CN102036289B - Comprehensive network agent system and method for home nodeB (HNB) - Google Patents

Abstract

The invention discloses a comprehensive network agent system for a home nodeB (HNB). The system is arranged in a home nodeB gateway (HNB GW) and comprises a dynamic acquisition control unit, an HNB GW data acquisition unit, an HNB data acquisition unit and a storage unit, wherein the dynamic acquisition control unit is used for sending an acquisition task to the HNB GW data acquisition unit and the HNB data acquisition unit, receiving returned acquisition data and transmitting the received acquisition data to the storage unit for storing; the HNB GW data acquisition unit realizes data acquisition on the HNB GW through a functional unit of the HNB GW and returns acquisition data; and the HNB data acquisition unit performs data acquisition on the HNB which is currently registered on the HNBGW and returns acquisition data. The invention also discloses a corresponding acquisition control method, a data acquisition method, a state monitoring method and a traffic analysis method. In the system and the method, the problems of connection load and data summarization complexity caused by the HNB which has a large direct management quantity and changes dynamically are solved.

Description

A kind of home base station network general agent system and method

Technical field

This patent relates to the network management technology field, relates in particular to a kind of home base station network general agent management system and method.

Background technology

Along with the development of mobile communication, the ratio that mobile data services account for total business volume is more and more higher.According to statistics, there have 70% data service to occur in to be indoor, therefore, improves the indoor covering of 3G network, is one of key of 3G deployment success.In order to solve the indoor covering problem of disposing high-speed data service, industry has proposed Home eNodeB (Home NodeB, HNB) technology.Wherein, HNB and femto gateway (Home NodeB Gateway, HNB GW) are the nucleus equipments of HNB technology.Use HNB can greatly improve the indoor signal quality, dispose smoothly high-speed data service, reduce network investment, promote fixing and mobile access service to merge.HNB GW is the mobile subscriber of family access mobile core network and the gateway device that uses mobile service, finishes HNB to the converging of the control signal of core net and service bearer, distribution and transparent transmission.

In order to maximally utilise Internet resources, improve running quality and the efficient of network, provide good communication service to the user, must provide good management to home base station network (comprising Home eNodeB and femto gateway).According to home base station network device characteristics and attributes of network, plan suitable total management system framework, be conducive to the standardized administration granularity, improve the efficient to the home base station network maintenance management of operator; By the service data of acquisition monitoring analysis reflection HNB GW, HNB traffic performance and professional ability, can provide important reference data for follow-up planning, analysis, optimization and management simultaneously.

Each normal structure proposes by Home eNodeB management system (Home NodeB Management System at present, HMS) and femto gateway management system (Home NodeB Gateway Management System, HGWMS) manage respectively HNB and HNB GW.There is following shortcoming in the above-mentioned way to manage of prior art:

1) because HNB quantity is huge and equipment is simple, existing HNB management framework based on HMS can only realize that the HNB that does one's best manages, and namely HNB does not continue to report management data, and only reported data when HMS has regulatory requirement causes the management data disappearance easily.

2) owing to set up management channels between HMS and each HNB, challenge has been proposed all for maintenance and the load pressure of management channels.

3) the frequent dynamic switch of HNB, for the HNB that closes, management system can't be known its history management data.

4) HMS is independently to the management of HNB and HGWMS to the management data of HNB GW, be that HMS is indifferent to HNB and once registered under which HNB GW, HGWMS also is indifferent to once registered which HNB under the HNB GW, more do not understand HNB Iuh link data traffic situation at all levels, what be unfavorable for managing becomes more meticulous, be difficult to realize varigrained data statistics, also be unfavorable for the business conduct analysis to the user.

Summary of the invention

The embodiment of the invention provides a kind of home base station network general agent system and corresponding method, the problem that the connected load that solution direct management quantity HNB huge and dynamic change causes and data gather complexity.

The home base station network general agent system that the embodiment of the invention provides is arranged among the femto gateway HNB GW, comprising: dynamic acquisition control unit, HNB GW data acquisition unit, Home eNodeB HNB data acquisition unit and memory cell;

Described dynamic acquisition control unit be used for sending acquisition tasks to described HNB GW data acquisition unit and HNB data acquisition unit, and the image data that reception is returned sends described cell stores to;

Described HNB GW data acquisition unit is used for receiving the acquisition tasks that described dynamic acquisition control unit sends, and realizes HNB GW is carried out data acquisition and returns image data by the functional unit that described HNB GW comprises;

Described HNB data acquisition unit is used for receiving the acquisition tasks that described dynamic acquisition control unit sends, and the current HNB that is registered to described HNB GW is carried out data acquisition and returns image data;

Described memory cell is used for storing the image data that described dynamic acquisition control unit transmits.

