WO2014029335A1 - Procédé et système de recueil d'informations de dispositif - Google Patents

Procédé et système de recueil d'informations de dispositif Download PDF

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Publication number
WO2014029335A1
WO2014029335A1 PCT/CN2013/081960 CN2013081960W WO2014029335A1 WO 2014029335 A1 WO2014029335 A1 WO 2014029335A1 CN 2013081960 W CN2013081960 W CN 2013081960W WO 2014029335 A1 WO2014029335 A1 WO 2014029335A1
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Prior art keywords
data
collection
base station
module
standard data
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PCT/CN2013/081960
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English (en)
Chinese (zh)
Inventor
吴美
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中兴通讯股份有限公司
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Publication of WO2014029335A1 publication Critical patent/WO2014029335A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/02Arrangements for optimising operational condition

Definitions

  • the present invention relates to the field of communications, and in particular, to a device information collection method and system.
  • BACKGROUND With the development of wireless communication technologies, higher requirements are placed on the maintainability of communication devices. In order to better understand the operating status of the system, operators or equipment manufacturers often need to collect equipment information. In a mobile communication system, a commercial office has a large number of devices, which may have hundreds or even tens of thousands of base stations, and each base station has dozens of boards. In the network optimization and network maintenance process, some problems are often encountered. For example, the user management side needs to check the received signal strength indicator (Received Signal Strength Indicator, RSS for short) and input and output (Input Output, 10 for short).
  • RSS Receiveived Signal Strength Indicator
  • the existing information collection methods often need to collect data one by one for each board. After the data collected by each board is reported one by one, the user management side can collect the data that the user needs, that is, the existing information collection method cannot report the data collected by each board, nor can it be from the wireless base station equipment of the whole network.
  • the comprehensive collection of software and hardware information undoubtedly reduces the efficiency of information collection and increases the burden of the transmission link between the base station side and the user management side.
  • the embodiments of the present invention provide a device information collection method and system, which can implement data combination reporting on each collection point, reduce the burden of the transmission link between the base station side and the user management side, and improve the efficiency of information collection.
  • the present invention adopts the following technical solutions.
  • a device information collecting method is provided.
  • the device information collection method of the present invention includes: the base station side collects data from the collection point preset on the base station side according to the user-defined collection task; and the base station side reports the data combination of each collection point to the user management side.
  • the method for reporting the data combination of each collection point to the user management side comprises: predefining a plurality of standard data structures of different lengths; selecting one or more standard data structures from the selected ones according to the number of collection points, The standard data structure reports the data combination of each collection point to the user management side.
  • the standard data structure includes a structure header and at least one structure; when the standard data structure includes a plurality of structures, each structure is configured to report data of different collection points.
  • the structure includes an identification unit configured to report the identification of the collection point, and a sampling data unit configured to report data collected from the collection point.
  • the predefined plurality of standard data structures of different lengths comprise: a first standard data structure set to report data of a single collection point, a second standard data structure set to report data of two collection points, and a setting A third standard data structure for reporting data of five collection points together, a fourth standard data structure set to report data of ten collection points, and a fifth set of data for reporting twenty collection points together
  • the standard data structure is set to a sixth standard data structure that reports data of fifty collection points together and/or a seventh standard data structure that is set to report data of one hundred collection points.
  • the preset collection point on the base station side is preset at a base station layer, a base station subsystem layer, and/or a base station subsystem module layer on the base station side.
  • the method further includes: the user management side acquiring data required by the user from the collected data according to the collecting task.
  • the data required by the user is obtained from the collected data, the data required by the user is also displayed.
  • a device information collection system is provided.
  • the device information collection system of the present invention includes: a data collection module and a data analysis module, wherein the data collection module is configured to collect data according to a collection task customized by the user, and collect data at a collection point preset on the base station side, and collect the data of each collection point. The data combination is reported to the data analysis module.
  • the data collection module includes a collection sub-module, a standard data structure definition module, and a reporting module, wherein the collection sub-module is configured to collect a plurality of collection points preset on the base station side according to a user-defined collection task.
  • Data the standard data structure definition module is configured to pre-define a plurality of standard data structures of different lengths
  • the reporting module is configured to select one or more standard data structures according to the number of collection points, and pass the selected standard data. The structure reports the data combination of each collection point to the data analysis module.
  • the standard data structure definition module is configured to be predefined: a first standard data structure set to report data of a single collection point, a second standard data structure set to report data of two collection points, and set to A third standard data structure for reporting data of five collection points, a fourth standard data structure set to report data of ten collection points, and a fifth standard for reporting data of twenty collection points together Data knot A sixth standard data structure that is configured to report data of fifty collection points together and/or a seventh standard data structure that is set to report data of one hundred collection points.
