:
  • a determining module 31 configured to determine a load state of the powered baseband board in the baseband pool
  • the selected module 32 is configured to select at least one powered baseband board with a load state lower than a set threshold according to a load state of the powered baseband board;
  • the processing module 33 is configured to migrate the services on the selected powered baseband board to at least one power-on baseband board other than the selected powered baseband board, and power on the selected power The baseband board is energy efficient.
  • the device further includes:
  • the detecting module 34 is configured to detect an operating state of the powered baseband board in the baseband pool;
  • the detecting module may include at least one of the following units: a first detecting unit 341, configured to detect an operating state of the powered baseband board in the baseband pool according to the set period;
  • the second detecting unit 342 is configured to detect an operating state of the powered baseband board in the baseband pool when a specific event is triggered.
  • the specific event may be: accessing a new user in the baseband pool.
  • the determining module 31 is further configured to determine a load state of the powered baseband board in the baseband pool according to the operating state of the powered baseband board in the baseband pool.
  • processing module 33 is further configured to migrate the services on the selected power-on baseband board to at least one power-on baseband board other than the selected powered baseband board, so as to receive The load state of the powered baseband board of the migrated service is lower than a set threshold.
  • the processing module 33 includes at least one of the following units: a first processing unit 331, configured to perform power-off processing on the selected powered baseband board; and a second processing unit 332. And performing power-off processing on at least one device on the selected power-on baseband board;
  • the third processing unit 333 is configured to terminate at least one program module that is operated by the selected powered baseband board.
  • the device further includes a power-on processing module 35:
  • the determining module is specifically configured to determine that a load state of the at least one powered baseband board other than the selected powered baseband board is higher than the set threshold;
  • the power-on processing module 35 is configured to determine, according to the determining module, that a load state of at least one powered baseband board other than the selected powered baseband board is higher than the set threshold, and the standby baseband board At least one of the power-on processes is performed, and the service of the powered baseband board whose load state is higher than the set threshold is migrated to the standby baseband board that is powered on.
  • the detecting module detects the running state of all the powered baseband boards in the baseband pool by means of event trigger detection or setting period detection, and the determining module determines each power-on baseband.
  • the processing module evenly distributes the services on the selected power-on baseband board to the power-on baseband board remaining in the baseband pool, and then performs energy-saving processing on the selected powered baseband board.
  • the embodiment of the present invention can reasonably allocate resources according to the load state of each power-on baseband board in the baseband pool, thereby achieving an effective energy saving effect.
  • the baseband pool-based processing apparatus may implement the foregoing method embodiments.
  • the baseband pool-based processing method and apparatus can be applied to a device based on a baseband pool, such as a core network device.
  • a person skilled in the art can understand that all or part of the process of implementing the above embodiment method can be completed by a computer program to instruct related hardware, and the program can be stored in a computer readable storage medium. In execution, the flow of an embodiment of the methods as described above may be included.
  • the storage medium may be: R0M/RAM, a magnetic disk, an optical disk, or the like.

