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WO2014117720A1 - Small cell configuration method and device, and small cell enb - Google Patents

Small cell configuration method and device, and small cell enb Download PDF

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Publication number
WO2014117720A1
WO2014117720A1 PCT/CN2014/071607 CN2014071607W WO2014117720A1 WO 2014117720 A1 WO2014117720 A1 WO 2014117720A1 CN 2014071607 W CN2014071607 W CN 2014071607W WO 2014117720 A1 WO2014117720 A1 WO 2014117720A1
Authority
WO
WIPO (PCT)
Prior art keywords
micro cell
micro
configuration
identifier
base station
Prior art date
Application number
PCT/CN2014/071607
Other languages
French (fr)
Chinese (zh)
Inventor
高有军
杨宁
江小威
Original Assignee
中国移动通信集团公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 中国移动通信集团公司 filed Critical 中国移动通信集团公司
Publication of WO2014117720A1 publication Critical patent/WO2014117720A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W16/00Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
    • H04W16/24Cell structures
    • H04W16/32Hierarchical cell structures
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/27Control channels or signalling for resource management between access points
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W84/00Network topologies
    • H04W84/02Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
    • H04W84/04Large scale networks; Deep hierarchical networks
    • H04W84/042Public Land Mobile systems, e.g. cellular systems
    • H04W84/045Public Land Mobile systems, e.g. cellular systems using private Base Stations, e.g. femto Base Stations, home Node B

Definitions

  • Microcell configuration method, device and micro base station The present application claims priority to a Chinese patent application filed on January 31, 2013 by the Chinese Patent Office, application number 201310039632.4, and the invention titled "micro cell configuration method, device and micro base station” The entire contents of which are incorporated herein by reference.
  • Technical field
  • the present invention relates to the field of mobile communications, and in particular to a method, an apparatus, and a micro base station for configuring a micro cell.
  • UE provides communication services.
  • a macro cell is used to create a macro cell to implement a wide range of continuous network coverage, and then a micro cell is created in a hotspot area to implement a hot zone. Overlapping coverage.
  • radio resource conflicts between multiple micro cells may occur, affecting the use of the UE.
  • the technical problem to be solved by the present invention is to provide a micro cell configuration method, device, and micro base station, which can flexibly configure radio resources for micro cells and avoid interference between UEs.
  • a micro cell small cell configuration method including:
  • Radio resource configuration message includes information indicating that the base station performs radio network resource allocation and/or radio network resource control on the micro cell; Performing radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
  • the method further includes:
  • a reception confirmation message is returned to the base station.
  • the radio resource configuration message includes radio network identifier configuration information
  • the radio resource configuration for the micro cell according to the radio resource configuration message includes: The area performs wireless network identification configuration
  • the wireless network identifier configuration information includes a wireless network identifier set allocated to the micro cell, and the performing wireless network identifier configuration on the micro cell according to the wireless network identifier configuration information includes:
  • the microcell is instructed to select a radio network identifier assigned to the user terminal from the set of radio network identifiers.
  • the wireless network identifier configuration information includes an allocation rule of the wireless network identifier
  • the performing wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes:
  • the microcell is instructed to allocate a radio network identifier to the user terminal according to the allocation rule.
  • the wireless network identifier configuration information includes a wireless network identifier generation manner
  • the performing wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes:
  • the area Instructing the micro d, the area generates a wireless network identifier assigned to the user terminal according to the generating manner.
  • the method before the receiving the radio resource configuration message sent by the base station, the method further includes:
  • the service capability information of the micro cell is sent to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell.
  • the radio resource configuration message includes micro cell activation and/or deactivation configuration information
  • the micro cell activation and/or deactivation configuration information includes a micro cell identifier.
  • the performing the radio resource configuration on the micro cell according to the radio resource configuration message includes: performing a frequency activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information; and/or
  • the radio resource configuration message includes frequency point activation and/or deactivation configuration information, where the frequency point activation and/or deactivation configuration information includes a frequency point identifier, where The radio resource configuration message is configured to perform radio resource configuration on the micro cell, including:
  • the embodiment of the invention further provides a micro cell small cell configuration device, including:
  • a receiving module configured to receive a radio resource configuration message sent by the base station, where the radio resource configuration message includes information that the base station indicates to perform radio network resource allocation and/or radio network resource control on the micro cell;
  • a processing module configured to perform radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
  • the device further includes:
  • a sending module configured to return a receiving confirmation message to the base station.
  • the radio resource configuration message received by the receiving module includes any one or any combination of the following information: radio network identifier configuration information, micro cell activation including a micro cell identifier, including Deactivation configuration information of the micro cell identifier, including frequency point activation with frequency point identification, and deactivation configuration information including frequency point identification.
  • the embodiment of the invention further provides a micro base station small cell eNB, which comprises the micro cell configuration device as described above.
  • the receiving the radio resource configuration message sent by the base station may perform the radio network identifier configuration on the micro cell according to the radio network identifier configuration information, and avoid the micro cell to allocate the same radio network identifier to the UE, and flexibly configure the micro cell.
  • the radio resource improves the interference between the UEs.
  • the service capability information of the micro cell can be reported to the base station, the frequency point activation/deactivation configuration information of the base station is received, and the frequency activation/deactivation operation is performed on the micro cell.
  • the base station can reasonably allocate the radio resources according to the service capability information of the micro cell.
  • FIG. 1 is a schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention
  • FIG. 2 is a structural block diagram of a micro cell configuration apparatus according to an embodiment of the present invention.
  • FIG. 3 is another schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention.
  • FIG. 4 is a schematic flowchart of performing frequency point activation by a base station according to an embodiment of the present invention
  • FIG. 5 is a schematic flowchart of performing frequency point deactivation of a micro base station according to an embodiment of the present invention.
  • the embodiments of the present invention provide a micro cell configuration method, an apparatus, and a micro base station, which can flexibly configure radio resources for a micro cell and avoid interference between UEs.
  • FIG. 1 is a schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention. As shown in FIG. 1 , this embodiment includes:
  • Step 101 Receive a radio resource configuration message sent by the base station.
  • Step 102 Perform radio resource configuration on the micro cell according to the radio resource configuration message.
  • the radio resource configuration message includes information that the base station indicates to perform radio network resource allocation and/or radio network resource control on the micro cell, and performs radio resource configuration on the micro cell according to the radio resource configuration message, including the micro cell. Perform wireless network resource allocation and/or wireless network resource control.
  • the method further includes:
  • a reception confirmation message is returned to the base station.
  • the radio resource configuration message includes the wireless network identifier configuration information
  • the step 102 includes:
  • the wireless network identifier configuration information may include a wireless network identifier set allocated to the micro cell, and the wireless network identifier configuration for the micro cell according to the wireless network identifier configuration information includes:
  • the microcell is instructed to select a radio network identifier assigned to the user terminal from the set of radio network identifiers.
  • the wireless network identification configuration information may include an allocation rule of the wireless network identifier, and the performing the wireless network identifier configuration on the micro area according to the wireless network identification configuration information includes: indicating that the micro area is a user terminal according to the allocation rule Assign a wireless network ID.
  • the wireless network identifier configuration information may include a wireless network identifier generation manner, and the performing the wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes: indicating that the micro area is generated and allocated according to the generating manner The wireless network identifier of the user terminal.
  • the manner of generating the wireless network identifier may be a manner of generating and dividing the micro-cell identifier.
  • the method further includes:
  • the service capability information of the micro cell is sent to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell.
  • the radio resource configuration message may further include micro cell activation and/or de-excitation
  • the live configuration information, the micro cell activation and/or deactivation configuration information includes a micro cell identifier, and the micro cell identifier may correspond to only one micro cell, or may correspond to multiple micro cells, according to the radio resource configuration message.
  • the radio resource configuration for the micro cell includes:
  • the radio resource configuration message may further include frequency point activation and/or deactivation configuration information, where the frequency point activation and/or deactivation configuration information includes a frequency point identifier, and the frequency point identifier may only correspond to A frequency point may also correspond to multiple frequency points, each frequency point may correspond to one micro area, and may also correspond to multiple micro cells.
  • the radio resource configuration for the micro cell according to the radio resource configuration message includes:
  • the radio resource configuration message sent by the base station may be configured to perform radio network identifier configuration on the micro cell according to the radio network identifier configuration information, thereby preventing the micro cell from allocating the same radio network identifier to the UE, and being flexible.
  • the radio resources are configured for the micro cell to improve the interference between the UEs.
  • the service capability information of the micro cell can be reported to the base station, and the frequency point activation/deactivation configuration information of the base station is received, and the frequency activation is performed on the micro cell. / Deactivation operation, so that the base station can reasonably allocate radio resources according to the service capability information of the micro cell.
  • the receiving module 20 is configured to receive a radio resource configuration message sent by a base station, where the radio resource configuration message includes a base station.
  • the processing module 21 is configured to perform radio resource allocation on the micro cell according to the radio resource configuration message.
  • the method includes performing wireless network resource allocation and/or wireless network resource control on the micro cell. Further, in the above solution, the device further includes:
  • the sending module 22 is configured to return a receiving acknowledgement message to the base station.
  • the radio resource configuration message includes radio network identifier configuration information
  • the processing module 21 is configured to perform radio network identifier configuration on the micro cell according to the radio network identifier configuration information.
