WO2011137634A1 - 一种lte系统中网管与基站的协作方法和装置 - Google Patents
一种lte系统中网管与基站的协作方法和装置 Download PDFInfo
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- WO2011137634A1 WO2011137634A1 PCT/CN2010/078084 CN2010078084W WO2011137634A1 WO 2011137634 A1 WO2011137634 A1 WO 2011137634A1 CN 2010078084 W CN2010078084 W CN 2010078084W WO 2011137634 A1 WO2011137634 A1 WO 2011137634A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- the present invention relates to the field of wireless communication systems, and in particular, to a method and apparatus for cooperation between a network management system and a base station in an LTE system.
- the network management system is connected to the Node B base station through the RNC (Radio Network Controller), and at most hundreds of Node B base stations are managed by one RNC.
- the data is processed on the network management system. The amount is relatively small, and the performance requirements such as the processing speed of the network management are relatively easy to achieve.
- the LTE (Long Term Evolution) system implements flat management.
- the RNC and the Node B base station synthesize a unified system eNode B base station, and the eNode B base station is hereinafter referred to as the base station.
- the core network is directly connected to the base station, and the network management system is directly connected to the base station.
- the base station managed under the network management system is increased from hundreds of base stations of 3G to tens of thousands or even tens of thousands of base stations, and management between the network management system and the base station is one-to-one. The way to establish a real connection with all base stations under the network management, version download during the deployment or upgrade process, data configuration, etc.
- the link keep-alive message, the performance measurement data, and the alarm information between the network management system and the base station may also have a certain impact on the network management when the number of base stations increases, and the base station and the network management process each.
- the real-time nature of the types of business data may also be affected.
- the invention provides a cooperation method and device for a network management system and a base station in an LTE system, which greatly reduces the amount of information transmitted by the network management system when downloading the software version and the configuration data, reduces the impact on the network node device, and saves the system from initializing. To the time of normal work.
- the present invention provides a method for cooperation between a network management system and a base station in an LTE system, including: The network management system configures the base station to be a management base station and a managed base station, and the network management system sends the deployment information to the management base station, where the deployment information includes software version and configuration data.
- the managed base station reports the message to the network management system through the management base station, and obtains the deployment information from the management base station.
- the step of configuring the base station to manage the base station and the managed base station may include: the network management establishes a real connection with all the base stations; and divides the logical area according to the geographical location of the base station or the access network; and, selects one in each logical area.
- the base station functions as a management base station, and configures advanced rights for the selected base station, and the remaining base stations except the selected base station in the logical area are managed base stations.
- the method may further include: before the step of the network management transmitting the deployment information to the management base station, the method may further include: converting, by the network management, the real connection with the managed base station into a virtual connection, And maintain a real connection with the management base station.
- the method may further include: the management base station performs a judgment process on the message reported by the managed base station, and sends the necessary message in the reported message to the network management.
- the message that the managed base station reports to the network management system by the management base station may include: an alarm message, a performance measurement data message, a link keep-alive message, and a software version and a configuration data request message; the management base station judges and processes the message reported by the managed base station,
- the step of sending the necessary message in the reported message to the network management unit may include: when the management base station receives the alarm message, determining whether the same alarm message has been reported in the set time, and if so, filtering out the received message.
- the alarm message if not, sends the received alarm message to the network management system; when the management base station receives the performance measurement data message, the performance measurement data message is delayed or sent immediately according to the current network traffic condition; The management base station aggregates the information in the link keep-alive message received in a period of time, and then sends a link keep-alive message to the network management; and when the management base station receives the software version and the configuration data request message, the software is The version and configuration data is sent to the managed base station.
- the method may further include: when the management base station fails, the managed base station in the logical area where the network management unit is located with the failed management base station actively establishes a real connection, or the managed base station in the logical area where the failed management base station is located Actively establish a real connection with the network management system; the network management system selects a base station as the management base station in the logical area where the failed management base station is located.
- the present invention also provides a cooperation device between a network management system and a base station in an LTE system, including:
- a network management system configured to configure the base station to manage the base station and the managed base station, and send the deployment information to the management base station;
- the managed base station is configured to report the message to the network management device by the management base station, and obtain the deployment information from the management base station.
- the management base station is configured to perform a judgment process on the message reported by the managed base station, and perform the necessary message in the reported message. Send to the network management.
- the network management system can include the following three modules: Establish a connection module, which can be set to be assigned to all base stations.
- a rights configuration module which can be configured to: divide a geographically adjacent base station into a logical area, select one base station in each logical area as a management base station, and select a base station Configuring advanced rights, the remaining base stations in the logical area except the selected base station are managed base stations; and an initialization module, which can be configured to convert the real connection between the network management system and the managed base station into a virtual connection, while maintaining the network management and The actual connection of the base station is managed, and the deployment information is sent to the management base station, where the deployment information includes the software version and configuration data.
- the network management system can include the following three modules: Establish a connection module, which can be set to be assigned to all base stations.
- a rights configuration module which can be configured to: divide a base station that accesses the same network device into a logical area, and select one base station as a management base station in each logical area, The selected base station is configured with advanced rights, and the remaining base stations in the logical area except the selected base station are managed base stations; and an initialization module, which can be configured to convert the real connection between the network management system and the managed base station into a virtual connection, and simultaneously The actual connection between the network management system and the management base station is maintained, and the deployment information is sent to the management base station, where the deployment information includes software version and configuration data.
- the message that the managed base station reports to the network management system by the management base station may include: an alarm message, a performance measurement data message, a link keep-alive message, and a software version and configuration data request message.
- the management base station may be configured to report the managed base station by: The message is sent to the network management system.
