CN103988535B

CN103988535B - system message processing method and system, user equipment

Info

Publication number: CN103988535B
Application number: CN201280008867.0A
Authority: CN
Inventors: 戴明增; 曾清海; 张宏平
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2012-10-15
Filing date: 2012-10-15
Publication date: 2017-12-22
Anticipated expiration: 2032-10-15
Also published as: CN103988535A; WO2014059573A1

Abstract

The embodiment of the present invention provides system message processing method and system, user equipment.The prothetic group station of the embodiment of the present invention determines to change the system message at the prothetic group station；The prothetic group station sends the change instruction of the system message to master base station and the entry-into-force time of the system message changed indicates, the entry-into-force time for the system message for being indicated according to the entry-into-force time to determine to change to the master base station simultaneously changes instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force in the entry-into-force time system message of the change；The system message of the change is applied in the entry-into-force time with the prothetic group station；To reduce the risk of loss of data.

Description

System message processing method and system, user equipment

Technical field

The present invention relates to the communication technology, more particularly to system message processing method and system, user equipment.

Background technology

In wireless communication system for example：Long Term Evolution (English：Long Term Evolution, abbreviation LTE) in system, In order to further improve the spectrum efficiency of system and user throughput, cell aggregation between base station is introduced, cell is gathered between base station In the case of conjunction, there is a master base station (English：Primary eNB), a prothetic group station (English：Secondary eNB).Due to Existing 3GPP Release-10 versions do not support cell aggregation between base station, after when prothetic group station, system message changes, use Family equipment (English：User Equipment, abbreviation UE) system message after the change of prothetic group station can not be obtained, so as to cause UE not Network or cisco unity malfunction can be accessed, influences data transfer, increases the risk of loss of data.

The content of the invention

The embodiment of the present invention provides system message processing method and system, user equipment, to reduce the wind of loss of data Danger.

In a first aspect, the embodiments of the invention provide a kind of system message to handle processing method, including：

Prothetic group station determines to change the system message at the prothetic group station；

The prothetic group station sends the change instruction of the system message and when the coming into force of system message changed to master base station Between indicate, entry-into-force time for the system message for being indicated according to the entry-into-force time to determine to change to the master base station and to user Change instruction and the entry-into-force time described in device forwards, so that the user equipment comes into force the change in the entry-into-force time System message；With

The system message of the change is applied in the entry-into-force time in the prothetic group station.

Based in a first aspect, in the first possible implementation, the prothetic group station is to what master base station sent change The entry-into-force time instruction for message of uniting, is specifically included：

When the master base station and the auxiliary base station asynchronous, when being come into force described in the prothetic group station to master base station transmission Between absolute time, entry-into-force time is obtained according to the absolute time to the master base station；Or

When the master base station and the auxiliary base station synchronization, when being come into force described in the prothetic group station to master base station transmission Between.

The first possible implementation based on first aspect, in second of possible implementation, as the master When base station is with the auxiliary base station asynchronous, the entry-into-force time is the System Frame Number of the master base station and/or the master base station Subframe numbers；

When the master base station and during the auxiliary base station synchronization, the entry-into-force time for the prothetic group station System Frame Number and/ Or the subframe numbers at the prothetic group station.

First and second kinds of possible implementations based on first aspect, in the third possible implementation, institute Stating the system message of change includes following at least one：

Downlink bandwidth, physical mixed HARQ HARQ instructions parameter channel configuration, the RACH of cell Configuration parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference Configuration parameter, uplink power control parameter, upstream frequency and the band width configuration parameter and multimedia broadcasting SFN of signal MBSFN sub-frame configuration parameter.

First, second, and third kind of possible implementation based on first aspect, in the 4th kind of possible implementation In, the system message of the change also includes the cell ID at the prothetic group station, passes through the cell for the user equipment Cell corresponding to mark applies the system message of the change in the entry-into-force time.

Second aspect, the embodiments of the invention provide a kind of system message processing method, including：

Master base station receives the change instruction for the system message that prothetic group station is sent and the entry-into-force time of the system message changed refers to Show；

The master base station indicates to determine the entry-into-force time of the system message of change according to the entry-into-force time；With

The master base station sends the system message of change instruction and the change of the system message to user equipment Entry-into-force time, so that the user equipment and the prothetic group station disappear in the entry-into-force time using the system of the change respectively Breath.

