WO2016150063A1

WO2016150063A1 - Base station configuration method and device

Info

Publication number: WO2016150063A1
Application number: PCT/CN2015/086055
Authority: WO
Inventors: 魏元庆; 钟哲英
Original assignee: 中兴通讯股份有限公司
Priority date: 2015-03-20
Filing date: 2015-08-04
Publication date: 2016-09-29
Also published as: CN106028365A

Abstract

A method and a device for base station configuration. A micro base station-side base station configuration method comprises: configuring the micro base station attributes; obtaining a first service configuration corresponding to said attributes; implementing the first service configuration, causing the micro base station to carry service configured for the attributes. A micro base station neighbor-side base station configuration method comprises: receiving an attributes message including micro base station attributes; obtaining a second service configuration corresponding to the micro base station attributes; implementing the second service configuration, so as to cause the neighbor base station to conform to service carried by the micro base station and configured for the attributes thereof.

Description

Base station configuration method and device

Technical field

This document relates to the field of communications technologies, and in particular, to a base station configuration method and apparatus.

Background technique

In the mobile communication system, the user equipment (User Equipment, UE for short) is free to move between cells. During the UE mobile process, the mobile communication system introduces mobility management to ensure the availability of the terminal connection and the continuity of data transmission. Features. The mobility management function refers to that the UE performs idle state cell reselection or connected state cell handover according to the mobility management policy.

With the convergence of the mobile communication field and the mobile Internet field, the base station starts to carry the communication service, but the service characteristics between the services carried by the base station are basically the same. For this reason, a set of mobility management policies can be shared between the base stations, so that the UE can freely reselect or switch between different base station serving cells.

Summary of the invention

The embodiments of the present invention provide a method and an apparatus for configuring a base station, which can solve the problem that the service characteristics of services carried by the base station in the related art are substantially the same.

The embodiment of the present invention provides a method for configuring a base station, where the step of performing on the micro base station includes: setting an attribute of the micro base station; acquiring a first service configuration corresponding to the attribute; The micro base station carries a service set for the attribute.

Optionally, the attribute of the micro base station includes: an endothermic base station; the micro base station carries a service set for the attribute of the endothermic base station, and includes: setting a user in the serving cell of the micro base station to reside in The micro base station serves a cell.

Optionally, if the attribute of the micro base station is an endothermic base station, the method further includes: transmitting an attribute of the micro base station to a neighboring base station of the micro base station, so that the neighbor base station is configured according to the micro base station And adjusting the configuration of the neighboring base station side, so that user equipment residing in the serving cell of the neighboring base station is handed over from the neighboring base station to the micro base station.

The embodiment of the present invention further provides a method for configuring a base station, where the step of performing on the neighboring base station side of the micro base station includes: receiving an attribute message including the attribute of the micro base station; and acquiring a second service configuration corresponding to the attribute of the micro base station The second service configuration is validated, so that the neighboring base station cooperates with the service set by the micro base station for the attribute.

Optionally, the micro base station attribute includes: an endothermic base station; and the neighboring base station cooperates with the service that is set by the micro base station to set the attribute, and includes: the user equipment that resides in the neighboring base station serving cell Switching from the neighbor base station to the micro base station.

The embodiment of the present invention further provides a base station configuration apparatus, where the apparatus is configured in a micro base station, the apparatus includes: a setting module, configured to set an attribute of the micro base station; and a first acquiring module, configured to acquire and The first service configuration corresponding to the attribute; and the first effective module is configured to validate the first service configuration, so that the micro base station carries the service set for the attribute.

Optionally, the attribute of the micro base station includes: an endothermic base station; the first effective module is configured to enable a user equipment in the serving cell of the micro base station to camp on the micro base station serving cell.

Optionally, the device further includes a sending module, configured to send, when the attribute of the micro base station is an endothermic base station, an attribute of the micro base station to a neighboring base station of the micro base station, to The neighboring base station adjusts the configuration of the neighboring base station side according to the attribute of the micro base station, so that the user equipment residing in the serving cell of the neighboring base station is handed over from the neighboring base station to the micro base station.

The embodiment of the present invention further provides a base station configuration apparatus, where the apparatus is disposed in a neighboring base station of a micro base station, where the apparatus includes: a receiving module, configured to receive an attribute message including an attribute of the micro base station; and a second acquiring module, The second service configuration is configured to obtain the second service configuration, and the second effective module is configured to enable the second service configuration, so that the neighboring base station cooperates with the micro base station to set the attribute. Fixed business.

