WO2009138027A1

WO2009138027A1 - Evolution node base, method for updating the configuration data and method for checking information between evolution node bases

Info

Publication number: WO2009138027A1
Application number: PCT/CN2009/071750
Authority: WO
Inventors: 张大钧
Original assignee: 大唐移动通信设备有限公司
Priority date: 2008-05-12
Filing date: 2009-05-12
Publication date: 2009-11-19

Abstract

An evolution node base, a method for updating the configuration data and a method for checking information between evolution node bases are disclosed. The method for updating the configuration data includes: the first evolution node base transmits a request message to the second evolution node base, and the request message carries the changed configuration data; the second evolution node base updates the local configuration data. The method for checking information includes: the first evolution node base transmits a request message to the second evolution node base, and the request message is used to acquire the interference overload rate of the second evolution node base; the second evolution node base transmits a response message carrying the own interference overload rate, and the first evolution node base updates the interference overload rate of the second evolution node base stored locally. An evolution node base includes: a transmitting unit, a receiving unit, an updating unit and a storing unit. In the case of not consuming the radio interface resources, the present invention can update the configuration data between evolution node bases dynamically, reduce the scheduling failure rate of the object evolution node base, improve the handoff capability of the LTE network, increase the stability of the LTE network, and be applied widely in the LTE system.

Description

演进基站及演进基站间的配置数据更新方法和信息核查方法技术领域 Configuration data updating method and information verification method between evolved base station and evolved base station

本发明涉及无线网络长期演进技术，更具体地，涉及演进基站及演进基站间的配置数据更新方法和信息核查方法。发明背景 The present invention relates to a long term evolution technology of a wireless network, and more particularly, to a configuration data update method and an information verification method between an evolved base station and an evolved base station. Background of the invention

如图 1所示，无线网络长期演进 ( LTE, Long Term Evolution )*** 包括演进基站（ ENB, Evolution Node Base ) 21 ~ 2n和接入网关（ aGw, access Gateway )ll~lm;其中，接入网关 ll~lm是演进分组核心网（ EPC, Evolved Packet Core ) 1 的一部分，演进基站与接入网关之间的接口为 S1接口，演进基站通过接入网关与演进分组核心网 1连接， S1接口支持多个接入网关与多个演进基站交互的连接关系；演进基站之间通过 As shown in FIG. 1 , a Long Term Evolution (LTE) system includes an evolved base station (ENB) 21 ~ 2n and an access gateway (aGw, access gateway) 11 to 2; The ll~lm is part of the Evolved Packet Core (EPC). The interface between the evolved base station and the access gateway is the S1 interface. The evolved base station is connected to the evolved packet core network 1 through the access gateway. The S1 interface supports a connection relationship between multiple access gateways and multiple evolved base stations;

X2接口采用网格方式互连。 The X2 interface is interconnected in a grid.

在 LTE***中，各演进基站之间通过 X2接口建立消息，交换配置数据信息，如图 2所示，一个演进基站向另一个演进基站发送请求消息 ( X2 SETUP REQUEST ) , 收到请求消息的演进基站发送响应消息（ Χ2 SETUP RESPONSE )。 In the LTE system, each evolved base station establishes a message through the X2 interface, and exchanges configuration data information. As shown in FIG. 2, one evolved base station sends a request message (X2 SETUP REQUEST) to another evolved base station, and the request message is evolved. The base station sends a response message (Χ2 SETUP RESPONSE).

现有技术中， X2建立过程只能传送网络静态配置数据，即演进基站间的初始配置数据；当一个演进基站的配置数据发生变化时，该演进基站通过与服务小区内用户间空口实现配置数据的更新。 In the prior art, the X2 establishment process can only transmit network static configuration data, that is, initial configuration data between evolved base stations; when the configuration data of an evolved base station changes, the evolved base station implements configuration data by using air interfaces between users in the serving cell. Update.

如图 3所示， X2接口还传送负荷指示消息（ LOAD INFORMATION ), 用于传送所属频率范围内演进基站间的上行干扰负荷指示，上行干扰是服务小区内用户的过载负荷对本地演进基站的邻接演进基站产生的干扰。 As shown in FIG. 3, the X2 interface further transmits a load indication message (LOAD INFORMATION) for transmitting an uplink interference load indication between the evolved base stations in the frequency range, and the uplink interference is an adjacency of the overload load of the user in the serving cell to the local evolved base station. Evolved base station Disturb.

负荷指示消息包括干扰负荷率 (Interference Overload Indication), 干扰负荷率为用户同时占用演进基站间共用资源而产生的负荷率。这里，共用资源是同一时段内的相同频带。 The load indication message includes an interference overload rate (Interference Overload Indication), and the interference load rate is a load rate generated by the user occupying the shared resources between the evolved base stations at the same time. Here, the shared resource is the same frequency band in the same time period.

当两个演进基站间共用资源在其中一个演进基站的负荷率达到一定程度时，该演进基站向另一演进基站发送负荷指示消息；实际的网络运营过程中，会出现负荷指示消息丟失等异常情况，导致另一演进基站无法得知该演进基站的干扰负荷率，影响调度成功率。 When the load ratio of the shared resource between the two evolved base stations reaches a certain level, the evolved base station sends a load indication message to another evolved base station; in the actual network operation process, an abnormal situation such as loss of the load indication message occurs. The other evolved base station cannot know the interference load rate of the evolved base station, and affects the scheduling success rate.

由此可见，现有技术中，由于一个演进基站的某些配置数据发生变化时，邻近的演进基站无法得知这些发生改变的配制数据，将导致邻近的演进基站调度失败；而通过服务小区内用户与演进基站间空口实现配置数据的更新方法，一方面消耗很多的空口资源，另一方面无法全面反映邻近服务小区的各种工作状态，因此也限制了其使用场景。另外，当两个演进基站间共用资源在其中一个演进基站的干扰负荷率^艮高，由于关于干扰负荷率的消息丟失，而使得另一个演进基站又无法得知该演进基站的干扰负荷率时，所述另一个演进基站调度失败率增加；一个演进基站服务小区关系发生变化后，由于现有技术尚无通知另一个演进基站关于这些变化的方法，所以，另一个演进基站的调度失败率必然也会增加。发明内容 Therefore, in the prior art, when some configuration data of an evolved base station changes, the neighboring evolved base station cannot know the changed configuration data, which may cause the neighboring evolved base station to fail to be scheduled; The method for updating the configuration data of the air interface between the user and the evolved base station consumes a lot of air interface resources on the one hand, and can not fully reflect the various working states of the neighboring service cells on the other hand, thus limiting the usage scenarios thereof. In addition, when the interference load rate of the shared resource between the two evolved base stations is high, the message with the interference load rate is lost, and the other evolved base station cannot know the interference load rate of the evolved base station. The scheduling failure rate of the another evolved base station is increased. After the change of the serving cell relationship of the evolved base station, since the prior art does not notify the other evolved base station of the change, the scheduling failure rate of the other evolved base station is inevitable. Will also increase. Summary of the invention

本发明实施例提出一种演进基站间的配置数据更新方法，在不消耗空口资源的情况下，动态更新演进基站间的配置数据，降低目标演进基站的调度失败率，改善 LTE网络的切换性能。 The embodiment of the present invention provides a method for updating configuration data between evolved base stations, dynamically updating configuration data between evolved base stations without consuming air interface resources, reducing scheduling failure rate of the target evolved base station, and improving handover performance of the LTE network.

本发明实施例还提出一种演进基站间的信息核查方法，以降低目标演进基站的调度失败率，提升 LTE网络的稳定性。 The embodiment of the invention further provides an information verification method between evolved base stations to reduce the target. The scheduling failure rate of the evolved base station improves the stability of the LTE network.

本发明实施例还提供了一种演进基站，在不消耗空口资源的情况下，动态更新演进基站间的配置数据，降低目标演进基站的调度失败率，改善 LTE网络的切换性能。 The embodiment of the present invention further provides an evolved base station, which dynamically updates configuration data between evolved base stations without consuming air interface resources, reduces scheduling failure rate of the target evolved base station, and improves handover performance of the LTE network.

本发明实施例还提供了一种演进基站，以降低目标演进基站的调度失败率，提升 LTE网络的稳定性。 The embodiment of the invention further provides an evolved base station, so as to reduce the scheduling failure rate of the target evolved base station and improve the stability of the LTE network.

本发明实施例的技术方案如下： The technical solution of the embodiment of the present invention is as follows:

一种演进基站间的配置数据更新方法，所述方法包括以下步骤： al、第一演进基站改变自身配置数据后，向第二演进基站发送携带有发生改变的配置数据的请求消息； A method for updating configuration data between evolved base stations, the method includes the following steps: a, after the first evolved base station changes its own configuration data, sends a request message carrying the changed configuration data to the second evolved base station;

bl、第二演进基站接收到请求消息后，更新本地存储的发生改变的配置数据。 After receiving the request message, the second evolved base station updates the locally stored changed configuration data.

一种演进基站间的信息核查方法，所述方法包括以下步骤： An information verification method between evolved base stations, the method comprising the following steps:

a2、第一演进基站调度失败时，向第二演进基站发送获取第二演进基站干扰负荷率的请求消息； b2、第二演进基站收到请求消息后，向第一演进基站发送携带有自身干扰负荷率的响应消息； And sending a request message for acquiring a second evolved base station interference load rate to the second evolved base station; After receiving the request message, the second evolved base station sends a response message carrying the self-interference load rate to the first evolved base station;

c2、第一演进基站收到响应消息后，更新本地存储的第二演进基站干扰负荷率。 C2: After receiving the response message, the first evolved base station updates the locally stored second evolved base station interference load rate.

一种演进基站，所述演进基站作为第一演进基站包括发送单元；所述发送单元，用于发送携带有发生改变的配置数据的请求信息。一种演进基站，所述演进基站作为第二演进基站包括接收单元、更新单元和存储单元；其中， An evolved base station, where the evolved base station includes a sending unit as the first evolved base station, and the sending unit is configured to send request information that carries the changed configuration data. An evolved base station, where the evolved base station includes, as a second evolved base station, a receiving unit, a updating unit, and a storage unit;

所述接收单元，用于接收所述携带有发生改变的配置数据的请求信息； The receiving unit is configured to receive the request information that carries the changed configuration data;

所述更新单元，用于接收所述接收单元发送的发生改变的配置数据，将第二演进基站本地存储的发生改变前的配置数据更新为发生改变的配置数据； The updating unit is configured to receive the changed configuration data sent by the receiving unit, and update the pre-change configuration data stored locally by the second evolved base station to the changed configuration data;

所述存储单元，用于存储更新后的发生改变的配置数据。 The storage unit is configured to store updated configuration data that has changed.