  • the wireless network identifier configuration information may include a wireless network identifier set allocated to the micro cell, and the processing module 21 may instruct the micro cell to select a radio network identifier allocated to the user terminal from the radio network identifier set; the wireless The network identifier configuration information may further include an allocation rule of the wireless network identifier, and the processing module 21 may instruct the micro cell to allocate a wireless network identifier to the user terminal according to the allocation rule.
  • the wireless network identifier configuration information may further include a method for generating the wireless network identifier.
  • the processing module 21 may be configured to generate a radio network identifier that is allocated to the user terminal according to the generating manner. Specifically, the generating manner of the wireless network identifier may be a generating and dividing manner related to the micro cell identifier.
  • the sending module 22 may further send the service capability information of the micro cell to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell, and the radio resource configuration message may further include There is a micro cell activation and/or deactivation configuration information, and the micro cell activation and/or deactivation configuration information includes a micro cell identifier, and the micro cell identifier may correspond to only one micro cell or may correspond to multiple micro cells.
  • the module 21 may perform a frequency point activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information, and perform a frequency point on the micro cell corresponding to the micro cell identifier according to the micro cell deactivation configuration information. Activate the action.
  • the sending module 22 may further send the traffic of the micro cell to the base station; the radio resource configuration message may further include frequency point activation and/or deactivation configuration information, the frequency point activation and/or deactivation configuration.
  • the information includes a frequency point identifier, and the frequency point identifier may correspond to only one frequency point, or may correspond to multiple frequency points, each frequency point may correspond to one micro area, or may correspond to multiple micro areas, and the processing module 21 may The frequency point activation configuration information performs a frequency point activation operation on the micro cell corresponding to the frequency point identifier, and may perform a frequency point deactivation operation on the micro cell corresponding to the micro cell identifier according to the frequency point deactivation configuration information.
  • the micro cell configuration device of the present invention may be located in a micro base station or may exist independently.
  • the radio resource configuration may be performed on the micro cell according to the radio resource configuration message sent by the macro base station; when the micro cell configuration device exists independently, the micro cell configuration device may further perform the radio transmission according to the micro base station.
  • the resource configuration message performs radio resource configuration on the micro cell.
  • the micro-area configuration device of the embodiment of the present invention receives the radio resource configuration message sent by the base station, and performs radio network identifier configuration on the micro cell according to the radio network identifier configuration information therein, thereby preventing the micro cell from allocating the same radio network identifier to the UE.
  • the device can report the service capability information of the micro cell to the base station, receive the frequency activation/deactivation configuration information of the base station, and perform the frequency on the micro cell. The activation/deactivation operation enables the base station to reasonably allocate radio resources according to the service capability information of the micro cell.
  • the embodiment of the invention further provides a micro base station, which comprises the micro cell configuration device as described above.
  • the micro cell is configured to perform the radio resource configuration on the micro cell according to the radio resource configuration message sent by the macro base station, and the micro cell configuration method of the present invention is further described in conjunction with FIG. 3 to FIG. 5.
  • the small cell is The configured cell has radio resource functions that depend on the macro base station.
  • the macro base station sends a radio resource configuration message to the small cell, so that the small cell can implement the access control function on the wireless side.
  • the micro cell configuration method of this embodiment includes the following steps:
  • Step 31 The micro base station receives a radio resource configuration message sent by the macro base station, where the radio resource configuration message includes configuration information of a radio network identifier for a RACH (Random Access Channel) process, such as C- RNT Cell Radio Network Temporary Identifier configuration information.
  • a radio network identifier for a RACH (Random Access Channel) process such as C- RNT Cell Radio Network Temporary Identifier configuration information.
  • the physical entity of the micro base station may be a cluster header in which a small cell or a small cell cluster is located.
  • the configuration information of the wireless network identifier may include a set of configurable ranges of the C-RNTI (Cell Radio Network Temporary Identifier).
  • the protocol supports 65,536 C-RNTIs (16 bits), and the set may include A part of 65536 C-RNTIs, indicating that a small cell or a small cell cluster can only be selected from the set.
  • the C-RNTI allocated to the UE; the configuration information of the radio network identifier may also be an allocation rule of the C-RNTI, for example, indicating that the small cell can allocate the C-RNTI to the UE from the highest or lowest C-RNTI to avoid the macro cell.
  • the allocated C-RNTI conflicts;
  • the configuration information of the wireless network identifier may also be a C-RNTI generation manner, for example, a generation manner related to the small cell identifier, indicating that the small cell generates the C allocated to the user terminal according to the generation manner.
  • -RNTI a generation manner related to the small cell identifier, indicating that the small cell generates the C allocated to the user terminal according to the generation manner.
  • Step 32 The micro base station returns a receiving acknowledgement message to the macro base station.
  • the step is an optional step, and the micro base station may return a receiving acknowledgement message to the macro base station to indicate that the radio resource configuration message has been received.
  • Step 33 The micro base station configures the radio resource of the micro cell according to the radio network identifier configuration information.
  • the radio network identifier may be configured for the micro cell according to the radio network identifier configuration information.
  • the micro base station instructs the small cell to select the C-RNTI allocated to the UE from the set; and the configuration information of the radio network identifier is the allocation of the C-RNTI
  • the micro-base station instructs the small cell to allocate a C-RNTI to the UE according to the allocation rule, and avoids collision with the C-RNTI allocated by the macro cell.
  • the configuration information of the wireless network identifier is the C-RNTI generation mode
  • the micro base station indicates The small cell generates a C-RNTL allocated to the user terminal according to the generation manner.
  • the macro base station further has a control function of activating and deactivating the small cell frequency point
  • the micro base station may correspond to multiple small cells, and each small cell corresponds to one frequency point.
  • the micro base station can report the service capability information of the small cell to the macro base station, and the macro base station judges according to the service capability information of the small cell and the load condition.
  • the macro base station can perform the frequency of the small cell. Activated; If there is no service or UE in the small cell, the macro base station can deactivate the frequency of the small cell.
  • Step 41 The micro base station reports the service capability information of the micro cell to the macro base station, where the service capability information includes the frequency band supported by the micro cell. And/or microcell identification;
  • Step 42 The macro base station sends a radio resource configuration message including the frequency point activation configuration information to the micro base station, where the frequency point activation configuration information includes a micro cell identifier.
  • the macro base station determines which small cell to activate the frequency point according to the load condition and the location of the UE, and places the identifier of the small cell in the frequency point activation configuration information and sends the identifier to the micro base station. Further, the frequency point activation configuration information is used.
  • the frequency point identifier supported by the small cell or the identifier of the small cell cluster to which the small cell belongs may also be included;
  • Step 43 The micro base station returns a receiving acknowledgement message to the macro base station, where the step is an optional step, and the micro base station may return a receiving acknowledgement message to the macro base station to indicate that the frequency point activation configuration information has been received by the base station;
  • Step 44 The micro base station performs a frequency point activation operation on the micro cell corresponding to the micro cell identifier according to the frequency point activation configuration information.
  • the micro base station performs an activation operation on the frequency point supported by the small cell according to the frequency point activation configuration information, and turns on the small cell, and then the small cell can be used for data transmission.
  • the frequency activation configuration information includes the identifier of the small cell cluster to which the small cell belongs
  • the micro base station may first determine the small cell cluster according to the identifier of the small cell cluster, and then determine the small cell from the small cell cluster, and the small cell is determined to the small cell. Perform a frequency activation operation.
  • the micro base station may also report the traffic of the micro cell to the macro base station, and the macro base station may determine the small celL that needs frequency activation and frequency deactivation according to the traffic volume and load condition of the micro cell, where, for the small
  • the process of cell frequency activation is shown in steps 41 ⁇ 44.
  • the process of frequency deactivation of small cells includes the following steps:
  • Step 51 The micro base station reports the service capability information of the micro cell to the macro base station, where the service capability information of the micro cell includes the traffic volume of the micro cell.
  • This step is an optional step. If the macro base station has already learned the service capability information of the micro cell in advance, the step may not be performed.
  • Step 52 The macro base station sends a frequency point deactivation configuration information to the micro base station, where the frequency point deactivation configuration information includes a micro cell identifier.
  • the macro base station determines which small cell to go to according to the load situation and the traffic volume of the micro cell. Activation, specifically, when there is no UE under the micro cell, it is decided to perform frequency deactivation on the micro cell. After determining the small cell to be deactivated by the frequency point, the identifier of the small cell is placed in the frequency deactivation configuration information and sent to the base station. Further, the frequency deactivation configuration information may further include the support of the small cell. The frequency point is only marked, or the standard of the small cell cluster to which the small cell belongs;
  • Step 53 The micro base station returns a receiving acknowledgement message to the macro base station.
  • the step is an optional step.
  • the micro base station may return a receiving acknowledgement message to the macro base station to indicate that the frequency point deactivation configuration information has been received.
  • Step 54 The micro base station performs a frequency point deactivation operation on the micro cell corresponding to the micro cell identifier according to the frequency point deactivation configuration information.
  • the micro base station performs a deactivation operation on the frequency point supported by the small cell according to the frequency point deactivation configuration information, and closes the small cell, and then does not use the small cell for data transmission.
  • the frequency deactivation configuration information includes the identifier of the small cell cluster to which the small cell belongs
  • the micro base station may determine the small cell in the first, and perform a frequency deactivation operation on the small cell.
