WO2021012802A1 - 一种通信节点的协作方法和系统、存储介质和电子设备 - Google Patents
一种通信节点的协作方法和系统、存储介质和电子设备 Download PDFInfo
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- This embodiment relates to the field of communication technology, and in particular to a method and system for cooperation of communication nodes.
- the future 5G network will be an ultra-large-scale, ultra-high-density networking method to realize the interconnection of everything.
- how to quickly and efficiently interact and share information between interconnected physical entities, and achieve rapid identification and response to network problems or autonomous management of network status or network through information processing and strategy execution The overall improvement of performance is of great significance.
- the main purpose of the embodiments in this document is to provide a method and system for the cooperation of distributed communication nodes to solve the problem that the information between the stations cannot be interacted in time and the coordination between the stations is not timely, and to reduce the experience of the faulty nodes on the users on the network. Impact, improve system capacity and reliability, while reducing manual access, so as to better manage communication nodes and meet the rapidly increasing user needs.
- the embodiments herein provide a distributed communication node coordination method, including: a first communication node collects specified interaction information, and adds to the interaction information the information of the problem cell where the interaction information occurs. After the cell identification, the interaction information is sent to the second communication node; the interaction information is used to instruct the second communication node to execute a corresponding adjustment strategy according to the received interaction information.
- the embodiment of this document also provides a communication node cooperation system, including: an information collection module of the first communication node, configured to collect specified interactive information, and add to the interactive information the cell of the problem cell where the interactive information occurs Identification; the information release module of the first communication node, used to send the interactive information to the second communication node; the analysis module of the second communication node, used to receive the interactive information; the execution module of the second communication node, used To execute the adjustment strategy corresponding to the interactive information.
- Fig. 1 is a schematic diagram of a method of cooperation between communication nodes in the related art
- Fig. 2 is a flowchart of a method for cooperation of communication nodes according to an embodiment of this document;
- Fig. 3 is a first structural block diagram of a communication node cooperation system according to an embodiment of this document;
- Fig. 4 is a second structural block diagram of a communication node cooperation system according to an embodiment of this document.
- Step S101 The first communication node collects specified interaction information, and adds the interaction to the interaction information. After the cell identity of the problem cell where the information occurs, the interactive information is sent to the second communication node; step S102: the interactive information is used to instruct the second communication node to perform corresponding adjustments according to the received interactive information Strategy.
- each communication node can obtain the status information of other related communication nodes in the network in real time. It can effectively reduce the impact of abnormal state or insufficient resources or special conditions of some communication nodes or their cells in the network on network maintenance indicators and user perception of related users, forming a closed loop real-time processing.
- the embodiment of this document also provides a system of distributed communication nodes.
- the system includes: an information collection module 11 of the first communication node, which is used to collect specified interactive information, and to use the interactive information Add the cell identifier of the problem cell where the interactive information occurred; the information publishing module 12 of the first communication node is used to send the interactive information to the second communication node; the analysis module 13 of the second communication node is used to receive The interactive information; the execution module 14 of the second communication node is used to execute the adjustment strategy corresponding to the interactive information.
- a distributed communication node method specifically further includes the following steps: after the first communication node collects designated interactive information, and adds the cell identifier of the problem cell in which the interactive information occurs to the interactive information, The interaction information is sent to the second communication node; the interaction information is used to instruct the second communication node to execute a corresponding adjustment strategy according to the received interaction information.
- the communication nodes mentioned below can be both source nodes and target nodes.
- An interactive information list needs to be defined in the communication node.
- the list includes: number, interactive information type, and interactive strategy information.
- the interactive information type includes interactive information including at least one of the following: alarm information, dynamic information, diagnostic information, configuration information, and performance Information, interaction strategy information includes priority, interaction method or processing method, such as prohibiting switching in and switching to other frequency points, or prohibiting switching in and redirecting other frequency points.
- the first communication node collects the specified interaction information involved in the currently appearing interaction information list.
- the specified interaction information includes alarm information, dynamic information, diagnostic information, configuration information, or performance information, and will specify The interactive information is sent in periodic or event mode. Before sending the designated interactive information, it also includes classifying and prioritizing the collected designated interactive information.