- the management base station receives the alarm message, it determines whether the same alarm message has been reported in the set time. If yes, it filters out. If the alarm message is received, the received alarm message is reported to the network management system.
- the management base station receives the performance measurement data message the performance measurement data message is delayed or sent immediately according to the current network traffic condition.
- the management base station aggregates the information in the link keep-alive message received in a period of time, and then sends a link keep-alive message to the network management; and when the management base station receives the software version and the configuration data request message, the software is The version and configuration data is sent to the managed base station.
- the invention also provides a network management system, which is applied to cooperate with a base station in an LTE system,
- the network management device is configured to: configure the base station to manage the base station and the managed base station, and send the deployment information to the management base station.
- the network management system may include: establishing a connection module, which may be configured to allocate IP addresses to all base stations, and establish a real connection with all base stations; and a rights configuration module, which may be configured to: divide the geographically adjacent base stations into one logical area, at each Selecting one base station as the management base station in the logical area, and configuring the advanced base station for the selected base station, the remaining base stations except the selected base station in the logical area are managed base stations; and an initialization module, which can be set to be The real connection between the network management system and the managed base station is converted into a virtual connection, and the real connection between the network management system and the management base station is maintained, and the deployment information is sent to the management base station.
- the deployment information includes software version and configuration data.
- the network management system may include: establishing a connection module, which may be configured to allocate an IP address to all base stations, and establish a real connection with all base stations; and a rights configuration module, which may be configured to: divide the base station accessing the same network device into a logical area Selecting a base station as a management base station in each logical area, and configuring advanced rights for the selected base station, where the remaining base stations except the selected base station are managed base stations; and an initialization module, which can be configured to set the network management
- the real connection with the managed base station is converted into a virtual connection, and the real connection between the network management and the management base station is maintained, and the deployment information is sent to the management base station.
- the deployment information includes software version and configuration data.
- the present invention further provides a base station, where the base station is used to cooperate with a network management system in a long-term evolution LTE system.
- the base station is configured to: when used as a managed base station, report a message to the network management system by the management base station, and manage the base station from the management base station. Obtaining the opening information; and when used as the management base station, performing a judgment process on the message reported by the managed base station, and sending the necessary message in the reported message to the network management.
- the present invention has at least the following advantages:
- the network management system configures the base station as the management base station and the managed base station, and the network management system sends the deployment information to the management base station; the managed base station reports the message to the network management system through the management base station, The management base station obtains the deployment information.
- the network management system does not affect different types of messages such as link keep-alive messages, performance measurement data, and alarm information in real-time processing.
- FIG. 1 is a schematic diagram of a network for implementing flat management of an LTE system in the prior art
- FIG. 2 is a schematic diagram of logical area division of a base station according to the present invention.
- FIG. 3 is a schematic diagram of connection between a network management system and a base station according to the present invention.
- FIG. 4 is a flow chart of a method for cooperating between a network management system and a base station in an LTE system according to the first embodiment of the present invention
- FIG. 5 is a flow chart of a method for cooperating between a network management system and a base station in an LTE system according to a second embodiment of the present invention
- FIG. 6 is a flow chart of a method for cooperating between a network management system and a base station in an LTE system according to a third embodiment of the present invention
- FIG. 7 is a schematic diagram of a cooperative device of a network management system and a base station in an LTE system according to the fourth and fifth embodiments of the present invention.
- a first embodiment of the present invention as shown in FIG. 4, a method for cooperation between a network management system and a base station in an LTE system, including the following specific steps:
- Step S101 When the LTE system is deployed or upgraded, all the base stations are set in the network management system.
- the DHCP (Dynamic Host Configuration Protocol) server obtains its own IP address, and the geographically adjacent base stations are on the same network segment. This IP address must be obtained from the network management, so that the network administrator knows the address planning situation and can establish a real connection with any one of the base stations in real time.
- DHCP Dynamic Host Configuration Protocol
- Step S102 After obtaining the IP address, all the base stations actively establish a real connection with the network management system, and only the network keepalive message is established between the network devices that establish the real connection.
- Step S103 setting a base station adjacent to the geographical location into a group, and forming a logical area, as shown in the figure 2, the left and right two base stations surrounded by a circular dotted line. Since the geographically adjacent base stations are in the same network segment, the communication between the base stations on the same network segment does not require route forwarding, and the data transmission is completed in the network, thereby reducing the impact on other network segments.
- step S104 one base station is arbitrarily selected as a management base station in each logical area, and the advanced base station is configured, and the remaining base stations are managed base stations.
- the more detailed the permissions are configured the more the management base station can share the network management work, and the performance bottleneck of the entire system can be fully decomposed and released.
- Step S105 The network management converts the real connection with the managed base station into a virtual connection, and the network management maintains a real connection with the management base station, as shown in FIG.
- the virtual connection means that the managed base station remains connected to the network management system from the network management, but there is no actual link.
- the necessary information of the managed base station such as the keepalive link message, is reported to the network management system through the management base station.
- the operation of the managed base station on the network management is first transmitted to the management base station and then sent to the managed base station.
- Step S106 The network management sends the deployment information to the management base station, where the deployment information includes the software version and configuration data that the base station needs to download.
- Step S107 The managed base station obtains the deployment information from the management base station.
- Step S108 The management base station performs a judgment process on the alarm message, the performance measurement data message, the link keep-alive message, and the software version and the configuration data request message reported by the managed base station, and includes: when the management base station receives the alarm message, determining Whether the same alarm message has been reported in the set time, if yes, the alarm message is filtered out; if not, the alarm message is reported to the network management;
- Link break alarm information For example: Link break alarm information, A and B establish a connection between two base stations.
- the link processing module on A fails, the link between the ABs is broken.