Optionally, the attribute of the micro base station includes: an endothermic base station; and the second effective module is configured to enable a user equipment residing in the serving cell of the neighboring base station to switch from the neighboring base station to the micro base station.

The embodiment of the invention further provides a computer readable storage medium storing program instructions, which can be implemented when the program instructions are executed.

In the embodiment of the present invention, the micro base station can provide a personalized service different from other base stations by setting multiple attributes in the micro base station and setting corresponding service configurations for each attribute. In addition, configuration adjustment can be performed on the neighboring base station side of the micro base station according to the attributes of the micro base station, so as to cooperate with the personalized service carried by the micro base station, so that the personalized service of the micro base station can obtain better service effects.

BRIEF abstract

1 is a flowchart of a method of configuring a base station according to a first embodiment of the present invention;

2 is a flowchart of a method for configuring a base station according to a second embodiment of the present invention;

3 is a structural diagram of a base station configuration system according to a third embodiment of the present invention;

4 is a flowchart of a method for configuring a base station on a micro base station side according to a third embodiment of the present invention;

5 is a flowchart of a method for configuring a base station on a neighboring base station side according to a third embodiment of the present invention;

Figure 6 is a structural diagram of a base station configuration apparatus according to a fourth embodiment of the present invention;

Figure 7 is a structural diagram of a base station configuration apparatus according to a fifth embodiment of the present invention.

Embodiments of the invention

The embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the present invention pre-configures a plurality of attributes and a service configuration corresponding to each attribute for the micro base station; wherein, the service configuration is used to implement a service and has a service characteristic; and according to the service characteristics desired to be obtained, The micro base station is set to the corresponding attribute, and the service configuration corresponding to the attribute is made effective at the micro base station to implement the service set for the attribute. The embodiment of the present invention can enable the micro base station to implement personalized services different from other base stations. In addition, in order to better integrate the micro base station with other base stations, the neighbor base stations of the micro base station can be configured and adjusted.

First embodiment

This embodiment provides a method for configuring a base station, as shown in FIG. 1, which is a flowchart of a method for configuring a base station according to the first embodiment of the present invention. This embodiment is implemented on the micro base station side.

Step S110, setting an attribute of the micro base station;

The attributes of the micro base station are used to represent the services to be carried by the micro base station. For example: the first attribute of the micro base station The micro base station for carrying the first service and the second attribute is used to carry the second service. For example, if the user wants the micro base station to attract the UE to camp on the serving cell of the micro base station, the attribute of the endothermic base station can be configured for the micro base station according to the requirements of the user, and the configuration of the endothermic base station that implements the user requirement is configured.

According to a plurality of pre-configured attributes, the attributes of the micro base station are set in the micro base station network management when the micro base station is turned on, before the micro base station operates, or after the micro base station is operated. For example, in the micro base station network management, a selection menu including multiple attributes of the micro base station is set, and the attributes of the micro base station are set by the user's selection.

To set a corresponding service for each attribute, one or more attributes may be set for the micro base station, so that the micro base station implements services corresponding to one or more attributes respectively.

Step S120: Acquire a first service configuration corresponding to the attribute.

There are differences between different services, and then the corresponding first service configuration is set for each attribute. The first service configuration is used to implement the service set for the attribute. The first service configuration can be stored on the micro base station side.

The first service configuration includes: a mobility management policy. The mobility management policy includes rules, algorithms, and parameters that need to be used for cell handover or reselection. The content of the mobility management policy can be configured according to the characteristics of the network where the base station is located.

The service configuration is implemented on the base station side. In the implementation process, the UE performs cell handover or reselection according to rules, algorithms, parameters, and the like, and measurement results of the signal quality of the base station according to the mobility management policy in the service configuration.

Step S130: The first base station corresponding to the attribute is validated on the micro base station side, so that the micro base station carries the service set for the attribute.

After the first service configuration takes effect, the first service configuration is sent to the UE that resides in the serving cell of the micro base station, and the UE determines whether to perform idle state cell reselection or the connected cell according to the first service configuration of the micro base station. Switch. The idle state of the UE means that the UE does not perform data transmission, and the connected state refers to that the UE is performing data transmission.