- the information structure generated by the first communication node includes at least one of the following: a.
- Alarm information alarm number (for example: remote radio unit (RRU), antenna standing wave ratio alarm of a certain antenna, cell noise interference (Noise Interference (NI) is high.
- a base station Evolved Node B, eNB
- MME Mobility Management Entity
- identification bits include cell/station level/carrier frequency level/alarm elimination identification
- alarm-related cell identification code Cell-ID
- physical cell identifier Physical Cell identifier
- PCI Physical Cell Identifier
- Dynamic information dynamic information number (for example: Discontinuous Transmission (DTX) energy saving function effective status); identification bits include cell/station level/carrier frequency level/alarm elimination identification; dynamic information related cells Identification code (Cell-ID), physical cell identifier (PCI)/carrier frequency information; c. performance information: performance information number (for example: cell user information, cell UL/DL PRB (Uplink/Downlink Physical Resource) Block, uplink/downlink physical resource block) utilization information, PDCCH (Physical Downlink Control Channel, physical layer downlink control channel) utilization, etc.); identification bits (cell/station level/carrier frequency level/dynamic elimination identification); performance information Related cell (Cell-ID+PCI)/carrier frequency information; d.
- Cell-ID Dynamic information: dynamic information number (for example: Discontinuous Transmission (DTX) energy saving function effective status); identification bits include cell/station level/carrier frequency level/alarm elimination identification; dynamic information related cells Identification code (Cell-ID), physical cell identifier (PCI)/carrier frequency information
- Diagnostic information diagnostic information number (for example: transmission quality information, routing detection information, RRU power information, etc.); identification bit (cell/station level/carrier frequency level /Dynamic elimination of identification); performance information related cell (Cell-ID+PCI)/carrier frequency information; e. configuration data: configuration data changes (for example: random access information parameters, uplink/downlink control channel information parameters, uplink and downlink sub- Frame ratio, Rs power information parameters, etc.); identification bits (cell/station level/carrier frequency level/dynamic elimination identification); performance information related cell (Cell-ID+PCI)/carrier frequency information.
- diagnostic information number for example: transmission quality information, routing detection information, RRU power information, etc.
- identification bit cell/station level/carrier frequency level /Dynamic elimination of identification
- performance information related cell Cell-ID+PCI
- configuration data configuration data changes (for example: random access information parameters, uplink/downlink control channel information parameters, uplink and downlink sub- Frame ratio, Rs power information parameters, etc.)
- the first communication node sends the collected interaction information to the second communication node, that is, the target node.
- the method for determining the target node includes at least one of the following: a. When the interaction information is station-level, the interaction information is sent to the The first communication node has an interface communication node; b. When the interactive information is station-level, according to the pre-acquired longitude and latitude information, the interactive information is sent to the nearest or designated distance from the first communication node At least one communication node within the distance range; c. When the interactive information is cell-level, send the interactive information to a communication node that has a neighboring relationship with the problem cell where the interactive information occurs; d.
- the information is cell-level, and the interactive information is sent to at least one communication node that has the largest number of interoperations with the cell where the interactive information has a problem or a specified threshold of the number of interoperations, where the number of interoperations can be the number of handovers or Load balancing times, etc.
- the interactive information when the interactive information is station-level, it specifically means that the granularity of the information belongs to the communication node unit, and it cannot belong to a more subdivided next-level unit, that is, the interactive information belongs to the communication node, and it does not Belongs to the next-level unit of the communication node;
- the interactive information when the interactive information is cell-level, it specifically refers to: the interactive information can add the attributes of the next-level unit of the current communication node in addition to the attributes of the communication node, that is, it belongs to the communication node The next level unit.
- the first communication communication node sends the collected interaction information to the second communication node through the Xn/X2 port or private interface between the nodes.
- the second communication node After the second communication node receives the interactive information, it performs data maintenance according to the content carried in the interactive information, including: a. alarm information/dynamic information/diagnostic information/probe information/configuration information/performance information corresponding number; b Obtain the base station ID (Evolved NodeB ID, eNB ID) according to the passed X2/Xn port; c. Obtain the Cell-ID passed by the interface.