Based on second aspect, in the first possible implementation, the master base station determines the system message changed Entry-into-force time, specifically include：

When the master base station and the auxiliary base station asynchronous, the master base station receives the life that the prothetic group station is sent The absolute time of time is imitated, and the entry-into-force time is obtained according to the absolute time；Or

When the master base station and the auxiliary base station synchronization, the master base station receives the described of prothetic group station transmission and come into force Time.

The first possible implementation based on second aspect, in second of possible implementation, as the master When base station is with the auxiliary base station asynchronous, the entry-into-force time is the System Frame Number of the master base station and/or the master base station Subframe numbers；

First, second kind of possible implementation based on second aspect, it is described in the third possible implementation The system message of change includes following at least one：

First, second, third kind of possible implementation based on second aspect, in the 4th kind of possible implementation In, the system message of the change also includes the cell ID at the prothetic group station, passes through the cell for the user equipment Cell corresponding to mark applies the system message of the change in the entry-into-force time.

The third aspect, the embodiments of the invention provide a kind of system message processing method, including：

User equipment receives change instruction and the entry-into-force time of the system message changed for the system message that master base station is sent； With

The user equipment applies the system message of the change in the entry-into-force time；

Wherein, the change of the system message is indicated and determined concurrently by prothetic group station corresponding to the instruction of the entry-into-force time The master base station is given, is using the change simultaneously in the entry-into-force time to the user equipment and the prothetic group station System message.

Based on the third aspect, in the first possible implementation, when the master base station is different from the prothetic group station During step, the entry-into-force time is the System Frame Number of the master base station and/or the subframe numbers of the master base station；

The first possible implementation based on the third aspect, in second of possible implementation, the change System message include following at least one：

First, second kind of possible implementation based on the third aspect, it is described in the third possible implementation The system message of change also includes the cell ID at the prothetic group station, corresponding by the cell ID for the user equipment Cell the entry-into-force time apply the change system message.

Fourth aspect, the embodiments of the invention provide a kind of base station, including：

Determining module, for determining the system message of the change base station；

Sending module, the change for sending the system message to another base station indicates and the life of the system message of change Persond eixis is imitated, indicates the entry-into-force time of system message of determination change according to the entry-into-force time to another base station simultaneously Change instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force institute in the entry-into-force time State the system message of change；With

Come into force module, for applying the system message of the change in the entry-into-force time.

5th aspect, the embodiments of the invention provide a kind of base station, including：

Receiving module, the change instruction and the life of the system message changed of the system message sent for receiving another base station Imitate persond eixis；

Determining module, the entry-into-force time of the system message for indicating determination change according to the entry-into-force time；Know

Sending module, the system message of change instruction from the system message to user equipment and the change for sending Entry-into-force time, the system for applying the change in the entry-into-force time respectively so as to the user equipment and another base station Message.

6th aspect, the embodiments of the invention provide a kind of user equipment, including：

Receiving module, the system message for changing instruction and change of the system message for receiving master base station transmission come into force Time；With

Come into force module, for applying the system message of the change in the entry-into-force time；

7th aspect, the embodiments of the invention provide a kind of system message processing system, including：

Above-mentioned prothetic group station, above-mentioned master base station and above-mentioned user equipment.

Eighth aspect, the embodiments of the invention provide a kind of base station, including：

Processor, for determining the system message of the change base station；

Emitter, the system message of change instruction from the system message to another base station and change for sending come into force Persond eixis, to another base station according to the entry-into-force time indicate determine change system message entry-into-force time and to User equipment forwarding is described to change instruction and the entry-into-force time, so as to the user equipment come into force in the entry-into-force time it is described The system message of change；

The processor, it is additionally operable to apply the system message of the change in the entry-into-force time.

Wherein, the emitter is specifically used for：

When another base station and the base station asynchronous, the change of the system message is sent to another base station The absolute time with the entry-into-force time is indicated, when being come into force to another base station according to obtaining the absolute time Between；Or

When another base station and the base station synchronization, the change for sending the system message to another base station refers to Show and the entry-into-force time.