  • the micro base station receives the radio resource configuration message sent by the macro base station, and performs radio network identifier configuration on the micro cell according to the radio network identifier configuration information, thereby preventing the micro cell from allocating the same radio network identifier to the UE, and improving
  • the micro base station can also report the service capability information of the micro cell to the macro base station, so that the macro base station can flexibly configure the radio resource for the micro cell, and ensure the radio resource of the hot cell under the macro base station center control. .
  • the micro cell configuration method of the present invention is not limited to the embodiment shown in FIG. 3 to FIG. 5.
  • the micro cell configuration device may further perform the micro cell according to the radio resource configuration message sent by the micro base station. Radio resource configuration, the micro base station flexibly configures radio resources for the micro cell.
  • the modules may be implemented in software for execution by various types of processors.
  • an identified executable code module can comprise one or more physical or logical blocks of computer instructions, which can be constructed, for example, as an object, procedure, or function.
  • the standard The executable code of the module does not need to be physically located together, but may include different instructions stored in different physicalities that, when logically combined, constitute a module and achieve the stated purpose of the module.
  • the executable code module can be a single instruction or a plurality of instructions, and can even be distributed over a plurality of different code segments, distributed among different programs, and distributed across multiple memory devices.
  • operational data can be identified within the module and can be implemented in any suitable form and organized within any suitable type of data structure. The operational data may be collected as a single data set, or may be distributed over different locations (including on different storage devices), and may exist, at least in part, only as an electronic signal on a system or network.
  • the module can be implemented by software, considering the level of the existing hardware process, the module can be implemented in software, and the technician can construct a corresponding hardware circuit to implement the corresponding function without considering the cost.
  • the hardware circuitry includes conventional Very Large Scale Integration (VLSI) circuits or gate arrays as well as existing semiconductors such as logic chips, transistors, or other discrete components.
  • VLSI Very Large Scale Integration
  • Modules can also be implemented with programmable hardware devices such as field programmable gate arrays, programmable array logic, programmable logic devices, and the like.
  • sequence numbers of the steps are not used to limit the sequence of the steps.
  • the steps of the steps are changed without any creative work. It is also within the scope of the invention.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The present invention relates to the field of mobile communications. A small cell configuration method and device, and a small cell eNB, the small cell configuration method comprising: receiving a wireless resource configuration message transmitted by an eNB, the wireless resource configuration message containing information of the eNB instructing to conduct wireless network resource allocation and/or control on the small cell; conducting wireless resource configuration for the small cell according to the wireless resource configuration message, including wireless network resource allocation and/or control on the small cell. The technical solution of the present invention flexibly configures wireless resources for a small cell, thus avoiding interference between UEs.

Description

微小区配置方法、 装置及微基站 本申请要求于 2013 年 1 月 31 日提交中国专利局、 申请号为 201310039632.4、 发明名称为"微小区配置方法、 装置及微基站"的中国专利申 请的优先权, 其全部内容通过引用结合在本申请中。 技术领域  Microcell configuration method, device and micro base station The present application claims priority to a Chinese patent application filed on January 31, 2013 by the Chinese Patent Office, application number 201310039632.4, and the invention titled "micro cell configuration method, device and micro base station" The entire contents of which are incorporated herein by reference. Technical field
本发明涉及移动通信领域,特别是指一种微小区配置方法、装置及微基站。  The present invention relates to the field of mobile communications, and in particular to a method, an apparatus, and a micro base station for configuring a micro cell.
背景技术 Background technique
在 3GPP ( The 3rd Generation Partnership Project, 第三代合作伙伴计划) In 3GPP (The 3rd Generation Partnership Project, 3rd Generation Partnership Project)
LTE ( Long Term Evolution, 长期演进 ) 系统中, 为了满足未来数据业务的高 速增长, 支持高速率传输, 对于通信业务量较大的热点地区, 通常在热点地区 架设 小区( small cell ) ,通过 小区为热点地区的用户终端( User Equipment,In the LTE (Long Term Evolution) system, in order to meet the high-speed growth of data services in the future, high-speed transmission is supported. For hotspots with large traffic volume, a small cell is usually set up in a hot spot. User terminals in hotspots (User Equipment,
UE )提供通信业务。 UE) provides communication services.
现有技术中首先使用宏基站( macro cell eNB )创建宏小区 ( macro cell ) 实现大范围的连续网络覆盖,然后在热点地区通过架设微基站( small cell eNB ) 创建微小区, 实现对热点地区进行重叠覆盖。 当在宏小区内部存在多个微小区 时, 随着无线环境的动态变化, 多个微小区之间很可能发生无线资源沖突, 影 响 UE的使用。 发明内容  In the prior art, a macro cell is used to create a macro cell to implement a wide range of continuous network coverage, and then a micro cell is created in a hotspot area to implement a hot zone. Overlapping coverage. When there are multiple micro cells in the macro cell, as the wireless environment changes dynamically, radio resource conflicts between multiple micro cells may occur, affecting the use of the UE. Summary of the invention
本发明要解决的技术问题是提供一种微小区配置方法、装置及微基站, 能 够灵活地为微小区配置无线资源, 避免 UE之间的干扰。  The technical problem to be solved by the present invention is to provide a micro cell configuration method, device, and micro base station, which can flexibly configure radio resources for micro cells and avoid interference between UEs.
为解决上述技术问题, 本发明的实施例提供技术方案如下:  In order to solve the above technical problem, the embodiments of the present invention provide the following technical solutions:
一方面, 提供一种微小区 small cell配置方法, 包括:  On one hand, a micro cell small cell configuration method is provided, including:
接收基站发送的无线资源配置消息,所述无线资源配置消息中包括有基站 指示对微小区进行无线网络资源分配和 /或无线网络资源控制的信息; 根据所述无线资源配置消息对微小区进行无线资源配置,包括对微小区进 行无线网络资源分配和 /或无线网络资源控制。 Receiving, by the base station, a radio resource configuration message, where the radio resource configuration message includes information indicating that the base station performs radio network resource allocation and/or radio network resource control on the micro cell; Performing radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
进一步地, 上述方案中, 所述接收基站发送的无线资源配置消息之后还包 括:  Further, in the above solution, after the receiving the radio resource configuration message sent by the base station, the method further includes:
向所述基站返回接收确认消息。  A reception confirmation message is returned to the base station.
进一步地, 上述方案中, 所述无线资源配置消息中包括有无线网络标识配 置信息, 所述根据所述无线资源配置消息对微小区进行无线资源配置包括: 根据所述无线网络标识配置信息对微小区进行无线网络标识配置。  Further, in the above solution, the radio resource configuration message includes radio network identifier configuration information, and the radio resource configuration for the micro cell according to the radio resource configuration message includes: The area performs wireless network identification configuration.
进一步地, 上述方案中, 所述无线网络标识配置信息包括分配给微小区的 无线网络标识集合,所述根据所述无线网络标识配置信息对微小区进行无线网 络标识配置包括:  Further, in the above solution, the wireless network identifier configuration information includes a wireless network identifier set allocated to the micro cell, and the performing wireless network identifier configuration on the micro cell according to the wireless network identifier configuration information includes:
指示微小区从所述无线网络标识集合中选择分配给用户终端的无线网络 标识。  The microcell is instructed to select a radio network identifier assigned to the user terminal from the set of radio network identifiers.
进一步地, 上述方案中, 所述无线网络标识配置信息包括无线网络标识的 分配规则,所述根据所述无线网络标识配置信息对微小区进行无线网络标识配 置包括:  Further, in the foregoing solution, the wireless network identifier configuration information includes an allocation rule of the wireless network identifier, and the performing wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes:
指示微小区根据所述分配规则为用户终端分配无线网络标识。  The microcell is instructed to allocate a radio network identifier to the user terminal according to the allocation rule.
进一步地, 上述方案中, 所述无线网络标识配置信息包括无线网络标识的 生成方式,所述根据所述无线网络标识配置信息对微小区进行无线网络标识配 置包括:  Further, in the above solution, the wireless network identifier configuration information includes a wireless network identifier generation manner, and the performing wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes:
指示微 d、区根据所述生成方式生成分配给用户终端的无线网络标识。  Instructing the micro d, the area generates a wireless network identifier assigned to the user terminal according to the generating manner.
进一步地, 上述方案中, 所述接收基站发送的无线资源配置消息之前还包 括:  Further, in the above solution, before the receiving the radio resource configuration message sent by the base station, the method further includes:
向基站发送微小区的业务能力信息,所述业务能力信息中包括有微小区所 支持的频点和 /或微小区标识。  The service capability information of the micro cell is sent to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell.
进一步地, 上述方案中, 所述无线资源配置消息中包括有微小区激活和 / 或去激活配置信息, 所述微小区激活和 /或去激活配置信息中包括有微小区标 识, 所述根据所述无线资源配置消息对微小区进行无线资源配置包括: 根据所述微小区激活配置信息对所述微小区标识对应的微小区执行频点 激活操作; 和 /或 Further, in the above solution, the radio resource configuration message includes micro cell activation and/or deactivation configuration information, and the micro cell activation and/or deactivation configuration information includes a micro cell identifier. The performing the radio resource configuration on the micro cell according to the radio resource configuration message includes: performing a frequency activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information; and/or
根据所述微小区去激活配置信息对所述微小区标识对应的微小区执行频 点去激活操作。  Performing a frequency deactivation operation on the micro cell corresponding to the micro cell identifier according to the micro cell deactivation configuration information.