  • the device information collection system further includes: the data analysis module is configured to acquire data required by the user from the collected data according to the collection task.
  • the data analysis module is further configured to present data required by the user.
  • the beneficial effects of the present invention are as follows:
  • the base station side reports the data combination of each collection point to the user management side, thereby reducing the burden of the transmission link between the base station side and the user management side, and improving the efficiency of information collection.
  • 1 is a schematic diagram of a device information collection system according to an embodiment of the present invention
  • FIG. 2 is a flowchart of a device information collection method according to an embodiment of the present invention
  • FIG. 4 is a schematic structural diagram of a collection point setting according to an embodiment of the present invention
  • FIG. 5 is a schematic diagram of a standard data structure according to an embodiment of the present invention.
  • 1 is a device information collection system according to an embodiment of the present invention.
  • the device information collection system includes a data collection module 11 and a data analysis module 12, wherein the data collection module 11 is configured to perform a collection task customized according to a user.
  • the data is collected by the collection point on the base station side, and the data combination of each collection point is reported to the data analysis module 12; the data analysis module 12 is configured to acquire data required by the user from the collected data according to the collection task.
  • the data collection module 11 is disposed on the base station side
  • the data analysis module 12 is disposed on the user management side.
  • the device information collection system further includes a collection point setting module, configured to set a collection point on the base station side according to the collection policy in advance, and set a unique identifier for each collection point. As shown in FIG.
  • the base station side can be generally divided into three layers, which are a base station layer, a base station subsystem layer, and a base station subsystem module layer.
  • the base station side usually includes multiple base stations, and each base station can include multiple base station subsystems.
  • Each base station subsystem may include multiple base station subsystem modules, and each base station subsystem module may set multiple collection points. And not only the base station The system module can set multiple collection points.
  • the other layers on the base station side can set multiple collection points.
  • the user can formulate collection strategies according to different requirements, select different levels according to the collection strategy, and set the collection points to realize information on different levels. Collecting, such as collecting device information of the entire network, collecting device information of some boards of some base stations or information of some collection items of base stations of the whole network, etc.
  • the data collection module 11 includes a collection sub-module, a standard data structure definition module, and a reporting module, wherein the collection sub-module is configured to collect data according to a collection task customized by the user, and preset data collection points on the base station side;
  • the definition module is set to pre-define a number of standard data structures of different lengths.
  • each standard data structure includes a structure header and at least one structure. When the standard data structure includes a plurality of structures, each structure is set to report data of different collection points; each structure includes a flag set to report the collection point. An identification unit, and a sample data unit configured to report data collected from the collection point.
  • the standard data structure definition module is configured to predefine the following seven standard data structures of different lengths, as shown in FIG. 5: a first standard data structure a, a second standard data structure 2a, a third standard data structure 5a, The four standard data structure 10a, the fifth standard data structure 20a, the sixth standard data structure 50a, and the seventh standard data structure 100a.
  • the first standard data structure a includes a structure header and a structure, and is applicable to a scene for collecting a single collection point.
  • the structure includes an identification unit and a sampling data unit, and the scene for collecting the single collection point 1 is For example, the identification unit is set to report the identifier of the collection point 1, and the sampling data unit is set to report the data collected from the collection point 1; the second standard data structure 2a includes a structure header and two structures, which are applicable to two pairs. The collection point collects the data, and the data collected from the two collection points can be reported together.
  • One structure is set to report a collection point identifier and data collected from the collection point, and another structure is set to report another A collection point identifier and data collected from the other collection point, such as the identifier of the collection point 1 reported by the first identification unit in the first structure, the first sample data unit in the first structure is reported from the collection point 1
  • the collected data, the second identification unit in the second structure reports the identification of the collection point 2, and the second sampling in the second structure
  • the data collected from the collection point 2 is reported by the unit;
  • the third standard data structure 5a includes a structure head and five structures, which are applicable to scenes collected from five collection points, and can be collected from five collection points.
  • the data is reported together, for example, the first identifier unit in the first structure reports the identifier of the collection point 1, and the first sample data unit in the first structure reports the data collected from the collection point 1, in the second structure.
  • the second identifier unit reports the identifier of the collection point 2
  • the second sample data unit in the second structure reports the data collected from the collection point 2 and so on
  • the fifth identifier unit in the fifth structure reports the collection.