- A reports a link fault alarm.
- the management base station receives the AB link disconnection alarm reported by B in a short time, the alarm information can be ignored.
- the performance measurement data message is delayed or sent immediately according to the current network traffic condition
- the management base station aggregates the information in the link keep-alive message received in a period of time, and then reports the link keep-alive message to the network management.
- the management base station When the management base station receives the software version and configuration data request message, the software version and configuration number will be It is sent to the managed base station.
- a second embodiment of the present invention as shown in FIG. 5, a method for cooperation between a network management system and a base station in an LTE system, including the following specific steps:
- Step S201 When the LTE system is deployed or upgraded, the network management system uses the local maintenance terminal to configure an IP address for all the base stations through the local connection. This IP address must be obtained from the network management system, so that the network management knows the address planning situation and can establish a real connection with any base station in real time.
- Step S202 After obtaining the IP address, all the base stations actively establish a physical connection with the network management system, and only the network connection device establishing the real connection has a link keep-alive message.
- Step S203 Set a base station that accesses the same network device into a group to become a logical area.
- Step S205 The network management system converts the real connection with the managed base station into a virtual connection, and the network management and the management base station maintain a real connection.
- the virtual connection means that the managed base station remains connected to the network management system from the network management, but there is no actual link.
- the necessary information of the managed base station such as the keepalive link message, is reported to the network management system through the management base station.
- the operation of the managed base station on the network management is first transmitted to the management base station and then sent to the managed base station.
- Step S206 The network management sends the deployment information to the management base station, where the deployment information includes the software version and configuration data that the base station needs to download.
- Step S207 The managed base station obtains the deployment information from the management base station.
- Step S208 the management base station performs a judgment process on the alarm message, the performance measurement data message, the link keep-alive message, and the software version and the configuration data request message reported by the managed base station, and includes: when the management base station receives the alarm message, determining If the same alarm message is already present in the set time, the alarm message is filtered out, and if not, the alarm message is sent to the network management system;
- Link break alarm information For example: Link break alarm information, A and B establish a connection between two base stations.
- the link processing module on A fails, the link between the ABs is broken.
- A reports a link fault alarm.
- the management base station receives the AB link break alarm reported by B, it can be ignored. This alarm information.
- the performance measurement data message is delayed or sent immediately according to the current network traffic condition
- the management base station aggregates the information in the link keep-alive message received in a period of time, and then reports the link keep-alive message to the network management.
- the management base station When the management base station receives the software version and configuration data request message, the software version and the configuration data are transmitted to the managed base station.
- step S209 when the network management station finds that the management base station is faulty, it establishes a real connection with the managed base station in the logical area where the management base station is located, and the network management station selects a base station as the management base station in the logical area where the management base station is located.
- a third embodiment of the present invention as shown in FIG. 6, a method for cooperation between a network management system and a base station in an LTE system is substantially the same as that of the second embodiment, except that
- Step S309 when the managed base station finds that the management base station is faulty, it actively establishes a real connection with the network management, and the network management reselects a base station in the logical area where the management base station is located as the management base station.
- a typical situation is that after the information reported by the managed base station is always filtered out by the management base station, the managed base station considers that the management base station is in an incorrect state, thereby actively establishing a connection with the network management system and reporting the information.
- a cooperation device between a network management system and a base station in an LTE system includes the following components:
- the network management system is configured to configure the base station to manage the base station and the managed base station, and send the deployment information to the management base station.
- the network management system includes the following three modules:
- Establishing a connection module which is configured to assign an IP address to all base stations and establish a real connection with all base stations;
- a rights configuration module configured to divide a geographically adjacent base station into a logical area, select one base station as a management base station in each logical area, configure advanced rights for the same, and the remaining base stations are managed base stations;
- An initialization module configured to convert a real connection between the network management system and the managed base station into a virtual connection,
- the actual connection between the network management system and the management base station is maintained, and the deployment information is sent to the management base station, where the deployment information includes the software version and configuration data.
- the network management system maintains the link keep-alive message only with the base station that establishes the real connection, and maintains the link keep-alive message between the management base station and the managed base station, thereby effectively reducing the link keep-alive message between the base station and the network management.
- the managed base station is configured to obtain the deployment information from the management base station by reporting the alarm message, the performance measurement data message, the link keep-alive message, and the software version and the configuration data request message to the network management by the management base station.
- the management base station is configured to perform a judgment process on the message reported by the managed base station, and includes: when the management base station receives the alarm message, determining whether the same alarm message has been reported in the set time, and if so, filtering out The alarm message is reported to the network management system if the alarm message is not sent;
- the performance measurement data message is delayed or sent immediately according to the current network traffic condition
- the management base station aggregates the information in the link keep-alive message received in a period of time, and then reports the link keep-alive message to the network management.
- the management base station When the management base station receives the software version and configuration data request message, the software version and the configuration data are transmitted to the managed base station.
- a fifth embodiment of the present invention as shown in FIG. 7, a cooperation device between a network management system and a base station in an LTE system, includes the following components:
- the network management system is configured to configure the base station to manage the base station and the managed base station, and send the deployment information to the management base station.
- the network management system includes the following three modules:
- Establishing a connection module which is configured to assign an IP address to all base stations and establish a real connection with all base stations;
- a rights configuration module configured to divide a base station that accesses the same network device into a logical area, select one base station as a management base station in each logical area, configure advanced rights, and the remaining base stations are managed base stations;
- An initialization module configured to convert the real connection between the network management system and the managed base station into a virtual connection, and maintain a real connection between the network management system and the management base station, and send the deployment information to the management base station, where the deployment information is sent.
- the information includes the software version and configuration data.