The micro base station in this embodiment has the characteristics of being flexible in application, and different attributes are set for the micro base station according to different application scenarios of the micro base station and different requirements of the user for the micro base station, so that the micro base station realizes personalized service different from other base stations. That is, the micro base station can implement different personalized services, and the operation is simple, and the maintenance personnel can be prevented from being separately configured for each personalized service in the micro base station network management system. Set, effectively reduce labor costs.

Second embodiment

In order to obtain a better effect on the services carried by the micro base station, the neighboring base stations of the micro base station can be provided with cooperation. The mobility management functions in mobile communication systems may not take into account the personalized service characteristics of the micro base stations. Because not all personalized services can be implemented by the micro base station separately, and the personalized service that cannot be independently implemented by the micro base station requires the micro base station and the neighbor base station of the micro base station to cooperate with each other to finally implement.

This embodiment provides a method for configuring a base station on a neighboring base station side. As shown in FIG. 2, it is a flowchart of a base station configuration method according to a second embodiment of the present invention.

Step S210, the neighboring base station of the micro base station receives an attribute message including the attribute of the micro base station;

This attribute message can broadcast a message. For example, the attribute message is a system info block (sib) message.

The personalized service is specially configured for the micro base station, and the neighboring base station of the micro base station has no knowledge of the service to be implemented by the micro base station, and if the location of the micro base station is mobile, such as a communication signal car, then even if the micro base station is currently The neighboring base station can identify the personalized service and provide cooperation, and can also ensure that the neighboring base station after the mobile station moves can also recognize the personalized service. Therefore, in this embodiment, the attribute of the micro base station is notified to the neighboring base station, so that the neighbor base station can identify the service to be implemented by the micro base station.

Step S220, acquiring a second service configuration corresponding to the attribute of the micro base station;

The role of the second service configuration is to better implement the services carried by the micro base station in cooperation with the micro base station. The first service configuration on the micro base station side is opposite to the second service configuration on the neighboring base station side, and the base station functions/services implemented by the two complement each other.

For example, the personalized service of the micro base station is to attract more UEs to camp on the micro base station serving cell, and the first service configuration of the micro base station is such that the UE camping on the serving cell of the micro base station is not easily disconnected, and the second service configuration of the neighboring base station is It is possible to switch the UE accessing the neighbor base station to the micro base station instead.

Step S230, the second service configuration is validated, so that the neighboring base station cooperates with the service set by the micro base station for the attribute.

After the first service configuration and the second service configuration take effect respectively, the micro base station and the neighbor base station can be positive Often communication, the service of the neighboring base station can make the service of the micro base station get better and better results.

Third embodiment

This embodiment provides an embodiment to describe a method for configuring a base station according to an embodiment of the present invention. This embodiment takes a micro base station and a neighboring base station in a Long Term Evolution (LTE) system as an example. As shown in FIG. 3, it is a structural diagram of a base station configuration system according to a third embodiment of the present invention.

The micro base station is configured to implement a service set for an endothermic base station attribute. The service set for the endothermic base station attribute is that the UE in the serving cell of the micro base station camps on the serving cell of the micro base station. The UE in the serving cell of the micro base station may already camp on the serving cell of the micro base station, or may be camping on the serving cell of the neighboring base station, the service may enable the UE residing in the serving cell of the micro base station to continue to camp and attract the neighboring base station. The UE of the serving cell switches to the micro base station serving cell.

For example, a micro base station is deployed in a shopping mall, and the micro base station is used to provide services such as commercial promotion to the UE. In order to maximize the promotion effect, even if the signal strength of the macro base station where the UE originally resides is superior to the signal strength of the micro base station, the mall remains The UE that wishes to access the macro base station in turn accesses the micro base station. For another example, the in-vehicle base station of the security department wants to inhale all the UEs in its vicinity. In other words, the in-vehicle base station wants the UEs in its coverage to access the in-vehicle base station for monitoring.

The service of the attribute of the endothermic base station can be implemented by the micro base station alone, or can be implemented by the micro base station and the neighboring base station, and the micro base station and the neighbor base station cooperate to achieve better performance.

Setting a first service configuration for the endothermic base station attribute, or setting a first service configuration and a second service configuration. Both the first service configuration and the second service configuration include a mobility management policy.

