CN105024846A

CN105024846A - Heterogeneous network management method and system, and network element management and network management systems

Info

Publication number: CN105024846A
Application number: CN201410182282.1A
Authority: CN
Inventors: 祝伟宏; 陈丽萍
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2014-04-30
Filing date: 2014-04-30
Publication date: 2015-11-04
Also published as: WO2015165195A1

Abstract

The invention discloses a heterogeneous network management method, comprising: determining and sending (N+M) packet strategies; and determining N active management modes and M passive management modes according to each packet strategy, determining the management strategy corresponding to each management mode, and sending the management strategy corresponding to each management mode, wherein the packet strategies and the management modes form one-to-one correspondence, and N and M are both positive integers no less than 1. The invention also discloses a heterogeneous network management system, a network management system and a network element management system.

Description

A kind of heterogeneous network management method and system, NE management and network management system

Technical field

The present invention relates to network management technology, particularly relate to a kind of heterogeneous network management method and system, NE management and network management system.

Background technology

Along with mobile communication technology development and application day by day universal, the scale of mobile communications network constantly expands, composition structure also day by day variation.In prior art, in order to the capacity of the covering and hot zones that increase mobile communications network, on the basis that macro base station exists in the mobile communication network, use little base station (small basestation or small cell), and the quantity of the little base station used gets more and more.Wherein, the network that described macro base station and little base station coexist is referred to as heterogeneous network (Heterogeneous Network).Usually, described heterogeneous network comprises at least one macro base station, at least one little base station and at least one community.The use of little base station improves service quality and the Consumer's Experience of mobile network, but adds the complexity of mobile network management.

Usually, adopt the mode of multi-zone supervision to manage the base station in whole mobile communication network, namely adopt the management system of the different levels such as network management system (NMS) and Element management system (EMS) to manage each base station in mobile communications network.Because the management of little base station is the same with macro base station, also need to be configured, the management of the aspect such as fault (alarm), performance; And the quantity of the medium and small base station of mobile communications network is increasing, if managed each base station in heterogeneous network according to the existing way to manage to macro base station completely, the management cost of operator can be increased.So need a kind of new way to manage badly, heterogeneous network is managed more efficiently.

Summary of the invention

For solving the technical problem of existing existence, the embodiment of the present invention provides a kind of heterogeneous network management method and system, NE management and network management system, can reduce the management cost of operator.

Technical scheme of the present invention is achieved in that and the invention provides a kind of heterogeneous network management method, and described method comprises:

Determine N+M kind grouping strategy, and send described N+M kind grouping strategy;

Determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding, and send management strategy corresponding to each management mode; Wherein, each grouping strategy and each management mode one_to_one corresponding;

Wherein, described N and M is the positive integer being more than or equal to 1.

Preferably, described method also comprises:

Receive the data message being defined as base station corresponding to each active management pattern or community.

Preferably, described method also comprises:

Receive the identification information being defined as base station corresponding to each passive management pattern or community;

The data message being defined as base station corresponding to each passive management pattern or community is obtained according to identification information.

Preferably, described method also comprises:

Determine to preset packet time interval again, and send described default packet time interval again.

Preferably, described method also comprises:

Determine management resource parameter, and send described management resource parameter.

The embodiment of the present invention additionally provides a kind of heterogeneous network management method, and described method comprises:

Receive N+M kind grouping strategy;

Receive N kind active management pattern and each self-corresponding management strategy of M kind passive management pattern; Wherein, each grouping strategy and each management mode one_to_one corresponding;

According to grouping strategy, divided into groups in each base station or community, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Preferably, described method also comprises:

Determine the data message of the base station that each active management pattern is corresponding or community, and send the data message of base station corresponding to each active management pattern or community.

Preferably, described method also comprises:

Determine the identification information of the base station that each passive management pattern is corresponding or community, and send the identification information of base station corresponding to each passive management pattern or community.

Preferably, describedly according to grouping strategy, to be divided into groups in each base station or community, comprising:

Determine the comprehensive importance parameter of each base station or community or dynamic importance parameter according to grouping strategy, according to described comprehensive importance parameter or dynamic importance parameter, divided into groups in each base station or community.

Preferably, described method also comprises:

Receive and preset packet time interval again;

When arriving default packet time interval again, again divided into groups in each base station or community, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described method also comprises:

Receiving management resource parameters;

According to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

The embodiment of the present invention further provides a kind of heterogeneous network management method, and described method comprises:

Determine N+M kind grouping strategy;

Determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding; Wherein, each grouping strategy and each management mode one_to_one corresponding;

Preferably, described method also comprises:

Determine the data message of the base station that each active management pattern is corresponding or community, and obtain the data message of base station corresponding to each active management pattern or community.

Preferably, described method also comprises:

Determine the identification information of the base station that each passive management pattern is corresponding or community, and obtain the identification information of base station corresponding to each passive management pattern or community.

Preferably, described method also comprises:

Determine to preset packet time interval again;

Preferably, described method also comprises:

Determine management resource parameter;

The embodiment of the present invention additionally provides a kind of network management system, and described network management system comprises:

First determination module, for determining N+M kind grouping strategy, and sends described N+M kind grouping strategy;

Second determination module, for determining N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determines the management strategy that each management mode is corresponding, and sends management strategy corresponding to each management mode; Each grouping strategy and each management mode one_to_one corresponding;

Preferably, described system also comprises:

Data message receiver module, for receiving the data message being defined as base station corresponding to each active management pattern or community.