一种演进基站，所述演进基站至少包括：发送单元、接收单元、更新单元和存储单元；其中， An evolved base station, where the evolved base station includes at least: a sending unit, a receiving unit, a updating unit, and a storage unit;

所述发送单元，用于将所述演进基站作为第一演进基站，发送携带有发生改变的配置数据的请求信息； The sending unit is configured to send, by using the evolved base station, as the first evolved base station, request information that carries the changed configuration data;

所述接收单元，用于将所述演进基站作为第二演进基站，接收所述携带有发生改变的配置数据的请求信息； The receiving unit is configured to use the evolved base station as the second evolved base station, and receive the request information that carries the changed configuration data;

所述更新单元，用于将所述演进基站作为第二演进基站，所述更新单元接收所述接收单元发送的发生改变的配置数据，将第二演进基站本地存储的发生改变前的配置数据更新为发生改变的配置数据； The updating unit is configured to use the evolved base station as a second evolved base station, where the update unit receives the changed configuration data sent by the receiving unit, and updates the configuration data before the change that is locally stored by the second evolved base station. Configuration data for changes;

所述存储单元，用于将所述演进基站作为第二演进基站，存储更新后的发生改变的配置数据。一种演进基站，所述演进基站作为第一演进基站，包括发送单元、接收单元、第一更新单元和存储单元；其中， The storage unit is configured to store, by using the evolved base station as a second evolved base station, updated configuration data that is changed. An evolved base station, where the evolved base station is a first evolved base station, including a sending unit, a receiving unit, a first updating unit, and a storage unit;

所述发送单元，用于发送获取第二演进基站干扰负荷率的请求消息；所述接收单元，用于接收携带有第二演进基站干扰负荷率的响应消息； The sending unit is configured to send a request message for acquiring a second evolved base station interference load rate, and the receiving unit is configured to receive a response message that carries a second evolved base station interference load rate;

所述第一更新单元，用于接收所述接收单元发送的第二演进基站干扰负荷率，将第一演进基站本地存储的第二基站干扰负荷率更新为接收的第二演进基站干扰负荷率； The first update unit is configured to receive a second evolved base station interference load rate sent by the receiving unit, and update a second base station interference load rate stored locally by the first evolved base station to a received second evolved base station interference load rate;

所述存储单元，用于存储更新后的第二演进基站干扰负荷率。 The storage unit is configured to store the updated second evolved base station interference load rate.

一种演进基站，所述演进基站作为第二演进基站，包括接收单元和发送单元；其中， An evolved base station, where the evolved base station is a second evolved base station, including a receiving unit and a sending unit;

所述接收单元，用于接收第一演进基站发送的获取第二演进基站干扰负荷率的请求消息； The receiving unit is configured to receive a request message that is sent by the first evolved base station to obtain a second evolved base station interference load rate;

所述发送单元，用于在收到第一演进基站发送的获取第二演进基站干扰负荷率的请求消息后，向第一演进基站发送携带有第二演进基站干 •I尤负荷率的响应消息。 The sending unit is configured to: after receiving the request message for acquiring the second evolved base station interference load rate sent by the first evolved base station, send, to the first evolved base station, a response message carrying the second evolved base station dry load I load ratio .

一种演进基站，所述演进基站包括发送单元、接收单元、第一更新单元和存储单元；其中， An evolved base station, where the evolved base station includes a sending unit, a receiving unit, a first updating unit, and a storage unit;

所述发送单元，用于将所述演进基站作为第一演进基站发送获取第二演进基站干扰负荷率的请求消息；或者将所述演进基站作为第二演进基站，在收到第一演进基站发送的获取第二演进基站干扰负荷率的请求消息后，向第一演进基站发送携带有第二演进基站干扰负荷率的响应消息； The sending unit is configured to send, by using the evolved base station, a request message for acquiring a second evolved base station interference load rate, as the first evolved base station, or send the evolved base station as a second evolved base station, and send the first evolved base station to receive After obtaining the request message of the second evolved base station interference load rate, sending a response message carrying the second evolved base station interference load rate to the first evolved base station;

所述接收单元，用于将所述演进基站作为第二演进基站接收获取第二演进基站干扰负荷率的请求消息，或者将所述演进基站作为第一演进基站接收携带有第二演进基站干扰负荷率的响应消息；所述第一更新单元，用于将所述演进基站作为第一演进基站，所述第一更新单元收到所述接收单元发送的第二演进基站负荷干扰率后，将第一演进基站本存储的第二基站干扰负荷率更新为接收的第二演进基站干扰负荷率； The receiving unit is configured to receive, as the second evolved base station, a request message for acquiring a second evolved base station interference load rate, or use the evolved base station as the first evolution Receiving, by the base station, a response message carrying a second evolved base station interference load rate; the first update unit, configured to use the evolved base station as a first evolved base station, where the first update unit receives the After the base station load interference rate is evolved, the second base station interference load rate stored in the first evolved base station is updated to the received second evolved base station interference load rate;

所述存储单元，用于将所述演进基站作为第一演进基站存储更新后的第二演进基站干扰负荷率。 The storage unit is configured to store the updated second base station interference load rate by using the evolved base station as the first evolved base station.

从上述技术方案中可以看出，在本发明实施例中，第一演进基站配置数据发生改变后，通过 X2接口的重新配置过程，第二演进基站获得发生改变的配置数据，并更新本地存储的发生改变的配置数据，这样，不必通过空口就可动态更新发生改变的配置数据，降低目标演进基站的调度失败率，改善 LTE网络的切换性能，避免了空口资源的消耗。 As shown in the foregoing technical solution, in the embodiment of the present invention, after the configuration data of the first evolved base station is changed, the second evolved base station obtains the changed configuration data by using the reconfiguration process of the X2 interface, and updates the locally stored The changed configuration data is generated, so that the changed configuration data can be dynamically updated without the air interface, the scheduling failure rate of the target evolved base station is reduced, the handover performance of the LTE network is improved, and the consumption of the air interface resources is avoided.

另外，第一演进基站调度失败后，主动获取第二演进基站的干扰负荷率，避免了由于第二演进基站主动发送的关于干扰负荷率的消息丟失而导致调度失败的被动状况，降低了第一演进基站调度失败率；还根据获取的第二演进基站服务小区关系，进一步降低了自身调度失败率，提升 LTE网络的稳定性。附图简要说明 In addition, after the scheduling failure of the first evolved base station, the interference load rate of the second evolved base station is actively acquired, and the passive condition of the scheduling failure caused by the message loss of the interference load rate actively sent by the second evolved base station is avoided, and the first situation is reduced. The scheduling failure rate of the evolved base station is further reduced according to the acquired relationship of the serving cell of the second evolved base station, and the stability of the LTE network is improved. BRIEF DESCRIPTION OF THE DRAWINGS

图 1为无线网络长期演进***的结构组成示意图； FIG. 1 is a schematic structural diagram of a wireless network long-term evolution system;

图 2为演进基站通过 X2接口建立消息过程示意图； 2 is a schematic diagram of a process of establishing a message by an evolved base station through an X2 interface;

图 3为演进基站通过 X2接口传送负荷指示消息的过程示意图；图 4为本发明所述演进基站间一种配置数据更新方法流程图；图 5为本发明所述实施例一的组成结构示意图； 3 is a schematic diagram of a process of transmitting a load indication message by an evolved base station through an X2 interface; FIG. 4 is a flowchart of a method for updating configuration data between evolved base stations according to the present invention; FIG.

图 6为本发明所述演进基站间配置数据更新过程示意图；图 7为本发明所述演进基站间配置数据更新方法的第二演进基站的一种组成结构示意图； 6 is a schematic diagram of a process of updating configuration data between evolved base stations according to the present invention; FIG. 7 is a schematic structural diagram of a second evolved base station according to the method for updating configuration data between evolved base stations according to the present invention; FIG.

图 8为本发明所述演进基站间配置数据更新方法的第二演进基站的另一种组成结构示意图； FIG. 8 is a schematic structural diagram of another structure of a second evolved base station according to the method for updating configuration data between evolved base stations according to the present invention; FIG.

图 9为本发明所述演进基站间配置数据更新方法的演进基站的一种结构组成示意图； 9 is a schematic structural diagram of an evolved base station of an evolved inter-base station configuration data update method according to the present invention;

图 10 为本发明所述演进基站间配置数据更新方法的演进基站的另一种结构组成示意图； 10 is a schematic structural diagram of another structure of an evolved base station according to the method for updating configuration data between evolved base stations according to the present invention;

图 11为本发明所述演进基站间的信息核查方法流程图； 11 is a flowchart of an information verification method between evolved base stations according to the present invention;

图 12 为本发明所述演进基站间信息核查方法的第一演进基站的一种结构组成示意图； 12 is a schematic structural diagram of a first evolved base station of an evolved inter-base station information verification method according to the present invention;

图 13 为本发明所述演进基站间信息核查方法的第一演进基站的另一种结构组成示意图； 13 is a schematic structural diagram of another structure of a first evolved base station according to the method for verifying information between evolved inter-base stations according to the present invention;

图 14 为本发明所述演进基站间信息核查方法的第二演进基站的一种结构组成示意图； 14 is a schematic structural diagram of a second evolved base station of an evolved inter-base station information verification method according to the present invention;

图 15 为本发明所述演进基站间信息核查方法的演进基站的一种结构组成示意图； 15 is a schematic structural diagram of an evolved base station of an evolved inter-base station information verification method according to the present invention;

图 16 为本发明所述演进基站间信息核查方法的演进基站的另一种结构组成示意图。实施本发明的方式 FIG. 16 is a schematic diagram of another structural composition of an evolved base station according to the method for verifying information between evolved inter-base stations according to the present invention. Mode for carrying out the invention

为使本发明的目的、技术方案和优点表达得更加清楚明白，下面结合附图及具体实施例对本发明再作进一步详细的说明。 The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

图 4为本发明所述演进基站间一种配置数据更新方法流程图。如图 4所示，本发明所述的一种演进基站间的配置数据更新方法包括以下步骤： 4 is a flowchart of a method for updating configuration data between evolved base stations according to the present invention. As shown in FIG. 4, a configuration data update method package between evolved base stations according to the present invention is shown in FIG. Including the following steps:

步骤 al、第一演进基站改变自身配置数据后，向第二演进基站发送携带有发生改变的配置数据的请求消息； Step a, after the first evolved base station changes its own configuration data, sends a request message carrying the changed configuration data to the second evolved base station;

所述发生改变的配置数据为服务小区修改信息，所述服务小区修改信息为第一演进基站辖区内发生改变的配置数据，包括小区标识，还可包括物理层标识、频率；所述小区标识为所述配置数据发生修改的服务小区的新标识；所述物理层标识为所述配置数据发生修改的服务小区物理层的新标识；所述频率为所述配置数据发生修改的服务小区所属新的中心频点或频带。 The changed configuration data is the serving cell modification information, where the serving cell modification information is configuration data that is changed in the jurisdiction of the first evolved base station, including the cell identifier, and may further include a physical layer identifier and a frequency; a new identifier of the serving cell in which the configuration data is modified; the physical layer identifier is a new identifier of the physical layer of the serving cell where the configuration data is modified; and the frequency is a new service cell to which the configuration data is modified. Center frequency or frequency band.