The embodiment of the invention provides a kind of Home eNodeB data acquisition control method, is applied to home base station network general agent provided by the invention system, comprising:

After the base station HNB of family is registered to femto gateway HNB GW, if do not exist the communication interface Iuh between described HNB and the described HNB GW to connect example, the Iuh that is created between described HNB and the described HNB GW by described dynamic acquisition control unit connects example, and sends the instruction of opening the corresponding acquisition tasks of described Iuh connection example to described HNB data acquisition unit; And

If exist the Iuh between described HNB and the described HNB GW to connect example, described dynamic acquisition control unit connects example with the Iuh between described HNB and the described HNB GW and activates, and sends the instruction that recovers the corresponding acquisition tasks of described Iuh connection example to described HNB data acquisition unit.

The embodiment of the invention also provides a kind of Home eNodeB data acquisition implementation method, is applied to home base station network general agent provided by the invention system, comprising:

By the parallel data of carrying on every a pair of online HNB and the Iuh link between the HNB GW of monitoring of described HNB data acquisition unit;

Report image data to described dynamic acquisition control unit according to the collection period of setting;

By described dynamic acquisition control unit described image data is sent to described cell stores.

The embodiment of the invention also provides a kind of femto gateway data acquisition implementation method, is applied to home base station network general agent provided by the invention system, comprising:

By described HNB GW data acquisition unit the ruuning situation of HNB GW own, resource operating position and HBN Register Cancel situation are monitored;

Report image data to described dynamic acquisition control unit according to the collection period of setting;

By described dynamic acquisition control unit described image data is sent to described cell stores.

The embodiment of the invention also provides a kind of Home eNodeB presence method for supervising, is applied to home base station network general agent provided by the invention system, comprising:

The Register Cancel state information that is connected to the HNB of described HNB GW by described HNB GW data acquisition unit real-time report is given described dynamic acquisition control unit;

Send the Register Cancel state information of the HNB that receives to described condition monitoring unit by described dynamic acquisition control unit;

By the Register Cancel state information of described condition monitoring unit according to the HNB that receives, carry out the HNB real-time status monitoring, and the show state monitored results.

The embodiment of the invention provides a kind of Home eNodeB data traffic analytical method again, is applied to home base station network general agent provided by the invention system, comprising:

The flow analysis task generated data that is arranged according to the user by the flow analysis unit reports requirement to send to described dynamic acquisition control unit;

Report requirement to carry out respective handling to the image data that receives according to described data by described dynamic acquisition control unit, generate reported result and return to described flow analysis unit;

Described flow analysis unit receives the reported result that described dynamic acquisition control unit returns; And the Register Cancel statistical information of the HNB that sends according to described reported result and described condition monitoring unit, obtain the flow analysis result.

The present invention proposes home base station network general agent system configuration, home base station network general agent Account Dept is deployed on the HNB GW, specific definition it each functional module that comprises, not only realize the management to HNBGW itself, also utilize HNB GW to HNB convergence distribution characteristics, gather the HNB data in the HNB GW administration territory, from HNB GW side HNB is realized converging integrated management, at the low cost of safeguarding of the prerequisite decline of satisfying maintenance needs, the problem that the connected load that solution direct management quantity HNB huge and dynamic change causes and data gather complexity improves system effectiveness.

In addition, HNB GW and HNB are implemented comprehensive management, not only can hold professional ability and the performance situation of individual equipment, service quality that more can quantitatively evaluating home base station network integral body, the become more meticulous maintenance quality of home base station network is experienced for the user brings better access.

Description of drawings

Fig. 1 disposes position view for the home base station network general agent system that the embodiment of the invention provides;

The home base station network general agent internal system structural representation that Fig. 2 provides for the embodiment of the invention;

The signaling process figure of the realization flow analysis that Fig. 3 provides for the embodiment of the invention.

Embodiment

Below in conjunction with accompanying drawing, home base station network general agent system and each correlation method that the embodiment of the invention is provided are described in detail.

As shown in Figure 1, the home base station network general agent system that provides for the embodiment of the invention disposes position view.

Among Fig. 1, home base station network general agent Account Dept is deployed among the HNB GW, realizes the HNB in HNB GW and the management scope thereof is carried out data acquisition.Comprise: the data acquisition of HNB GW itself, HNB GW Iuh interface (communication interface between HNB GW and the HNB) relevant data acquisition, Iu interface (communication interface between HNB GW and the core net) relevant data acquisition, and the relevant data acquisition of each HNB that is connected with HNB GW.Further can realize condition monitoring and flow analysis integrated management to HNB and HNB GW.Home base station network general agent system can also provide data sharing to external system by the unified external interface of standard, and the HNB GW and the HNB management data that provide after the aggregation process are provided.Wherein, HNB is connected with HNB GW by the Iuh interface, and HNB GW is the convergence distribution gateway device of HNB, and HNB is by HNB GW core network access.