Abstract

本发明实施例公开了一种基于基带池的处理方法及装置,涉及通信技术领域,解决了现有技术不能根据基带池中各基带板的负载状态合理配置资源,造成能源浪费的问题。所述方法包括:确定基带池中上电基带板的负载状态(101);根据所述上电基带板的负载状态选定至少一个负载状态低于设定的门限的上电基带板(102);将所述选定的上电基带板上的业务迁移到除所述选定的上电基带板以外的至少一个上电基带板上,并对所述选定的上电基带板进行节能处理(103)。本发明适用于基于基带池进行处理的设备。

Description

基于基带池的处理方法及装置 技术领域
本发明涉及通信技术领域, 特别涉及一种基于基带池的处理方法及装置。 背景技术
随着移动通信技术的飞速发展, 无线接入技术正从传统的 2 G网络向着具 有更高传输速率的 3G网络, 甚至 4G网络演进。 传统的蜂窝网络的拓朴结构也 随之演进成通过 RRU ( Radio Remote Un i t , 无线射频单元) 来代替整个基站 设备的结构。 在基站系统中, RRU可以实现一定区域的无线覆盖, RRU通过传 输设备连接到基带池。由基带池对多个 RRU进行处理。基于基带池的处理方式, 为了保证系统最大能够支持的用户数, 系统中必须配置足够的基带板。 基带 板的数量决定了无线网络能够处理的业务量。 在现有技术中, 对于某些区域, 例如: 商业中心, 在白天的工作时间, 覆盖该区域的无线通信系统的负载达到最大, 而晚上下班之后, 覆盖该区域 的无线通信系统的负载则显著降低。 然而, 无线通信系统中的基带池为了保 证白天 的工作时间的正常运作需要配置足够的基带板, 从而导致整个无线通 信系统在负载降低的时候, 无线通信系统中配置的基带板仍全部处于上电运 转状态, 造成大量能源的浪费。
发明内容
本发明的实施例提供一种基于基带池的处理方法及装置, 能够有效节省 能源。
根据本发明的一方面, 提供了一种基于基带池的处理方法, 包括: 确定基带池中上电基带板的负载状态;
根据所述上电基带板的负载状态选定至少一个负载状态低于设定的门限 的上电基带板;
将所述选定的上电基带板上的业务迁移到除所述选定的上电基带板以外 的至少一个上电基带板上, 并对所述选定的上电基带板进行节能处理。 根据本发明的另一方面, 提供了一种基于基带池的处理装置, 包括: 确定模块, 用于确定基带池中上电基带板的负载状态;
选定模块, 用于根据所述上电基带板的负载状态选定至少一个负载状态 低于设定的门限的上电基带板;
处理模块, 用于将所述选定的上电基带板上的业务迁移到除所述选定的 上电基带板以外的至少一个上电基带板上, 并对所述选定的上电基带板进行 节能处理。 本发明实施例提供的基于基带池的处理方法及装置,通过检测基带池中各 上电基带板的运转状态, 对基带池中各上电基带板的负载情况进行判断, 在 基带池中各上电基带板的负载处于低负载状态时, 将选定上电基带板上的业 务迁移到其它上电基带板上, 并对选定上电基带板进行节能处理。 与现有技 术相比, 本发明实施例能够根据基带池中各上电基带板的负载状态合理地配 置资源, 达到有效节省能源的效果。
附图说明
图 1为本发明实施例提供的基于基带池的处理方法的流程图;
图 2为本发明另一实施例提供的基于基带池的处理方法的流程图; 图 3为本发明实施例提供的基于基带池的处理装置的结构示意图; 图 4为本发明实施例提供的另一基于基带池的处理装置的结构示意图。 具体实施方式
为使本发明技术方案的优点更加清楚, 下面结合附图和实施例对本发明 作详细说明。
本发明一实施例提供一种基于基带池的处理方法, 如图 1所示, 所述方法 包括:
步骤 101、 确定基带池中上电基带板的负载状态。
当系统正常运行时, 进行基带板负载检测, 对基带池中上电基带板的运 转状态进行检测, 根据检测结果, 获取当前基带池中的上电基带板的负载。 按照设置的周期, 检测基带池中上电基带板的运转状态; 或者 当有特定事件触发时(比如, 当基带池中接入新的用户后), 检测基带池 中上电基带板的运转状态。
步骤 102、 根据所述上电基带板的负载状态选定至少一个负载状态低于设 定的门限的上电基带板。