Preferably, described system also comprises:

Identification information receiver module, for receiving the identification information being defined as base station corresponding to each passive management pattern or community;

3rd determination module, for obtaining the data message being defined as base station corresponding to each passive management pattern or community according to identification information.

Preferably, described system also comprises:

4th determination module, presets packet time interval again for determining, and sends described default packet time interval again.

Preferably, described system also comprises:

5th determination module, for determining management resource parameter, and sends described management resource parameter.

The embodiment of the present invention additionally provides a kind of Element management system, and described Element management system comprises:

Grouping strategy first receiver module, for receiving N+M kind grouping strategy;

Management strategy first receiver module, for receiving N kind active management pattern and each self-corresponding management strategy of M kind passive management pattern; Wherein, each grouping strategy and each management mode one_to_one corresponding;

First determination module, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Preferably, described system also comprises:

Second determination module, for determining the data message of the base station that each active management pattern is corresponding or community, and sends the data message of base station corresponding to each active management pattern or community.

Preferably, described system also comprises:

3rd determination module, for determining the identification information of the base station that each passive management pattern is corresponding or community, and sends the identification information of base station corresponding to each passive management pattern or community.

Preferably, described first determination module also comprises:

First determines submodule, for determining the comprehensive importance parameter of each base station or community or dynamic importance parameter according to grouping strategy;

Second determines submodule, for dividing into groups to each base station or community according to described comprehensive importance parameter or dynamic importance parameter, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described system also comprises:

Time interval receiver module, presets packet time interval again for receiving;

4th determination module, for when arriving default packet time interval again, again divided into groups in each base station or community, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described system also comprises:

Resource parameters receiver module, for receiving management resource parameters;

5th determination module, for according to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

The embodiment of the present invention additionally provides a kind of heterogeneous network management system, and described system comprises:

First determination module, for determining N+M kind grouping strategy;

Second determination module, for determining N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determines the management strategy that each management mode is corresponding; Wherein, each grouping strategy and each management mode one_to_one corresponding;

3rd determination module, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Preferably, described system also comprises:

4th determination module, for determining the data message of the base station that each active management pattern is corresponding or community, and obtains the data message of base station corresponding to each active management pattern or community.

Preferably, described system also comprises:

5th determination module, for determining the identification information of the base station that each passive management pattern is corresponding or community, and obtains the identification information of base station corresponding to each passive management pattern or community.

Preferably, described system also comprises:

6th determination module, presets packet time interval again for determining;

7th determination module, for when arriving default packet time interval again, again divided into groups in each base station or community, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described system also comprises:

8th determination module, for determining management resource parameter;

9th determination module, for according to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

The embodiment of the present invention additionally provides a kind of heterogeneous network management system, and described heterogeneous network management system comprises NMS and to unify Element management system; Wherein,

Described network management system, for determining N+M kind grouping strategy; And determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding;

Described Element management system, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Preferably, described Element management system, also for determining the data message of the base station that each active management pattern is corresponding or community, and is sent to network management system by the data message of base station corresponding for each active management pattern or community;

Accordingly, described network management system, also for receiving the data message of base station corresponding to each active management pattern or community.

Preferably, described Element management system, also for determining the identification information of the base station that each passive management pattern is corresponding or community, and is sent to network management system by the identification information of base station corresponding for each passive management pattern or community;

Accordingly, described network management system, also for receiving the identification information of base station corresponding to each passive management pattern or community.

Preferably, described network management system, also presets packet time interval again for determining;

Accordingly, described Element management system, also for presetting packet time interval again according to described, and when determining to reach default packet time interval again, again divided into groups in each base station or community, determine the management mode belonging to each base station or community according to group result, the management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described network management system, also for determining management resource parameter;

Accordingly, described Element management system, also for according to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

The heterogeneous network management method and system that the embodiment of the present invention provides, NE management and network management system, by being divided into groups in base station or community according to grouping strategy, then the management mode of each base station or community is determined according to group result, wherein, described management mode comprises active management pattern and passive management pattern, the management strategy of each base station or community is finally determined according to the management mode of each base station or community, thus the differential management realized base station or community, lay a good foundation for improving the efficiency of management.

Accompanying drawing explanation

Fig. 1 is the realization flow schematic diagram one of embodiment of the present invention heterogeneous network management method;

Fig. 2 is the structural representation of embodiment of the present invention network management system;

Fig. 3 is the realization flow schematic diagram two of embodiment of the present invention heterogeneous network management method;

Fig. 4 is the structural representation of embodiment of the present invention Element management system;

Fig. 5 is the realization flow schematic diagram three of embodiment of the present invention heterogeneous network management method;

Fig. 6 is the structural representation one of embodiment of the present invention heterogeneous network management system;

Fig. 7 is the structural representation two of embodiment of the present invention heterogeneous network management system;

Fig. 8 is the realization flow schematic diagram four of embodiment of the present invention heterogeneous network management method;

Fig. 9 is the realization flow schematic diagram five of embodiment of the present invention heterogeneous network management method.

Embodiment

In order to more at large understand feature of the present invention and technology contents, below in conjunction with accompanying drawing, realization of the present invention is described in detail, the use of appended accompanying drawing explanation only for reference, is not used for limiting the present invention.