In the practical application, external system can be the home base station network total management system.The home base station network total management system is collected the related data about the home base station network management that a plurality of HNB GW be deployed with home base station network general agent system report, and realizes the global administration to the whole network home base station network.

The home base station network general agent internal system structural representation that the embodiment of the invention provides comprises: HNB GW data acquisition unit 11, HNB data acquisition unit 12, dynamic acquisition control unit 13 and memory cell 14 as shown in Figure 2.Wherein:

Dynamic acquisition control unit 13 is used for sending acquisition tasks to HNB GW data acquisition unit 11 and HNB data acquisition unit 12, and receives the image data of returning and send memory cell 14 to and store;

HNB GW data acquisition unit 11 is used for receiving the acquisition tasks that dynamic acquisition control unit 13 sends, and realizes HNB GW is carried out data acquisition and returns image data by the functional unit that HNB GW comprises;

HNB data acquisition unit 12 be used for to receive the acquisition tasks that dynamic acquisition control unit 13 sends, and the HNB of the current HNB of being registered to GW is carried out data acquisition and returns image data;

Memory cell 14 is used for the image data that storage dynamic acquisition control unit 13 transmits.

In one preferred embodiment, above-mentioned home base station network general agent system can also comprise: condition monitoring unit 15.After having increased condition monitoring unit 15, HNB GW data acquisition unit 11 real-time report are connected to the Register Cancel state information of HNB of HNB GW to dynamic acquisition control unit 13; Send condition monitoring unit 15 to after the Register Cancel state information of the HNB of dynamic acquisition control unit 13 reception HNB GW data acquisition units 11 real-time report; Condition monitoring unit 15 carries out the HNB real-time status monitoring according to the Register Cancel state information of the HNB that receives, and the show state monitored results.

In one preferred embodiment, above-mentioned home base station network general agent system can also comprise: flow analysis unit 16, be used for the flow analysis task according to user's setting, generated data reports and requires to send to dynamic acquisition control unit 13, and receives the reported result that dynamic acquisition control unit 13 returns; And the Register Cancel statistical information of the HNB that sends according to reported result and condition monitoring unit 15, obtain the flow analysis result.Wherein, after dynamic acquisition control unit 13 receives data and reports requirement, the image data that receives reported according to data require to carry out to generate reported result after the respective handling and return to flow analysis unit 16.Simultaneously, condition monitoring unit 15, the Register Cancel state information of also adding up the HNB that obtains, the Register Cancel statistical information that generates HNB sends to the flow analysis unit and carries out flow analysis.

In one preferred embodiment, condition monitoring unit 15 also sends to memory cell 14 with the condition monitoring result and stores; And flow analysis unit 16 also the flow analysis result is sent to memory cell carry out 14 the storage.

In one preferred embodiment, above-mentioned home base station network general agent system can also comprise: external system interface communication unit 17 is used for the image data of memory cell 14 storages is exported to external system.External system wherein can be various management systems, such as can being for home base station network total management system of Home eNodeB being carried out integrated management etc.

The below comprises HNB GW data acquisition unit 11, HNB data acquisition unit 12, dynamic acquisition control unit 13, memory cell 14, condition monitoring unit 15, flow analysis unit 16 and external system interface communication unit 17 as example take home base station network general agent system, describes Home eNodeB data acquisition control method, Home eNodeB data acquisition implementation method, femto gateway data acquisition implementation method, Home eNodeB presence method for supervising and Home eNodeB data traffic analytical method in this home base station network general agent system in detail.

The Home eNodeB data acquisition control method that the embodiment of the invention provides comprises:

After the base station HNB of family is registered to femto gateway HNB GW, if do not exist the communication interface Iuh between HNB and the HNBGW to connect example, the Iuh that is created between HNB and the HNBGW by dynamic acquisition control unit 13 connects example, and sends the instruction of opening the corresponding acquisition tasks of Iuh connection example to HNB data acquisition unit 12; If exist the Iuh between HNB and the HNB GW to connect example, dynamic acquisition control unit 13 connects example with the Iuh between HNB and the HNB GW and activates, and sends the instruction that recovers the corresponding acquisition tasks of Iuh connection example to HNB data acquisition unit 12.Be described as follows:

Because dynamic acquisition control unit 13 is mainly finished the dynamic control of acquisition tasks and the aggregation process of data.And the dynamic control function of the acquisition tasks of dynamic acquisition control unit 13 mainly is the Register Cancel success message according to the HNB of HNB GW data acquisition unit 11 real-time informings, dynamically controls corresponding acquisition tasks in the HNB data acquisition unit 12.The concrete operations flow process is as follows: when HNB first when HNB GW registers, dynamic acquisition control unit 13 will create a new HNB and be connected example and activation with the Iuh of HNB GW, and send the instruction of opening corresponding all acquisition tasks of Iuh connection example to HNB data acquisition unit 12; When HNB nullified, dynamic acquisition control unit 13 was connected the example deexcitation with HNB with the Iuh of HNB GW, and sent the instruction of hanging up corresponding all acquisition tasks of Iuh connection example to HNB data acquisition unit 12; When HNB registered again, dynamic acquisition control unit 13 was connected example with HNB and activates with the Iuh of HNB GW, and sends the instruction that recovers corresponding all acquisition tasks of Iuh connection example to HNB data acquisition unit 12.