所述发生改变的配置数据还包括新增服务小区的信息，包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为新增服务小区的物理层标识，用于测量第二演进基站与新增服务小区用户间空口的物理层；所述小区标识为新增服务小区的标识；所述跟踪小区标识为新增服务小区用户当前所在的漫游小区的标识；所述运营商为新增服务小区所属运营商；所述运营商标识为新增服务小区所属运营商标识；所述频率为新增服务小区所属中心频点或频带。 The changed configuration data further includes information of the newly added serving cell, including a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency; and the physical layer identifier is a physical layer of the newly added serving cell. And a physical layer that is used to measure an air interface between the second evolved base station and the newly added serving cell user; the cell identifier is an identifier of the newly added serving cell; and the tracking cell identifier is a roaming cell where the newly added serving cell user is currently located. The operator is an operator to which the new serving cell belongs; the operator identifier is an operator identifier of the newly added serving cell; the frequency is a central frequency point or frequency band to which the new serving cell belongs.

所述发生改变的配置数据还包括修改服务小区的信息，包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为修改服务小区的物理层标识，用于测量第二演进基站与修改服务小区用户间空口的物理层；所述小区标识为修改服务小区的标识；所述跟踪小区标识为修改服务小区用户当前所在的漫游小区的标识；所述运营商为修改服务小区所属运营商；所述运营商标识为修改服务小区所属的运营商标识；所述频率为修改服务小区所属的中心频点或频带。 The changed configuration data further includes: modifying the information of the serving cell, including a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency; and the physical layer identifier is a physical layer identifier of the modified serving cell, a physical layer for measuring an air interface between the second evolved base station and the user of the modified serving cell; the cell identifier is an identifier of the modified serving cell; the tracking cell identifier is an identifier of the roaming cell where the user of the serving cell is currently located; The quotient is to modify the operator to which the serving cell belongs; the operator identifier is to modify the operator identifier to which the serving cell belongs; the frequency is to modify the central frequency point or frequency band to which the serving cell belongs.

所述改变的配置数据还包括删除服务小区的信息，它标示第一演进基站辖区内被删除或闭塞的服务小区信息，用于消除第二演进基站对所述服务小区的切换；所述删除服务小区的信息包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为删除务小区的物理层标识，用于测量第二演进基站与删除月良务小区用户间空口的物理层；所述小区标识为删除服务小区的标识；所述跟踪小区标识为删除服务小区用户当前所在的漫游小区的标识；所述运营商为删除服务小区所属运营商；所述运营商标识为删除服务小区所属的运营商标识；所述频率为删除服务小区所属的中心频点或频带。 The changed configuration data further includes information for deleting the serving cell, which indicates the deleted or blocked serving cell information in the jurisdiction of the first evolved base station, and is used to eliminate the second evolved base station The switching of the serving cell includes: a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency; and the physical layer identifier is a physical layer identifier of the deleted serving cell, where And measuring a physical layer of the air interface between the second evolved base station and the user that deletes the monthly service cell; the cell identifier is an identifier of the deleted serving cell; the tracking cell identifier is an identifier of the roaming cell where the user of the serving cell is currently deleted; The quotient is to delete the operator to which the serving cell belongs; the operator identifier is to delete the operator identifier to which the serving cell belongs; and the frequency is to delete the center frequency or frequency band to which the serving cell belongs.

步骤 bl、第二演进基站接收到请求消息后，更新本地存储的发生改变的配置数据。 Step bl: After receiving the request message, the second evolved base station updates the locally stored changed configuration data.

经过步骤 al~bl后，完成了第一演进基站与第二演进基站间发生改变的配置数据的更新。 After the steps al~bl, the configuration data of the change between the first evolved base station and the second evolved base station is updated.

步骤 bl之后还包括如下步骤： Step bl also includes the following steps:

第二演进基站接收到请求消息后，向第一演进基站发送响应消息。随着网络的动态优化，需根据实际需要修改物理层标识、中心频点和 /或带宽等的取值，如：由于物理层标识取值范围的限制，可能在无线接入网（RAN, Ratio Access Network ) 内发生标识（ID ) 沖突，因此, 需要重新确定服务小区的物理层标识的取值。 After receiving the request message, the second evolved base station sends a response message to the first evolved base station. With the dynamic optimization of the network, you need to modify the values of the physical layer identifier, the center frequency, and/or the bandwidth according to the actual requirements. For example, the radio access network (RAN, Ratio) may be limited due to the limitation of the physical layer identifier. An identification (ID) conflict occurs within the Access Network. Therefore, the value of the physical layer identifier of the serving cell needs to be re-determined.

实施例一 Embodiment 1

图 5为本发明所述实施例一的组成结构示意图。 FIG. 5 is a schematic structural diagram of a first embodiment of the present invention.

如图 5所示， A演进基站和 B演进基站为相邻基站， A演进基站管辖的服务小区为 Al ~ Am, B演进基站管辖的服务小区为 Bl ~ Bn, 月良务小区 A1和服务小区 B1为邻近服务小区。其中，服务小区 A1为已有的服务小区，且该服务小区的配置数据未发生任何改变；服务小区 A2 ~ A5的配置数据发生过修改：服务小区 A2、服务小区 A4和服务小区 A5 的小区标识发生修改，服务小区 A3的物理层标识发生修改，服务小区 A4的频率发生修改；服务小区 A6为新增服务小区，服务小区 A7为删除服务小区。 As shown in FIG. 5, the A evolved base station and the B evolved base station are neighboring base stations, and the serving cell under the jurisdiction of the A evolved base station is Al ~ Am, and the serving cell under the B evolved base station is Bl ~ Bn, the monthly good service cell A1 and the serving cell B1 is a neighboring serving cell. The serving cell A1 is an existing serving cell, and the configuration data of the serving cell has not changed; the configuration data of the serving cell A2 ~ A5 has been modified: the cell identifier of the serving cell A2, the serving cell A4, and the serving cell A5 The modification occurs, the physical layer identifier of the serving cell A3 is modified, and the serving cell The frequency of A4 is modified; the serving cell A6 is a new serving cell, and the serving cell A7 is a deleting serving cell.

当 A演进基站改变了自身的配置数据时， A演进基站与 B演进基站间的配置数据更新过程。图 6为本发明所述演进基站间配置数据更新过程示意图。 When the A evolved base station changes its own configuration data, the configuration data update process between the A evolved base station and the B evolved base station. FIG. 6 is a schematic diagram of a process of updating configuration data between evolved base stations according to the present invention.

如图 6所示，包括如下步骤： As shown in Figure 6, the following steps are included:

步骤 1、当 A演进基站改变了自身的配置数据后，向 B演进基站发送包含有发生改变的配置数据的请求信息； Step 1. After the A evolved base station changes its configuration data, sends a request information including the changed configuration data to the B evolved base station;

所述请求信息包括的内容如表 1所示： The content of the request information includes as shown in Table 1:

表 1 Table 1

其中，所述消息类型标示请求消息的标识、类型和属性；所述新增服务小区为服务小区 A6; 所述服务小区信息为服务小区 A6的信息；所述修改服务小区为配置数据发生过修改的服务小区 A2 ~ A5; 所述服务小区修改信息为服务小区 A2 ~ A5中发生修改的配置数据；所述删除服务小区为服务小区 A7; 所述小区标识为 A演进基站内的服务小区的标识。 The message type indicates an identifier, a type, and an attribute of the request message; The serving cell is the serving cell A6; the serving cell information is the information of the serving cell A6; the modified serving cell is the serving cell A2 ~ A5 whose configuration data has been modified; and the serving cell modification information is in the serving cell A2 ~ A5 The modified configuration data occurs; the deleted serving cell is the serving cell A7; and the cell identifier is the identifier of the serving cell in the A evolved base station.

服务小区信息标示了服务小区的配置数据，包括内容如表 2所示： The serving cell information indicates the configuration data of the serving cell, including the contents shown in Table 2:

表 2 Table 2

其中，所述物理层标识为 A演进基站内服务小区的物理层标识，用于测量 A演进基站与服务小区用户间空口的物理层；所述跟踪小区标识为 A演进基站内服务小区内用户当前所在的漫游小区的标识；所述小区标识为 A演进基站辖区内的服务小区的标识；所述运营商为 A演进基站辖区内服务小区所属运营商；所述运营商标识为 A演进基站辖区内服务小区所属运营商标识；所述频率为 A演进基站辖区内服务小区所属中心频点和 /或带宽。 The physical layer identifier is a physical layer identifier of the serving cell in the A evolved base station, and is used to measure a physical layer of an air interface between the A evolved base station and the serving cell user; the tracking cell identifier is a current user in the serving cell in the A evolved base station. The identifier of the roaming cell where the cell is located; the cell identifier is the identifier of the serving cell in the area of the A- evolved base station; the operator is the operator of the serving cell in the area of the A- evolved base station; the identifier of the operator is in the area of the A- evolved base station The carrier identifier of the serving cell; the frequency is the central frequency and/or bandwidth of the serving cell in the area where the A evolved base station is located.