- data maintenance including: a. alarm information/dynamic information/diagnostic information/probe information/configuration information/performance information corresponding number; b Obtain the base station ID (Evolved NodeB ID, eNB ID) according to the passed X2/Xn port; c. Obtain the Cell-ID passed by the interface.
- the second communication node queries the corresponding adjustment strategy by combining the acquired interaction information with information such as the cell of the second communication node. It specifically includes at least one of the following.
- the second communication node controls the UE of this cell without considering the problem cell as the preferred handover cell. If a measurement report (Measurement Report, MR) reports multiple PCIs, other cells will be handed over first.
- MR Measurement Report
- CA Carrier Aggregation
- a site's diagnostic information finds that among multiple S1 links, one of the S1 links (denoted as x) is disconnected, other related sites will adjust the interoperability strategy, such as a UE at other sites accessing the S1 chain of x The UE moves to this site without triggering the handover to prevent the indicator from deteriorating.
- Both the first communication node and the second communication node mentioned below can be both the source node and the target node.
- the alarm content is that the standing wave of some antennas in the Active Antenna Unit (AAU) is more serious than the alarm or interference in part of the frequency band.
- the strategy is for users with high traffic to switch to different frequency cells with the same coverage; when the standing wave ratio warning information appears on a certain antenna of the AAU of a certain rack on the first communication node or there is serious interference in part of the frequency band, the antenna standing wave
- the cell is normal than the alarm information, but one port power amplifier is turned off.
- the information collection module on the first communication node collects the current alarm information , Forming the corresponding data: A. The information is classified as "alarm”; B. The number is 01; C. The identification bit is "cell level”.
- the information collection module of the first communication node queries the configuration data, obtains the identification code (Cell-ID) of the corresponding cell from the current AAU rack, and adds the Cell-ID of the alarm-related cell at the end of the data.
- Cell-ID identification code
- the information publishing module of the first communication node makes a data block with a destination address of 0.0.0.0 to carry the above data.
- the information publishing module of the first communication node queries the neighboring cell configuration of the current site, and obtains the cell to which the alarm information belongs, that is, the site to which all neighboring cells of the problem cell belong, and obtains the list of Xn ports among these sites and the site to which the current alarm cell belongs, The data is sent through the Xn interface user interface of the list.
- the analysis module of the second communication node receives the Xn port data. If the destination address is 0.0.0.0, it records the next generation NodeB ID (gNB ID) of the first communication node corresponding to the current Xn port, and analyzes the received The information classification, alarm number and Cell-ID of the problem cell in the data. According to the obtained gNB ID and Cell-ID in combination with configuration information, the cell of the second communication node adjacent to the Cell-ID of the first communication node is obtained. Send the relevant cell of the second communication node of the local station and the data received by the second communication node to the execution module.
- gNB ID next generation NodeB ID
- the execution module of the second communication node receives the information, and queries the configuration at the second communication node to obtain the PCI of the problem cell. If there are high-traffic users or important users in the cell of the second communication node, when such users report handover measurement, if the measurement information includes multiple PCIs, including the PCI of the first communication node, switch to another PCI corresponding cell . If only the PCI of the first communication node is measured, the execution module of the second communication node queries the configuration.
- the handover request is not sent to the gNB ID of the first communication node, but a replacement is issued Inter-frequency measurement is re-allocated to this user, allowing the user to switch to the inter-frequency frequency point.
- the information collection module on the first communication node receives the current alarm and forms data: A.
- the information is classified as “alarm”; B.
- the number is 01;
- the identification bit is "Alarm elimination”; repeat the following methods including: the information collection module on the first communication node makes a user data with a destination address of 0.0.0.0; the information release module of the first communication node queries the neighborhood configuration of the current site to obtain alarm information
- the cell to which the cell belongs is the station to which all neighboring cells of the problem cell belong, obtain a list of Xn ports among these stations and the station to which the current alarm cell belongs, and send the above data through the Xn port user plane of the list.
- the analysis module on the first communication node receives the Xn port data and informs the execution module of the second communication node to eliminate the specified gNB ID and the specified alarm strategy of the Cell-ID.
- the third communication node and the fourth communication node mentioned below can both be the source node and the target node.