In one preferred embodiment, the Iuh of deexcitation is connected example the deexcitation time threshold is set, the Iuh that deletion exceeds the deexcitation time threshold connects example.The long-time Iuh that can avoid like this reasons such as HNB transfer, damage to cause connects example and hangs up redundant.

For the acquisition tasks of HNB GW itself, generally be just to be in the monitoring acquisition state after opening always, not affected by the presence of HNB.

The below is described in detail with specific embodiment the data acquisition implementation method of Home eNodeB data acquisition implementation method and femto gateway.

The Home eNodeB data acquisition implementation method that the embodiment of the invention provides comprises:

By the parallel data of carrying on every a pair of online HNB and the Iuh link between the HNB GW of monitoring of HNB data acquisition unit 12; Report image data to dynamic acquisition control unit 13 according to the collection period of setting; By dynamic acquisition control unit 13 image data is sent to memory cell 14 storages.

The data of Real-time Collection can comprise following content: RUA(RANAP User Adaption, wireless access network applying portion user is adaptive) message statistics, signaling plane data statistics, user plane data etc., these acquisition tasks specifically are related to each HNB by the Iuh link, are subjected to the impact of the presence of HNB.

RUA message statistics: reflection signaling using planar load.Specifically can comprise:

The RUA bag number that the Iuh link receives: the quantity that the RUA that HNB GW receives at the Iuh link in the statistics gatherer cycle wraps.

The RUA bag number that the Iuh link sends: the quantity that the RUA that HNB GW sends at the Iuh link in the statistics gatherer cycle wraps.

The RUA byte number that the Iuh link receives: the byte number that the RUA that HNB GW receives at the Iuh link in the statistics gatherer cycle wraps.

The RUA byte number that the Iuh link sends: the byte number that the RUA that HNB GW sends at the Iuh link in the statistics gatherer cycle wraps.

The signaling plane data: the load of reflection signaling bear aspect specifically can comprise:

Iuh interface signaling plane up SCTP(Stream Control Transmission Protocol, SCTP) the bag number: the quantity of the up SCTP bag that HNB GW receives on the Iuh interface in the statistics gatherer cycle.

Iuh interface signaling plane descending SCTP bag number: the quantity of the descending SCTP bag that HNB GW sends on the Iuh interface in the statistics gatherer cycle.

The up SCTP byte number in Iuh interface signaling plane: the byte number of the up SCTP message that HNB GW receives on the Iuh interface in the statistics gatherer cycle.

The descending SCTP byte number in Iuh interface signaling plane: the byte number of the descending SCTP message that HNB GW sends on the Iuh interface in the statistics gatherer cycle.

User plane data: reflection HNB service communication amount specifically can comprise:

Circuit domain Iuh interface user plane upstream data bag number: the user that HNB GW receives on the Iuh interface in the statistics gatherer cycle sends to the bag number of the upstream data of circuit domain core net.

Circuit domain Iuh interface user plane downlink data packet number: the bag number of the downlink data from the core net circuit domain to the user that HNB GW sends on the Iuh interface in the statistics gatherer cycle.

The byte number that circuit domain Iuh interface user plane is up: the user that HNB GW receives on the Iuh interface in the statistics gatherer cycle sends to the byte number of the upstream data of circuit domain core net.

The byte number that circuit domain Iuh interface user plane is descending: the byte number of the downlink data from the core net circuit domain to the user that HNB GW sends on the statistics Iuh interface.

Packet domain Iuh interface user plane upstream data bag number: the user that HNB GW receives on the Iuh interface in the statistics gatherer cycle sends to the bag number of the upstream data of packet domain core network.

Packet domain Iuh interface user plane downlink data packet number: the bag number of the downlink data from the core network packet-domain to user that HNB GW sends on the Iuh interface in the statistics gatherer cycle.

The byte number that packet domain Iuh interface user plane is up: the user that HNB GW receives on the Iuh interface in the statistics gatherer cycle sends to the byte number of the upstream data of circuit domain core net.

The byte number that packet domain Iuh interface user plane is descending: the byte number of the downlink data from the core network packet-domain to user that HNB GW sends on the Iuh interface in the statistics gatherer cycle.

The data of above-mentioned collection only for for example, should not limit the present invention with this.