本实施例一中，所述服务小区修改信息包括如表 3所示的内容：域名状态取值范围描述小区标识必选 In the first embodiment, the serving cell modification information includes the content shown in Table 3: Domain name value range Description Cell ID Required

物理层标识可选 Physical Cell ID Physical layer ID Optional Physical Cell ID

Center frequency and/or 频率可选 Center frequency and/or frequency optional

frequency band 表 3 Frequency band Table 3

其中，所述小区标识为服务小区 A2、服务小区 A4和服务小区 A5 的新标识；所述物理层标识为服务小区 A3物理层的新标识；所述频率为服务小区 A4所属新的中心频点和 /或频带。 The cell identifier is a new identifier of the serving cell A2, the serving cell A4, and the serving cell A5; the physical layer identifier is a new identifier of the physical layer of the serving cell A3; the frequency is a new central frequency point to which the serving cell A4 belongs. And / or frequency band.

本实施例一中，删除服务小区 A7为 A演进基站辖区内被删除或闭塞的服务小区，屏蔽了 B演进基站对 A演进基站内删除服务小区 A7的切换尝试。删除服务小区 A7的信息包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为删除服务小区 A7的物理层标识，用于测量第二演进基站与删除服务小区 A7用户间空口的物理层；所述小区标识为删除服务小区 A7的标识；所述跟踪小区标识为删除月良务小区 A7用户当前所在的漫游小区的标识；所述运营商为删除服务小区 A7所属运营商；所述运营商标识为删除服务小区 A7 所属的运营商标识；所述频率为删除服务小区 A7所属的中心频点或频带。 In the first embodiment, the deleted serving cell A7 is a deleted or blocked serving cell in the A- evolved base station jurisdiction, and the B-transition base station is blocked from the handover attempt of deleting the serving cell A7 in the A- evolved base station. The information of the deleted serving cell A7 includes a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency. The physical layer identifier is a physical layer identifier of the deleted serving cell A7, and is used to measure the second evolved base station and Deleting the physical layer of the air interface between the user A7 users; the cell identifier is the identifier of the deleted serving cell A7; the tracking cell identifier is the identifier of the roaming cell where the A7 user of the monthly service cell is deleted; the operator is deleted The operator of the serving cell A7 belongs to the operator; the operator identifier is the carrier identifier to which the serving cell A7 belongs; and the frequency is the center frequency or frequency band to which the serving cell A7 belongs.

步骤 2、 B演进基站接收到请求消息后，更新 B演进基站本地存储的发生改变的配置数据； Step 2: After receiving the request message, the B evolved base station updates the configuration data of the locally stored change of the B evolved base station;

步骤 3、 B演进基站接收到请求消息后，还向 A演进基站发送响应消息。 Step 3: After receiving the request message, the B evolved base station sends a response message to the A evolved base station.

实际应用中，配置数据更新方法也可以不包括步骤 3。 In practical applications, the configuration data update method may not include step 3.

本实施例一中， A演进基站改变自身的配置数据的方法为现有技术，不再赘述。 In the first embodiment, the method for the A evolved base station to change its own configuration data is prior art. No longer.

一种演进基站，它作为第一演进基站包括发送单元；所述发送单元用于发送携带有发生改变的配置数据的请求信息。 An evolved base station, which includes a transmitting unit as a first evolved base station; and the sending unit is configured to send request information that carries configuration data that has changed.

图 7为本发明所述演进基站间配置数据更新方法的第二演进基站的一种组成结构示意图。 FIG. 7 is a schematic structural diagram of a second evolved base station of an evolved inter-base station configuration data update method according to the present invention.

如图 7所示，一种演进基站，它作为第二演进基站包括接收单元 21、更新单元 22和存储单元 23; 其中， As shown in FIG. 7, an evolved base station, as a second evolved base station, includes a receiving unit 21, an updating unit 22, and a storage unit 23;

所述接收单元 21 ,用于接收所述携带有发生改变的配置数据的请求信息； The receiving unit 21 is configured to receive the request information that carries configuration data that has changed;

所述更新单元 22, 用于接收所述接收单元 21发送的发生改变的配置数据，将第二演进基站本地存储的发生改变前的配置数据更新为发生改变的配置数据； The updating unit 22 is configured to receive the changed configuration data sent by the receiving unit 21, and update the pre-change configuration data stored locally by the second evolved base station to the changed configuration data.

所述存储单元 23 , 用于存储更新后的发生改变的配置数据。 The storage unit 23 is configured to store updated configuration data that has changed.

图 8为本发明所述演进基站间配置数据更新方法的第二演进基站的另一种组成结构示意图。 FIG. 8 is a schematic diagram of another component structure of a second evolved base station according to the method for updating configuration data between evolved base stations according to the present invention.

如图 8所示，所述演进基站作为第二演进基站还包括发送单元 24, 所述发送单元 24接收到所述接收单元 21发送的携带有发生改变的配置数据的请求信息后，用于发送响应消息。 As shown in FIG. 8 , the evolved base station, as the second evolved base station, further includes a sending unit 24, where the sending unit 24 receives the request information that is sent by the receiving unit 21 and carries the changed configuration data, and is used for sending Response message.

图 9为本发明所述演进基站间配置数据更新方法的演进基站的一种结构组成示意图。 FIG. 9 is a schematic structural diagram of an evolved base station of an evolved inter-base station configuration data update method according to the present invention.

如图 9所示，一种演进基站，包括发送单元 81、接收单元 82、更新单元 83和存储单元 84; 其中， As shown in FIG. 9, an evolved base station includes a transmitting unit 81, a receiving unit 82, a updating unit 83, and a storage unit 84;

所述发送单元 81 , 用于将所述演进基站作为第一演进基站，发送携带有发生改变的配置数据的请求信息； The sending unit 81 is configured to send the evolved base station as the first evolved base station, and send request information that carries the changed configuration data.

所述接收单元 82, 用于将所述演进基站作为第二演进基站，接收所述携带有发生改变的配置数据的请求信息； The receiving unit 82 is configured to use the evolved base station as a second evolved base station, and receive the Determining request information carrying configuration data that has changed;

所述更新单元 83 , 用于将所述演进基站作为第二演进基站，所述更新单元 83接收所述接收单元 82发送的发生改变的配置数据，将第二演进基站本地存储的发生改变前的配置数据更新为发生改变的配置数据；所述存储单元 84, 用于将所述演进基站作为第二演进基站，存储更新后的发生改变的配置数据。 The updating unit 83 is configured to use the evolved base station as the second evolved base station, and the update unit 83 receives the changed configuration data sent by the receiving unit 82, and stores the second evolved base station locally before the change occurs. The configuration data is updated to the changed configuration data. The storage unit 84 is configured to store the updated configuration data as the second evolved base station.

图 10 为本发明所述演进基站间一种配置数据更新方法演进基站的另一种结构组成示意图。 FIG. 10 is a schematic diagram of another structural composition of an evolved base station for a configuration data update method between evolved base stations according to the present invention.

如图 10所示，所述演进基站作为第二演进基站，收到所述携带有发生改变的配置数据的请求信息后，所述演进基站的发送单元 81 还用于发送响应消息。 As shown in FIG. 10, after the evolved base station as the second evolved base station receives the request information carrying the changed configuration data, the transmitting unit 81 of the evolved base station is further configured to send a response message.

图 11为本发明所述演进基站间的信息核查方法流程图。 FIG. 11 is a flowchart of an information verification method between evolved base stations according to the present invention.

如图 11 所示，本发明所述的一种演进基站间的信息核查方法包括如下步骤： As shown in FIG. 11, an information verification method between evolved base stations according to the present invention includes the following steps:

a2、第一演进基站调度失败时，向第二演进基站发送获取第二演进基站干扰负荷率的请求消息； A2. When the first evolved base station fails to be scheduled, send a request message for acquiring a second evolved base station interference load rate to the second evolved base station;

所述干扰负荷率的含义与现有技术相同，不再赘述。 The meaning of the interference load rate is the same as that of the prior art, and will not be described again.

b2、第二演进基站收到请求消息后，向第一演进基站发送携带有自身干扰负荷率的响应消息； After receiving the request message, the second evolved base station sends a response message carrying the self-interference load rate to the first evolved base station;

步骤 b2中，所述响应消息还包括第二演进基站服务小区关系信息，则，步骤 c2还包括如下步骤： In the step b2, the response message further includes the second evolved base station serving cell relationship information, and the step c2 further includes the following steps:

更新第一演进基站本地存储的第二演进基站服务小区关系信息。这里，所述服务小区关系信息包括第二演进基站辖区内的服务小区数目、各服务小区间的连接关系、各服务小区信息以及各服务小区的工作状态 (Resource Status Indication) , 每个服务小区的工作状态包括新增、正常、修改或不可用，服务小区信息与服务小区的工作状态——对应。 Updating the second evolved base station serving cell relationship information locally stored by the first evolved base station. Here, the serving cell relationship information includes a serving cell in a jurisdiction of a second evolved base station Number, connection relationship between each serving cell, information of each serving cell, and Resource Status Indication of each serving cell, the working status of each serving cell includes new, normal, modified or unavailable, serving cell information and services The working state of the community - corresponding.

如果第二演进基站内服务小区的工作状态为新增，则对应新增的服务小区信息包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频；所述物理层标识为新增服务小区的物理层标识，用于测量第二演进基站与新增服务小区用户间空口的物理层；所述小区标识为新增服务小区的标识；所述跟踪小区标识为新增服务小区用户当前所在的漫游小区的标识；所述运营商为新增服务小区所属运营商；所述运营商标识为新增服务小区所属运营商的标识；所述频率为新增服务小区所属的中心频点或频带。 If the working status of the serving cell in the second evolved base station is new, the corresponding new serving cell information includes a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency; Adding a physical layer identifier of the serving cell, and measuring a physical layer of the air interface between the second evolved base station and the newly added serving cell user; the cell identifier is an identifier of the newly added serving cell; and the tracking cell identifier is a newly added serving cell The identifier of the roaming cell to which the user is currently located; the operator is the operator to which the new serving cell belongs; the identifier of the operator is the identifier of the operator to which the new serving cell belongs; the frequency is the center frequency of the newly added serving cell Point or band.