Embodiment one

Fig. 1 is the realization flow schematic diagram one of embodiment of the present invention heterogeneous network management method; Described method is applied in NMS; As shown in Figure 1, described method comprises:

Step 101: determine N+M kind grouping strategy, and send described N+M kind grouping strategy;

Step 102: determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding, and send management strategy corresponding to each management mode; Wherein, each grouping strategy and each management mode one_to_one corresponding;

Particularly, described NMS determines that the first active management pattern, the second active management pattern are to N active management pattern N kind active management pattern altogether, and the first passive management pattern, the second passive management pattern is to M passive management pattern M kind passive management pattern altogether, and determine the management strategy that each management mode is corresponding, N+M kind altogether, be respectively the first active management strategy, the second active management strategy to N active management strategy, first passive management strategy, the second passive management strategy to M passive management strategy, and send N+M kind management strategy;

Wherein, each active management pattern and each active pipe strategy manage one_to_one corresponding, each passive management pattern and each passive management strategy one_to_one corresponding; Management resource in the active management strategy that active management pattern is corresponding is more, and the management resource in the passive management strategy that passive management pattern is corresponding is less;

Here, determine described N+M kind management mode and determine that the object of N+M kind management strategy is in order to the base station in heterogeneous network or microzonation are divided into N+M grade, importance different, management mode corresponding to base station that rank is different or community, management resource in the management strategy that higher management mode is corresponding is more, so, can according to the rank of base station or community and importance, to each base station or the different management resource of cell allocation, realize the ladder management to base station or community;

Particularly, the corresponding active management pattern in the base station that rank is higher, importance is higher or community, the management resource of consumption is more; The corresponding passive management pattern in the base station that rank is lower, importance is also lower or community, the management resource of consumption is lower; Wherein, described importance be base station or community in heterogeneous network, the importance of current time, described importance also can be described as comprehensive importance or dynamic importance;

Particularly, described NMS determines each management mode, and determines according to management strategy parameter the management strategy that each management mode is corresponding, and each management strategy is sent to EMS; Described management strategy parameter includes but not limited to as follows: the data class that base station or community report to NMS, data report frequency, data performance preprocess method; Wherein, described base station or community include but not limited to as follows to the data class that NMS reports: alarm class, data performance class; Described data performance preprocess method comprises calculating Key Performance Indicator (KPI).

It should be noted that described NMS is communicated with described EMS by northbound interface (Itf-N interface), to realize the object managing each base station or community; Wherein, described northbound interface is the interface between described NMS and EMS; The information interactive process of described NMS and described EMS is all undertaken by northbound interface, below repeats no more.

Here, due to described each grouping strategy and each management mode one_to_one corresponding, and each management mode and each management strategy one_to_one corresponding, therefore, each grouping strategy and each management strategy also one_to_one corresponding.

Particularly, described NMS determines grouping strategy, and is sent in described EMS by each grouping strategy, lays the foundation to carry out grouping to each base station or community; Wherein, described grouping strategy comprises: grouping strategy parameter and threshold value corresponding to each grouping strategy parameter; Described grouping strategy parameter includes but not limited to as follows: advanced level user (VIP, Very ImportantPerson) quantity, number of handovers, user that subscriber equipment (UE) quantity, base station or community that the static importance in base station or community, base station or cell type, base station or community loading status, base station or community are served are served call out the mortality of base station or community and base station or cell energy-saving state.

Particularly, after described EMS receives N+M kind grouping strategy, according to grouping strategy, divided into groups in each base station or community, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community; So, the base station in heterogeneous network or microzonation are divided into active management pattern and the large class of passive management pattern two; For realizing, the ladder management of base station or community is laid the foundation further.

Preferably, described method also comprises:

Wherein, described data message is the data message that base station or community report to NMS, and the kind of described data message comprises alarm class, data performance class.

Particularly, NMS receives the base station of active management pattern or the data message of community of EMS transmission; Wherein, the base station of described active management pattern or community refer in all base stations or community of heterogeneous network, and the management mode that belonging to EMS determines, group is corresponding is each base station or the community of active management pattern.

Here, be defined as the base station of active management pattern or cell timing by the data message of base station or community by EMS, be sent to NMS by northbound interface, for NMS, data and performance evaluation etc. carried out to each base station or community.

Preferably, described method also comprises:

Here, described NMS receives the identification information being defined as base station corresponding to each passive management pattern or community of described EMS transmission by northbound interface, so, described NMS is known, and which base station or community are in passive management pattern, and need the data message obtaining which base station or community, and then making described NMS can get the data message of whole base station or community in heterogeneous network, the data message of self is initiatively sent to described NMS by described EMS by the base station or the community that are namely defined as active management pattern; And described NMS is when needing to obtain the data message of the base station of passive management pattern or community, obtain the base station of passive management pattern or the data message of community to EMS or by EMS to the base station of passive management pattern or community by the base station of passive management pattern or the identification information of community.

Particularly, the identification information of the base station that the passive management pattern that NMS reception EMS sends is corresponding or community, when needing to obtain the data message of the base station of passive management pattern or community, according to identification information, the data message being obtained base station corresponding to passive management pattern or community by EMS and northbound interface, for NMS, data and performance evaluation etc. are carried out to base station or community; Wherein, the base station of described passive management pattern or community refer in all base stations or community of heterogeneous network, and the management mode that belonging to EMS determines, group is corresponding is each base station or the community of active management pattern;

Particularly, described NMS, when needing to obtain the data message of the base station of passive management pattern or community, send data request information by northbound interface and EMS to the base station of passive management pattern or community, the data message of base station or community is sent in NMS according to data request information by EMS and northbound interface by the base station of described passive management pattern or community;

Or described EMS obtains and is defined as the base station of passive management pattern or the data message of community, and is stored in self memory module, when NMS needs, is sent in NMS by northbound interface.

So, be defined as the data message timing of the base station of active management pattern or community, be initiatively sent in NMS by northbound interface, and be defined as the base station of passive management pattern or the data message of community, just by northbound interface, data message is sent in NMS when NMS needs, therefore, the pressure of northbound interface can be alleviated, reduce the management cost of operator.