进一步地, 上述方案中, 所述无线资源配置消息中包括有频点激活和 /或 去激活配置信息, 所述频点激活和 /或去激活配置信息中包括有频点标识, 所 述根据所述无线资源配置消息对微小区进行无线资源配置包括:  Further, in the foregoing solution, the radio resource configuration message includes frequency point activation and/or deactivation configuration information, where the frequency point activation and/or deactivation configuration information includes a frequency point identifier, where The radio resource configuration message is configured to perform radio resource configuration on the micro cell, including:
根据所述频点激活配置信息对所述频点标识对应的微小区执行频点激活 操作; 和 /或  Performing a frequency activation operation on the micro cell corresponding to the frequency point identifier according to the frequency point activation configuration information; and/or
根据所述频点去激活配置信息对所述频点标识对应的微小区执行频点去 激活操作。  Performing a frequency point deactivation operation on the micro cell corresponding to the frequency point identifier according to the frequency point deactivation configuration information.
本发明实施例还提供了一种微小区 small cell配置装置, 包括:  The embodiment of the invention further provides a micro cell small cell configuration device, including:
接收模块, 用于接收基站发送的无线资源配置消息, 所述无线资源配置消 息中包括有基站指示对微小区进行无线网络资源分配和 /或无线网络资源控制 的信息;  a receiving module, configured to receive a radio resource configuration message sent by the base station, where the radio resource configuration message includes information that the base station indicates to perform radio network resource allocation and/or radio network resource control on the micro cell;
处理模块, 用于根据所述无线资源配置消息对微小区进行无线资源配置, 包括对微小区进行无线网络资源分配和 /或无线网络资源控制。  And a processing module, configured to perform radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
进一步地, 上述方案中, 所述装置还包括:  Further, in the above solution, the device further includes:
发送模块, 用于向所述基站返回接收确认消息。  And a sending module, configured to return a receiving confirmation message to the base station.
进一步地, 上述方案中, 所述接收模块接收到的无线资源配置消息中包括 以下信息中的任意一个或任意多个组合: 无线网络标识配置信息、 包括有微小 区标识的微小区激活、 包括有微小区标识的去激活配置信息、 包括有频点标识 的频点激活、 包括有频点标识的去激活配置信息。  Further, in the above solution, the radio resource configuration message received by the receiving module includes any one or any combination of the following information: radio network identifier configuration information, micro cell activation including a micro cell identifier, including Deactivation configuration information of the micro cell identifier, including frequency point activation with frequency point identification, and deactivation configuration information including frequency point identification.
本发明实施例还提供了一种微基站 small cell eNB , 包括如上所述的微小 区配置装置。  The embodiment of the invention further provides a micro base station small cell eNB, which comprises the micro cell configuration device as described above.
本发明的实施例具有以下有益效果: 上述方案中,接收基站发送的无线资源配置消息, 可以根据其中的无线网 络标识配置信息对微小区进行无线网络标识配置,避免了微小区为 UE分配相 同的无线网络标识, 灵活地为微小区配置无线资源, 改善了 UE之间的干扰情 况; 另外, 还可以向基站上报微小区的业务能力信息, 接收基站的频点激活 / 去激活配置信息, 对微小区执行频点激活 /去激活操作, 使得基站可以根据微 小区的业务能力信息对无线资源进行合理分配。 附图说明 Embodiments of the present invention have the following beneficial effects: In the above solution, the receiving the radio resource configuration message sent by the base station may perform the radio network identifier configuration on the micro cell according to the radio network identifier configuration information, and avoid the micro cell to allocate the same radio network identifier to the UE, and flexibly configure the micro cell. The radio resource improves the interference between the UEs. In addition, the service capability information of the micro cell can be reported to the base station, the frequency point activation/deactivation configuration information of the base station is received, and the frequency activation/deactivation operation is performed on the micro cell. The base station can reasonably allocate the radio resources according to the service capability information of the micro cell. DRAWINGS
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施 例中所需要使用的附图作筒单地介绍, 显而易见地, 下面描述中的附图仅仅是 本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的 前提下, 还可以根据这些附图获得其他的附图。  In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings to be used in the embodiments will be briefly described below. Obviously, the drawings in the following description are merely the present invention. In some embodiments, other drawings may be obtained from those of ordinary skill in the art in light of the inventive work.
图 1为本发明实施例微小区配置方法的流程示意图;  1 is a schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention;
图 2为本发明实施例微小区配置装置的结构框图;  2 is a structural block diagram of a micro cell configuration apparatus according to an embodiment of the present invention;
图 3为本发明实施例微小区配置方法的另一流程示意图;  3 is another schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention;
图 4为本发明实施例 基站进行频点激活的流程示意图;  4 is a schematic flowchart of performing frequency point activation by a base station according to an embodiment of the present invention;
图 5为本发明实施例微基站进行频点去激活的流程示意图。 具体实施方式 为使本发明的实施例要解决的技术问题、技术方案和优点更加清楚, 下面 将结合附图及具体实施例进行详细描述。  FIG. 5 is a schematic flowchart of performing frequency point deactivation of a micro base station according to an embodiment of the present invention. DETAILED DESCRIPTION OF THE EMBODIMENTS In order to make the technical problems, technical solutions, and advantages of the embodiments of the present invention more clearly, the detailed description will be made with reference to the accompanying drawings and specific embodiments.
本发明的实施例提供一种微小区配置方法、装置及微基站, 能够灵活地为 微小区配置无线资源, 避免 UE之间的干扰。  The embodiments of the present invention provide a micro cell configuration method, an apparatus, and a micro base station, which can flexibly configure radio resources for a micro cell and avoid interference between UEs.
图 1为本发明实施例微小区配置方法的流程示意图,如图 1所示, 本实施 例包括:  FIG. 1 is a schematic flowchart of a method for configuring a micro cell according to an embodiment of the present invention. As shown in FIG. 1 , this embodiment includes:
步骤 101: 接收基站发送的无线资源配置消息;  Step 101: Receive a radio resource configuration message sent by the base station.
步骤 102: 根据所述无线资源配置消息对微小区进行无线资源配置。 其中,所述无线资源配置消息中包括有基站指示对微小区进行无线网络资 源分配和 /或无线网络资源控制的信息, 根据所述无线资源配置消息对微小区 进行无线资源配置, 包括对微小区进行无线网络资源分配和 /或无线网络资源 控制。 Step 102: Perform radio resource configuration on the micro cell according to the radio resource configuration message. The radio resource configuration message includes information that the base station indicates to perform radio network resource allocation and/or radio network resource control on the micro cell, and performs radio resource configuration on the micro cell according to the radio resource configuration message, including the micro cell. Perform wireless network resource allocation and/or wireless network resource control.
进一步地, 本发明的另一实施例中, 在包括上述步骤 101~102的基础上, 步骤 102之后还包括:  Further, in another embodiment of the present invention, after the steps 101 to 102 are included, after step 102, the method further includes:
向所述基站返回接收确认消息。  A reception confirmation message is returned to the base station.
进一步地, 本发明的另一实施例中, 在包括上述步骤 101~102的基础上, 所述无线资源配置消息中包括有无线网络标识配置信息, 步骤 102包括:  Further, in another embodiment of the present invention, the radio resource configuration message includes the wireless network identifier configuration information, and the step 102 includes:
根据所述无线网络标识配置信息对微小区进行无线网络标识配置。  Performing wireless network identity configuration on the micro cell according to the wireless network identity configuration information.
其中,所述无线网络标识配置信息可以包括分配给微小区的无线网络标识 集合,所述根据所述无线网络标识配置信息对微小区进行无线网络标识配置包 括:  The wireless network identifier configuration information may include a wireless network identifier set allocated to the micro cell, and the wireless network identifier configuration for the micro cell according to the wireless network identifier configuration information includes:
指示微小区从所述无线网络标识集合中选择分配给用户终端的无线网络 标识。  The microcell is instructed to select a radio network identifier assigned to the user terminal from the set of radio network identifiers.
进一步地, 所述无线网络标识配置信息可以包括无线网络标识的分配规 则, 所述根据所述无线网络标识配置信息对微小区进行无线网络标识配置包 括: 指示微小区根据所述分配规则为用户终端分配无线网络标识。  Further, the wireless network identification configuration information may include an allocation rule of the wireless network identifier, and the performing the wireless network identifier configuration on the micro area according to the wireless network identification configuration information includes: indicating that the micro area is a user terminal according to the allocation rule Assign a wireless network ID.
进一步地, 所述无线网络标识配置信息可以包括无线网络标识的生成方 式, 所述根据所述无线网络标识配置信息对微小区进行无线网络标识配置包 括: 指示微小区根据所述生成方式生成分配给用户终端的无线网络标识。具体 地, 无线网络标识的生成方式可以是与微小区标识相关的生成和划分方式。  Further, the wireless network identifier configuration information may include a wireless network identifier generation manner, and the performing the wireless network identifier configuration on the micro area according to the wireless network identifier configuration information includes: indicating that the micro area is generated and allocated according to the generating manner The wireless network identifier of the user terminal. Specifically, the manner of generating the wireless network identifier may be a manner of generating and dividing the micro-cell identifier.