The rules, algorithms, parameters, and the like specified in the mobility management policy may be set according to service characteristics. For example, the LTE system, the mobility management policies of the first service configuration and the second service configuration may include:

1. Configure cell reselection parameters; the UE performs cell reselection in an idle state according to the cell reselection parameter;

2. Configure the frequency priority of the base station of the serving cell;

3. Configure the threshold values of the A1 to A5 events;

4. triggering measurement of signal quality of the serving cell of the micro base station and/or the serving cell of the neighboring base station;

5. Trigger detection of A1 and A2 events;

6. When the A2 event occurs, the detection of the cell handover event is triggered, and the cell handover event is one or more of the A3, A4, and A5 events; when the cell handover event occurs, the UE performs the connection state cell handover.

According to the 3GPP36.331 protocol, the A1 event indicates that the signal quality of the serving cell is higher than the first threshold; the A2 event indicates that the signal quality of the serving cell is lower than the second threshold; the A3 event refers to the same frequency. The difference between the signal quality of the inter-frequency neighboring area and the signal quality of the serving cell is higher than the third threshold; the A4 event refers to the signal quality of the same-frequency/inter-frequency neighboring area is higher than the fourth threshold; the A5 event refers to the inter-frequency neighboring area. The signal quality is higher than the fifth threshold, and the signal quality of the serving cell is lower than the sixth threshold.

Whether an A1, A2, A3, A4, or A5 event occurs can be known by UE measurement. In general, the intra-frequency cell handover of the UE is based on the A3 event, and the inter-frequency cell handover is based on one or more of the A3, A4, and A5 events. In this embodiment, the UE inter-frequency cell handover is based on the A4 event. There is no need to switch when an A1 event occurs. The occurrence of an A2 event means that a cell handover event detection is required.

As shown in FIG. 4, it is a flowchart of a method for configuring a base station on a micro base station side according to a third embodiment of the present invention. In this embodiment, the endothermic base station and its neighboring base station are inter-frequency networking, and the inter-frequency handover refers to the A4 event.

Step S410, pre-configuring different attributes of the micro base station and a first service configuration corresponding to each attribute;

The first service configuration corresponding to the attribute of the endothermic base station and the attribute of the endothermic base station, the pre-configured common micro base station attribute, and the first service configuration corresponding to the common micro base station attribute are pre-configured.

The common micro base station is the default attribute of the micro base station; the first service configuration corresponding to the common micro base station attribute is the default configuration of the micro base station.

Step S420, when the micro base station is turned on, setting the attribute of the micro base station in the micro base station network management;

Step S430, it is determined whether the attribute of the micro base station is an endothermic base station, and if so, step S440 is performed, and if not, step S460 is performed;

Step S440, the micro base station network management invokes the first service configuration corresponding to the attribute of the endothermic base station;

The first service configuration corresponding to the endothermic base station is configured to enable the user in the serving cell of the micro base station to set And camped on the micro base station serving cell. The first service configuration includes a mobility management policy on the micro base station side. The function of the endothermic base station is implemented by a mobility management strategy.

Optionally, the mobility management policy on the micro base station side includes:

1. Configure the minimum receiving level of the micro base station -130dBm;

2. The frequency priority of the serving cell of the micro base station is 7; wherein the frequency priority of the serving cell of the micro base station is higher than the standard frequency priority or higher than the frequency priority of the neighboring base station; the standard frequency priority The base station of the entire network is universal, with a value of 5;

3. The second threshold of the A2 event of the micro base station is configured to be -95 dBm, the fifth threshold of the A5 event is -60 dBm, and the sixth threshold is -100 dBm;

5. Triggering detection of events of the micro base stations A1 and A2;

6. When the A2 event occurs on the micro base station, the A5 event detection is triggered.

Step S450: The micro base station network management synchronizes the first service configuration of the endothermic base station to the micro base station, so that the first service configuration takes effect on the micro base station;

Compared with the neighboring base station, the mobility management policy of the micro base station has a higher frequency priority, a lower minimum reception level, and a lower second threshold of the A2 event. Therefore, once the UE accesses the micro base station, it is not easy. Switch or reselect to other base stations.

Step S460: The micro base station activates a default first service configuration.

After the first service configuration takes effect, the UE is notified by the broadcast message, so that the UE determines whether to continue to camp on the micro base station serving cell according to the mobility management policy in the first service configuration. Optionally, the broadcast message may be a sib message. For example: the sib1-q-RxLevMin message carries the minimum reception level.

As shown in FIG. 5, FIG. 5 is a flowchart of a method for configuring a base station on a neighboring base station side according to a third embodiment of the present invention. This embodiment is to enable the micro base station to attract more UE access.