  • the fourth standard data structure 10a includes a structure header and ten structures, which are applicable to Scenes collected by ten collection points, capable of collecting from ten
  • the data collected by the point is reported together;
  • the fifth standard data structure 20a includes a structure head and twenty structures, which are suitable for the scenes collected from the twenty collection points, and the data that can be collected from the twenty collection points.
  • the sixth standard data structure 50a includes a structure header and fifty structures, which are applicable to scenes for collecting 50 collection points, and can report data collected from fifty collection points together;
  • the standard data structure 100a includes a structure header and a hundred structures, which are suitable for collecting scenes of one hundred collection points, and can report data collected from one hundred collection points together. For example, if the user needs to collect the VSWR information of the entire network (one or more VSWRs per base station), the user only needs to input the VSWR on the user management side, and the base station side finds the entire network according to the VSWR identifier. The VSWR information of each collection point is then selected according to the number of collection points.
  • the optimal reporting method is: Select the sixth standard data structure 50a, and pass the sixth standard data.
  • the structure 50a reports the data of the 50 collection points to the user management side. Similar to the combination of RMB, if the number of collection points is other than 1, 2, 5, 10, 20, 50, 100, you can select several combinations from the above seven standard data structures, such as The network has 101 collection points.
  • the optional reporting methods include, but are not limited to, the following: - The fifth standard data structure 20a and the first standard data structure a are selected.
  • This selection method requires a total of 6 reports, of which Performing five times of reporting through the fifth standard data structure 20a, and reporting the data of the 20 collection points together, and reporting the data of the remaining one collection point by the first standard data structure a; or, selecting The sixth standard data structure 50a and the first standard data structure a, the selection method requires a total of three times of reporting, wherein the sixth standard data structure 50a performs two reports, and each of the data of 50 collection points is one.
  • the data of the remaining one collection point is reported once by the first standard data structure a; or, the seventh standard data structure 100a and the A standard data structure a, wherein the data of 100 collection points is reported to the user management side through the seventh standard data structure 100a, and the data of the remaining one collection point is reported to the user through the first standard data structure a.
  • this method only needs to be reported twice in comparison with the first two methods. It reduces the burden on the transmission link and improves the efficiency of information collection. Therefore, through the single use or combination of these standard data structures, no matter how many collection points the user needs to collect, the requirement for combined reporting of the data of the collection points can be satisfied.
  • the reporting module is configured to select one or more standard data structures according to the number of collection points, and report the data combination of each collection point to the data analysis module through the selected standard data structure.
  • the data collection module 11 may further include a base station side storage module, configured to classify and store data collected by the collection submodule, where the classification storage may be based on a base station type, a base station subsystem type, and/or a base station subsystem module. Types are stored in categories.
  • the base station side storage module may be a database or other storage medium.
  • the data collection module 11 may further include a monitoring module and a scheduling module, where the monitoring module is configured to monitor the state of the transmission link between the data collection module 11 and the data analysis module 12 for transmitting the collected data, and discover the transmission.
  • the monitoring module can monitor the link status by using heartbeat detection.
  • the scheduling module is configured to control the collection operation according to a preset scheduling policy, where the scheduling policy includes collecting the size of the data volume and/or collecting the time period.
  • the scheduling module can preset the maximum amount of data collected each time to prevent the impact of excessive data on the communication system; for data that cannot be collected simultaneously, the scheduling unit can also set The data is collected in time segments.
  • the data analysis module 12 is configured to obtain data required by the user from the collected data according to the collection task.
  • the data analysis module is further configured to perform classification storage on the collected data reported by the data collection module 11, and the data analysis module is further configured to display the data required by the user to the user for viewing.
  • the data analysis module may include a custom module, a data mapping module, and a data presentation module, which may be connected in sequence, and may further include a user management side storage module, wherein the customization module is configured to customize a collection task, and the collection task includes an acquisition duration and an collection interval. , collecting objects, collecting parameters and other information.
  • the customization module sends a startup command to the data collection module 11, and the data collection module 11 starts the collection process in response to the startup command.
  • the duration of the collection determines the length of time of the collection task on the network element device.
  • the network element device can delete the collection task to prevent the useless task from being stored in the network element device for a long time.
  • the collection interval specifies the periodic interval at which the NE device collects data.
  • the NE device collects data related to this task at this interval.
  • the collection object is the managed object that the user needs to collect data. For example, if the user needs to view the information of some base stations, the user can input the type of the base station as the collection object. For example, if the user needs to view the information of some boards, the user can input the board type.
  • the acquisition object if the user needs to view the VSWR information of the whole network, the user can input the VSWR of the whole network as the acquisition object.