Preferably, described method also comprises:

Particularly, described NMS determines to preset packet time interval again, and described packet time interval of presetting again is sent in described EMS by northbound interface, after described EMS receives described default packet time interval again, when determining to arrive described default packet time interval again, described EMS divides into groups to each base station or community again, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described method also comprises:

When the base station in heterogeneous network or community there occurs other event of significance level being enough to change base station or community, as when VIP access base station or community, described EMS divides into groups to described base station or community again, the management mode belonging to described base station or community is determined according to group result, management mode belonging to described base station or community determines the management strategy of described base station or community, and management strategy corresponding to described base station or community is sent to described base station or community; So, by again dividing into groups to base station or community, redefine the supervisory level of base station or community, and then increase or reduce the management resource of base station or community, meet the management resource demand of base station or community in real time.

Preferably, described method also comprises:

Particularly, described NMS determines management resource parameter, and described management resource parameter is sent to described EMS; Described EMS is according to the described management resource parameter of reception, according to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Here, on the one hand, described EMS divides into groups to carry out according to grouping strategy to each base station or community, so, group belonging to each base station can determined according to described grouping strategy or community, thus determine the management mode of each base station or community, and then determine the management resource required for each base station or community, finally can estimate all base stations of management or the total management resource needed for community, so, there will be cannot realize management or have the problems such as management resource waste, on the other hand, described NMS can determine which type of management existing management resource can carry out to the base station in described heterogeneous network or community, namely existing management resource can implement the namely substantially the highest active management pattern of active management completely to how many base stations or community, therefore, described NMS is needed to determine management resource parameter, according to described management resource parameter, described EMS judges whether the total management resource managed needed for all base stations or community conforms to the available existing management resource situation of reality, management resource as determined is greater than existing management resource, or the management resource determined is less than existing management resource, and then described EMS is repartitioned base station or community according to existing management resource parameter, redefine the group belonging to portion of base stations or community, thus the management mode of adjustment member base station or community, so, current management resource situation can be made full use of, and can manage each base station or community more accurately according to current management resource situation.Particularly, when the management resource needed is greater than available existing management resource, base station corresponding for part active management pattern or community are adjusted to passive management pattern by described EMS, normally carry out to enable management; When the management resource needed is less than available existing management resource, base station corresponding for part passive management pattern or community are adjusted to active management pattern, to make full use of management resource by described EMS; Described management resource parameter is available existing management resource and the ratio whole heterogeneous network being carried out to the management resource needed for complete active management.

Preferably, described method also comprises:

Determine N+M+1 grouping strategy, and send described N+M+1 grouping strategy;

Determine N+1 active management pattern according to described N+M+1 grouping strategy, and determine the N+M+1 active management strategy that described N+1 active management pattern is corresponding, and send described N+M+1 active management strategy;

Or, determine N+M+1 grouping strategy, and send described N+M+1 grouping strategy;

Determine M+1 passive management pattern according to described N+M+1 grouping strategy, and determine the N+M+1 passive management strategy that described M+1 passive management pattern is corresponding, and send described N+M+1 passive management strategy.

Particularly, in actual application, when described EMS determines rule belonging to all base stations in described heterogeneous network or community, there will be a certain base station or community, or portion of base stations or community do not meet arbitrary grouping strategy, i.e. a certain base station or community, or portion of base stations or community do not belong to arbitrary group, do not meet the arbitrary management mode in N+M kind management mode, now, according to the current state of the base station or community that do not belong to arbitrary group, the base station or microzonation that do not belong to existing rule are divided into N+M+1 group, and the grouping strategy of correspondence is N+M+1 grouping strategy, the management mode that N+M+1 grouping strategy is corresponding is N+1 active management pattern or M+1 passive management pattern, wherein, the corresponding active management strategy of described N+1 active management pattern, the corresponding passive management strategy of described M+1 passive management pattern, so, adopt this embodiment can manage all base stations in existing any heterogeneous network or community.

The embodiment of the present invention additionally provides a kind of network management system, is applied in heterogeneous network; As shown in Figure 2, described network management system comprises:

First determination module 21, for determining N+M kind grouping strategy, and sends described N+M kind grouping strategy;

Second determination module 22, for determining N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determines the management strategy that each management mode is corresponding, and sends management strategy corresponding to each management mode; Each grouping strategy and each management mode one_to_one corresponding;

Particularly, described second determination module 22 is for determining the first active management pattern according to each grouping strategy, second active management pattern is to N active management pattern N kind active management pattern altogether, and the first passive management pattern, second passive management pattern is to M passive management pattern M kind passive management pattern altogether, and determine the management strategy that each management mode is corresponding, N+M kind altogether, be respectively the first active management strategy, second active management strategy is to N active management strategy, first passive management strategy, second passive management strategy is to M passive management strategy, and send N+M kind management strategy,

Preferably, described system also comprises:

6th determination module, for determining N+M+1 grouping strategy, and sends described N+M+1 grouping strategy;

Accordingly, the 7th determination module, for determining N+1 active management pattern according to described N+M+1 grouping strategy, and determines the N+M+1 active management strategy that described N+1 active management pattern is corresponding, and sends described N+M+1 active management strategy;

Or described 6th determination module, for determining N+M+1 grouping strategy, and sends described N+M+1 grouping strategy;

Accordingly, described 7th determination module, for determining M+1 passive management pattern according to described N+M+1 grouping strategy, and determines the N+M+1 passive management strategy that described M+1 passive management pattern is corresponding, and sends described N+M+1 passive management strategy.