步骤 103、 将所述选定的上电基带板上的业务迁移到除所述选定的上电基 带板以外的至少一个上电基带板上, 并对所述选定的上电基带板进行节能处 理。
其中, 所述选定的上电基带板为所述基带池中各上电基带板中的至少一 个, 优选的, 将选定的上电基带板的业务迁移到保留的上电基带板后, 保留 的上电基带板的负载状态低于设定的门限。
其中, 对所述选定的上电基带板进行节能处理包括下述方法中的至少一 个:
对所述选定的上电基带板进行下电处理, 可选的, 可以通过开关电源对 选定的上电基带板进行下电处理;
通过分层控制设计, 不对整体上电基带板进行下电处理, 对所述选定上 电基带板上的至少一个器件进行下电处理, 可选的, 可以将上电基带板上核 心部件(比如 CPU ) 的电源保留, 将外设(比如 I/O接口) 的电源关闭; 和 通过一定的程序或硬件设计, 选定上电基带板之后, 让该上电基带板进 入省电模式, 在该模式下, 上电基带板仅仅执行一些必要的程序, 如握手程 序, 其他大部分的程序都进入休眠状态。
本发明实施例提供的基于基带池的处理方法, 通过特定事件触发进行检 测或者通过设置周期进行检测的方式, 对基带池中的上电基带板的运转状态 进行检测, 当判断上电基带板的负载处于低负载状态时, 选定至少一个处于 低负载状态的上电基带板, 将选定上电基带板上的业务平均分配至基带池内 的保留的上电基带板上, 然后对所述选定上电基带板进行节能处理。 与现有 技术相比, 本发明实施例能够根据基带池中上电基带板的负载状态合理的配 置资源, 达到有效节省能源的效果。
本发明另一实施例提供一种基于基带池的处理方法, 如图 2所示, 所述方 法包括:
步骤 201、 检测基带池中上电基带板的运转状态, 获取所述上电基带板的 负载状态。
具体地, 对上电基带板的运转状态进行检测可以包括以下两种方式: 按照设置周期, 检测基带池各上电基带板的运转状态; 或者
当有特定事件触发时(比如, 当基带池中接入新的用户后), 检测基带池 中上电基带板的运转状态。
步骤 202、 判断各上电基带板的负载是否处于低负载状态, 如果各上电基 带板的负载处于低负载状态, 执行步骤 203-204 , 如果各上电基带板的负载不 是处于低负载状态, 执行步骤 205。
步骤 203、 将选择关闭的上电基带板中的业务分配至保留的上电基带板 中, 分配后的各上电基带板的负载处于低负载状态。
步骤 204、 将选择关闭的上电基带板进行节能处理。
其中, 对所述选定上电基带板进行节能处理具体可以为:
通过开关电源对选定的上电基带板进行整体下电处理; 或者
通过分层控制设计, 不对整体基带板进行下电处理, 仅仅将基带板上核 心部件(比如 CPU ) 的电源保留, 将外设(比如 I/O ) 的电源关闭; 或者 通过一定的程序设计, 选定上电基带板之后, 通过程序指令让该基带板进入 省电模式, 在该模式下, 基带板仅仅执行一些必要的握手程序, 其他绝大部 分的指令都进入休眠状态, 避免空转。
步骤 205、 判断各上电基带板的负载是否处于高负载状态, 如果各上电基 带板的负载处于高负载状态, 执行步骤 206 , 如果各上电基带板的负载不是处 于高负载状态, 返回步骤 201。 步骤 206、 判断基带池中是否还有备用基带板, 若有, 执行步骤 207 , 若 没有, 执行步骤 208。
步骤 207、 对所述备用基带板进行上电处理并进行数据配置, 在所有可用 上电基带板上重新分配基带池中的负载。
步骤 208、 系统发出过载警告, 返回步骤 201。
进一步的, 在步骤 204之后, 所述方法还可以包括:
当所述其他上电基带板的平均负载处于高负载状态时, 对所述选定备用 基带板中的一个或多个进行上电处理;
对上电基带板的负载进行重新分配, 以使分配后各上电基带板的负载处 于低负载状态。
本发明实施例提供的基于基带池的处理方法, 通过特定事件触发进行检 测或者通过设置周期进行检测的方式, 对基带池中的上电基带板的运转状态 进行检测, 当判断上电基带板的负载处于低负载状态时, 选定至少一个处于 低负载状态的上电基带板, 将选定上电基带板上的业务平均分配至基带池内 的保留的上电基带板上, 然后对所述选定上电基带板进行节能处理。 与现有 技术相比, 本发明实施例能够根据基带池中上电基带板的负载状态合理的配 置资源, 达到有效节省能源的效果。 本发明再一实施例提供一种基于基带池的处理装置, 如图 3 所示, 所述 装置包括:
确定模块 31 , 用于确定基带池中上电基带板的负载状态;
选定模块 32 , 用于根据所述上电基带板的负载状态选定至少一个负载状 态低于设定的门限的上电基带板;
处理模块 33 , 用于将所述选定的上电基带板上的业务迁移到除所述选定 的上电基带板以外的至少一个上电基带板上, 并对所述选定的上电基带板进 行节能处理。
进一步的, 如图 4所示, 所述装置还包括: 检测模块 34 , 用于检测基带池中上电基带板的运转状态;
其中, 如图 4所示, 所述检测模块可以包括以下单元中的至少一个: 第一检测单元 341 , 用于按照设置的周期, 检测基带池中上电基带板的运 转状态;
第二检测单元 342 , 用于当有特定事件触发时, 检测基带池中上电基带板 的运转状态。
其中, 所述特定事件可以为: 基带池中接入新的用户。
进一步的, 所述确定模块 31 , 还用于根据所述基带池中上电基带板的运 转状态, 确定基带池中上电基带板的负载状态。
进一步的, 所述处理模块 33 , 还用于将所述选定的上电基带板上的业务 迁移到除所述选定的上电基带板以外的至少一个上电基带板上, 以使得接收 所述迁移的业务的上电基带板的负载状态低于设定的门限。
具体的, 如图 4所示, 所述处理模块 33包括以下单元中的至少一个: 第一处理单元 331 , 用于对所述选定的上电基带板进行下电处理; 第二处理单元 332 , 用于对所述选定的上电基带板上的至少一个器件进行 下电处理;
第三处理单元 333 , 用于将所述选定的上电基带板所运行的至少一个程序 模块终止。
进一步的, 如图 4所示, 所述装置还包括上电处理模块 35:
所述确定模块, 具体用于确定除所述选定的上电基带板以外的至少一个 上电基带板的负载状态高于所述设定的门限;
所述上电处理模块 35 , 用于根据所述确定模块确定除所述选定的上电基 带板以外的至少一个上电基带板的负载状态高于所述设定的门限, 对备用基 带板中的至少一个进行上电处理, 并将所述负载状态高于所述设定的门限的 上电基带板的业务迁移到所述进行上电处理的备用基带板。
关于本装置的其他的功能和结构, 可以参见上述的方法实施例, 在此不 再赘述。
本发明实施例提供的基于基带池的处理装置, 检测模块通过事件触发检 测或者设置周期检测的方式, 对基带池中的全部上电基带板的运转状态进行 检测, 当判断模块判断各上电基带板的负载处于低负载状态时, 处理模块将 选定上电基带板上的业务平均分配至基带池内保留的上电基带板上, 然后对 所述选定上电基带板进行节能处理。 与现有技术相比, 本发明实施例能够根 据基带池中各上电基带板的负载状态合理的配置资源, 达到有效节省能源的 效果。
本发明实施例提供的基于基带池的处理装置可以实现上述提供的方法实 施例, 具体功能实现请参见方法实施例中的说明, 在此不再赘述。 本发明实 施例提供的基于基带池的处理方法及装置可以适用于基于基带池进行处理的 设备, 如核心网设备。 本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流 程, 是可以通过计算机程序来指令相关的硬件来完成, 所述的程序可存储于 一计算机可读取存储介质中, 该程序在执行时, 可包括如上述各方法的实施 例的流程。 其中, 所述的存储介质可为: R0M/RAM、 磁盘、 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 想到的变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明的保 护范围应该以权利要求的保护范围为准。

Claims

权利要求 书
1、 一种基于基带池的处理方法, 其特征在于, 包括:
确定基带池中上电基带板的负载状态;
根据所述上电基带板的负载状态选定至少一个负载状态低于设定的门限的 上电基带板;