Step S510, the micro base station establishes a link with its neighboring base station, and establishes a neighbor relationship;

The micro base station detects its neighboring macro base station and acts as a neighboring base station to automatically establish an X2 link with the neighboring base station.

After establishing the neighbor relationship between the micro base station and the neighboring base station, the micro base station can also adjust its mobility management. The policy, for example, sets the minimum offset of the serving cell of the neighboring base station. When it is sent to the UE after it takes effect, it can carry the minimum offset in the sib5-threshX-Low message.

Step S520, the neighboring base station receives the attribute message sent by the micro base station;

The micro base station informs the neighbor base station of the attribute message through the X2 message. Generally, if the micro base station is a normal micro base station, the neighbor base station does not need to adjust the configuration. Therefore, the micro base station notifies the neighbor base station of the attribute only when the micro base station is the endothermic base station.

Step S530, it is determined whether the attribute of the micro base station is an endothermic base station, and if so, step S540 is performed; if not, step S560 is performed;

Step S540, calling a second service configuration corresponding to the endothermic base station;

The second service configuration is configured to switch user equipment residing in the serving cell of the neighboring base station from the neighboring base station to the micro base station. The second service configuration includes a mobility management policy on the neighboring base station side.

Optionally, the mobility management policy on the neighboring base station side includes:

1. Configure the minimum receiving level of the neighboring base station -120dBm;

2. The frequency priority of the serving cell of the neighboring base station is set to 4; wherein, the frequency priority of the serving cell of the neighboring base station is lower than the standard frequency priority, or lower than the frequency priority of the micro base station (endothermic base station);

3. The second threshold of the A2 event of the neighboring base station is set to -65 dBm, and the fourth threshold of the A4 event is -112 dBm;

5. Triggering detection of events of neighboring base stations A1 and A2;

6. When the A2 event occurs on the neighboring base station, the A4 event detection is triggered.

The mobility management policy of the neighboring base station may further include: a maximum offset of the serving cell of the neighboring base station.

Step S550, validating a second service configuration corresponding to the endothermic base station;

After the second service configuration takes effect, the UE is notified by the broadcast message that the UE performs the idle state cell reselection or the connected state cell handover according to the mobility management policy in the second service configuration. Optionally, the broadcast message may be a sib message. For example, the sib5-q-RxLevMin message carries the minimum receiving level and carries the maximum offset in the sib5-threshX-High message.

Compared with the micro base station, the minimum receiving level of the neighboring base station mobility management strategy is large, and the A2 event The second threshold is lower. As long as the endothermic base station signal reaches the requirement, regardless of the neighbor base station signal condition, a handover event can be initiated to cause the UE to switch to the endothermic base station.

For the idle state UE originally camping on the neighboring base station, according to the reselection parameter such as the minimum receiving level adjusted by the neighboring base station, when the measured signal of the micro base station satisfies the access condition, the micro base station will be automatically reselected immediately.

For the connected state UE that is originally camped on the neighboring base station, the A4 event measurement is performed according to the second threshold value adjusted by the neighboring base station, and the UE will immediately switch to the micro base station once the signal condition of the micro base station satisfies the condition.

Step S560, continuing to implement the configuration that the neighboring base station is in effect.

Fourth embodiment

This embodiment provides a base station configuration apparatus, which is set in a micro base station. FIG. 6 is a structural diagram of a base station configuration apparatus according to a fourth embodiment of the present invention.

a setting module 610, configured to set an attribute of the micro base station;

The first obtaining module 620 is configured to acquire a first service configuration corresponding to the attribute;

The first validation module 630 is configured to validate the first service configuration, so that the micro base station carries the service set for the attribute.

In an embodiment, the attributes of the micro base station comprise: an endothermic base station. The first validation module 630 is configured to enable user equipments in the serving cell of the micro base station to camp on the micro base station serving cell.

The device further includes a sending module (not shown) configured to send the attribute of the micro base station to a neighboring base station of the micro base station if the attribute of the micro base station is an endothermic base station, so that The neighboring base station adjusts the configuration of the neighboring base station side according to the attribute of the micro base station, so that the user equipment residing in the serving cell of the neighboring base station is handed over from the neighboring base station to the micro base station.

The functions of the device in this embodiment have been described in the foregoing method embodiments. Therefore, the related descriptions in the foregoing embodiments are not described in detail in the description of the embodiments, and are not described herein.