Embodiment two

Fig. 3 is the realization flow schematic diagram two of embodiment of the present invention heterogeneous network management method; Described method is applied in described EMS; As shown in Figure 3, described method comprises:

Step 301: receive N+M kind grouping strategy;

Step 302: receive N kind active management pattern and each self-corresponding management strategy of M kind passive management pattern; Wherein, each grouping strategy and each management mode one_to_one corresponding;

Particularly, described EMS receives N+M kind management strategy, thinks and determines that the management strategy of each base station or community in heterogeneous network lays the foundation; Wherein, described N+M kind management strategy and N kind active management pattern, M kind passive management pattern one_to_one corresponding; And management strategy corresponding to described N kind active management pattern is respectively the first active management strategy, the second active management strategy to N active management strategy, management strategy corresponding to described M kind passive management pattern is respectively the first passive management strategy, the second passive management strategy to M passive management strategy.

Particularly, described EMS receives N+M kind grouping strategy, thinks and lays the foundation to the grouping of carrying out of base stations in heterogeneous network or community; Wherein, often organize corresponding a kind of grouping strategy, often kind of corresponding a kind of management mode of grouping strategy;

Here, each group and each grouping strategy one_to_one corresponding, each grouping strategy and each management mode one_to_one corresponding, each management mode and each management strategy one_to_one corresponding, therefore, each group and each management mode one_to_one corresponding, each group and each management strategy one_to_one corresponding, each grouping strategy and each management strategy one_to_one corresponding.

Step 303: divided into groups in each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Particularly, described EMS divides into groups to each base station or community according to grouping strategy, group belonging to each base station or community determines the management mode of each base station or community, and management strategy corresponding for the management mode organized belonging to each base station or community is defined as the management strategy of each base station or community, management strategy corresponding to each base station or community is sent to each base station or community, performs management role to make each base station or community according to management strategy; So, the base station in heterogeneous network or microzonation are divided into active management pattern and the large class of passive management pattern two; For realizing, the ladder management of base station or community is laid the foundation further.

Here, because grouping strategy comprises grouping strategy parameter, and the threshold value that each grouping strategy parameter is corresponding, therefore divided into groups in each base station or community, be exactly correspond to the currency of the grouping strategy parameter in grouping strategy and threshold value corresponding to each grouping strategy parameter according to base station or community, determine the group belonging to each base station or community.

Preferably, described method also comprises:

Particularly, described EMS determines the data message of the base station that each active management pattern is corresponding or community, and is sent to described NMS, so that described NMS is according to data message, carries out data and performance evaluation etc. to each base station or community.

Preferably, described method also comprises:

Determine the identification information of the base station that each passive management pattern is corresponding or community, and send the identification information of base station corresponding to each active management pattern or community.

Particularly, described EMS determines the identification information of the base station that each passive management pattern is corresponding or community, and is sent to described NMS.

Here, described comprehensive importance parameter or dynamic importance parameter are for determining the comprehensive importance of base station or the parameter dynamically corresponding to importance.

Wherein, described importance parameter or dynamically importance parameter be base stations in heterogeneous network or the community importance at current time.

Preferably, described method also comprises:

Receive and preset packet time interval again;

Preferably, described method also comprises:

Receiving management resource parameters;

Preferably, described method also comprises:

Receive N+M+1 grouping strategy;

Receive N+M+1 active management strategy;

According to described N+M+1 grouping strategy, the base station or microzonation of determining the arbitrary grouping strategy do not belonged in N+M kind grouping strategy in described heterogeneous network are divided into N+M+1 group, N+1 active management pattern is determined in the affiliated base station of N+M+1 group or the management mode of community, the affiliated base station of N+M+1 group or the management strategy of community are defined as N+M+1 active management strategy;

Or, receive N+M+1 grouping strategy;

Receive N+M+1 passive management strategy;

According to described N+M+1 grouping strategy, the base station or microzonation of determining the arbitrary grouping strategy do not belonged in N+M kind grouping strategy in described heterogeneous network are divided into N+M+1 group, M+1 passive management pattern is determined in the affiliated base station of N+M+1 group or the management mode of community, the affiliated base station of N+M+1 group or the management strategy of community are defined as N+M+1 passive management strategy.

Wherein, described N+M+1 active management strategy is the management strategy corresponding with N+1 active management pattern; Described N+M+1 passive management strategy is the management strategy corresponding with M+1 passive management pattern.

The embodiment of the present invention additionally provides a kind of Element management system, is applied in heterogeneous network; As shown in Figure 4, described Element management system comprises:

Grouping strategy first receiver module 41, for receiving N+M kind grouping strategy;

Management strategy first receiver module 42, for receiving N kind active management pattern and each self-corresponding management strategy of M kind passive management pattern; Wherein, each grouping strategy and each management mode one_to_one corresponding;

First determination module 43, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Particularly, described management strategy first receiver module 42 is for receiving N+M kind management strategy; Wherein, described N+M kind management strategy and N kind active management pattern, M kind passive management pattern one_to_one corresponding; And management strategy corresponding to described N kind active management pattern is respectively the first active management strategy, the second active management strategy to N active management strategy, management strategy corresponding to described M kind passive management pattern is respectively the first passive management strategy, the second passive management strategy to M passive management strategy;

Preferably, described system also comprises:

Preferably, described first determination module also comprises:

Preferably, described system also comprises:

Grouping strategy second receiver module, for receiving N+M+1 grouping strategy;

Management strategy second receiver module, for receiving N+M+1 active management strategy;