进一步地, 本发明的另一实施例中, 在包括上述步骤 101~102的基础上, 步骤 101之前还包括:  Further, in another embodiment of the present invention, based on the foregoing steps 101-102, before step 101, the method further includes:
向基站发送微小区的业务能力信息,所述业务能力信息中包括有微小区所 支持的频点和 /或微小区标识。  The service capability information of the micro cell is sent to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell.
进一步地, 所述无线资源配置消息中还可以包括有微小区激活和 /或去激 活配置信息, 所述微小区激活和 /或去激活配置信息中包括有微小区标识, 微 小区标识可能只是对应一个微小区,也可能对应多个微小区, 所述根据所述无 线资源配置消息对微小区进行无线资源配置包括: Further, the radio resource configuration message may further include micro cell activation and/or de-excitation The live configuration information, the micro cell activation and/or deactivation configuration information includes a micro cell identifier, and the micro cell identifier may correspond to only one micro cell, or may correspond to multiple micro cells, according to the radio resource configuration message. The radio resource configuration for the micro cell includes:
根据所述微小区激活配置信息对所述微小区标识对应的微小区执行频点 激活操作; 和 /或  Performing a frequency activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information; and/or
根据所述微小区去激活配置信息对所述微小区标识对应的微小区执行频 点去激活操作。  Performing a frequency deactivation operation on the micro cell corresponding to the micro cell identifier according to the micro cell deactivation configuration information.
进一步地, 所述无线资源配置消息中还可以包括有频点激活和 /或去激活 配置信息, 所述频点激活和 /或去激活配置信息中包括有频点标识, 频点标识 可能只对应一个频点, 也可能对应多个频点, 每个频点可能对应一个微小区, 也可能对应多个微小区,所述根据所述无线资源配置消息对微小区进行无线资 源配置包括:  Further, the radio resource configuration message may further include frequency point activation and/or deactivation configuration information, where the frequency point activation and/or deactivation configuration information includes a frequency point identifier, and the frequency point identifier may only correspond to A frequency point may also correspond to multiple frequency points, each frequency point may correspond to one micro area, and may also correspond to multiple micro cells. The radio resource configuration for the micro cell according to the radio resource configuration message includes:
根据所述频点激活配置信息对所述频点标识对应的微小区执行频点激活 操作; 和 /或  Performing a frequency activation operation on the micro cell corresponding to the frequency point identifier according to the frequency point activation configuration information; and/or
根据所述频点去激活配置信息对所述频点标识对应的微小区执行频点去 激活操作。  Performing a frequency point deactivation operation on the micro cell corresponding to the frequency point identifier according to the frequency point deactivation configuration information.
本发明的微小区配置方法中,接收基站发送的无线资源配置消息, 可以根 据其中的无线网络标识配置信息对微小区进行无线网络标识配置,避免了微小 区为 UE分配相同的无线网络标识, 灵活地为微小区配置无线资源, 改善了 UE之间的干扰情况; 另外, 还可以向基站上报微小区的业务能力信息, 接收 基站的频点激活 /去激活配置信息, 对微小区执行频点激活 /去激活操作, 使得 基站可以根据微小区的业务能力信息对无线资源进行合理分配。  In the micro cell configuration method of the present invention, the radio resource configuration message sent by the base station may be configured to perform radio network identifier configuration on the micro cell according to the radio network identifier configuration information, thereby preventing the micro cell from allocating the same radio network identifier to the UE, and being flexible. The radio resources are configured for the micro cell to improve the interference between the UEs. In addition, the service capability information of the micro cell can be reported to the base station, and the frequency point activation/deactivation configuration information of the base station is received, and the frequency activation is performed on the micro cell. / Deactivation operation, so that the base station can reasonably allocate radio resources according to the service capability information of the micro cell.
图 2为本发明实施例微小区配置装置的结构框图,如图 2所示,本实施例: 接收模块 20, 用于接收基站发送的无线资源配置消息, 所述无线资源配 置消息中包括有基站指示对微小区进行无线网络资源分配和 /或无线网络资源 控制的信息;  2 is a structural block diagram of a micro cell configuration apparatus according to an embodiment of the present invention. As shown in FIG. 2, the receiving module 20 is configured to receive a radio resource configuration message sent by a base station, where the radio resource configuration message includes a base station. Information indicating wireless network resource allocation and/or wireless network resource control for the micro cell;
处理模块 21 , 用于根据所述无线资源配置消息对微小区进行无线资源配 置, 包括对微小区进行无线网络资源分配和 /或无线网络资源控制。 进一步地, 上述方案中, 所述装置还包括: The processing module 21 is configured to perform radio resource allocation on the micro cell according to the radio resource configuration message. The method includes performing wireless network resource allocation and/or wireless network resource control on the micro cell. Further, in the above solution, the device further includes:
发送模块 22, 用于向所述基站返回接收确认消息。  The sending module 22 is configured to return a receiving acknowledgement message to the base station.
其中, 所述无线资源配置消息中包括有无线网络标识配置信息, 处理模块 21用于根据所述无线网络标识配置信息对微小区进行无线网络标识配置。  The radio resource configuration message includes radio network identifier configuration information, and the processing module 21 is configured to perform radio network identifier configuration on the micro cell according to the radio network identifier configuration information.
进一步地,所述无线网络标识配置信息可以包括分配给微小区的无线网络 标识集合, 处理模块 21可以指示微小区从所述无线网络标识集合中选择分配 给用户终端的无线网络标识;所述无线网络标识配置信息还可以包括无线网络 标识的分配规则, 处理模块 21可以指示微小区根据所述分配规则为用户终端 分配无线网络标识;所述无线网络标识配置信息还可以包括无线网络标识的生 成方式, 处理模块 21可以指示微小区根据所述生成方式生成分配给用户终端 的无线网络标识, 具体地, 无线网络标识的生成方式可以是与微小区标识相关 的生成和划分方式。  Further, the wireless network identifier configuration information may include a wireless network identifier set allocated to the micro cell, and the processing module 21 may instruct the micro cell to select a radio network identifier allocated to the user terminal from the radio network identifier set; the wireless The network identifier configuration information may further include an allocation rule of the wireless network identifier, and the processing module 21 may instruct the micro cell to allocate a wireless network identifier to the user terminal according to the allocation rule. The wireless network identifier configuration information may further include a method for generating the wireless network identifier. The processing module 21 may be configured to generate a radio network identifier that is allocated to the user terminal according to the generating manner. Specifically, the generating manner of the wireless network identifier may be a generating and dividing manner related to the micro cell identifier.
进一步地, 发送模块 22还可以向基站发送微小区的业务能力信息, 所述 业务能力信息中包括有微小区所支持的频点和 /或微小区标识, 所述无线资源 配置消息中还可以包括有微小区激活和 /或去激活配置信息, 所述微小区激活 和 /或去激活配置信息中包括有微小区标识, 微小区标识可能只是对应一个微 小区, 也可能对应多个微小区, 处理模块 21可以根据所述微小区激活配置信 息对所述微小区标识对应的微小区执行频点激活操作;根据所述微小区去激活 配置信息对所述微小区标识对应的微小区执行频点去激活操作。  Further, the sending module 22 may further send the service capability information of the micro cell to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell, and the radio resource configuration message may further include There is a micro cell activation and/or deactivation configuration information, and the micro cell activation and/or deactivation configuration information includes a micro cell identifier, and the micro cell identifier may correspond to only one micro cell or may correspond to multiple micro cells. The module 21 may perform a frequency point activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information, and perform a frequency point on the micro cell corresponding to the micro cell identifier according to the micro cell deactivation configuration information. Activate the action.
进一步地, 发送模块 22还可以向基站发送微小区的业务量; 所述无线资 源配置消息中还可以包括有频点激活和 /或去激活配置信息, 所述频点激活和 / 或去激活配置信息中包括有频点标识, 频点标识可能只对应一个频点,也可能 对应多个频点, 每个频点可能对应一个微小区, 也可能对应多个微小区, 处理 模块 21可以根据所述频点激活配置信息对所述频点标识对应的微小区执行频 点激活操作,还可以根据所述频点去激活配置信息对所述微小区标识对应的微 小区执行频点去激活操作。 本发明的微小区配置装置可以位于微基站中, 也可以独立存在。在微小区 配置装置位于微基站中时,可以根据宏基站发送的无线资源配置消息对微小区 进行无线资源配置; 在微小区配置装置独立存在时,微小区配置装置还可以根 据微基站发送的无线资源配置消息对微小区进行无线资源配置。 Further, the sending module 22 may further send the traffic of the micro cell to the base station; the radio resource configuration message may further include frequency point activation and/or deactivation configuration information, the frequency point activation and/or deactivation configuration. The information includes a frequency point identifier, and the frequency point identifier may correspond to only one frequency point, or may correspond to multiple frequency points, each frequency point may correspond to one micro area, or may correspond to multiple micro areas, and the processing module 21 may The frequency point activation configuration information performs a frequency point activation operation on the micro cell corresponding to the frequency point identifier, and may perform a frequency point deactivation operation on the micro cell corresponding to the micro cell identifier according to the frequency point deactivation configuration information. The micro cell configuration device of the present invention may be located in a micro base station or may exist independently. When the micro cell configuration device is located in the micro base station, the radio resource configuration may be performed on the micro cell according to the radio resource configuration message sent by the macro base station; when the micro cell configuration device exists independently, the micro cell configuration device may further perform the radio transmission according to the micro base station. The resource configuration message performs radio resource configuration on the micro cell.