如果第二演进基站内服务小区的工作状态为修改，则对应修改的服务小区信息包括服务小区修改信息，所述服务小区修改信息包括小区标识，还可包括物理层标识和 /或频率；所述小区标识为所述修改服务小区修改后的标识；所述物理层标识为修改服务小区物理层的修改后的标识；所述频率为修改服务小区所属修改后的中心频点或频带。 If the working state of the serving cell in the second evolved base station is modified, the corresponding modified serving cell information includes serving cell modification information, where the serving cell modification information includes a cell identifier, and may further include a physical layer identifier and/or a frequency; The cell identifier is the modified identifier of the modified serving cell; the physical layer identifier is a modified identifier that modifies the physical layer of the serving cell; and the frequency is a modified center frequency point or frequency band to which the serving cell belongs.

随着网络的动态优化，需根据实际需要修改物理层标识、频率等的取值，如：由于物理层标识取值范围的限制，可能在无线接入网（RAN, Ratio Access Network ) 内发生标识（ ID )沖突，因此,需要重新确定服务小区的物理层标识的取值。 As the network is dynamically optimized, you need to modify the value of the physical layer identifier and the frequency according to the actual requirements. For example, the identifier of the physical layer identifier may be identified in the radio access network (RAN, Ratio Access Network). (ID) conflict, therefore, the value of the physical layer identifier of the serving cell needs to be re-determined.

实施例二 Embodiment 2

本发明所述实施例二的组成结构与如图 5所示的组成结构相同。 A 演进基站和 B演进基站为相邻基站， A演进基站管辖的服务小区为 Al ~ Am, B演进基站管辖的服务小区为 Bl ~ Bn, 服务小区 A1和服务小区 B1为邻近服务小区。假设 A演进基站和 B演进基站的共用资源为从八点开始的三十分钟内的 60赫兹到 83赫兹的频带。 The composition of the second embodiment of the present invention is the same as the composition shown in FIG. 5. The A evolved base station and the B evolved base station are neighboring base stations, and the serving cell governed by the A evolved base station is Al ~ Am, and the serving cell under the B evolved base station is Bl ~ Bn, and the serving cell A1 and the serving cell B1 are neighboring serving cells. It is assumed that the shared resources of the A evolved base station and the B evolved base station are from eight. The band from 60 Hz to 83 Hz in the first 30 minutes.

A演进基站和 B演进基站正常运行时，都可获取自身的干扰负荷率，获取方法为现有技术，此处不再赘述。相邻演进基站间，当其中一个演进基站的干扰负荷率达到 90 %时，向另一个演进基站发送负荷指示消息。本实施例二中， A演进基站向 B演进基站发送负荷指示消息，负荷指示消息的内容如表 4所示： When the A- evolved base station and the B-evolved base station are in normal operation, the interference load rate can be obtained. The method for obtaining the interference is the prior art, and is not described here. Between adjacent evolved base stations, when the interference load rate of one of the extended base stations reaches 90%, a load indication message is sent to another evolved base station. In the second embodiment, the A evolved base station sends a load indication message to the B evolved base station, and the contents of the load indication message are as shown in Table 4:

表 4 Table 4

其中，所述消息类型标示负荷指示消息的标识、类型和属性；所述小区信息标示 A演进基站辖区内的服务小区 A1 ,服务小区 A1对应一组服务小区信息；所述小区标识为 A演进基站辖区内的服务小区 A1的标识；所述干扰负荷率是由于服务小区 A1辖区内两个或两个以上用户同时占用从八点开始三十分钟内的 60赫兹到 83赫兹这一频带而产生的负荷率。本实施例二中，由于干扰负荷率为信息核查的必要信息，所以表 4 中所述干扰负荷率为必选状态。 The message type indicates an identifier, a type, and an attribute of the load indication message; the cell information indicates a serving cell A1 in the A- evolved base station jurisdiction, and the serving cell A1 corresponds to a group of serving cell information; the cell identifier is an A- evolved base station The identifier of the serving cell A1 in the jurisdiction; the interference load rate is caused by two or more users in the jurisdiction of the service cell A1 occupying the frequency band of 60 Hz to 83 Hz within 30 minutes from the eight points. Load factor. In the second embodiment, since the interference load rate is necessary information for information verification, the interference load rate shown in Table 4 is a mandatory state.

由于 A演进基站发送的负荷指示消息发生丟失等异常，没有达到 B 演进基站， B演进基站无法得知 A演进基站当前的负荷状况，所以，当服务小区 B1内的用户八点一刻要求占用 63赫兹到 80赫兹的频带时，Β 演进基站对该用户进行资源调度，出现调度失败的情况。此时， Β演进基站向 Α演进基站发起信息核查过程。 The B-evolved base station cannot know the current load status of the A- evolved base station because the load indication message sent by the A-based evolved base station is abnormal, and the B-evolved base station cannot know the current load status of the A- evolved base station. Therefore, when the user in the serving cell B1 requests to occupy 63 at a moment, When the Hertz to 80 Hz band, the evolved base station performs resource scheduling for the user, and the scheduling fails. At this time, the evolved base station initiates an information verification process to the evolved base station.

A演进基站与 B演进基站间的信息核查方法，包括如下步骤：步骤 1、 B演进基站调度失败时，向 A演进基站发送获取 A演进基站干扰负荷率的请求消息； The information verification method between the A evolved base station and the B evolved base station includes the following steps: Step 1: When the B evolved base station fails to be scheduled, the A evolved base station sends a request message for acquiring the A-based evolved base station interference load rate;

B演进基站向 A演进基站发送的请求消息如表 5所示: The request message sent by the B evolved base station to the A evolved base station is as shown in Table 5:

表 5 table 5

其中，所述消息类标示请求消息的标识、类型和属性；所述演进基站标识为 B演进基站的 ID号；所述负荷更新表明 A演进基站的响应消息携带的内容：当其值为 True时， A演进基站发送的响应消息携带干扰负荷率；当其值为 False时， A发送的响应消息不携带干扰负荷率。 The message class indicates an identifier, a type, and an attribute of the request message; the evolved base station identifier is an ID number of the B evolved base station; and the load update indicates a content carried by the response message of the A evolved base station: when the value is True The response message sent by the A evolved base station carries the interference load rate; when the value is False, the response message sent by A does not carry the interference load rate.

由于本发明实施例二是对 A 演进基站的干扰负荷率进行核查，所以，所述负荷更新消息的值应为 True, 即， B演进基站发送的请求消息要求 A演进基站的响应消息携带干扰负荷率。 The second embodiment of the present invention checks the interference load rate of the A- evolved base station, so the value of the load update message should be True, that is, the request message sent by the B- evolved base station. The response message of the A evolved base station is required to carry the interference load rate.

步骤 2、 A演进基站收到请求消息后，向 B演进基站发送携带有自身干扰负荷率的响应消息； Step 2: After receiving the request message, the A evolved base station sends a response message carrying the self-interference load rate to the B evolved base station;

A演进基站向 B演进基站发送的响应消息包括如表 6所示的内容: The response message sent by the A evolved base station to the B evolved base station includes the contents shown in Table 6:

表 6 Table 6

其中，所述消息类型标示响应消息的标识、类型和属性；所述小区信息标示服务小区 A1 , 服务小区 A1应一组服务小区信息；所述小区为服务小区 A1的标识；所述干扰负荷率是由于服务小区 A1辖区内两个或两个以上的用户同时占用从八点开始三十分钟内的 60赫兹到 83赫兹这一频带而产生的负荷率；所述工作状态标示了 A演进基站辖区内各务小区的工作状态，每个服务小区的工作状态为新增、正常、修改或不可用，如，服务小区 A1的工作作态指示为正常，服务小区 A2 ~ A5的工作状态指示为修改,服务小区 A6的工作状态指示为新增，服务小区 A7 ~ Am的工作状态指示为不可用。实际应用中，所述小区信息的取值为 1 ~ m的任何一个值，具体取值根据实际情况确定，本实施例中，小区信息的取值为 1 , 用于标示服务小区 A1 ; 每一个取值均对应一组如表 2所示的服务小区信息。 The message type indicates the identifier, type, and attribute of the response message; the cell information indicates the serving cell A1, and the serving cell A1 should be a set of serving cell information; the cell is the identifier of the serving cell A1; the interference load rate It is because the load rate generated by two or more users in the A1 jurisdiction of the service cell simultaneously occupying the frequency band of 60 Hz to 83 Hz within 30 minutes from the start of the eight-point; the working status indicates the A- evolved base station jurisdiction. The working status of the internal service cell, the working status of each serving cell is new, normal, modified or unavailable. For example, the working mode indication of the serving cell A1 is normal, and the working status indications of the serving cell A2 ~ A5 are modified. The working status indication of the serving cell A6 is new, and the working status indication of the serving cell A7 ~ Am is unavailable. In actual application, the value of the cell information is any value of 1 to m, and the specific value is determined according to the actual situation. In this embodiment, the value of the cell information is 1 and is used to indicate the serving cell A1. The values correspond to a set of serving cell information as shown in Table 2.

本实施例二关于表 2所示的服务小区信息中，所述物理层标识为服务小区 A1的物理层标识，用于测量 A演进基站与服务小区 A1用户间空口的物理层；所述跟踪小区标识为服务小区 A1用户当前所在的漫游小区的标识；所述小区标识为服务小区 A1的标识；所述运营商为服务小区 A1所属运营商；运营商标识为服务小区 A1所属运营商的标识；所述频率为服务小区 A1所属中心频点和 /或带宽。 In the second embodiment of the present invention, the physical layer identifier is a physical layer identifier of the serving cell A1, and is used to measure a physical layer of an air interface between the A evolved base station and the serving cell A1 user; The identifier of the roaming cell that is currently located in the serving cell A1; the cell identifier is the identifier of the serving cell A1; the operator is the operator to which the serving cell A1 belongs; and the operator identifier is the identifier of the operator to which the serving cell A1 belongs; The frequency is a central frequency point and/or bandwidth to which the serving cell A1 belongs.

由于本实施例二对 A演进基站的干扰负荷指示进行核查，所以，表 6所述干扰负荷率应为必选内容。当 A演进基站发送的响应消息包含有服务小区关系信息时，表 6所述工作状态也应为必选内容。 Since the second embodiment of the present invention checks the interference load indication of the A- evolved base station, the interference load rate described in Table 6 should be mandatory. When the response message sent by the A- evolved base station includes the serving cell relationship information, the working status described in Table 6 should also be mandatory.