6th determination module, for the base station or microzonation of determining the arbitrary grouping strategy do not belonged in N+M kind grouping strategy in described heterogeneous network being divided into N+M+1 group according to described N+M+1 grouping strategy, N+1 active management pattern is determined in the affiliated base station of N+M+1 group or the management mode of community, the affiliated base station of N+M+1 group or the management strategy of community are defined as N+M+1 active management strategy;

Embodiment three

Fig. 5 is the realization flow schematic diagram three of embodiment of the present invention heterogeneous network management method; As shown in Figure 5, described method comprises:

Step 501: determine N+M kind grouping strategy;

Step 502: determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding; Wherein, each grouping strategy and each management mode one_to_one corresponding;

Particularly, determine that the first active management pattern, the second active management pattern are to N active management pattern N kind active management pattern altogether, and the first passive management pattern, the second passive management pattern is to M passive management pattern M kind passive management pattern altogether, and determine the management strategy that each management mode is corresponding, N+M kind altogether, be respectively the first active management strategy, the second active management strategy to N active management strategy, the first passive management strategy, the second passive management strategy are to M passive management strategy;

Here, determine described N+M kind management mode and determine that the object of N+M kind management strategy is in order to base station or microzonation are divided into N+M grade, importance different, management mode corresponding to base station that rank is different or community, management resource in the management strategy that higher management mode is corresponding is more, so, can according to the rank of base station or community and importance, to each base station or the different management resource of cell allocation, realize the ladder management to base station or community;

Particularly, the corresponding active management pattern in the base station that rank is higher, importance is higher or community, the management resource of consumption is more; The corresponding passive management pattern in the base station that rank is lower, importance is also lower or community, the management resource of consumption is lower; Wherein, described importance be macro base station or community or little base station or community in heterogeneous network, the importance of current time, described importance also can be described as comprehensive importance or dynamic importance;

Particularly, determine each management mode, determine according to management strategy parameter the management strategy that each management mode is corresponding; Wherein, described management strategy parameter includes but not limited to as follows: the data class that base station or community report, data report frequency, data performance preprocess method; Wherein, the data class that described base station or community S report includes but not limited to as follows: alarm class, data performance class; Described data performance preprocess method comprises calculating Key Performance Indicator (KPI).

Particularly, determine grouping strategy, and according to grouping strategy, divided into groups in each base station or community; Wherein, described grouping strategy comprises: grouping strategy parameter and threshold value corresponding to each grouping strategy parameter; Described grouping strategy parameter includes but not limited to as follows: advanced level user (VIP, Very Important Person) quantity, number of handovers, user that subscriber equipment (UE) quantity, base station or community that the static importance in base station or community, base station or cell type, base station or community loading status, base station or community are served are served call out the mortality of base station or community and base station or cell energy-saving state.

Step 503: divided into groups in each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Particularly, to each base station or community turnover grouping, group belonging to each base station or community determines the management mode of each base station or community, and the management strategy of each base station or community is determined according to the management mode of each base station or community, management strategy corresponding to each base station or community is sent to each base station or community, so, the base station in heterogeneous network or microzonation are divided into active management pattern and the large class of passive management pattern two; For realizing, the ladder management of base station or community is laid the foundation further.。

Preferably, described method also comprises:

Here, described data message comprises: alarm category information, data performance category information etc.;

Wherein, the base station that active management pattern is corresponding or community refer in all base stations or community of heterogeneous network, and the management mode that belonging to determining, group is corresponding is each base station or the community of active management pattern.

Preferably, described method also comprises:

Determine to preset packet time interval again;

Preferably, described method also comprises:

Determine management resource parameter;

Preferably, described method also comprises:

Determine N+M+1 grouping strategy;

Determine N+1 active management pattern according to described N+M+1 grouping strategy, and determine the N+M+1 active management strategy that described N+1 active management pattern is corresponding;

Or, determine N+M+1 grouping strategy;

Determine M+1 passive management pattern according to described N+M+1 grouping strategy, and determine the N+M+1 passive management strategy that described M+1 passive management pattern is corresponding;

Particularly, in actual application, when described EMS determines rule belonging to all base stations in described heterogeneous network or community, when a certain base station or community, or portion of base stations or community do not meet arbitrary grouping strategy, i.e. a certain base station or community, or portion of base stations or community do not belong to arbitrary group, do not meet the arbitrary management mode in N+M kind management mode, now, according to the current state of the base station or community that do not belong to arbitrary group, the base station or microzonation that do not belong to existing rule are divided into N+M+1 group, and the grouping strategy of correspondence is N+M+1 grouping strategy, the management mode that N+M+1 grouping strategy is corresponding is N+1 active management pattern or M+1 passive management pattern, wherein, the corresponding active management strategy of described N+1 active management pattern, the corresponding passive management strategy of described M+1 passive management pattern, so, adopt this embodiment can manage all base stations in existing any heterogeneous network or community.

The embodiment of the present invention additionally provides a kind of heterogeneous network management system, and as shown in Figure 6, described system comprises:

First determination module 61, for determining N+M kind grouping strategy;

Second determination module 62, for determining N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determines the management strategy that each management mode is corresponding; Wherein, each grouping strategy and each management mode one_to_one corresponding;

3rd determination module 63, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Particularly, described second determination module 62 is for determining that according to each grouping strategy the first active management pattern, the second active management pattern are to N active management pattern N kind active management pattern altogether, and the first passive management pattern, the second passive management pattern is to M passive management pattern M kind passive management pattern altogether, and determine the management strategy that each management mode is corresponding, N+M kind altogether, be respectively the first active management strategy, the second active management strategy to N active management strategy, the first passive management strategy, the second passive management strategy are to M passive management strategy.