  • the acquisition parameters are performance parameters that need to be collected on the managed object, such as RSSI, 10 values, standing wave ratio, baseband power, RF power, clock information, and fan status information.
  • the data analysis module 12 further includes a judging module, configured to determine whether the collection tasks are mutually exclusive after the user-defined collection task, and if it is found that the existing collection task in the device information collection system is executing, the mutual exclusion is considered. , End this custom collection task.
  • the user management side storage module is configured to classify and store the collected data reported by the data collection module 11, and the classification storage may be classified and stored according to the base station type, the base station subsystem type, and/or the base station subsystem module type.
  • the user management side storage module may be a database or other storage medium.
  • the data mapping module is configured to establish a mapping relationship between the collection task and the data required by the collection task, and select data required by the user from the data collected according to the collection task according to the mapping relationship.
  • the mapping relationship between the collection task and the required database can be performed according to the collection task. Relationship, get the data that the user needs from the database.
  • the data mapping module can also be configured to filter invalid data.
  • the data presentation module is arranged to present the data required by the user.
  • FIG. 2 is a flowchart of a method for collecting device information according to an embodiment of the present invention. As shown in FIG. 2, the method includes the following steps:
  • the S20K collects data from the collection point preset on the base station side according to the user-defined collection task, and reports the data combination of each collection point to the user management side. Before this step, you need to set the collection points on the base station side according to the collection strategy, and set a unique identifier for each collection point.
  • the base station side can be generally divided into three layers, which are a base station layer, a base station subsystem layer, and a base station subsystem module layer.
  • the base station side usually includes multiple base stations, and each base station can include multiple base station subsystems.
  • Each base station subsystem may include multiple base station subsystem modules, and each base station subsystem module may set multiple collection points.
  • each standard data structure includes a structure header and at least one structure.
  • each structure is set to report data of different collection points; each structure includes a flag set to report the collection point.
  • Identification unit and set to A sample data unit that reports data collected from the collection point.
  • the standard data structure definition module is set to pre-define seven standard data structures of different lengths as shown in FIG. 5.
  • the base station side collects data from the collection point preset on the base station side according to the user-defined collection task, and collects the data combination of each collection point to the user management side.
  • the method for reporting the combination is: selecting one or more standard data structures from a plurality of standard data structures of different lengths according to the number of collection points, and collecting data of each collection point by using the selected standard data structure.
  • the combination is reported to the user management side.
  • a standard data structure of seven different lengths as shown in FIG. 5 is pre-defined. For example, if the user needs to collect the VSWR information of the whole network (one or more VSWRs per base station), then the user only needs to manage the user.
  • the side input VSWR, the base station side will find the standing wave ratio information of each collection point according to the standing wave ratio identification, and then select the standard data structure according to the number of collection points. If there are 50 collection points in the whole network, it is preferred.
  • the reporting method is as follows: The sixth standard data structure 50a is selected, and the data of the 50 collection points is reported to the user management side through the sixth standard data structure 50a. For example, there are 101 collection points in the whole network.
  • the preferred reporting method is: selecting the seventh standard data structure 100a and the first standard data structure a, wherein the data of 100 collection points is reported to the seventh standard data structure 100a. On the user management side, the data of the remaining one collection point is reported to the user management side through the first standard data structure a. This method only needs to be reported twice. Further, in this step, the base station side may further classify and store the collected data, where the classified storage may be classified and stored according to the type of the base station, the type of the base station subsystem, and/or the type of the base station subsystem module, for subsequent data. Analyze use.
  • the state of the transmission link for transmitting the collected data between the base station side and the number of user management sides may be monitored in real time, and when the transmission link is abnormal, the collection operation on the base station side is stopped. Thereby avoiding invalid collection tasks running all the time and consuming system resources.
  • the monitoring of the link status can be implemented by heartbeat detection.
  • the collection operation may be controlled according to a preset scheduling policy. Specifically, the maximum amount of data collected each time may be preset to prevent the impact of excessive data on the communication system; The collected data can also be set to collect data in different time periods.
  • the user management side acquires data required by the user from the collected data according to the collection task. Specifically, the user management side classifies and stores the collected data reported by the base station, and the classified storage may be classified and stored according to the type of the base station, the type of the base station subsystem, and/or the type of the base station subsystem module.
  • the user management side establishes a mapping relationship between the collection task and the data required by the collection task, and selects data required by the user from the data collected according to the collection task according to the mapping relationship, and further includes Present the data required by the user to the user. Further, after the user customizes the collection task, the method further includes: determining whether the collection tasks are mutually exclusive.