服务小区关系信息包括 A演进基站辖区内的服务小区数目、各服务小区间的连接关系、各服务小区信息以及各服务小区的工作状态，每个服务小区的工作状态包括新增、正常、修改或不可用，服务小区信息与服务小区的工作状态——对应。 The serving cell relationship information includes the number of serving cells in the A- evolved base station area, the connection relationship between each serving cell, the information of each serving cell, and the working status of each serving cell. The working status of each serving cell includes new, normal, modified, or Not available, the serving cell information corresponds to the working state of the serving cell.

本实施例二中，服务小区 A6的工作状态为新增，那么，对应新增的服务小区信息携带如表 2所示的内容；其中，所述物理层标识为服务小区 A6的物理层标识，用于测量 A演进基站与服务小区 A6用户间空口的物理层；所述小区标识为服务小区 A6的标识；所述运营商为服务小区 A6所属运营商；所述运营商标识为服务小区 A6所属运营商标识；所述频率为服务小区 A6所属中心频点和 /或带宽。 In the second embodiment, the working state of the serving cell A6 is newly added, and the corresponding new serving cell information carries the content as shown in Table 2, where the physical layer identifier is the physical layer identifier of the serving cell A6. a physical layer for measuring an air interface between the A- evolved base station and the serving cell A6; the cell identifier is an identifier of the serving cell A6; the operator is an operator to which the serving cell A6 belongs; and the operator identifier is a serving cell A6 The carrier identifier; the frequency is the center frequency and/or bandwidth of the serving cell A6.

本实施例二中，服务小区 A2 ~ A5的工作状态指示为修改，那么，对应修改的服务小区信息包括服务小区 A2修改信息、服务小区 A3修改信息、服务小区 A4修改信息、服务小区 A5修改信息，每个服务小区修改信息包括如表 7所示的内容: In the second embodiment, the working status indications of the serving cells A2 to A5 are modified, and the corresponding modified serving cell information includes the serving cell A2 modification information, the serving cell A3 modification information, the serving cell A4 modification information, and the serving cell A5 modification information. , each service area repair The change information includes the contents shown in Table 7:

表 7 Table 7

其中，所述小区标识为服务小区 A2 ~ A5的修改后的标识；所述物理层标识为服务小区 A2 ~ A5物理层的修改后的标识；所述频率为服务小区 A2 ~ A5所属修改后的中心频点和 /或带宽。 The cell identifier is a modified identifier of the serving cell A2 ~ A5; the physical layer identifier is a modified identifier of the physical layer of the serving cell A2 ~ A5; the frequency is the modified of the serving cell A2 ~ A5 Central frequency and / or bandwidth.

步骤 3、 B演进基站收到响应消息后，更新本地存储的 A演进基站干扰负荷率。 Step 3: After receiving the response message, the B evolved base station updates the locally stored A- evolved base station interference load rate.

如果步骤 2中，所述响应消息还携带服务小区关系信息，那么，步骤 3还包括： If the response message carries the serving cell relationship information in the step 2, the step 3 further includes:

更新 B演进基站本地存储的服务小区关系信息。 Update the serving cell relationship information locally stored by the B evolved base station.

图 12 为本发明所述演进基站间信息核查方法的第一演进基站的一种结构组成示意图。 FIG. 12 is a schematic structural diagram of a first evolved base station of an evolved inter-base station information verification method according to the present invention.

如图 12所示，一种演进基站，它作为第一演进基站，包括发送单元 121、接收单元 122、第一更新单元 123和存储单元 124; 其中，所述发送单元 121 , 用于发送获取第二演进基站干扰负荷率的请求消息； As shown in FIG. 12, an evolved base station, which is a first evolved base station, includes a sending unit 121, a receiving unit 122, a first updating unit 123, and a storage unit 124. a request message of the evolved base station interference load rate;

所述接收单元 122, 用于接收携带有第二演进基站干扰负荷率的响应消息； The receiving unit 122 is configured to receive a response message carrying a second evolved base station interference load rate.

所述第一更新单元 123 , 用于接收所述接收单元发送的第二演进基站负荷干扰率，将第一演进基站本地存储的第二基站干扰负荷率更新为接收的第二演进基站干扰负荷率； The first update unit 123 is configured to receive a second evolved base station load interference rate sent by the receiving unit, and update a second base station interference load rate locally stored by the first evolved base station to Received second evolved base station interference load rate;

所述存储单元 124, 用于存储更新后的第二演进基站干扰负荷率。图 13 为本发明所述演进基站间信息核查方法的第一演进基站的另一种结构组成示意图。 The storage unit 124 is configured to store the updated second evolved base station interference load rate. FIG. 13 is a schematic structural diagram of another structure of a first evolved base station according to the method for verifying information between evolved inter-base stations according to the present invention.

如图 13 所示，所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，所述第一演进基站还包括第二更新单元 125, 则： As shown in FIG. 13, the response message carrying the second evolved base station interference load rate further carries the serving cell relationship information, and the first evolved base station further includes a second update unit 125, then:

所述发送单元 121 , 还用于发送获取第二演进基站服务小区关系信息的请求消息； The sending unit 121 is further configured to send a request message for acquiring the second evolved base station serving cell relationship information;

所述接收单元 122, 还用于接收携带有第二演进基站服务小区关系信息的响应消息； The receiving unit 122 is further configured to receive a response message carrying the second evolved base station serving cell relationship information;

所述第二更新单元 125, 用于接收所述接收单元 122发送的第二演进基站服务小区关系信息，将第一演进基站本地存储的第二演进基站服务小区关系信息更新为接收的第二演进基站服务小区关系信息； The second update unit 125 is configured to receive the second evolved base station serving cell relationship information sent by the receiving unit 122, and update the second evolved base station serving cell relationship information locally stored by the first evolved base station to the received second evolved Base station serving cell relationship information;

所述存储单元 124, 还用于存储更新后的第二演进基站服务小区关系信息。 The storage unit 124 is further configured to store the updated second evolved base station serving cell relationship information.

图 14 为本发明所述演进基站间信息核查方法的第二演进基站的一种结构组成示意图。 FIG. 14 is a schematic structural diagram of a second evolved base station according to the method for verifying information between evolved inter-base stations according to the present invention.

如图 14所示，一种演进基站，作为第二演进基站，包括接收单元 141和发送单元 142; 其中， As shown in FIG. 14, an evolved base station, as a second evolved base station, includes a receiving unit 141 and a transmitting unit 142;

所述接收单元 141 , 用于接收第一演进基站发送的获取第二演进基站干扰负荷率的请求消息； The receiving unit 141 is configured to receive a request message that is sent by the first evolved base station to obtain a second evolved base station interference load rate.

所述发送单元 142, 用于在收到请求消息后，向第一演进基站发送携带有第二演进基站干扰负荷率的响应消息。 The sending unit 142 is configured to send, after receiving the request message, a response message carrying the second evolved base station interference load rate to the first evolved base station.

所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，贝' J : The response message carrying the second evolved base station interference load rate also carries the serving cell Relationship information, Bay' J:

所述接收单元 141 , 还用于接收获取第二演进基站服务小区关系信息的请求消息； The receiving unit 141 is further configured to receive a request message for acquiring the second evolved base station serving cell relationship information;

所述发送单元 142, 还用于发送携带有第二演进基站服务小区关系信息的响应消息。 The sending unit 142 is further configured to send a response message carrying the second evolved base station serving cell relationship information.

图 15 为本发明所述演进基站间信息核查方法的演进基站的一种结构组成示意图。 FIG. 15 is a schematic structural diagram of an evolved base station of an evolved inter-base station information verification method according to the present invention.

如图 15所示，一种演进基站，包括发送单元 101、接收单元 102、第一更新单元 103和存储单元 104; 其中， As shown in FIG. 15, an evolved base station includes a transmitting unit 101, a receiving unit 102, a first updating unit 103, and a storage unit 104;

所述发送单元 101 , 用于将所述演进基站作为第一演进基站发送获取第二演进基站干扰负荷率的请求消息；或者将所述演进基站作为第二演进基站，在收到请求消息后，向第一演进基站发送携带有第二演进基站干 4尤负荷率的响应消息； The sending unit 101 is configured to send, by using the evolved base station, as a first evolved base station, a request message for acquiring a second evolved base station interference load rate, or using the evolved base station as a second evolved base station, after receiving the request message, Transmitting, to the first evolved base station, a response message carrying the second evolved base station dry 4 payload rate;

所述接收单元 102, 用于将所述演进基站作为第二演进基站接收获取第二演进基站干扰负荷率的请求消息，或者将所述演进基站作为第一演进基站接收携带有第二演进基站干扰负荷率的响应消息； The receiving unit 102 is configured to receive, by using the evolved base station as the second evolved base station, a request message for acquiring a second evolved base station interference load rate, or use the evolved base station as the first evolved base station to receive the second evolved base station interference. Response message of load rate;

所述第一更新单元 103, 用于将所述演进基站作为第一演进基站，所述第一更新单元 103收到所述接收单元 102发送的第二演进基站负荷干扰率后，将第一演进基站本存储的第二基站干扰负荷率更新为接收的第二演进基站干扰负荷率； The first update unit 103 is configured to use the evolved base station as the first evolved base station, and the first update unit 103 receives the second evolved base station load interference rate sent by the receiving unit 102, and then performs the first evolution. The second base station interference load rate stored by the base station is updated to the received second evolved base station interference load rate;

所述存储单元 104, 用于将所述演进基站作为第一演进基站存储更新后的第二演进基站干扰负荷率。 The storage unit 104 is configured to store the updated second base station interference load rate by using the evolved base station as the first evolved base station.

图 16 为本发明所述演进基站间信息核查方法的演进基站的另一种结构组成示意图。 FIG. 16 is a schematic diagram of another structural composition of an evolved base station according to the method for verifying information between evolved inter-base stations according to the present invention.