The embodiment of the invention also provides a kind of femto gateway data acquisition implementation method, comprising:

Monitored by 11 pairs of ruuning situations of HNB GW of HNB GW data acquisition unit own, resource operating position and HBN Register Cancel situation; Report image data to dynamic acquisition control unit 13 according to the collection period of setting; By dynamic acquisition control unit 13 image data being sent to memory cell 14 stores.

When by 11 realizations of HNB GW data acquisition unit the ruuning situation of HNB GW own, resource operating position and HBN Register Cancel situation being monitored, to carry out data acquisition by the correlation function that HNB GW is comprised to realize, particularly, the collection of HNB GW device resource can comprise:

Processor average load: the average utilization of statistics HNB each processor of GW in collection period.Because each HNB GW may have a more than processor, corresponding sub-measure item of each processor then.

Processor peak load: add up the peak value utilance of each processor in collection period.Because each HNB GW may have a more than processor, each processor can corresponding sub-measure item.Specifically can in predefined collection period, sample to processor utilization, then get the largest sample value of each processor.

The byte number that physical port MAC layer sends: the byte number that HNB GW physical port MAC layer sends in the statistics gatherer cycle.

The byte number that physical port MAC layer receives: the byte number that HNB GW physical port MAC layer receives in the statistics gatherer cycle.

HNB registration/exit state information comprises:

HNB registration request number of times: HNB GW receives that HNB sends " HNB registration request " (HNB REGISTER REQUEST) message in the accumulative total collection period, indicates the HNB numbering by hnbid, the corresponding sub-measure item of each HNB;

HNB registration request number of success: HNB GW sends " HNB registers acceptance " message to HNB in the accumulative total collection period, indicates the HNB numbering by hnbid, the corresponding sub-measure item of each HNB;

The HNB registration request frequency of failure: HNB GW sends " HNB registration failure " message to HNB in the accumulative total collection period, indicates the HNB numbering by hnbid, the corresponding sub-measure item of each HNB;

The cancellation number of times that HNB initiates: HNB GW receives that HNB sends " HNB cancellation " (HNB DE-REGISTER) message in the accumulative total collection period, by the Cause assignable cause.The corresponding sub-measure item of each reason;

The cancellation number of times that HNB GW initiates: accumulative total HNB GW sends " HNB cancellation " (HNB DE-REGISTER) message to HNB.

The embodiment of the invention provides a kind of Home eNodeB presence method for supervising, and the Real Time Monitoring that utilizes condition monitoring unit 15 to realize the HNB presence specifically comprises:

Be connected to the Register Cancel state information of HNB of HNB GW by HNB GW data acquisition unit 11 real-time report to dynamic acquisition control unit 13; Send the Register Cancel state information of the HNB that receives to condition monitoring unit 15 by dynamic acquisition control unit 13; By the Register Cancel state information of condition monitoring unit 15 according to the HNB that receives, carry out the HNB real-time status monitoring, and the show state monitored results.Comprise also among one embodiment that condition monitoring unit 15 sends to memory cell 14 with the condition monitoring result and stores.Be described as follows:

HNB GW data acquisition unit 11 real-time report are connected to the Register Cancel state information of the HNB of HNB GW, when state changes, send status change notification, comprising: state variation object, current state (activation/deactivation) and transformation period etc.

Condition monitoring unit 15 is main according to real-time HNB Register Cancel state notifying, monitor the real-time change of the presence of all HNB under the HNB GW scope, to obtain the presence distribution curve of HNB, comprise that the time distributes and location distribution, and on the basis of this distribution curve the professional usage behavior of analysis user, obtain professional busy and traffic hotspots area, on the one hand provide foundation for family network management priority support period and zone, the service design for service platform system provides targetedly data on the other hand.Simultaneously, the condition monitoring result of condition monitoring unit 15 can offer flow analysis unit 16, with shielding user reason, does more accurately flow analysis.

The application interface (concrete interface form unfettered) of condition monitoring unit 15 by providing convenience, allow the HNB scope of user selection monitoring, the state of monitoring, the time period of monitoring etc. that the condition monitoring task is set, then based on selected combination condition, the executing state monitoring, and present monitored results at the interface in real time.

Monitoring HNB scope: can select the combination conditions such as administrative relationships of HNB, or directly specify specific HNB according to producer, geographic range, HNB GW;

Monitor state data type: HNB presence: activate, deexcitation, the number of times of reaching the standard grade in the unit interval, number of times rolls off the production line;

Storage and monitoring time segment: be the monitoring period granularity of appointment.

When monitored results is unusual, abnormal conditions can be navigated to HNB GW or relevant HNB and present, perhaps notify the attendant by note or mail (form is unfettered).