- the network management system maintains the link keep-alive message only with the base station that establishes the real connection, and maintains the link keep-alive message between the management base station and the managed base station, thereby effectively reducing the link keep-alive message between the base station and the network management.
- the managed base station is configured to obtain the deployment information from the management base station by reporting the alarm message, the performance measurement data message, the link keep-alive message, and the software version and the configuration data request message to the network management by the management base station.
- the management base station is configured to perform a judgment process on the message reported by the managed base station, and includes: when the management base station receives the alarm message, determining whether the same alarm message has been reported in the set time, and if so, filtering out Sending the alarm message to the network management system if the alarm message is not available;
- the performance measurement data message is delayed or sent immediately according to the current network traffic condition
- the management base station aggregates the information in the link keep-alive message received in a period of time, and then reports the link keep-alive message to the network management.
- the management base station When the management base station receives the software version and configuration data request message, the software version and the configuration data are transmitted to the managed base station.
- the present invention also provides a network management system and a base station in an LTE system, and the specific usage thereof is shown in the above apparatus, and will not be repeated here.
- the LTE system has a high requirement for the key network node device to process data due to the change of the system architecture.
- the present invention reduces the impact on the network node device of the aggregation end, and sets the authority and management scope according to the networking mode.
- certain base stations under the network management are set with specific rights.
- the base station with certain rights can manage the base stations without permissions or lower privilege levels, and undertake part of the network management work, thus ensuring the version download during the deployment process.
- the unnecessary information in the system operation process is filtered and processed on the intermediate base station, and the necessary information is transmitted to the network management system in real time and reliably, and the network management performs decision processing.
- the setting of the rights is multi-level and multi-mode, and can be flexibly set. For example, when different rights are set in the system, the network management manages all the base stations with high authority, and the high-privileged base station manages the lower-privileged base stations to manage all the nodes. Base Station management mode. It can also be compatible with the flat management structure of LTE in the prior art, and all the base stations are set with the highest authority or no permission, and the network management manages and maintains all the base stations.