本发明实施例的微小区配置装置,接收基站发送的无线资源配置消息, 可 以根据其中的无线网络标识配置信息对微小区进行无线网络标识配置,避免了 微小区为 UE分配相同的无线网络标识, 灵活地为微小区配置无线资源, 改善 了 UE之间的干扰情况; 另外, 还可以向基站上报微小区的业务能力信息, 接 收基站的频点激活 /去激活配置信息, 对微小区执行频点激活 /去激活操作, 使 得基站可以根据微小区的业务能力信息对无线资源进行合理分配。  The micro-area configuration device of the embodiment of the present invention receives the radio resource configuration message sent by the base station, and performs radio network identifier configuration on the micro cell according to the radio network identifier configuration information therein, thereby preventing the micro cell from allocating the same radio network identifier to the UE. Flexiblely configuring radio resources for the micro cell to improve the interference between the UEs. In addition, the device can report the service capability information of the micro cell to the base station, receive the frequency activation/deactivation configuration information of the base station, and perform the frequency on the micro cell. The activation/deactivation operation enables the base station to reasonably allocate radio resources according to the service capability information of the micro cell.
本发明实施例还提供了一种微基站, 包括如上所述的微小区配置装置。 下面以微基站根据宏基站发送的无线资源配置消息对微小区进行无线资 源配置为例, 结合图 3~图 5对本发明的微小区配置方法进行进一步地介绍: 本实施例中, small cell是可配置的小区,其无线资源功能是依赖于宏基站 的。 宏基站会将无线资源配置消息发送给 small cell, 以便 small cell能够实现 无线侧的接入控制功能。 如图 3所示, 在初始化网络时, 本实施例的微小区配 置方法包括以下步骤:  The embodiment of the invention further provides a micro base station, which comprises the micro cell configuration device as described above. In the following, the micro cell is configured to perform the radio resource configuration on the micro cell according to the radio resource configuration message sent by the macro base station, and the micro cell configuration method of the present invention is further described in conjunction with FIG. 3 to FIG. 5. In this embodiment, the small cell is The configured cell has radio resource functions that depend on the macro base station. The macro base station sends a radio resource configuration message to the small cell, so that the small cell can implement the access control function on the wireless side. As shown in FIG. 3, when the network is initialized, the micro cell configuration method of this embodiment includes the following steps:
步骤 31 : 微基站接收宏基站发送的无线资源配置消息, 其中, 所述无线 资源配置消息中包括有用于 RACH ( Random Access Channel, 随机接入信道) 过程的无线网络标识的配置信息,比如 C-RNT Cell Radio Network Temporary Identifier, 小区无线网络临时标识) 的配置信息。  Step 31: The micro base station receives a radio resource configuration message sent by the macro base station, where the radio resource configuration message includes configuration information of a radio network identifier for a RACH (Random Access Channel) process, such as C- RNT Cell Radio Network Temporary Identifier configuration information.
其中, 微基站的物理实体可以是 small cell或者 small cell cluster (微小区 簇 )所在的 cluster header (簇头)。  The physical entity of the micro base station may be a cluster header in which a small cell or a small cell cluster is located.
无线网络标识的配置信息可以包含 C-RNTI ( Cell Radio Network Temporary Identifier, 小区无线网络临时标识)可配置范围的集合, 目前协议 支持一个小区可以配置 65536个 C-RNTI ( 16bit ), 该集合可以包括 65536个 C-RNTI中的一部分, 指示 small cell或者 small cell cluster只能从该集合中选 择分配给 UE的 C-RNTI; 无线网络标识的配置信息还可以为 C-RNTI的分配 规则, 比如指示 small cell 可以从最高或者最低 C-RNTI 开始为 UE 分配 C-RNTI , 以避免与 macro cell分配的 C-RNTI发生沖突; 无线网络标识的配置 信息还可以为 C-RNTI的生成方式, 比如可以为与 small cell标识相关的生成 方式, 指示 small cell根据该生成方式生成分配给用户终端的 C-RNTI; The configuration information of the wireless network identifier may include a set of configurable ranges of the C-RNTI (Cell Radio Network Temporary Identifier). Currently, the protocol supports 65,536 C-RNTIs (16 bits), and the set may include A part of 65536 C-RNTIs, indicating that a small cell or a small cell cluster can only be selected from the set. The C-RNTI allocated to the UE; the configuration information of the radio network identifier may also be an allocation rule of the C-RNTI, for example, indicating that the small cell can allocate the C-RNTI to the UE from the highest or lowest C-RNTI to avoid the macro cell. The allocated C-RNTI conflicts; the configuration information of the wireless network identifier may also be a C-RNTI generation manner, for example, a generation manner related to the small cell identifier, indicating that the small cell generates the C allocated to the user terminal according to the generation manner. -RNTI;
步骤 32: 微基站向宏基站返回接收确认消息, 该步骤为可选步骤, 微基 站可以向宏基站返回接收确认消息, 以表明自身已经接收到无线资源配置消 息;  Step 32: The micro base station returns a receiving acknowledgement message to the macro base station. The step is an optional step, and the micro base station may return a receiving acknowledgement message to the macro base station to indicate that the radio resource configuration message has been received.
步骤 33: 微基站根据无线网络标识配置信息对微小区无线资源配置, 具 体地, 可以根据无线网络标识配置信息对微小区进行无线网络标识配置。  Step 33: The micro base station configures the radio resource of the micro cell according to the radio network identifier configuration information. Specifically, the radio network identifier may be configured for the micro cell according to the radio network identifier configuration information.
在无线网络标识的配置信息为包含 C-RNTI可配置范围的集合时,微基站 指示 small cell从该集合中选择分配给 UE的 C-RNTI; 在无线网络标识的配置 信息为 C-RNTI的分配规则时,微基站指示 small cell根据该分配规则为 UE分 配 C-RNTI,避免与 macro cell分配的 C-RNTI发生沖突;在无线网络标识的配 置信息为 C-RNTI的生成方式时, 微基站指示 small cell根据该生成方式生成 分配给用户终端的 C-RNTL  When the configuration information of the radio network identifier is a set including the C-RNTI configurable range, the micro base station instructs the small cell to select the C-RNTI allocated to the UE from the set; and the configuration information of the radio network identifier is the allocation of the C-RNTI In the case of a rule, the micro-base station instructs the small cell to allocate a C-RNTI to the UE according to the allocation rule, and avoids collision with the C-RNTI allocated by the macro cell. When the configuration information of the wireless network identifier is the C-RNTI generation mode, the micro base station indicates The small cell generates a C-RNTL allocated to the user terminal according to the generation manner.
进一步地,宏基站还具有对 small cell频点进行激活和去激活的控制功能, 微基站下可能对应多个 small cell, 每个 small cell对应一个频点。 微基站可以 向宏基站上报 small cell的业务能力信息, 宏基站根据 small cell的业务能力信 息结合负载情况进行判断, 当 macro cell需要 small cell协助传输数据时,宏基 站可以将 small cell的频点进行激活; 如果 small cell下没有业务或者 UE时, 宏基站可以将 small cell的频点进行去激活。  Further, the macro base station further has a control function of activating and deactivating the small cell frequency point, and the micro base station may correspond to multiple small cells, and each small cell corresponds to one frequency point. The micro base station can report the service capability information of the small cell to the macro base station, and the macro base station judges according to the service capability information of the small cell and the load condition. When the macro cell needs the small cell to assist in transmitting data, the macro base station can perform the frequency of the small cell. Activated; If there is no service or UE in the small cell, the macro base station can deactivate the frequency of the small cell.
如图 4所示,在初始化网络时, 基站进行频点激活的过程包括以下步骤: 步骤 41 : 微基站向宏基站上报微小区的业务能力信息, 业务能力信息中 包括有微小区支持的频点和 /或微小区标识;  As shown in FIG. 4, when the network is initialized, the process of performing frequency point activation by the base station includes the following steps: Step 41: The micro base station reports the service capability information of the micro cell to the macro base station, where the service capability information includes the frequency band supported by the micro cell. And/or microcell identification;
该步骤为可选步骤,如果宏基站事先已经获知微小区的业务能力信息, 则 可以不执行该步骤。 步骤 42: 宏基站向微基站发送包括有频点激活配置信息的无线资源配置 消息, 所述频点激活配置信息中包括有微小区标识; This step is an optional step. If the macro base station has already learned the service capability information of the micro cell in advance, the step may not be performed. Step 42: The macro base station sends a radio resource configuration message including the frequency point activation configuration information to the micro base station, where the frequency point activation configuration information includes a micro cell identifier.