The embodiment of the invention also provides a kind of Home eNodeB data traffic analytical method, utilizes flow analysis unit 16 to realize flow analysis, specifically comprises:

The flow analysis task generated data that is arranged according to the user by flow analysis unit 16 reports requirement to send to dynamic acquisition control unit 13; Require to carry out to generate reported result after the respective handling and return to flow analysis unit 16 by reporting according to data in the image data of 13 pairs of receptions of dynamic acquisition control unit; Flow analysis unit 16 receives the reported result that dynamic acquisition control unit 13 returns; And the Register Cancel statistical information of the HNB that sends according to reported result and condition monitoring unit 15, obtain the flow analysis result.Among one embodiment, flow analysis unit 16 sends to memory cell 14 with the flow analysis result and stores.Be described as follows:

Flow analysis unit 16 is mainly analyzed according to the data on flows of MAC layer and application layer.Comprise machine utilization analysis, link load analysis and service communication component analysis.MAC laminar flow amount mainly is the load condition of reflection device link, and loads in conjunction with the resource utilization analytical equipment of HNB GW, by the load thresholding is set, in time notifies the attendant to process when load is excessive, and the situation of avoid congestion occurs.Application layer traffic then reflects the traffic cases of carrying.Because the dynamically online character of HNB, the flow analysis of continuous type is not suitable for the service communication component analysis of HNB, so distributions of the monitoring of bonding state monitoring unit 15, can carry out discrete type traffic monitoring trend analysis, pay close attention to changes in flow rate and the distribution of busy and hot zones, draw the variation tendency result.In addition, flow analysis unit 16 can also drill through from the analysis that HNB GW and two granularities of HNB are carried out flow.

The application interface of providing convenience in flow analysis unit 16 (concrete interface form is unfettered), allow user selection HNB scope, analysis time section, measurement period, data on flows types etc. are based on above selected combination condition, the mark peak value, calculating mean value, and carry out trend analysis and volume forecasting, present analysis result at the interface in real time.

Monitoring HNB scope: can select the combination conditions such as administrative relationships of HNB, or directly specify specific HNB according to producer, geographic range, HNB GW;

Analysis time section: be granularity analysis time of appointment;

Measurement period: the collection measurement period of data on flows;

The data on flows type comprises: HNB GW Iuh, the up-downgoing flow of Iu interface, throughput, the data such as the up-downgoing flow of the service layer of HNB, signaling aspect, throughput.

The user can carry out the flow early warning monitoring to flow set threshold value and the threshold value alarm level of analyses and prediction simultaneously, when predicted value is out-of-limit, triggers the early warning of appropriate level, notifies the attendant by note or mail (form is unfettered).Suitable performance threshold alarm helps the analysis-by-synthesis of alarm, can the bonding apparatus alarm etc. analyzes the possible breakdown of performance abnormal, and carries out fault location and fault recovery.

The result who analyzes need in time send to memory cell 14 storage updates.

The example of a concrete realization flow analysis is as follows:

At first, the user can arrange the flow analysis task to flow analysis unit 16 by the application interface that flow analysis unit 16 provides, for example: the HNB scope of designated analysis is that all the HNB(hypothesis under the HNB GW-A are respectively HNB-1, HNB-2.HNB-3), the time period of designated analysis is to arrive late 12 points 8 of evenings, analysis time, granularity was 15 minutes, and the data on flows type is the user plane data flow of the operation level of HNB.

Flow analysis unit 16 receives above-mentioned task, open task according to the combination condition that the user arranges, and generated data reports requirement to send to dynamic acquisition control unit 13, wherein data report and require to comprise: specify the HNB GW, the HNB scope (the HNB GW of corresponding designated analysis, HNB scope) that report, the time period that appointment reports (time period of corresponding designated analysis), the data type that appointment reports (data on flows type), the timing statistics cycle (correspondence analysis time granularity).

Dynamic acquisition control unit 13 reports requirement according to the data that receive, the initial data that HNB data acquisition unit 12 is sent here in real time (perhaps can also to storing the historical image data in the memory cell 14 into) is carried out preliminary treatment, makes it to satisfy data and reports combination condition in the requirement.Namely to HNB-1, HNB-2, the operation level user plane data flow of HNB-3 carry out flow by 15 minutes statistics duration and gather.Behind the DSR, store in the memory cell.Described flow analysis unit 16 is at peak value and the mean value monitoring analysis of section starting point log-on data analysis time, and predicts next possible value constantly, and presents to the user in real time.

Concrete signaling process comprises as shown in Figure 3:

1, according to the user flow analysis task that generates is set by flow analysis unit 16;

2, the flow analysis unit sends data according to the flow analysis task that generates to dynamic acquisition control unit 13 and reports requirement;

3, dynamic acquisition control unit 13 reports requirement according to the data that receive, and distributes corresponding acquisition tasks to HNB collecting unit 12;

4, HNB collecting unit 12 carries out data acquisition, returns image data to dynamic acquisition control unit 13;

5, dynamic acquisition control unit 13 with acquired data storage in memory cell 14;

6, dynamic acquisition control unit 13 requires to carry out aggregation process backward current component analysis unit 16 according to clothes on the data and sends the DSR notice according to the image data of returning;

7, flow analysis unit 16 poll memory cell 14 are obtained data;

8, flow analysis unit 16 carries out flow analysis according to the data of obtaining, and presents the flow analysis result.