- the amount of information transmitted by the network management is greatly reduced when the software version and the configuration data are downloaded, the impact on the network node device is reduced, the whole system startup process is accelerated, and the system is saved from initialization to normal operation.
- unnecessary information is filtered out.
- the interaction between the link keep-alive message, the alarm information, the performance measurement and other data occupying the network bandwidth is reduced, and the real-time performance of the network management data is improved.
- the invention greatly reduces the amount of information transmitted by the network management when downloading the software version and the configuration data, reduces the impact on the network node device, speeds up the whole system startup process, and saves the system from initialization to normal. Working time.
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Abstract
本发明公开了一种LTE系统中网管与基站的协作方法和装置,该方法包括:网管将基站配置为管理基站和被管理基站,并将开局信息下发到管理基站;被管理基站通过管理基站向网管上报消息,从管理基站处获取开局信息。本发明在下载软件版本及配置数据时极大减少了网管传送的信息量,降低了对网络结点设备的冲击,整个系统启动过程提速,节约了系统从初始化到正常工作的时间。采用本发明技术方案,在LTE系统正常运行过程中,网管对链路保活消息、性能测量数据、告警信息等不同类型的消息在实时处理上也不会受到影响。
Description
一种 LTE系统中网管与基站的协作方法和装置
技术领域
本发明涉及无线通信系统技术领域, 尤其涉及一种 LTE系统中网管与基 站的协作方法和装置。
背景技术
3G ( 3rd-generation, 第三代移动通信技术 )系统中网管通过 RNC ( Radio Network Controller, 无线网络控制器) 和 Node B基站相连, 一个 RNC 下至 多管理几百个 Node B基站, 网管上处理数据的量相对而言不大,对网管的处 理速度等性能方面要求相对也容易达到。
作为从 3G到 4G的演进技术, LTE ( Long Term Evolution, 长期演进) 系统实现扁平化管理, 如图 1所示, RNC和 Node B基站合成一个统一的系 统 eNode B基站, eNode B基站以下简称基站, 核心网直接和基站相连, 网 管也是直接和基站相连接, 网管下管理的基站由 3 G 的几百个基站, 增加到 上万甚至几万个基站, 网管和基站之间的管理一对一的方式, 要和网管下的 所有基站建立实连接, 在开局或升级过程中的版本下载, 数据配置等是一个 比较费时和占网络流量的工作, 由于井喷式的数据请求很可能会出现网络瘫 痪等问题, 导致后续操作无法进行。 同时, LTE系统的正常运行中, 网管和 基站之间的链路保活消息、 性能测量数据、 告警信息等在基站数量激增时也 会对网管造成一定的冲击, 同时基站和网管之间处理各种类型的业务数据的 实时性等方面也可能受到影响。
发明内容
本发明提供一种 LTE系统中网管与基站的协作方法和装置, 在下载软件 版本及配置数据时极大减少了网管传送的信息量, 降低了对网络结点设备的 冲击, 节约了系统从初始化到正常工作的时间。
本发明提供一种 LTE系统中网管与基站的协作方法, 包括:
网管将基站配置为管理基站和被管理基站, 网管将开局信息下发到管理 基站, 所述开局信息包括软件版本和配置数据;
被管理基站通过管理基站向网管上报消息,从管理基站处获取开局信息。 网管将基站配置为管理基站和被管理基站的步骤可以包括: 网管与所有 基站建立实连接; 根据基站地理位置或者接入网络的情况, 划分逻辑区域; 以及, 在每个逻辑区域中选择一台基站作为管理基站, 为选择的基站配置高 级权限, 该逻辑区域中除所选择的基站之外的其余基站为被管理基站。 该方 法在网管将基站配置为管理基站和被管理基站的步骤之后, 在网管将开局信 息下发到管理基站的步骤之前, 还可包括: 网管将与被管理基站的实连接转 换为虚连接, 并与管理基站保持实连接。
该方法还可包括: 管理基站对被管理基站上报的消息进行判断处理, 将 该上报的消息中的必要消息发送给网管。 被管理基站通过管理基站向网管上 报的消息可包括: 告警消息, 性能测量数据消息, 链路保活消息, 以及软件 版本和配置数据请求消息;管理基站对被管理基站上报的消息进行判断处理, 将该上报的消息中的必要消息发送给网管的步骤可以包括: 当管理基站收到 告警消息时, 判断在设定的时间内是否已有同样的告警消息上报, 若有, 则 过滤掉收到的告警消息, 若没有, 则将收到的告警消息上 ^艮给网管; 当管理 基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能测量数据消 息进行保存延迟发送或者立即发送; 管理基站将一段时间内收到的链路保活 消息中的信息汇总后, 合为一条链路保活消息上报给网管; 以及, 当管理基 站收到软件版本和配置数据请求消息时, 将软件版本和配置数据发送给被管 理基站。
该方法还可包括: 当管理基站出现故障时, 网管与出现故障的管理基站 所在的逻辑区域内的被管理基站主动建立实连接, 或者, 出现故障的管理基 站所在的逻辑区域内的被管理基站与网管主动建立实连接; 网管重新在出现 故障的管理基站所在的逻辑区域内选择一台基站作为管理基站。
本发明还提供一种 LTE系统中网管与基站的协作装置, 包括:
网管, 其设置成将基站配置为管理基站和被管理基站, 并将开局信息下 发到管理基站;
被管理基站, 其设置成通过管理基站向网管上报消息, 从管理基站处获 取开局信息; 管理基站, 其设置成对被管理基站上报的消息进行判断处理, 将所述上 报的消息中的必要消息发送给网管。
网管可包括如下三个模块: 建立连接模块, 其可设置成为所有基站分配
IP地址, 并与所有基站建立实连接; 权限配置模块, 其可设置成: 将地理位 置邻近的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管 理基站, 为选择的基站配置高级权限, 该逻辑区域中除所选择的基站之外的 其余基站为被管理基站; 以及, 初始化模块, 其可设置成将网管与被管理基 站的实连接转换为虚连接, 同时保持网管与管理基站的实连接, 并将开局信 息下发到管理基站, 该开局信息包括软件版本和配置数据。
网管可包括如下三个模块: 建立连接模块, 其可设置成为所有基站分配