Preferably, described 3rd determination module 63 also comprises:

Determine the first submodule, for determining the comprehensive importance parameter of each base station or community or dynamic importance parameter according to grouping strategy;

Determine the second submodule, for dividing into groups to each base station or community according to described comprehensive importance parameter or dynamic importance parameter, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described system also comprises:

6th determination module, presets packet time interval again for determining;

Preferably, described system also comprises:

8th determination module, for determining management resource parameter;

Preferably, described system also comprises:

Tenth determination module, for determining N+M+1 grouping strategy;

11 determination module, for determining N+1 active management pattern according to described N+M+1 grouping strategy, and determines the N+M+1 active management strategy that described N+1 active management pattern is corresponding;

12 determination module, for the base station or microzonation of determining the arbitrary grouping strategy do not belonged in N+M kind grouping strategy in described heterogeneous network being divided into N+M+1 group according to described N+M+1 grouping strategy, N+1 active management pattern is determined in the affiliated base station of N+M+1 group or the management mode of community, the affiliated base station of N+M+1 group or the management strategy of community are defined as N+M+1 active management strategy;

Or described tenth determination module, for determining N+M+1 grouping strategy;

Described 11 determination module, for determining M+1 passive management pattern according to described N+M+1 grouping strategy, and determines the N+M+1 passive management strategy that described M+1 passive management pattern is corresponding;

Described 12 determination module, for the base station or microzonation of determining the arbitrary grouping strategy do not belonged in N+M kind grouping strategy in described heterogeneous network being divided into N+M+1 group according to described N+M+1 grouping strategy, M+1 passive management pattern is determined in the affiliated base station of N+M+1 group or the management mode of community, the affiliated base station of N+M+1 group or the management strategy of community are defined as N+M+1 passive management strategy.

Embodiment four

The present embodiment additionally provides a kind of heterogeneous network management system, and as shown in Figure 7, described system comprises: network management system 71 and Element management system 72; Wherein,

Described network management system 71, for determining N+M kind grouping strategy; And determine N kind active management pattern, M kind passive management pattern according to each grouping strategy, and determine the management strategy that each management mode is corresponding;

Described Element management system 72, for dividing into groups to each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Preferably, described Element management system 72, also for determining the data message of the base station that each active management pattern is corresponding or community, and is sent to network management system by the data message of base station corresponding for each active management pattern or community;

Accordingly, described network management system 71, also for receiving the data message of base station corresponding to each active management pattern or community.

Preferably, described Element management system 72, also for determining the identification information of the base station that each passive management pattern is corresponding or community, and is sent to network management system by the identification information of base station corresponding for each passive management pattern or community;

Accordingly, described network management system 71, also for receiving the identification information of base station corresponding to each passive management pattern or community.

Preferably, described network management system 71, also presets packet time interval again for determining;

Accordingly, described Element management system 72, also for presetting packet time interval again according to described, and when determining to reach default packet time interval again, again divided into groups in each base station or community, determine the management mode belonging to each base station or community according to group result, the management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Preferably, described network management system 71, also for determining management resource parameter;

Accordingly, described Element management system 72, also for according to described management resource parameter, group belonging to adjustment member base station or community, and group determines the management mode of each base station or community belonging to each base station or community, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community.

Embodiment five

Fig. 8 is the realization flow schematic diagram four of embodiment of the present invention heterogeneous network management method; Described method is applied in NMS, and as shown in Figure 8, described method comprises:

Step 801: determine a kind of grouping strategy, and send described grouping strategy;

Step 802: determine N kind active management pattern, M kind passive management pattern according to described grouping strategy, and determine the management strategy that each management mode is corresponding, and send management strategy corresponding to each management mode;

Accordingly, Fig. 9 is the realization flow schematic diagram five of embodiment of the present invention heterogeneous network management method; Described method is applied in EMS, and as shown in Figure 9, described method comprises:

Step 901: receive grouping strategy;

Step 902: receive N kind active management pattern and each self-corresponding management strategy of M kind passive management pattern;

Step 903: divided into groups in each base station or community according to grouping strategy, the management mode belonging to each base station or community is determined according to group result, management mode belonging to each base station or community determines the management strategy of each base station or community, and management strategy corresponding to each base station or community is sent to each base station or community;

Compare with the method in embodiment two with embodiment one, grouping strategy in the present embodiment only has one, but NMS described in the present embodiment can determine N kind active management pattern according to a kind of grouping strategy, M kind passive management pattern, and according to N kind active management pattern, M kind passive management pattern determines the management strategy that each management mode is corresponding, and by described grouping strategy, and N kind active management pattern, M kind passive management pattern determines that management strategy corresponding to each management mode is sent in EMS, each base station or microzonation are divided into N+M group according to described grouping strategy by described EMS, wherein often organize corresponding a kind of management mode, so, realize each base station or the management of community ladder.