宏基站根据负载情况和 UE位置等因素决定对哪个 small cell进行频点激 活, 将该 small cell的标识放置在频点激活配置信息中发送给微基站, 进一步 地,所述频点激活配置信息中还可以包括 small cell支持的频点标识,或者 small cell所属 small cell cluster的标识;  The macro base station determines which small cell to activate the frequency point according to the load condition and the location of the UE, and places the identifier of the small cell in the frequency point activation configuration information and sends the identifier to the micro base station. Further, the frequency point activation configuration information is used. The frequency point identifier supported by the small cell or the identifier of the small cell cluster to which the small cell belongs may also be included;
步骤 43: 微基站向宏基站返回接收确认消息, 该步骤为可选步骤, 微基 站可以向宏基站返回接收确认消息, 以表明自身已经接收到频点激活配置信 息;  Step 43: The micro base station returns a receiving acknowledgement message to the macro base station, where the step is an optional step, and the micro base station may return a receiving acknowledgement message to the macro base station to indicate that the frequency point activation configuration information has been received by the base station;
步骤 44: 微基站根据频点激活配置信息对所述微小区标识对应的微小区 执行频点激活操作。  Step 44: The micro base station performs a frequency point activation operation on the micro cell corresponding to the micro cell identifier according to the frequency point activation configuration information.
微基站根据频点激活配置信息对 small cell所支持的频点执行激活操作, 开启 small cell, 之后即可利用该 small cell进行数据传输。 在频点激活配置信 息中还包括有 small cell所属 small cell cluster的标识时, 微基站可以首先根据 small cell cluster的标识确定 small cell cluster, 之后再从 small cell cluster中确 定 small cell, 对该 small cell执行频点激活操作。  The micro base station performs an activation operation on the frequency point supported by the small cell according to the frequency point activation configuration information, and turns on the small cell, and then the small cell can be used for data transmission. When the frequency activation configuration information includes the identifier of the small cell cluster to which the small cell belongs, the micro base station may first determine the small cell cluster according to the identifier of the small cell cluster, and then determine the small cell from the small cell cluster, and the small cell is determined to the small cell. Perform a frequency activation operation.
进一步地,在通信过程中微基站还可以向宏基站上报微小区的业务量,宏 基站可以根据微小区的业务量和负载情况决定需要频点激活和频点去激活的 small celL 其中, 对 small cell进行频点激活的过程如步骤 41~44所示。 如图 5 所示, 对 small cell进行频点去激活的过程包括以下步骤:  Further, in the communication process, the micro base station may also report the traffic of the micro cell to the macro base station, and the macro base station may determine the small celL that needs frequency activation and frequency deactivation according to the traffic volume and load condition of the micro cell, where, for the small The process of cell frequency activation is shown in steps 41~44. As shown in Figure 5, the process of frequency deactivation of small cells includes the following steps:
步骤 51 : 微基站向宏基站上报微小区的业务能力信息, 微小区的业务能 力信息包括有微小区的业务量;  Step 51: The micro base station reports the service capability information of the micro cell to the macro base station, where the service capability information of the micro cell includes the traffic volume of the micro cell.
该步骤为可选步骤,如果宏基站事先已经获知微小区的业务能力信息, 则 可以不执行该步骤。  This step is an optional step. If the macro base station has already learned the service capability information of the micro cell in advance, the step may not be performed.
步骤 52: 宏基站向微基站发送频点去激活配置信息, 所述频点去激活配 置信息中包括有微小区标识;  Step 52: The macro base station sends a frequency point deactivation configuration information to the micro base station, where the frequency point deactivation configuration information includes a micro cell identifier.
宏基站根据负载情况和微小区的业务量决定对哪个 small cell进行频点去 激活,具体地,可以在微小区下不存在 UE时, 决定对微小区进行频点去激活。 在确定到频点去激活的 small cell后, 将该 small cell的标识放置在频点去激活 配置信息中发送给 基站, 进一步地, 所述频点去激活配置信息中还可以包括 small cell支持的频点标只, 或者 small cell所属 small cell cluster的标只; The macro base station determines which small cell to go to according to the load situation and the traffic volume of the micro cell. Activation, specifically, when there is no UE under the micro cell, it is decided to perform frequency deactivation on the micro cell. After determining the small cell to be deactivated by the frequency point, the identifier of the small cell is placed in the frequency deactivation configuration information and sent to the base station. Further, the frequency deactivation configuration information may further include the support of the small cell. The frequency point is only marked, or the standard of the small cell cluster to which the small cell belongs;
步骤 53: 微基站向宏基站返回接收确认消息, 该步骤为可选步骤, 微基 站可以向宏基站返回接收确认消息,以表明自身已经接收到频点去激活配置信 息;  Step 53: The micro base station returns a receiving acknowledgement message to the macro base station. The step is an optional step. The micro base station may return a receiving acknowledgement message to the macro base station to indicate that the frequency point deactivation configuration information has been received.
步骤 54: 微基站根据频点去激活配置信息对所述微小区标识对应的微小 区执行频点去激活操作。  Step 54: The micro base station performs a frequency point deactivation operation on the micro cell corresponding to the micro cell identifier according to the frequency point deactivation configuration information.
微基站根据频点去激活配置信息对 small cell所支持的频点执行去激活操 作, 关闭 small cell, 之后不再利用该 small cell进行数据传输。 在频点去激活 配置信息中还包括有 small cell所属 small cell cluster的标识时, 微基站可以首 中确定 small cell, 对该 small cell执行频点去激活操作。  The micro base station performs a deactivation operation on the frequency point supported by the small cell according to the frequency point deactivation configuration information, and closes the small cell, and then does not use the small cell for data transmission. When the frequency deactivation configuration information includes the identifier of the small cell cluster to which the small cell belongs, the micro base station may determine the small cell in the first, and perform a frequency deactivation operation on the small cell.
本发明的技术方案中,微基站接收宏基站发送的无线资源配置消息,根据 所述无线网络标识配置信息对微小区进行无线网络标识配置,避免了微小区为 UE分配相同的无线网络标识, 改善了 UE之间的干扰情况; 另外, 微基站还 可以向宏基站上报微小区的业务能力信息,使得宏基站可以灵活地为微小区配 置无线资源, 保证了宏基站中心控制下热点小区的无线资源。  In the technical solution of the present invention, the micro base station receives the radio resource configuration message sent by the macro base station, and performs radio network identifier configuration on the micro cell according to the radio network identifier configuration information, thereby preventing the micro cell from allocating the same radio network identifier to the UE, and improving In addition, the micro base station can also report the service capability information of the micro cell to the macro base station, so that the macro base station can flexibly configure the radio resource for the micro cell, and ensure the radio resource of the hot cell under the macro base station center control. .
本发明的微小区配置方法并不局限于图 3~图 5所示的实施例, 在微小区 配置装置独立存在时,微小区配置装置还可以根据微基站发送的无线资源配置 消息对微小区进行无线资源配置, 由微基站灵活地为微小区配置无线资源。  The micro cell configuration method of the present invention is not limited to the embodiment shown in FIG. 3 to FIG. 5. When the micro cell configuration device is independent, the micro cell configuration device may further perform the micro cell according to the radio resource configuration message sent by the micro base station. Radio resource configuration, the micro base station flexibly configures radio resources for the micro cell.
此说明书中所描述的许多功能部件都被称为模块,以便更加特别地强调其 实现方式的独立性。  Many of the functional components described in this specification are referred to as modules to more particularly emphasize the independence of their implementation.
本发明实施例中, 模块可以用软件实现, 以便由各种类型的处理器执行。 举例来说,一个标识的可执行代码模块可以包括计算机指令的一个或多个物理 或者逻辑块, 举例来说, 其可以被构建为对象、 过程或函数。 尽管如此, 所标 识模块的可执行代码无需物理地位于一起,而是可以包括存储在不同物理上的 不同的指令, 当这些指令逻辑上结合在一起时, 其构成模块并且实现该模块的 规定目的。 In an embodiment of the invention, the modules may be implemented in software for execution by various types of processors. For example, an identified executable code module can comprise one or more physical or logical blocks of computer instructions, which can be constructed, for example, as an object, procedure, or function. Still, the standard The executable code of the module does not need to be physically located together, but may include different instructions stored in different physicalities that, when logically combined, constitute a module and achieve the stated purpose of the module.
实际上, 可执行代码模块可以是单条指令或者是许多条指令, 并且甚至可 以分布在多个不同的代码段上, 分布在不同程序当中, 以及跨越多个存储器设 备分布。 同样地, 操作数据可以在模块内被识别, 并且可以依照任何适当的形 式实现并且被组织在任何适当类型的数据结构内。所述操作数据可以作为单个 数据集被收集, 或者可以分布在不同位置上(包括在不同存储设备上), 并且 至少部分地可以仅作为电子信号存在于系统或网络上。  In practice, the executable code module can be a single instruction or a plurality of instructions, and can even be distributed over a plurality of different code segments, distributed among different programs, and distributed across multiple memory devices. Likewise, operational data can be identified within the module and can be implemented in any suitable form and organized within any suitable type of data structure. The operational data may be collected as a single data set, or may be distributed over different locations (including on different storage devices), and may exist, at least in part, only as an electronic signal on a system or network.
在模块可以利用软件实现时, 考虑到现有硬件工艺的水平, 所以可以以软 件实现的模块,在不考虑成本的情况下, 本领域技术人员都可以搭建对应的硬 件电路来实现对应的功能, 所述硬件电路包括常规的超大规模集成(VLSI ) 电路或者门阵列以及诸如逻辑芯片、晶体管之类的现有半导体或者是其它分立 的元件。模块还可以用可编程硬件设备, 诸如现场可编程门阵列、 可编程阵列 逻辑、 可编程逻辑设备等实现。  When the module can be implemented by software, considering the level of the existing hardware process, the module can be implemented in software, and the technician can construct a corresponding hardware circuit to implement the corresponding function without considering the cost. The hardware circuitry includes conventional Very Large Scale Integration (VLSI) circuits or gate arrays as well as existing semiconductors such as logic chips, transistors, or other discrete components. Modules can also be implemented with programmable hardware devices such as field programmable gate arrays, programmable array logic, programmable logic devices, and the like.