  • FIG. 3 is a flowchart of a method for collecting device information according to another embodiment of the present invention.
  • a collection point is set in advance according to an acquisition policy, and a unique identifier is set for each collection point, and the collection point may be set at the base station side.
  • the collection point setting strategy of this dimension satisfies the application needs of different scenarios of the user. It is also necessary to define a plurality of standard data structures of different lengths in advance, preferably, as defined by seven standard data structures of different lengths as shown in FIG. As shown in Figure 3, the following steps are included:
  • the S30K user customizes the collection task on the user management side.
  • the collection task includes information such as acquisition duration, acquisition interval, acquisition object, and acquisition parameters. Different users have different collection requirements, so the collection tasks are different.
  • the user management side notifies the base station side to start the collection task, and the user management side determines whether the collection tasks are mutually exclusive. If the collection task is executed in the device information collection system, the mutual exclusion is considered, the process ends, and the user is notified. There is an acquisition task running, otherwise, proceed to step 303;
  • the collection operation on the base station side starts running, and data collection is performed on the collection points related to the collection task, and the collection task is scheduled at the same time.
  • the base station side determines whether the collection of the data is completed. If the collection is completed, the process proceeds to step 305. Otherwise, the process returns to step 303 to continue the collection.
  • the base station side reports the data combination of each collection point to the user management side.
  • the base station side can automatically select one or more standard data structures from a plurality of standard data structures of different lengths according to the number of collection points, and combine the data of each collection point through the selected standard data structure.
  • the user may select one or more standard data structures from a plurality of predefined standard data structures of different lengths on the user management side, and notify the base station side of the selection result, and the base station side adopts a standard data structure selected by the user.
  • the data combination of each collection point is reported to the user management side.
  • the user management side stores the collected data reported by the base station. Specifically, the collected data is classified and stored, and the classified storage may be classified and stored according to the type of the base station, the type of the base station subsystem, and/or the type of the base station subsystem module.
  • the user management side establishes a mapping relationship between the collection task and the data required by the collection task, and the mapping relationship is used to select data required by the user under the current collection task from the data stored by the user management side.
  • the mapping relationship can be implemented through a mapping table.
  • the user management side performs data analysis, and obtains data required by the user according to the customized collection task of the user, and filters invalid data.
  • the base station side reports the data combination of each collection point to the user management side, which reduces the burden of the transmission link between the base station side and the user management side, and improves the efficiency of information collection.
  • the collection point is preset at the base station layer, the base station subsystem layer, and/or the base station subsystem module layer of the base station side, that is, the collection points can be set at different levels on the base station side, and the user can select different levels according to different requirements.
  • Information collection such as collecting device information of the entire network, collecting device information of some boards of some base stations, or collecting information of some collection items of base stations of the entire network, implements a multi-dimensional collection point setting strategy, and satisfies different scenarios of users.
  • the application needs. The above is a further detailed description of the present invention in conjunction with the specific embodiments. It is not intended that the specific embodiments of the invention are limited to the description. It will be apparent to those skilled in the art that the present invention may be practiced without departing from the spirit and scope of the invention.

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  • Computer Networks & Wireless Communication (AREA)
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Abstract

L'invention concerne un procédé et un système de recueil d'informations de dispositif. Le procédé comporte les étapes suivantes : un côté station de base recueille des données en un point de recueil prédéfini du côté station de base en fonction d'une tâche de recueil définie par un utilisateur et signale un groupe de données de chaque point de recueil à un côté gestion d'utilisateur ; et le côté gestion d'utilisateur acquiert des données demandées par l'utilisateur parmi les données recueillies en fonction de la tâche de recueil. Au moyen de la solution technique ci-dessus, la présente invention permet de mettre en œuvre le signalement d'un groupe de données de chaque point de recueil, de réduire la charge sur une liaison d'émission entre un côté station de base et un côté gestion d'utilisateur, et d'améliorer le rendement du recueil d'informations.
PCT/CN2013/081960 2012-08-24 2013-08-21 Procédé et système de recueil d'informations de dispositif WO2014029335A1 (fr)

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CN101321090A (zh) * 2008-07-03 2008-12-10 中兴通讯股份有限公司 性能数据的统计方法和装置
CN101867956A (zh) * 2010-05-21 2010-10-20 华为技术有限公司 基站及其配套设备的监控方法、设备及系统
CN102158875A (zh) * 2010-12-01 2011-08-17 中兴通讯股份有限公司 一种设备信息采集方法及系统
CN102883350A (zh) * 2012-08-24 2013-01-16 中兴通讯股份有限公司 一种设备信息采集方法及系统

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