External system interface communication unit 17 provides unified outbound data interface for home base station network general agent system, support does not limit in the present invention to the monitoring of the external system shared state such as home base station network total management system and flow analysis result data.

In sum, in the home base station network general agent management system and method for the embodiment of the invention, the ruuning situation of HNB GW own, resource operating position that 11 realizations of HNB GW data acquisition unit affect the presence that is not subjected to HNB, HNB Register Cancel situation is monitored collection.HNB data acquisition unit 12 is used for the data of carrying on the Iuh link between the every a pair of online HNB of concurrent monitoring and the HNB GW.The bearing load that comprises the Iuh link of the traffic on the HNB and HNB GW.Carry out the dynamic control of acquisition tasks and the aggregation process of data by dynamic acquisition control unit 13.Gather and control by HNB GW and HNB integrated data, can realize the data statistics of HNB granularity and HNB GW granularity, be conducive to fine-grained management, in addition because HNB GW is related with the HNB data acquisition closely, be conducive to the business conduct analysis to the user, can analyze by or existing HNB state historical in the HNB GW scope all, should the key period and the quality of service in area thereby be designed with business targetedly or priority support, improve user satisfaction.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims (16)

1. a home base station network general agent system is characterized in that, this system is arranged among the femto gateway HNB GW, comprising: dynamic acquisition control unit, HNB GW data acquisition unit, Home eNodeB HNB data acquisition unit and memory cell;

Described dynamic acquisition control unit be used for sending acquisition tasks to described HNB GW data acquisition unit and HNB data acquisition unit, and the image data that reception is returned sends described cell stores to;

Described HNB GW data acquisition unit is used for receiving the acquisition tasks that described dynamic acquisition control unit sends, and realizes HNB GW is carried out data acquisition and returns image data by the functional unit that described HNB GW comprises;

Described HNB data acquisition unit is used for receiving the acquisition tasks that described dynamic acquisition control unit sends, and the current HNB that is registered to described HNB GW is carried out data acquisition and returns image data;

Described memory cell is used for storing the image data that described dynamic acquisition control unit transmits.

2. home base station network general agent as claimed in claim 1 system is characterized in that, also comprises: the condition monitoring unit;

Described HNB GW data acquisition unit also is used for, and real-time report is connected to the Register Cancel state information of the HNB of described HNB GW and gives described dynamic acquisition control unit;

Described dynamic acquisition control unit also is used for, and receives the Register Cancel state information of the HNB of described HNB GW data acquisition unit real-time report, and sends described condition monitoring unit to;

Described condition monitoring unit is used for the Register Cancel state information according to the HNB that receives, and carries out the HNB real-time status monitoring, and the show state monitored results.

3. home base station network general agent as claimed in claim 2 system is characterized in that, also comprises:

The flow analysis unit is used for the flow analysis task according to user's setting, and generated data reports and requires to send to described dynamic acquisition control unit, and receives the reported result that described dynamic acquisition control unit returns; And the Register Cancel statistical information of the HNB that sends according to described reported result and described condition monitoring unit, obtain the flow analysis result;

Described dynamic acquisition control unit also is used for, and the data that receive the transmission of described flow analysis unit report requirement, the image data that receives is reported according to described data require to carry out respective handling, generates reported result and returns to described flow analysis unit;

Described condition monitoring unit, the Register Cancel state information that also is used for adding up the HNB that obtains, the Register Cancel statistical information that generates HNB sends to described flow analysis unit.

4. home base station network general agent as claimed in claim 3 system is characterized in that described condition monitoring unit also is used for, and described condition monitoring result is sent to described memory cell store; And

Described flow analysis unit is used for that also described flow analysis result is sent to described memory cell and stores.

5. home base station network general agent as claimed in claim 4 system is characterized in that, also comprises:

The external system interface communication unit is used for the image data that described memory cell is stored is exported to external system.

6. a Home eNodeB data acquisition control method is applied to the described home base station network general agent of claim 1 system, it is characterized in that, comprising:

After the base station HNB of family is registered to femto gateway HNB GW, if do not exist the communication interface Iuh between described HNB and the described HNB GW to connect example, the Iuh that is created between described HNB and the described HNB GW by described dynamic acquisition control unit connects example, and sends the instruction of opening the corresponding acquisition tasks of described Iuh connection example to described HNB data acquisition unit; And

If exist the Iuh between described HNB and the described HNB GW to connect example, described dynamic acquisition control unit connects example with the Iuh between described HNB and the described HNB GW and activates, and sends the instruction that recovers the corresponding acquisition tasks of described Iuh connection example to described HNB data acquisition unit.