- the UE supports carrier aggregation between m carriers (m ⁇ n). If a cell (carrier frequency) cannot be dual-streamed and the dual-stream ratio is low, then this cell (carrier frequency) will be the priority when carrier aggregation is added The lowest carrier considered.
- the network adds a strategy to the strategy module of the communication node: number 01, carrier aggregation, the corresponding strategy is that the cell that cannot be dual-stream and has a low dual-stream ratio is finally selected as the secondary carrier.
- the third communication node When a cell on the third communication node is unable to dual-stream in the latest period (granularity can be on the order of minutes), the dual-stream ratio is low, or the channel conditions reported by the terminals in the cell are poor, the third communication node will collect the information into data: A. Information The classification is "dynamic information"; B. The number is 01; C. The identification bit is "cell level”.
- the information collection module of the third communication node queries the configuration data to obtain the Cell-ID of the corresponding cell, adds the alarm-related cell Cell-ID at the end of the above data, and the information collection module on the third communication node makes a destination address of 0.0.0.0 User data.
- the information release module of the third communication node queries the configuration of the neighboring cells of the current site, obtains the sites to which all neighboring cells of the cell to which the dynamic information belongs, obtains the list of X2/Xn ports in these sites and the site to which the current alarm cell belongs, and communicates the third The data formed in the node is sent through the X2/Xn interface user plane of the list.
- the analysis module of the fourth communication node receives the X2/Xn port data. If the destination address is 0.0.0.0, it records the eNB ID of the third communication node corresponding to the current X2/Xn port, and analyzes the information classification in the received data. Dynamic information number, Cell-ID and frequency information of the problem cell.
- the analysis module of the fourth communication node combines the configuration information with the eNB ID, Cell-ID, and frequency information of the third communication node to obtain the cell of the fourth communication node adjacent to the Cell-ID of the third communication node.
- the analysis module of the fourth communication node sends the relevant cell of the fourth communication node of the local station and the received data to the execution module.
- the execution module of the fourth communication node receives the information, and queries the configuration at the fourth communication node to obtain the PCI of the problem cell. For example, in the cell of the fourth communication node, if a user supports m carrier aggregation, and the current user reports o inter-frequency neighbor cell measurements (where o>m), one of the measurements includes the frequency point f and communication node i PCI. When the secondary carrier is added, the cell with the frequency f and the PCI of the third communication node as the secondary carrier has the lowest priority.
- the information collection module on the third communication node collects current information and forms data: A. Information is classified as "dynamic information"; B. Number is 01; C. The flag is "Problem Elimination”; repeating the following methods includes: the information collection module on the third communication node makes a user data with a destination address of 0.0.0.0; the information release module of the third communication node queries the current site neighborhood configuration, Obtain the stations belonging to all neighboring cells of the cell to which the dynamic information belongs, obtain the list of X2/Xn ports among these stations and the station to which the current alarm cell belongs, and send the data formed in the third communication node through the X2/Xn port user plane of the list .
- the analysis module of the fourth communication node receives the X2/Xn port data, and informs the execution module of the fourth communication node to eliminate the strategy of adding priority to the designated secondary carrier of the designated eNB ID and Cell-ID.
- an embodiment of the present disclosure further provides an electronic device including a processor and a memory, and the processor is configured to execute a business processing program stored in the memory to implement the steps of the communication node coordination method.
- an embodiment of the present disclosure also provides a storage medium, wherein the storage medium stores a business processing program, and the business processing program can be executed by one or more processors to implement the aforementioned coordination method of communication nodes. step.
- the embodiments of the present disclosure make full use of the existing communication interfaces between distributed communication nodes, so that each communication node can obtain the status information of other related communication nodes in the network in real time, which can effectively reduce the status of some communication nodes or their cells in the network.
- the impact of abnormalities or insufficient resources on network indicators and related user perceptions Thereby improving the index of the entire distributed network.