Fifth embodiment

This embodiment provides a base station configuration apparatus, which is disposed in a neighboring base station of a micro base station.

FIG. 7 is a structural diagram of a base station configuration apparatus according to a fifth embodiment of the present invention.

The receiving module 710 is configured to receive an attribute message that includes the micro base station attribute;

The second obtaining module 720 is configured to acquire a second service configuration corresponding to the micro base station attribute;

The second validation module 730 is configured to validate the second service configuration, so that the neighboring base station cooperates with the service set by the micro base station for the attribute.

In an embodiment, the attributes of the micro base station comprise: an endothermic base station. The second validation module 730 is configured to enable a user equipment residing in the serving cell of the neighboring base station to switch from the neighboring base station to the micro base station.

One of ordinary skill in the art will appreciate that all or a portion of the above steps may be accomplished by a program that instructs the associated hardware, such as a read-only memory, a magnetic disk, or an optical disk. Alternatively, all or part of the steps of the above embodiments may also be implemented using one or more integrated circuits. Correspondingly, each module/unit in the foregoing embodiment may be implemented in the form of hardware or in the form of a software function module. Embodiments of the invention are not limited to any specific form of combination of hardware and software.

Industrial applicability

Claims

A method for configuring a base station, wherein the steps performed on the side of the micro base station include:

Setting an attribute of the micro base station;

Obtaining a first service configuration corresponding to the attribute;

The first service configuration is validated, so that the micro base station carries the service set for the attribute.
The method of claim 1 wherein

The attributes of the micro base station include: an endothermic base station;

The micro base station carries a service set for the attribute of the endothermic base station, and includes:

The user equipment in the serving cell of the micro base station is camped on the micro base station serving cell.
The method of claim 2, if the attribute of the micro base station is an endothermic base station, the method further comprises:

Transmitting the attribute of the micro base station to the neighboring base station of the micro base station, so that the neighboring base station adjusts the configuration of the neighboring base station side according to the attribute of the micro base station, so that the camping in the neighboring base station serving cell The user equipment switches from the neighbor base station to the micro base station.
A method for configuring a base station, the step of performing on a neighboring base station side of a micro base station includes:

Receiving an attribute message including the attribute of the micro base station;

Obtaining a second service configuration corresponding to the micro base station attribute;

The second service configuration is validated, so that the neighboring base station cooperates with the service set by the micro base station for the attribute.
The method of claim 4, wherein

The micro base station attribute includes: an endothermic base station;

And the neighboring base station cooperates with the service set by the micro base station for the attribute, including:

The user equipment residing in the serving cell of the neighboring base station is handed over from the neighboring base station to the micro base station.
A base station configuration apparatus, wherein the apparatus is disposed at a micro base station, and the apparatus include:

Setting a module, configured to set an attribute of the micro base station;

a first obtaining module, configured to acquire a first service configuration corresponding to the attribute;

The first effective module is configured to validate the first service configuration, so that the micro base station carries the service set for the attribute.
The apparatus of claim 6 wherein

The attributes of the micro base station include: an endothermic base station;

The first validation module is configured to cause a user equipment in the serving cell of the micro base station to camp on the micro base station serving cell.
The apparatus according to claim 7, further comprising a transmitting module configured to: if the attribute of the micro base station is an endothermic base station, to direct the attribute of the micro base station to a neighboring base station of the micro base station Sending, so that the neighboring base station adjusts the configuration of the neighboring base station side according to the attribute of the micro base station, so that the user equipment residing in the serving cell of the neighboring base station is handed over from the neighboring base station to the micro base station.
A base station configuration apparatus, wherein the apparatus is disposed in a neighboring base station of a micro base station, and the apparatus includes:

a receiving module, configured to receive an attribute message including the micro base station attribute;

a second acquiring module, configured to acquire a second service configuration corresponding to the micro base station attribute;

The second effective module is configured to validate the second service configuration, so that the neighboring base station cooperates with the service set by the micro base station for the attribute.
The apparatus of claim 6 wherein

The attributes of the micro base station include: an endothermic base station;

The second validation module is configured to enable a user equipment residing in the serving cell of the neighboring base station to switch from the neighboring base station to the micro base station.
A computer readable storage medium storing program instructions that, when executed, can implement the method of any of claims 1-3.
A computer readable storage medium storing program instructions that, when executed, implement the method of any of claims 4-5.