如图 16所示，所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，所述演进基站还包括第二更新单元 105 , 贝' J : 所述发送单元 101 , 还用于将所述演进基站作为第一演进基站，发送获取第二演进基站服务小区关系信息的请求消息；将所述演进基站作为第二演进基站，在收到第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息后，向第一演进基站发送携带有第二演进基站服务小区关系信息的响应消息； As shown in FIG. 16, the response message carrying the second evolved base station interference load rate is further Carrying the service cell relationship information, the evolved base station further includes a second update unit 105, and the sending unit 101 is further configured to send, by using the evolved base station as the first evolved base station, the second evolved base station serving cell. The request message of the relationship information, the second evolved base station is configured to send the second evolved base station to the first evolved base station, and after receiving the request message for acquiring the second evolved base station serving cell relationship information sent by the first evolved base station, a response message of the evolved base station serving cell relationship information;

所述接收单元 102, 还用于将所述演进基站作为第一演进基站，接收携带有第二演进基站服务小区关系信息的响应消息；将所述演进基站作为第二演进基站，接收第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息； The receiving unit 102 is further configured to: use the evolved base station as the first evolved base station, and receive a response message carrying the second evolved base station serving cell relationship information; using the evolved base station as the second evolved base station, receiving the first evolution a request message that is sent by the base station to obtain the second evolved base station serving cell relationship information;

所述第二更新单元 105 , 用于将所述演进基站作为第一演进基站，所述第二更新单元 105收到本地接收单元 102发送的第二演进基站服务小区关系信息后，将第一演进基站本地存储的第二演进基站服务小区关系信息更新为接收的第二演进基站服务小区关系信息； The second update unit 105 is configured to use the evolved base station as the first evolved base station, and the second update unit 105 receives the second evolved base station serving cell relationship information sent by the local receiving unit 102, and then performs the first evolution. The second evolved base station serving cell relationship information locally stored by the base station is updated to the received second evolved base station serving cell relationship information;

所述存储单元 104, 还用于将所述演进基站作为第一演进基站存储更新后的第二演进基站服务小区关系信息。 The storage unit 104 is further configured to store, by using the evolved base station, as the first evolved base station, the updated second evolved base station serving cell relationship information.

本发明所述演进基站实施例中，第一演进基站调度失败后，它的发送单元向第二演进基站发送获取干扰负荷率和 /或服务小区关系信息的请求消息；第二演进基站收到请求消息后，向第一演进基站发送携带有干扰负荷率和 /或服务小区关系信息的响应消息；第二演进基站收到响应消息后，更新本地存储的第二演进基站干扰负荷率和 /或服务小区关系信息。 In the embodiment of the evolved base station of the present invention, after the first evolved base station fails to be scheduled, its sending unit sends a request message for acquiring the interference load rate and/or the serving cell relationship information to the second evolved base station; the second evolved base station receives the request. After the message, the first evolved base station sends a response message carrying the interference load rate and/or the serving cell relationship information; after receiving the response message, the second evolved base station updates the locally stored second evolved base station interference load rate and/or service. Cell relationship information.

实际应用中，无论是第一演进基站，还是第二演进基站，当它们调度失败时，即发起邻接演进基站间干扰负荷率和服务小区关系信息的核查。综上所述，以上仅为本发明的较佳实施例而已，并非用于限定本发明的保护范围。凡在本发明的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本发明的保护范围之内。 In practical applications, whether it is the first evolved base station or the second evolved base station, when they fail to schedule, the check of the inter-dependent evolved inter-base station interference load rate and the serving cell relationship information is initiated. In conclusion, the above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

权利要求书 Claim

1、一种演进基站间的配置数据更新方法，其特征在于，所述方法包括以下步骤： A method for updating configuration data between evolved base stations, characterized in that the method comprises the following steps:

al、第一演进基站改变自身配置数据后，向第二演进基站发送携带有发生改变的配置数据的请求消息； After the first evolved base station changes its configuration data, it sends a request message carrying the changed configuration data to the second evolved base station;

2、根据权利要求 1所述的方法，其特征在于，步骤 al之后还包括如下步骤： 2. The method according to claim 1, wherein the step al further comprises the following steps:

第二演进基站接收到请求消息后，向第一演进基站发送响应消息。 After receiving the request message, the second evolved base station sends a response message to the first evolved base station.

3、根据权利要求 1所述的方法，其特征在于，步骤 al所述发生改变的配置数据为服务小区修改信息，所述服务小区修改信息包括小区标识，所述小区标识为所述配置数据发生修改的服务小区的新标识。 The method according to claim 1, wherein, in step a, the changed configuration data is serving cell modification information, the serving cell modification information includes a cell identifier, and the cell identifier is that the configuration data occurs. The new identity of the modified serving cell.

4、根据权利要求 3 所述的方法，其特征在于，所述服务小区修改信息还包括物理层标识，所述物理层标识为所述配置数据发生修改的服务小区物理层的新标识。 The method according to claim 3, wherein the serving cell modification information further includes a physical layer identifier, and the physical layer identifier is a new identifier of a physical layer of the serving cell in which the configuration data is modified.

5、根据权利要求 3 所述的方法，其特征在于，所述服务小区修改信息还包括频率，所述频率为所述配置数据发生修改的服务小区所属新的中心频点或频带。 The method according to claim 3, wherein the serving cell modification information further includes a frequency, where the frequency is a new central frequency point or frequency band to which the serving cell whose configuration data is modified belongs.

6、根据权利要求 3所述的方法，其特征在于：步骤 al所述发生改变的配置数据还包括新增服务小区的信息，包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为新增服务小区的物理层标识，用于测量第二演进基站与新增服务小区用户间空口的物理层；所述小区标识为新增服务小区的标识；所述跟踪小区标识为新增服务小区用户当前所在的漫游小区的标识；所述运营商为新增服务小区所属运营商；所述运营商标识为新增服务小区所属运营商的标识；所述频率为标示新增服务小区所属中心频点或频带。 The method according to claim 3, wherein: the step a) the changed configuration data further includes information of a newly added serving cell, including a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, and an operator. The physical layer identifier is a physical layer identifier of the newly added serving cell, and is used to measure a physical layer of the air interface between the second evolved base station and the newly added serving cell user; the cell identifier is an identifier of the newly added serving cell; Tracking cell identity The identifier of the roaming cell where the user of the serving cell is currently located; the operator is the operator of the new serving cell; the identifier of the operator is the identifier of the operator to which the new serving cell belongs; The center frequency or frequency band of the serving cell.

7、根据权利要求 3所述的方法，其特征在于：步骤 al所述发生改变的配置数据还包括修改服务小区的信息，包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为修改服务小区的物理层标识，用于测量第二演进基站与修改服务小区用户间空口的物理层；所述小区标识为修改服务小区的标识；所述跟踪小区标识为修改服务小区用户当前所在的漫游小区的标识；所述运营商为修改服务小区所属运营商；所述运营商标识为修改服务小区所属的运营商的标识；所述频率为修改服务小区所属的中心频点或频带。 The method according to claim 3, wherein: the step a) the changed configuration data further includes modifying information of the serving cell, including a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, and an operator identifier. The physical layer identifier is a physical layer identifier of the modified serving cell, and is used to measure a physical layer of the air interface between the second evolved base station and the user of the modified serving cell; the cell identifier is an identifier of the modified serving cell; the tracking cell The identifier is an identifier of the roaming cell where the user of the serving cell is currently located; the operator is the operator of the service cell; the identifier of the operator is the identifier of the operator to which the serving cell belongs; The center frequency or frequency band.

8、根据权利要求 3所述的方法，其特征在于：步骤 al所述改变的配置数据还包括删除服务小区的信息，所述删除服务小区的信息标示第一演进基站辖区内被删除或闭塞的服务小区信息，用于消除第二演进基站对所述服务小区的切换； The method according to claim 3, wherein: the step a) the changed configuration data further comprises deleting information of the serving cell, and the information of the deleted serving cell indicates that the first evolved base station area is deleted or blocked. The serving cell information is used to cancel the handover of the second evolved base station to the serving cell;

所述删除服务小区的信息包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为删除服务小区的物理层标识，用于测量第二演进基站与删除服务小区用户间空口的物理层；所述小区标识为删除服务小区的标识；所述跟踪小区标识为删除服务小区用户当前所在的漫游小区的标识；所述运营商为删除服务小区所属运营商；所述运营商标识为删除服务小区所属运营商标识；所述频率为删除服务小区所属中心频点或频带。 The information of the deleted serving cell includes a physical layer identifier, a cell identifier, a tracking cell identifier, an operator, an operator identifier, and a frequency. The physical layer identifier is a physical layer identifier of the deleted serving cell, and is used to measure the second evolved base station and Deleting a physical layer of the air interface between the serving cell users; the cell identifier is an identifier of the deleted serving cell; the tracking cell identifier is an identifier of the roaming cell where the user of the serving cell is currently deleted; and the operator is the operator of the deleted serving cell The operator identifier is used to delete the operator identifier to which the serving cell belongs; the frequency is the center frequency point or frequency band to which the serving cell belongs.

9、一种演进基站间的信息核查方法，其特征在于，所述方法包括以下步骤： 9. An information verification method between evolved base stations, characterized in that the method comprises the following steps:

a2、第一演进基站调度失败时，向第二演进基站发送获取第二演进基站干扰负荷率的请求消息； A2. When the first evolved base station fails to be scheduled, send the second evolved to the second evolved base station. a request message of a base station interference load rate;

10、根据权利要求 9所述的方法，其特征在于，当步骤 b2所述响应消息还携带第二演进基站服务小区关系信息时，步骤 c2还包括如下步骤： The method according to claim 9, wherein when the response message of the step b2 further carries the second evolved base station serving cell relationship information, the step c2 further includes the following steps:

更新第一演进基站本地存储的第二演进基站服务小区关系信息。 Updating the second evolved base station serving cell relationship information locally stored by the first evolved base station.

11、根据权利要求 10所述的方法，其特征在于：所述第二演进基站服务小区关系信息包括第二演进基站辖区内的服务小区数目、各服务小区间的连接关系、各服务小区信息以及各服务小区的工作状态，每个服务小区的工作状态包括新增、正常、修改或不可用，服务小区信息与服务小区的工作状态——对应。 The method according to claim 10, wherein: the second evolved base station serving cell relationship information includes a number of serving cells in a second evolved base station jurisdiction, a connection relationship between each serving cell, information of each serving cell, and The working status of each serving cell, the working status of each serving cell includes new, normal, modified or unavailable, and the serving cell information corresponds to the working state of the serving cell.