在本发明各方法实施例中,所述各步骤的序号并不能用于限定各步骤的先 后顺序, 对于本领域普通技术人员来讲, 在不付出创造性劳动的前提下, 对各 步骤的先后变化也在本发明的保护范围之内。  In the method embodiments of the present invention, the sequence numbers of the steps are not used to limit the sequence of the steps. For those skilled in the art, the steps of the steps are changed without any creative work. It is also within the scope of the invention.
以上所述是本发明的优选实施方式,应当指出,对于本技术领域的普通技 术人员来说,在不脱离本发明所述原理的前提下,还可以作出若干改进和润饰, 这些改进和润饰也应视为本发明的保护范围。  The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Claims

权 利 要 求 Rights request
1. 一种微小区 small cell配置方法, 其特征在于, 包括:  A micro cell small cell configuration method, which is characterized in that:
接收基站发送的无线资源配置消息,所述无线资源配置消息中包括有基站 指示对微小区进行无线网络资源分配和 /或无线网络资源控制的信息;  Receiving, by the base station, a radio resource configuration message, where the radio resource configuration message includes information indicating that the base station performs radio network resource allocation and/or radio network resource control on the micro cell;
根据所述无线资源配置消息对微小区进行无线资源配置,包括对微小区进 行无线网络资源分配和 /或无线网络资源控制。  Performing radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
2. 根据权利要求 1所述的微小区配置方法, 其特征在于, 所述接收基站 发送的无线资源配置消息之后还包括:  The micro-area configuration method according to claim 1, wherein the receiving the radio resource configuration message sent by the base station further comprises:
向所述基站返回接收确认消息。  A reception confirmation message is returned to the base station.
3.根据权利要求 1 所述的微小区配置方法, 其特征在于, 所述无线资源 配置消息中包括有无线网络标识配置信息,所述 ^据所述无线资源配置消息对 微小区进行无线资源配置包括:  The micro cell configuration method according to claim 1, wherein the radio resource configuration message includes radio network identity configuration information, and the radio resource configuration message performs radio resource configuration on the micro cell. Includes:
根据所述无线网络标识配置信息对微小区进行无线网络标识配置。  Performing wireless network identity configuration on the micro cell according to the wireless network identity configuration information.
4. 根据权利要求 3所述的微小区配置方法, 其特征在于, 所述无线网络 标识配置信息包括分配给微小区的无线网络标识集合,所述根据所述无线网络 标识配置信息对微小区进行无线网络标识配置包括:  The micro-cell configuration method according to claim 3, wherein the radio network identifier configuration information includes a radio network identifier set allocated to the micro cell, and the micro-area is performed according to the radio network identifier configuration information. The wireless network identity configuration includes:
指示微小区从所述无线网络标识集合中选择分配给用户终端的无线网络 标识。  The microcell is instructed to select a radio network identifier assigned to the user terminal from the set of radio network identifiers.
5. 根据权利要求 3所述的微小区配置方法, 其特征在于, 所述无线网络 标识配置信息包括无线网络标识的分配规则,所述根据所述无线网络标识配置 信息对微小区进行无线网络标识配置包括:  The method for configuring a micro cell according to claim 3, wherein the radio network identifier configuration information includes an allocation rule of a radio network identifier, and the radio network identifier is performed on the micro cell according to the radio network identifier configuration information. Configuration includes:
指示微小区根据所述分配规则为用户终端分配无线网络标识。  The microcell is instructed to allocate a radio network identifier to the user terminal according to the allocation rule.
6. 根据权利要求 3所述的微小区配置方法, 其特征在于, 所述无线网络 标识配置信息包括无线网络标识的生成方式,所述根据所述无线网络标识配置 信息对微小区进行无线网络标识配置包括:  The method for configuring a micro cell according to claim 3, wherein the radio network identifier configuration information includes a radio network identifier generation manner, and the radio network identifier is performed on the micro cell according to the radio network identifier configuration information. Configuration includes:
指示微 d、区根据所述生成方式生成分配给用户终端的无线网络标识。 Instructing the micro d, the area generates a wireless network identifier assigned to the user terminal according to the generating manner.
7. 根据权利要求 1-3 中任意一项所述的微小区配置方法, 其特征在于, 所述接收基站发送的无线资源配置消息之前还包括: The microcell configuration method according to any one of claims 1 to 3, characterized in that Before receiving the radio resource configuration message sent by the base station, the method further includes:
向基站发送微小区的业务能力信息,所述业务能力信息中包括有微小区所 支持的频点和 /或微小区标识。  The service capability information of the micro cell is sent to the base station, where the service capability information includes a frequency point and/or a micro cell identifier supported by the micro cell.
8. 根据权利要求 1-3 中任意一项所述的微小区配置方法, 其特征在于, 所述无线资源配置消息中包括有微小区激活和 /或去激活配置信息, 所述微小 区激活和 /或去激活配置信息中包括有微小区标识, 所述根据所述无线资源配 置消息对微小区进行无线资源配置包括:  The micro cell configuration method according to any one of claims 1 to 3, wherein the radio resource configuration message includes micro cell activation and/or deactivation configuration information, and the micro cell activation and The deactivation configuration information includes a micro cell identifier, and the radio resource configuration for the micro cell according to the radio resource configuration message includes:
根据所述微小区激活配置信息对所述微小区标识对应的微小区执行频点 激活操作; 和 /或  Performing a frequency activation operation on the micro cell corresponding to the micro cell identifier according to the micro cell activation configuration information; and/or
根据所述微小区去激活配置信息对所述微小区标识对应的微小区执行频 点去激活操作。  Performing a frequency deactivation operation on the micro cell corresponding to the micro cell identifier according to the micro cell deactivation configuration information.
9. 根据权利要求 1-3 中任意一项所述的微小区配置方法, 其特征在于, 所述无线资源配置消息中包括有频点激活和 /或去激活配置信息, 所述频点激 活和 /或去激活配置信息中包括有频点标识, 所述根据所述无线资源配置消息 对微小区进行无线资源配置包括:  The method for configuring a micro cell according to any one of claims 1 to 3, wherein the radio resource configuration message includes frequency point activation and/or deactivation configuration information, and the frequency point activation and And the deactivation configuration information includes a frequency point identifier, where the configuring, by the radio resource configuration message, the radio resource configuration of the micro area includes:
根据所述频点激活配置信息对所述频点标识对应的微小区执行频点激活 操作; 和 /或  Performing a frequency activation operation on the micro cell corresponding to the frequency point identifier according to the frequency point activation configuration information; and/or
根据所述频点去激活配置信息对所述频点标识对应的微小区执行频点去 激活操作。  Performing a frequency point deactivation operation on the micro cell corresponding to the frequency point identifier according to the frequency point deactivation configuration information.
10. 一种微小区 small cell配置装置, 其特征在于, 包括:  10. A microcell small cell configuration device, comprising:
接收模块, 用于接收基站发送的无线资源配置消息, 所述无线资源配置消 息中包括有基站指示对微小区进行无线网络资源分配和 /或无线网络资源控制 的信息;  a receiving module, configured to receive a radio resource configuration message sent by the base station, where the radio resource configuration message includes information that the base station indicates to perform radio network resource allocation and/or radio network resource control on the micro cell;
处理模块, 用于根据所述无线资源配置消息对微小区进行无线资源配置, 包括对微小区进行无线网络资源分配和 /或无线网络资源控制。  And a processing module, configured to perform radio resource configuration on the micro cell according to the radio resource configuration message, including performing radio network resource allocation and/or radio network resource control on the micro cell.
11. 根据权利要求 10所述的微小区配置装置, 其特征在于, 所述装置还 包括: 发送模块, 用于向所述基站返回接收确认消息。 The device according to claim 10, wherein the device further comprises: And a sending module, configured to return a receiving confirmation message to the base station.
12. 根据权利要求 10所述的微小区配置装置, 其特征在于, 所述接收模 块接收到的无线资源配置消息中包括以下信息中的任意一个或任意多个组合: 无线网络标识配置信息、 包括有微小区标识的微小区激活、 包括有微小区标识 的去激活配置信息、 包括有频点标识的频点激活、 包括有频点标识的去激活配 置信息。  The micro-cell configuration apparatus according to claim 10, wherein the radio resource configuration message received by the receiving module includes any one or any combination of the following information: radio network identifier configuration information, including The micro cell activation with the micro cell identifier, the deactivation configuration information including the micro cell identifier, the frequency point activation including the frequency point identification, and the deactivation configuration information including the frequency point identifier.
13. 一种微基站 small cell eNB , 其特征在于, 包括如权利要求 10-12中任 一项所述的微小区配置装置。  A micro base station small cell eNB, characterized by comprising the micro cell configuration device according to any one of claims 10-12.
PCT/CN2014/071607 2013-01-31 2014-01-28 Small cell configuration method and device, and small cell enb WO2014117720A1 (en)

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