IP地址, 并与所有基站建立实连接; 权限配置模块, 其可设置成: 将接入同 一个网络设备的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站 作为管理基站, 为选择的基站配置高级权限, 该逻辑区域中除所选择的基站 之外的其余基站为被管理基站; 以及, 初始化模块, 其可设置成将网管与被 管理基站的实连接转换为虚连接, 同时保持网管与管理基站的实连接, 并将 开局信息下发到管理基站, 该开局信息包括软件版本和配置数据。
被管理基站通过管理基站向网管上报的消息可以包括: 告警消息, 性能 测量数据消息, 链路保活消息, 以及软件版本和配置数据请求消息; 管理基 站可设置成通过如下方式对被管理基站上报的消息进行判断处理, 将该上报 的消息中的必要消息发送给网管: 当管理基站收到告警消息时, 判断在设定 的时间内是否已有同样的告警消息上报, 若有, 则过滤掉收到的告警消息, 若没有, 则将收到的告警消息上报给网管; 当管理基站收到性能测量数据消 息时, 根据当前网络流量情况, 对性能测量数据消息进行保存延迟发送或者 立即发送; 管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合 为一条链路保活消息上报给网管; 以及, 当管理基站收到软件版本和配置数 据请求消息时, 将软件版本和配置数据发送给被管理基站。
本发明还提供一种网管,所述网管应用于在 LTE系统中与基站进行协作,
所述网管设置成: 将基站配置为管理基站和被管理基站, 并将开局信息下发 到管理基站。
该网管可包括: 建立连接模块, 其可设置成为所有基站分配 IP地址, 并 与所有基站建立实连接; 权限配置模块, 其可设置成: 将地理位置邻近的基 站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为 所选择的基站配置高级权限, 该逻辑区域中除所选择的基站之外的其余基站 为被管理基站; 以及, 初始化模块, 其可设置成将网管与被管理基站的实连 接转换为虚连接, 同时保持网管与管理基站的实连接, 并将开局信息下发到 管理基站, 该开局信息包括软件版本和配置数据。
该网管可包括: 建立连接模块, 其可设置成为所有基站分配 IP地址, 并 与所有基站建立实连接; 权限配置模块, 其可设置成: 将接入同一个网络设 备的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管理基 站, 为选择的基站配置高级权限, 该逻辑区域中除选择的基站之外的其余基 站为被管理基站; 初始化模块, 其可设置成将网管与被管理基站的实连接转 换为虚连接, 同时保持网管与管理基站的实连接, 并将开局信息下发到管理 基站, 该开局信息包括软件版本和配置数据。
本发明还提供一种基站, 所述基站应用于在长期演进 LTE系统中与网管 进行协作; 所述基站设置成: 在用作被管理基站时, 通过管理基站向网管上 报消息, 并从管理基站处获取开局信息; 以及在用作管理基站时, 对被管理 基站上报的消息进行判断处理, 将该上报的消息中的必要消息发送给网管。
釆用上述技术方案, 本发明至少具有下列优点:
本发明所述 LTE系统中网管与基站的协作方法和装置, 网管将基站配置 为管理基站和被管理基站, 网管将开局信息下发到管理基站; 被管理基站通 过管理基站向网管上报消息, 从管理基站处获取开局信息。 在下载软件版本 及配置数据时极大减少了网管传送的信息量,降低了对网络结点设备的冲击, 整个系统启动过程提速, 节约了系统从初始化到正常工作的时间。 釆用本发 明技术方案, 在 LTE系统正常运行过程中, 网管对链路保活消息、 性能测量 数据、 告警信息等不同类型的消息在实时处理上也不会受到影响。
附图概述
图 1 为现有技术中 LTE系统实现扁平化管理的网络示意图;
图 2 为本发明对基站进行逻辑区域划分示意图;
图 3 为本发明网管与基站连接示意图;
图 4 为本发明第一实施例所述 LTE 系统中网管与基站的协作方法流程 图;
图 5 为本发明第二实施例所述 LTE 系统中网管与基站的协作方法流程 图;
图 6 为本发明第三实施例所述 LTE 系统中网管与基站的协作方法流程 图;
图 7 为本发明第四、五实施例所述 LTE系统中网管与基站的协作装置组 成示意图。
本发明的较佳实施方式 结合附图及较佳实施例, 对本发明提出的所述 LTE系统中网管与基站的协作 方法和装置, 详细说明 ¾口后。
本发明第一实施例, 如图 4所示, 一种 LTE系统中网管与基站的协作方 法, 包括如下具体步骤:
步骤 S101 , 在 LTE 系统开局或升级时, 所有基站通过设置在网管中的
DHCP ( Dynamic Host Configuration Protocol, 动态主机设置协议)服务器获 取自身的 IP地址, 地理位置邻近的基站处于同一个网段。 这个 IP地址必须 要从网管处获得, 这样网管便知道地址规划情况, 并可实时地和任意一个基 站建立实连接。
步骤 S102,所有基站获取 IP地址后主动和网管建立实连接,只有建立实 连接的网络设备之间才有链路保活消息。
步骤 S103 , 将地理位置邻近的基站设为一组, 成为一个逻辑区域, 如图
2 所示, 圓形虚线包围的左右两组基站。 由于地理位置邻近的基站处于同一 个网段, 同一网段的基站之间通讯不需要路由转发, 在网内完成数据的传送, 减少了对其他网段的影响。
步骤 S104, 在每个逻辑区域中任意选择一台基站作为管理基站, 为其配 置高级权限, 其余基站为被管理基站。 权限配置的越细致, 管理基站就越能 分担网管的工作, 整个系统的性能瓶颈就能得到充分的分解释放。
步骤 S105 , 网管将其与被管理基站的实连接转换为虚连接, 网管与管理 基站保持实连接, 如图 3所示。 此处虚连接是指从网管上看被管理基站仍然 与网管保持着连接, 但没有实际的链路, 被管理基站的必要信息, 例如保活 链路消息等是通过管理基站上报到网管, 在网管上对被管理基站操作都是先 传送到管理基站上, 再下发到被管理基站上。
步骤 S106, 网管将开局信息下发到管理基站, 该开局信息包括基站需要 下载的软件版本和配置数据。
步骤 S107 , 被管理基站从管理基站处获取开局信息;
步骤 S108,管理基站对被管理基站上报的告警消息,性能测量数据消息, 链路保活消息, 以及软件版本和配置数据请求消息进行判断处理, 包括: 当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上报, 若有, 则过滤掉所述告警消息, 若没有, 则将所述告警消息上报 给网管;
例如: 链路断告警信息, A、 B两个基站之间建立连接关系, 当 A上链 路处理模块出现故障时, 会导致 AB之间的链路断, 此时 A上报链路故障告 警, 在短时间内当管理基站再接收到 B 上报的 AB链路断告警时, 就可忽略 此告警信息。
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管;
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数
据发送给被管理基站。
本发明第二实施例, 如图 5所示, 一种 LTE系统中网管与基站的协作 方法, 包括如下具体步骤:
步骤 S201 , 在 LTE系统开局或升级时, 网管利用本地维护终端通过本地 连接给所有基站配置 IP地址。 这个 IP地址必须要从网管处获得, 这样网管 便知道地址规划情况, 并可实时地和任意一个基站建立实连接。
步骤 S202,所有基站获取 IP地址后主动和网管建立实连接,只有建立实 连接的网络设备之间才有链路保活消息。