7. Home eNodeB data acquisition control method as claimed in claim 6, it is characterized in that, when described HNB nullifies, described dynamic acquisition control unit connects the example deexcitation with the Iuh between described HNB and the described HNB GW, and sends the instruction of hanging up the corresponding acquisition tasks of described Iuh connection example to described HNB data acquisition unit.

8. Home eNodeB data acquisition control method as claimed in claim 7 is characterized in that, also comprises: deexcitation time gate limit value is set;

After the connection of the Iuh between described HNB and described HNB GW example deexcitation duration reached described deexcitation time gate limit value, the Iuh that described dynamic acquisition control unit is deleted between described HNB and the described HNB GW connected example.

9. a Home eNodeB data acquisition implementation method is applied to the described home base station network general agent of claim 1 system, it is characterized in that, comprising:

By the parallel data of carrying on every a pair of online HNB and the Iuh link between the HNB GW of monitoring of described HNB data acquisition unit;

Report image data to described dynamic acquisition control unit according to the collection period of setting;

By described dynamic acquisition control unit described image data is sent to described cell stores.

10. Home eNodeB data acquisition implementation method as claimed in claim 9 is characterized in that, described collection period according to setting reports image data to described dynamic acquisition control unit, specifically comprises:

The byte number of the byte number of the quantity of the quantity that the adaptive RUA of wireless access network applying portion user that HNB GW receives at the Iuh link in the statistics gatherer cycle wraps, the RUA bag of transmission, the RUA bag of reception and the RUA bag of transmission reports described dynamic acquisition control unit; Perhaps

The byte number of the byte number of the quantity of the quantity of the up SCTP SCTP bag that HNB GW receives on the Iuh interface in the statistics gatherer cycle, the descending SCTP bag of transmission, the up SCTP bag of receiving and the descending SCTP bag of transmission reports described dynamic acquisition control unit; Perhaps

The user that HNB GW receives on the Iuh interface in the statistics gatherer cycle sends to bag number and the upstream data byte number of the upstream data of circuit domain/packet domain core network; And the bag number of the downlink data from core net circuit domain/packet domain to the user of HNB GW transmission and the byte number of downlink data, report described dynamic acquisition control unit; Perhaps

Report the combination in any of above-mentioned three kinds of reporting informations.

11. a femto gateway data acquisition implementation method is applied to the described home base station network general agent of claim 1 system, it is characterized in that, comprising:

By described HNB GW data acquisition unit the ruuning situation of HNB GW own, resource operating position and HNB Register Cancel situation are monitored;

Report image data to described dynamic acquisition control unit according to the collection period of setting;

By described dynamic acquisition control unit described image data is sent to described cell stores.

12. femto gateway data acquisition implementation method as claimed in claim 11 is characterized in that, described collection period according to setting reports image data to described dynamic acquisition control unit, specifically comprises:

Average utilization and the peak use rate of each processor of HNB GW report described dynamic acquisition control unit in the statistics gatherer cycle; And

The byte number of HNB GW physical port media access control MAC layer sending/receiving reports described dynamic acquisition control unit in the statistics gatherer cycle; And

The registration request number of times and the de-registration request number of times that are sent by HNB in the statistics gatherer cycle, and accept number of times, registration failure number of times and nullify number of times by the registration that HNB GW sends, report described dynamic acquisition control unit.

13. a Home eNodeB presence method for supervising is applied to the described home base station network general agent of claim 2 system, it is characterized in that, comprising:

The Register Cancel state information that is connected to the HNB of described HNB GW by described HNB GW data acquisition unit real-time report is given described dynamic acquisition control unit;

Send the Register Cancel state information of the HNB that receives to described condition monitoring unit by described dynamic acquisition control unit;

By the Register Cancel state information of described condition monitoring unit according to the HNB that receives, carry out the HNB real-time status monitoring, and the show state monitored results.

14. Home eNodeB presence method for supervising as claimed in claim 13 is characterized in that, also comprises:

Described condition monitoring unit sends to described cell stores with described condition monitoring result.

15. a Home eNodeB data traffic analytical method is applied to the described home base station network general agent of claim 3 system, it is characterized in that, comprising:

The flow analysis task generated data that is arranged according to the user by the flow analysis unit reports requirement to send to described dynamic acquisition control unit;

Report requirement to carry out respective handling to the image data that receives according to described data by described dynamic acquisition control unit, generate reported result and return to described flow analysis unit;

Described flow analysis unit receives the reported result that described dynamic acquisition control unit returns; And the Register Cancel statistical information of the HNB that sends according to described reported result and described condition monitoring unit, obtain the flow analysis result.

16. Home eNodeB data traffic analytical method as claimed in claim 15 is characterized in that, also comprises:

Described flow analysis unit sends to described cell stores with described flow analysis result.

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