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- 一种通信节点的协作方法,包括:第一通信节点收集指定的交互信息,并在所述交互信息上添加所述交互信息发生的问题小区的小区标识后,将所述交互信息发送到第二通信节点;所述交互信息用于指示所述第二通信节点根据接收到的所述交互信息执行对应的调整策略。
- 根据权利要求1所述的方法,其中,所述将所述交互信息发送到第二通信节点,包括:当所述交互信息是站级的,将所述交互信息发送到与所述第一通信节点有接口的通信节点;或,当所述交互信息是站级的,根据预获取的经纬度信息,将所述交互信息发送到与所述第一通信节点距离最近的或指定距离范围的至少一个通信节点。
- 根据权利要求1所述的方法,其中,所述将所述交互信息发送到第二通信节点,包括:当所述交互信息是小区级的,将所述交互信息发送到与所述交互信息发生的问题小区有邻区关系的通信节点;或,当所述交互信息是小区级的,将所述交互信息发送到与所述交互信息发生的问题小区互操作次数最多的或指定互操作次数门限的至少一个通信节点,其中所述互操作次数包括切换次数、负荷均衡次数或辅载波添加次数。
- 根据权利要求1所述的方法,其中,所述将所述交互信息发送到第二通信节点,包括:将所述交互信息按照周期方式或事件方式发送到所述第二通信节点。
- 根据权利要求1所述的方法,其中,还包括:在所述第一通信节点收集指定的交互信息前,在多个通信节点之间设置所述指定的交互信息和交互策略,所述交互策略包括以下至少之一:优先级、交互方式或处理方式。
- 根据权利要求1所述的方法,其中,所述指定的交互信息包括以下至少之一:告警信息、动态信息、诊断信息、配置信息或性能信息。
- 根据权利要求1所述的方法,其中,所述第一通信节点收集指定的交互信息,还包括:对所述收集到的交互信息进行分类,并进行优先级排序。
- 一种通信节点的协作系统,包括:第一通信节点的信息收集模块,用于收集指定的交互信息,并在所述交互信息上添加所述交互信息发生的问题小区的小区标识;第一通信节点的信息发布模块,用于将所述交互信息发送到第二通信节点;第二通信节点的分析模块,用于接收所述交互信息;第二通信节点的执行模块,用于执行所述交互信息对应的调整策略。
- 一种电子设备,包括处理器和存储器,所述处理器用于执行所述存储器中存储的业务处理程序,以实现如权利要求1~7中任意一项所述通信节点的协作方法的步骤。
- 一种存储介质,其中,所述存储介质中存储有业务处理程序,所述业务处理程序能够被一个或者多个处理器执行,以实现如权利要求1~7中任意一项所述通信节点的协作方法的步骤。
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103179601A (zh) * | 2011-12-23 | 2013-06-26 | 北京三星通信技术研究有限公司 | 一种检测无线链路失败或切换失败原因的方法 |
US20150207672A1 (en) * | 2010-09-21 | 2015-07-23 | Samsung Electronics Co., Ltd. | Apparatus and method for detectiong cause of radio link failure or handover failure in mobile communication system |
CN105917726A (zh) * | 2014-01-21 | 2016-08-31 | 瑞典爱立信有限公司 | 用于使用演进节点b enb中的无线电链路故障rlf指示过程的rlf报告的方法和网络节点 |
CN106105293A (zh) * | 2014-03-18 | 2016-11-09 | 日本电气株式会社 | 控制设备、基站设备、无线终端和邻接关系表的更新方法 |
-
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20150207672A1 (en) * | 2010-09-21 | 2015-07-23 | Samsung Electronics Co., Ltd. | Apparatus and method for detectiong cause of radio link failure or handover failure in mobile communication system |
CN103179601A (zh) * | 2011-12-23 | 2013-06-26 | 北京三星通信技术研究有限公司 | 一种检测无线链路失败或切换失败原因的方法 |
CN105917726A (zh) * | 2014-01-21 | 2016-08-31 | 瑞典爱立信有限公司 | 用于使用演进节点b enb中的无线电链路故障rlf指示过程的rlf报告的方法和网络节点 |
CN106105293A (zh) * | 2014-03-18 | 2016-11-09 | 日本电气株式会社 | 控制设备、基站设备、无线终端和邻接关系表的更新方法 |
Non-Patent Citations (1)
Title |
---|
HUAWEI ET AL.: "Discussion on RACH and RLF Report", 3GPP TSG-RAN WG2 MEETING #103BIS R2-1813904, 28 September 2018 (2018-09-28), XP051523374 * |
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