步骤 S203 , 将接入同一网络设备的基站设为一组, 成为一个逻辑区域。 步骤 S204, 在每个逻辑区域中任意选择一台基站作为管理基站, 为其配 置高级权限, 其余基站为被管理基站。 权限配置的越细致, 管理基站就越能 分担网管的工作, 整个系统的性能瓶颈就能得到充分的分解释放。
步骤 S205, 网管将其与被管理基站的实连接转换为虚连接, 网管与管理 基站保持实连接。 此处虚连接是指从网管上看被管理基站仍然与网管保持着 连接, 但没有实际的链路, 被管理基站的必要信息, 例如保活链路消息等是 通过管理基站上报到网管, 在网管上对被管理基站操作都是先传送到管理基 站上, 再下发到被管理基站上。
步骤 S206, 网管将开局信息下发到管理基站, 该开局信息包括基站需要 下载的软件版本和配置数据。
步骤 S207, 被管理基站从管理基站处获取开局信息;
步骤 S208,管理基站对被管理基站上报的告警消息,性能测量数据消息, 链路保活消息, 以及软件版本和配置数据请求消息进行判断处理, 包括: 当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上 若有, 则过滤掉所述告警消息, 若没有则将所述告警消息上 ^艮给 网管;
例如: 链路断告警信息, A、 B两个基站之间建立连接关系, 当 A上链 路处理模块出现故障时, 会导致 AB之间的链路断, 此时 A上报链路故障告 警, 在短时间内当管理基站再接收到 B 上报的 AB链路断告警时, 就可忽略
此告警信息。
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管;
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数 据发送给被管理基站。
步骤 S209, 当网管发现管理基站出现故障时, 主动与该管理基站所在的 逻辑区域内的被管理基站建立实连接, 网管重新在所述管理基站所在的逻辑 区域内选择一台基站作为管理基站。
本发明第三实施例, 如图 6所示,一种 LTE系统中网管与基站的协作方 法, 与第二实施例大致相同, 区别在于,
步骤 S309, 当被管理基站发现管理基站出现故障时, 主动与网管建立实 连接, 网管重新在所述管理基站所在的逻辑区域内选择一台基站作为管理基 站。
例如, 一种典型的情况就是当被管理基站上报的信息在管理基站总被过 滤掉后, 被管理基站认为管理基站处在不正确地状态, 从而主动发起与网管 建立连接, 上报信息。
本发明第四实施例, 如图 7所示,一种 LTE系统中网管与基站的协作装 置, 包括如下组成部分:
网管, 其设置成将基站配置为管理基站和被管理基站, 并将开局信息下 发到管理基站。 网管包括如下三个模块:
建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成将地理位置邻近的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为其配置高级权限, 其余基 站为被管理基站;
初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同
时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 该开局信 息包括软件版本和配置数据。网管只与建立实连接的基站保持链路保活消息, 管理基站和被管理基站之间保持链路保活消息, 这样有效减少基站和网管之 间的链路保活消息。
被管理基站, 其设置成通过管理基站向网管上报告警消息、 性能测量数 据消息、 链路保活消息以及软件版本和配置数据请求消息, 从管理基站处获 取开局信息。 管理基站, 其设置成对被管理基站上报的消息进行判断处理, 包括: 当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上报, 若有, 则过滤掉所述告警消息, 若没有则将所述告警消息上报给 网管;
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管;
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数 据发送给被管理基站。
本发明第五实施例, 如图 7所示,一种 LTE系统中网管与基站的协作装 置, 包括如下组成部分:
网管, 其设置成将基站配置为管理基站和被管理基站, 并将开局信息下 发到管理基站。 网管包括如下三个模块:
建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成将接入同一个网络设备的基站划分为一个逻辑 区域, 在每个逻辑区域中选择一台基站作为管理基站, 为其配置高级权限, 其余基站为被管理基站;
初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同 时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 该开局信
息包括软件版本和配置数据。网管只与建立实连接的基站保持链路保活消息, 管理基站和被管理基站之间保持链路保活消息, 这样有效减少基站和网管之 间的链路保活消息。
被管理基站, 其设置成通过管理基站向网管上报告警消息、 性能测量数 据消息、 链路保活消息以及软件版本和配置数据请求消息, 从管理基站处获 取开局信息。 管理基站, 其设置成对被管理基站上报的消息进行判断处理, 包括: 当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上报, 若有, 则过滤掉所述告警消息, 若没有, 则将所述告警消息上报 给网管;
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管;
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数 据发送给被管理基站。
本发明还提供 LTE系统中网管和基站, 其具体用法见上述装置, 在此不 再重复。
LTE 系统与 3G系统相比, 由于系统架构的变化, 导致关键网络节点设 备处理数据的能力要求很高, 本发明为降低对汇聚端网络节点设备的冲击, 按照组网方式设置权限与管理范围,在 LTE 系统中给网管管理下的某些基站 设置特定的权限, 具有某些权限的基站可以管理没有权限或权限等级较低的 基站 , 承担网管的部分工作, 这样保证在开局过程中版本下载及配置数据在 下发给某些权限的基站后, 其它基站可以并发获取版本和数据。
在系统运行过程不必要的信息在中间基站上过滤处理掉, 必要的信息实 时地、 可靠地传送到网管, 网管进行决策处理。 同时这种权限的设置是多层 次多模式的, 可以灵活设置, 比如, 当系统中设置高低不同的权限时, 网管 通过管理高权限的基站, 高权限的基站管理较低权限的基站进而管理所有基
站的管理模式。 还可以兼容现有技术中 LTE的扁平化管理结构, 将所有基站 都设置最高权限或不设置权限, 网管就对所有基站进行管理维护,
使用本发明的技术方案, 在下载软件版本及配制数据时极大减少了网管 传送的信息量, 降低了对网络结点设备的冲击, 整个系统启动过程提速, 节 约了系统从初始化到正常工作的时间; 在系统运作过程中, 有效地减少了网 管和基站之间的链路保活消息, 在权限较高的基站上对上报的告警、 性能测 量等数据经过相应的处理, 必要的信息经过处理后上报到网管, 不必要的信 息过滤掉。 降低了链路保活消息、 告警信息、 性能测量等数据占用网络带宽 时的相互影响, 提高了网管处理数据的实时性。