Particularly, grouping strategy comprises comprehensive importance computational methods, namely divides into groups to each base station or community according to the comprehensive importance parameter of each base station or community.Described comprehensive importance computational methods comprise the grouping strategy parameter determining each base station or community, and score according to the currency of the grouping strategy parameter of each base station or community, the comprehensive importance parameter of each base station or community is determined in the individual event score obtained according to the currency of each grouping strategy parameter of base station or community; Subsequently, group belonging to each base station or community is determined according to the comprehensive importance parameter of each base station or community;

Particularly, determine N+M group according to described grouping strategy, determine that the quantity of the base station that subordinate is respectively organized or community accounts for the percentage of all base stations or number of cells in heterogeneous network, the percentage sum of each group is 100%; Specifically determining which group base station or community belong to is then that all base stations or community are calculated the comprehensive importance parameter marshalling of gained according to it, each base station or community are assigned in each group by the percentage according to described comprehensive importance parameter marshalling and each group, the group to the active management pattern in requisition for the maximum management resource of consumption is put in the base station that comprehensive importance values is maximum or community, and the group to the passive management pattern in requisition for consumes least management resource is put in the base station that comprehensively importance values is minimum or community.A simple example: suppose that grouping strategy is by all base stations or littlely divides into 2 groups, 1 corresponding active management pattern, 1 corresponding passive management pattern, base station or the community of two kinds of management modes respectively account for 50%; So, the comprehensive importance parameter of all base stations or community is first calculated according to comprehensive importance computational methods, then sorted according to comprehensive importance parameter in all base stations or community, the base station of high for comprehensive importance parameter value 50% or community are put into the group of corresponding active management pattern, the base station of low for comprehensive importance parameter value 50% or community are put into the group of corresponding passive management pattern.

Each first determination module arrived mentioned by the embodiment of the present invention, each second determination module, data message receiver module, identification information receiver module, each 3rd determination module, each 4th determination module, each 5th determination module, grouping strategy first receiver module, management strategy first receiver module, first determination module, time interval receiver module, resource parameters receiver module, 6th determination module, 7th determination module, 8th determination module, 9th determination module, when performing process, all adopt central processing unit (CPU, Central ProcessingUnit), digital signal processor (DSP, Digital Singnal Processor) or programmable logic array (FPGA, Field-Programmable Gate Array) realize.

The described NMS be mentioned to described in the embodiment of the present invention is unified Element management system, when performing process, all adopt central processing unit (CPU, Central Processing Unit), digital signal processor (DSP, Digital Singnal Processor) or programmable logic array (FPGA, Field-Programmable GateArray) realization.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of hardware embodiment, software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store and optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, system (equipment) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.

Claims

1. a heterogeneous network management method, is characterized in that, described method comprises:

2. method according to claim 1, is characterized in that, described method also comprises:

3. method according to claim 1, is characterized in that, described method also comprises:

4. the method according to any one of claims 1 to 3, is characterized in that, described method also comprises:

5. the method according to any one of claims 1 to 3, is characterized in that, described method also comprises:

6. a heterogeneous network management method, is characterized in that, described method comprises:

Receive N+M kind grouping strategy;

7. method according to claim 6, is characterized in that, described method also comprises:

8. method according to claim 6, is characterized in that, described method also comprises:

9. method according to claim 6, is characterized in that, describedly divides into groups to each base station or community according to grouping strategy, comprising:

10. the method according to any one of claim 6 to 9, is characterized in that, described method also comprises:

Receive and preset packet time interval again;

11. methods according to any one of claim 6 to 9, it is characterized in that, described method also comprises:

Receiving management resource parameters;

12. 1 kinds of heterogeneous network management methods, is characterized in that, described method comprises:

Determine N+M kind grouping strategy;

13. methods according to claim 12, is characterized in that, described method also comprises:

14. methods according to claim 12, is characterized in that, described method also comprises:

15., according to claim 12 to the method described in 14 any one, is characterized in that, described method also comprises:

Determine to preset packet time interval again;

16., according to claim 12 to the method described in 14 any one, is characterized in that, described method also comprises:

Determine management resource parameter;

17. 1 kinds of network management system, is characterized in that, described network management system comprises:

18. systems according to claim 17, is characterized in that, described system also comprises:

19. systems according to claim 17, is characterized in that, described system also comprises:

20., according to claim 17 to the system described in 19 any one, is characterized in that, described system also comprises:

21., according to claim 17 to the system described in 19 any one, is characterized in that, described system also comprises:

22. 1 kinds of Element management systems, is characterized in that, described Element management system comprises:

23. systems according to claim 22, is characterized in that, described system also comprises:

24. systems according to claim 22, is characterized in that, described system also comprises:

25. systems according to claim 22, is characterized in that, described first determination module also comprises:

26. systems according to any one of claim 22 to 25, it is characterized in that, described system also comprises:

27. systems according to any one of claim 22 to 25, it is characterized in that, described system also comprises:

28. 1 kinds of heterogeneous network management systems, is characterized in that, described system comprises:

First determination module, for determining N+M kind grouping strategy;

29. systems according to claim 28, is characterized in that, described system also comprises:

30. systems according to claim 28, is characterized in that, described system also comprises:

31. systems according to any one of claim 28 to 30, it is characterized in that, described system also comprises:

6th determination module, presets packet time interval again for determining;

32. systems according to any one of claim 28 to 30, it is characterized in that, described system also comprises:

8th determination module, for determining management resource parameter;

33. 1 kinds of heterogeneous network management systems, is characterized in that, described heterogeneous network management system comprises NMS and to unify Element management system; Wherein,

34. systems according to claim 33, it is characterized in that, described Element management system, also for determining the data message of the base station that each active management pattern is corresponding or community, and is sent to network management system by the data message of base station corresponding for each active management pattern or community;

35. systems according to claim 33, it is characterized in that, described Element management system, also for determining the identification information of the base station that each passive management pattern is corresponding or community, and is sent to network management system by the identification information of base station corresponding for each passive management pattern or community;

36. systems according to any one of claim 33 to 35, is characterized in that, described network management system, also preset packet time interval again for determining;

37. systems according to any one of claim 33 to 35, is characterized in that, described network management system, also for determining management resource parameter;