将所述选定的上电基带板上的业务迁移到除所述选定的上电基带板以外的 至少一个上电基带板上, 并对所述选定的上电基带板进行节能处理。
2、 根据权利要求 1所述的方法, 其特征在于, 所述方法还包括:
检测基带池中上电基带板的运转状态;
所述确定基带池中上电基带板的负载状态, 包括:
根据所述基带池中上电基带板的运转状态, 确定基带池中上电基带板的负 载状态。
3、 根据权利要求 2所述的方法, 其特征在于, 所述检测基带池中上电基带 板的运转状态, 包括:
按照设置的周期, 检测基带池中上电基带板的运转状态; 或者
当有特定事件触发时, 检测基带池中上电基带板的运转状态。
4、 根据权利要求 1-3任一权利要求所述的方法, 其特征在于, 所述将所述 选定的上电基带板上的业务迁移到除所述选定的上电基带板以外的至少一个上 电基带板上, 包括:
将所述选定的上电基带板上的业务迁移到除所述选定的上电基带板以外的 至少一个上电基带板上, 以使得接收所述迁移的业务的上电基带板的负载状态 低于设定的门限。
5、 根据权利要求 1-4任一权利要求所述的方法, 其特征在于, 所述对所述 选定的上电基带板进行节能处理包括下述方法中的至少一个:
对所述选定的上电基带板进行下电处理;
对所述选定的上电基带板上的至少一个器件进行下电处理; 和, 将所述选定的上电基带板所运行的至少一个程序模块终止。
6、 根据权利要求 1-5任一权利要求所述的方法, 其特征在于, 在所述对所 述选定上电基带板进行节能处理之后, 还包括:
当所述除所述选定的上电基带板以外的至少一个上电基带板的负载状态高 于所述设定的门限时, 对备用基带板中的至少一个进行上电处理, 并将所述负 载状态高于所述设定的门限的上电基带板的业务迁移到所述进行上电处理的备 用基带板。
7、 一种基于基带池的处理装置, 其特征在于, 包括:
确定模块, 用于确定基带池中上电基带板的负载状态;
选定模块, 用于根据所述确定模块确定的上电基带板的负载状态选定至少 一个负载状态低于设定的门限的上电基带板;
处理模块, 用于将所述选定模块选定的上电基带板上的业务迁移到除所述 选定的上电基带板以外的至少一个上电基带板上, 并对所述选定的上电基带板 进行节能处理。
8、 根据权利要求 7所述的装置, 其特征在于, 所述装置还包括:
检测模块, 用于检测基带池中上电基带板的运转状态;
所述确定模块, 还用于根据所述检测模块检测的基带池中上电基带板的运 转状态, 确定基带池中上电基带板的负载状态。
9、 根据权利要求 8所述的装置, 其特征在于, 所述检测模块包括以下单元 中的至少一个:
第一检测单元, 用于按照设置的周期, 检测基带池中上电基带板的运转状 态;
第二检测单元, 用于当有特定事件触发时, 检测基带池中上电基带板的运 转状态。
10、 根据权利要求 7-9任一权利要求所述的装置, 其特征在于,
所述处理模块, 具体用于将所述选定的上电基带板上的业务迁移到除所述 选定的上电基带板以外的至少一个上电基带板上, 以使得接收所述迁移的业务 的上电基带板的负载状态低于设定的门限。
11、 根据权利要求 7-10任一权利要求所述的装置, 其特征在于, 所述处理 模块包括以下单元中的至少一个:
第一处理单元, 用于对所述选定的上电基带板进行下电处理;
第二处理单元, 用于对所述选定的上电基带板上的至少一个器件进行下电 处理;
第三处理单元, 用于将所述选定的上电基带板所运行的至少一个程序模块 终止。
12、 根据权利要求 7-11任一权利要求所述的装置, 其特征在于, 所述装置 还包括上电处理模块,
所述确定模块, 具体用于确定除所述选定的上电基带板以外的至少一个上 电基带板的负载状态高于所述设定的门限;
所述上电处理模块, 用于根据所述确定模块确定除所述选定的上电基带板 以外的至少一个上电基带板的负载状态高于所述设定的门限, 对备用基带板中 的至少一个进行上电处理, 并将所述负载状态高于所述设定的门限的上电基带 板的业务迁移到所述进行上电处理的备用基带板。
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