通过具体实施方式的说明, 应当可对本发明为达成预定目的所釆取的技 术手段及功效得以更加深入且具体的了解, 然而所附图示仅是提供参考与说 明之用, 并非用来对本发明加以限制。
工业实用性
与现有技术相比, 本发明在下载软件版本及配置数据时极大减少了网管 传送的信息量, 降低了对网络结点设备的冲击, 整个系统启动过程提速, 节 约了系统从初始化到正常工作的时间。
Claims
1、 一种长期演进 LTE系统中网管与基站的协作方法, 包括:
网管将基站配置为管理基站和被管理基站, 并将开局信息下发到管理基 站, 所述开局信息包括软件版本和配置数据;
被管理基站通过管理基站向网管上报消息,从管理基站处获取开局信息。
2、 根据权利要求 1所述 LTE系统中网管与基站的协作方法, 其中, 所 述网管将基站配置为管理基站和被管理基站的步骤包括:
网管与所有基站建立实连接;
根据基站地理位置或者接入网络的情况, 划分逻辑区域; 以及
在每个逻辑区域中选择一台基站作为管理基站, 为所选择的基站配置高 级权限, 该逻辑区域中除所选择的基站之外的其余基站为被管理基站。
3、 根据权利要求 2所述 LTE系统中网管与基站的协作方法, 其将基站 配置为管理基站和被管理基站的步骤之后, 将开局信息下发到管理基站的步 骤之前, 还包括:
网管将与被管理基站的实连接转换为虚连接,并与管理基站保持实连接。
4、 根据权利要求 1所述 LTE系统中网管与基站的协作方法, 还包括: 管理基站对被管理基站上报的消息进行判断处理, 将所述上报的消息中 的必要消息发送给网管。
5、 根据权利要求 4所述 LTE系统中网管与基站的协作方法, 其中, 所 述被管理基站通过管理基站向网管上报的消息包括: 告警消息, 性能测量数 据消息, 链路保活消息, 以及软件版本和配置数据请求消息;
管理基站对被管理基站上报的消息进行判断处理, 将所述上报的消息中 的必要消息发送给网管的步骤包括:
当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上报, 若有, 则过滤掉收到的告警消息, , 若没有, 则将收到的告警消 息上报给网管;
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管; 以及
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数 据发送给被管理基站。
6、 根据权利要求 1或 2或 3或 4或 5所述 LTE系统中网管与基站的协 作方法, 还包括: 当管理基站出现故障时, 网管与出现故障的管理基站所在 的逻辑区域内的被管理基站主动建立实连接, 或者, 出现故障的管理基站所 在的逻辑区域内的被管理基站与网管主动建立实连接;
网管重新在所述出现故障的管理基站所在的逻辑区域内选择一台基站作 为管理基站。
7、 一种长期演进 LTE系统中网管与基站的协作装置, 包括:
网管, 其设置成将基站配置为管理基站和被管理基站, 并将开局信息下 发到管理基站;
被管理基站, 其设置成通过管理基站向网管上报消息, 并从管理基站处 获取开局信息; 管理基站, 其设置成对被管理基站上报的消息进行判断处理, 将所述上 报的消息中的必要消息发送给网管。
8、 根据权利要求 7所述 LTE系统中网管与基站的协作装置, 其中, 所 述网管包括:
建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成: 将地理位置邻近的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为所选择的基站配置高级权 限, 该逻辑区域中除所选择的基站之外的其余基站为被管理基站; 以及
初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同 时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 所述开局 信息包括软件版本和配置数据。
9、 根据权利要求 7所述 LTE系统中网管与基站的协作装置, 其中, 所 述网管包括:
建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成: 将接入同一个网络设备的基站划分为一个逻 辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为选择的基站配置 高级权限, 该逻辑区域中除选择的基站之外的其余基站为被管理基站; 以及 初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同 时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 所述开局 信息包括软件版本和配置数据。
10、 根据权利要求 7或 8或 9所述 LTE系统中网管与基站的协作装置, 其中, 所述被管理基站通过管理基站向网管上报的消息包括: 告警消息, 性 能测量数据消息, 链路保活消息, 以及软件版本和配置数据请求消息;
所述管理基站是设置成通过如下方式对被管理基站上报的消息进行判断 处理, 将所述上报的消息中的必要消息发送给网管:
当管理基站收到告警消息时, 判断在设定的时间内是否已有同样的告警 消息上 若有, 则过滤掉所收到的告警消息, 若没有, 则将所收到的告警 消息上报给网管;
当管理基站收到性能测量数据消息时, 根据当前网络流量情况, 对性能 测量数据消息进行保存延迟发送或者立即发送;
管理基站将一段时间内收到的链路保活消息中的信息汇总后, 合为一条 链路保活消息上报给网管; 以及
当管理基站收到软件版本和配置数据请求消息时, 将软件版本和配置数 据发送给被管理基站。
11、 一种网管, 其特征在于, 所述网管应用于在长期演进 LTE系统中与 基站进行协作, 所述网管设置成: 将基站配置为管理基站和被管理基站, 并 将开局信息下发到管理基站。
12、 根据权利要求 11所述的网管, 其中, 所述网管包括: 建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成: 将地理位置邻近的基站划分为一个逻辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为所选择的基站配置高级权 限, 该逻辑区域中除所选择的基站之外的其余基站为被管理基站;
初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同 时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 所述开局 信息包括软件版本和配置数据。
13、 根据权利要求 11所述的网管, 其中, 所述网管包括:
建立连接模块, 其设置成为所有基站分配 IP地址, 并与所有基站建立实 连接;
权限配置模块, 其设置成: 将接入同一个网络设备的基站划分为一个逻 辑区域, 在每个逻辑区域中选择一台基站作为管理基站, 为选择的基站配置 高级权限, 该逻辑区域中除选择的基站之外的其余基站为被管理基站;
初始化模块, 其设置成将网管与被管理基站的实连接转换为虚连接, 同 时保持网管与管理基站的实连接, 并将开局信息下发到管理基站, 所述开局 信息包括软件版本和配置数据。
14、 一种基站, 其特征在于, 所述基站应用于在长期演进 LTE系统中与 网管进行协作;
所述基站设置成: 在用作被管理基站时, 通过管理基站向网管上报消息, 并从管理基站处获取开局信息; 以及在用作管理基站时, 对被管理基站上报 的消息进行判断处理, 将所述上报的消息中的必要消息发送给网管。
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