12、根据权利要求 11所述的方法，其特征在于，当第二演进基站内服务小区的工作状态为新增时，对应新增的服务小区信息包括物理层标识、小区标识、跟踪小区标识、运营商、运营商标识和频率；所述物理层标识为新增服务小区的物理层标识，用于测量第二演进基站与新增服务小区用户间空口的物理层；所述小区标识为新增服务小区的标识；所述跟踪小区标识为新增服务小区用户当前所在的漫游小区的标识；所述运营商为新增服务小区所属运营商；所述运营商标识为新增服务小区所属运营商的标识；所述频率为新增服务小区所属中心频点或频带。 The method according to claim 11, wherein when the working status of the serving cell in the second evolved base station is new, the corresponding newly added serving cell information includes a physical layer identifier, a cell identifier, a tracking cell identifier, The physical layer identifier of the newly added serving cell is used to measure the physical layer of the air interface between the second evolved base station and the newly added serving cell user; the cell identifier is newly added. The identifier of the serving cell; the tracking cell identifier is an identifier of a roaming cell in which the new serving cell user is currently located; the operator is an operator to which the new serving cell belongs; and the operator identifier is an operator to which the new serving cell belongs The identifier is the central frequency point or frequency band to which the new serving cell belongs.

13、根据权利要求 11所述的方法，其特征在于，当第二演进基站内服务小区的工作状态为修改时，对应修改的服务小区信息包括服务小区修改信息，所述服务小区修改信息包括小区标识，所述小区标识为修改服务小区的修改后的标识。 The method according to claim 11, wherein when the working state of the serving cell in the second evolved base station is modified, the corresponding modified serving cell information includes serving cell modification information, and the serving cell modification information includes the cell Identification, the cell identifier is modified The modified identity of the serving cell.

14、根据权利要求 13所述的方法，其特征在于，所述服务小区修改信息还包括物理层标识，所述物理层标识为修改服务小区物理层的修改后的标识。 The method according to claim 13, wherein the serving cell modification information further includes a physical layer identifier, and the physical layer identifier is a modified identifier that modifies a physical layer of the serving cell.

15、根据权利要求 13所述的方法，其特征在于，所述服务小区修改信息还包括频率，所述频率为修改服务小区所属修改后的中心频点或频带。 The method according to claim 13, wherein the serving cell modification information further comprises a frequency, wherein the frequency is a modified center frequency point or a frequency band to which the serving cell belongs.

16、一种演进基站，其特征在于，所述演进基站作为第一演进基站包括发送单元； An evolved base station, the evolved base station as a first evolved base station, including a sending unit;

所述发送单元，用于发送携带有发生改变的配置数据的请求信息。 The sending unit is configured to send request information that carries the changed configuration data.

17、一种演进基站，其特征在于，所述演进基站作为第二演进基站包括接收单元、更新单元和存储单元；其中， An evolved base station, wherein the evolved base station, as the second evolved base station, includes a receiving unit, an update unit, and a storage unit;

18、根据权利要求 17 所述的演进基站，其特征在于，所述演进基站还包括发送单元； The evolved base station according to claim 17, wherein the evolved base station further comprises a sending unit;

所述发送单元，接收到所述接收单元发送的携带有发生改变的配置数据的请求信息后，用于发送响应消息。 The sending unit is configured to send a response message after receiving the request information that is sent by the receiving unit and carrying the changed configuration data.

19、一种演进基站，其特征在于，所述演进基站至少包括：发送单元、接收单元、更新单元和存储单元；其中， An evolved base station, where the evolved base station includes at least: a sending unit, a receiving unit, an updating unit, and a storage unit;

所述发送单元，用于将所述演进基站作为第一演进基站，发送携带有发生改变的配置数据的请求信息； The sending unit is configured to send, by using the evolved base station, as the first evolved base station, Request information for configuration data that has changed;

所述存储单元，用于将所述演进基站作为第二演进基站，存储更新后的发生改变的配置数据。 The storage unit is configured to store, by using the evolved base station as a second evolved base station, updated configuration data that changes.

20、根据权利要求 19所述的演进基站，其特征在于：所述演进基站作为第二演进基站，收到所述携带有发生改变的配置数据的请求信息后，所述演进基站的发送单元还用于发送响应消息。 The evolved base station according to claim 19, wherein: the evolved base station serves as the second evolved base station, and after receiving the request information that carries the changed configuration data, the sending unit of the evolved base station further Used to send a response message.

21、一种演进基站，其特征在于，所述演进基站作为第一演进基站，包括发送单元、接收单元、第一更新单元和存储单元；其中， An evolved base station, the evolved base station as a first evolved base station, including a sending unit, a receiving unit, a first updating unit, and a storage unit;

22、根据权利要求 21所述的演进基站，其特征在于，所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，所述第一演进基站还包括第二更新单元，贝' J : The evolved base station according to claim 21, wherein the response message carrying the second evolved base station interference load rate further carries the serving cell relationship information, and the first evolved base station further includes a second update unit,贝' J :

所述发送单元，还用于发送获取第二演进基站服务小区关系信息的请求消息；所述第二更新单元，用于接收所述接收单元发送的第二演进基站服务小区关系信息，将第一演进基站本地存储的第二演进基站服务小区关系信息更新为接收的第二演进基站服务小区关系信息； The sending unit is further configured to send a request message for acquiring the second evolved base station serving cell relationship information; The second update unit is configured to receive the second evolved base station serving cell relationship information sent by the receiving unit, and update the second evolved base station serving cell relationship information locally stored by the first evolved base station to the received second evolved base station service. Cell relationship information;

所述存储单元，还用于存储更新后的第二演进基站服务小区关系信息。 The storage unit is further configured to store the updated second evolved base station serving cell relationship information.

23、一种演进基站，其特征在于，所述演进基站作为第二演进基站，包括接收单元和发送单元；其中， An evolved base station, where the evolved base station serves as a second evolved base station, and includes a receiving unit and a sending unit, where

24、根据权利要求 23所述的演进基站，其特征在于，所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，则： The evolved base station according to claim 23, wherein the response message carrying the second evolved base station interference load rate further carries the serving cell relationship information, then:

所述接收单元，还用于接收第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息； The receiving unit is further configured to receive a request message that is sent by the first evolved base station to obtain the second evolved base station serving cell relationship information;

所述发送单元，在收到第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息后，还用于发送携带有第二演进基站服务小区关系信息的响应消息。 The sending unit, after receiving the request message for acquiring the second evolved base station serving cell relationship information sent by the first evolved base station, is further configured to send a response message carrying the second evolved base station serving cell relationship information.

25、一种演进基站，其特征在于，所述演进基站包括发送单元、接收单元、第一更新单元和存储单元；其中， An evolved base station, where the evolved base station includes a sending unit, a receiving unit, a first updating unit, and a storage unit;

所述发送单元，用于将所述演进基站作为第一演进基站发送获取第二演进基站干扰负荷率的请求消息；或者将所述演进基站作为第二演进基站，在收到第一演进基站发送的获取第二演进基站干扰负荷率的请求消息后，向第一演进基站发送携带有第二演进基站干扰负荷率的响应消息； The sending unit is configured to send, by using the evolved base station, a request message for acquiring a second evolved base station interference load rate, as the first evolved base station, or send the evolved base station as a second evolved base station, and send the first evolved base station to receive After obtaining the request message of the second evolved base station interference load rate, sending, to the first evolved base station, a response cancellation carrying the second evolved base station interference load rate Interest rate

所述接收单元，用于将所述演进基站作为第二演进基站接收获取第二演进基站干扰负荷率的请求消息，或者将所述演进基站作为第一演进基站接收携带有第二演进基站干扰负荷率的响应消息； The receiving unit is configured to receive, as the second evolved base station, a request message for acquiring a second evolved base station interference load rate, or use the evolved base station as the first evolved base station to receive the second evolved base station interference load. Rate response message;

所述第一更新单元，用于将所述演进基站作为第一演进基站，所述第一更新单元收到所述接收单元发送的第二演进基站负荷干扰率后，将第一演进基站本存储的第二基站干扰负荷率更新为接收的第二演进基站干扰负荷率； The first update unit is configured to use the evolved base station as a first evolved base station, and after receiving the second evolved base station load interference rate sent by the receiving unit, the first update unit stores the first evolved base station The second base station interference load rate is updated to the received second evolved base station interference load rate;

26、根据权利要求 25所述的演进基站，其特征在于，所述携带有第二演进基站干扰负荷率的响应消息还携带服务小区关系信息，所述演进基站还包括第二更新单元，贝' J : The evolved base station according to claim 25, wherein the response message carrying the second evolved base station interference load rate further carries the serving cell relationship information, and the evolved base station further includes a second update unit, J :

所述发送单元，还用于将所述演进基站作为第一演进基站发送获取第二演进基站服务小区关系信息的请求消息；将所述演进基站作为第二演进基站，在收到第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息后，向第一演进基站发送携带有第二演进基站服务小区关系信息的响应消息； The sending unit is further configured to send, by using the evolved base station, a request message for acquiring a second evolved base station serving cell relationship information, where the evolved base station is used as the second evolved base station, and receive the first evolved base station. After the request message for acquiring the second evolved base station serving cell relationship information is sent, the first evolved base station sends a response message carrying the second evolved base station serving cell relationship information;

所述接收单元，还用于将所述演进基站作为第一演进基站，接收携带有第二演进基站服务小区关系信息的响应消息；将所述演进基站作为第二演进基站，接收第一演进基站发送的获取第二演进基站服务小区关系信息的请求消息； The receiving unit is further configured to: use the evolved base station as the first evolved base station, and receive a response message carrying the second evolved base station serving cell relationship information; using the evolved base station as the second evolved base station, receiving the first evolved base station Sending a request message for acquiring second evolved base station serving cell relationship information;

所述第二更新单元，用于将所述演进基站作为第一演进基站，所述第二更新单元收到本地接收单元发送的第二演进基站服务小区关系信息后，将第一演进基站本地存储的第二演进基站服务小区关系信息更新为接收的第二演进基站服务小区关系信息； The second update unit is configured to use the evolved base station as the first evolved base station, and the second update unit, after receiving the second evolved base station serving cell relationship information sent by the local receiving unit, locally storing the first evolved base station Second evolved base station serving cell relationship information update Serving cell relationship information for the received second evolved base station;

所述存储单元，还用于将所述演进基站作为第一演进基站存储更新后的第二演进基站服务小区关系信息。 The storage unit is further configured to store, by using the evolved base station, as the first evolved base station, the updated second evolved base station serving cell relationship information.