Wherein, when another base station and the base station asynchronous, the entry-into-force time is for another base station System frame number and/or the subframe numbers of another base station；

When another base station and during the base station synchronization, the entry-into-force time for the base station System Frame Number and/or The subframe numbers of the base station.

Wherein, the system message of the change includes following at least one：

Wherein, the system message of the change also includes the cell ID of the base station, passes through for the user equipment Cell corresponding to the cell ID applies the system message of the change in the entry-into-force time.

9th aspect, the embodiments of the invention provide a kind of base station, including：

Receiver, the system message of change instruction and the change of the system message sent for receiving another base station come into force Persond eixis；

Processor, the entry-into-force time instruction for the system message according to the change determine the life of the system message changed Imitate the time；With

Emitter, the system message of change instruction from the system message to user equipment and the change for sending Entry-into-force time, so that the user equipment and another base station disappear in the entry-into-force time using the system of the change respectively Breath.

Wherein, when the base station and another base station asynchronous, the system for the change that the receiver receives The entry-into-force time of message is designated as the absolute time of entry-into-force time, and the processor is specifically used for being determined according to the absolute time The entry-into-force time of the system message of change；Or

When the base station and another base station synchronization, the life of the system message for the change that the receiver receives Effect persond eixis is the entry-into-force time, and the determining module is specifically used for the system message for being defined as changing by the entry-into-force time Entry-into-force time.

Wherein, when the base station and another base station asynchronous, the entry-into-force time is the system-frame of the base station Number and/or the base station subframe numbers；

When the base station and another base station synchronization, the entry-into-force time is the System Frame Number of another base station And/or the subframe numbers of another base station.

Wherein, the system message of the change includes following at least one：

Wherein, the system message of the change also includes the cell ID of another base station, for the user equipment The system message of the change is applied in the entry-into-force time by cell corresponding to the cell ID.

Tenth aspect, the embodiments of the invention provide a kind of user equipment, including：

Receiver, for receiving the change instruction of system message and when the coming into force of system message of change of master base station transmission Between；With

Processor, the entry-into-force time for the system message in the change apply the system message of the change；

Wherein, when the master base station and the auxiliary base station asynchronous, the entry-into-force time is the system of the master base station The subframe numbers of frame number and/or the master base station；Or

Wherein, the system message of the change includes following at least one：

Wherein, the system message of the change also includes the cell ID at the prothetic group station, leads to for the user equipment Cross the system message that cell corresponding to the cell ID applies the change in the entry-into-force time.

As shown from the above technical solution, the prothetic group station of the embodiment of the present invention sends the change of the system message to master base station The entry-into-force time for the system message for indicating and changing indicates, indicates to determine to change according to the entry-into-force time to the master base station System message entry-into-force time and to user equipment forwarding it is described change instruction and the entry-into-force time, so that the user sets The system message of the standby change that come into force in the entry-into-force time；It can solve the problem that existing 3GPP Release-10 versions do not prop up Cell aggregation between base station is held, after system message changes when prothetic group station, after user equipment (UE) can not obtain the change of prothetic group station System message, so as to cause UE to access network or cisco unity malfunction, data transfer is influenceed, increases the wind of loss of data Danger.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are this hairs Some bright embodiments, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the schematic flow sheet for the system message processing method that one embodiment of the invention provides；

Fig. 2 is the schematic flow sheet for the system message processing method that another embodiment of the present invention provides；

Fig. 3 is the schematic flow sheet for the system message processing method that another embodiment of the present invention provides；

Fig. 4 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；

Fig. 5 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；

Fig. 6 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；

Fig. 7 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；

Fig. 8 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；

Fig. 9 is the structural representation for the base station that another embodiment of the present invention provides；

Figure 10 is the structural representation for the base station that another embodiment of the present invention provides；

Figure 11 is the structural representation for the user equipment that another embodiment of the present invention provides；

Figure 12 is the structural representation for the system message processing system that another embodiment of the present invention provides；

Figure 13 is the structural representation for the base station that another embodiment of the present invention provides；

Figure 14 is the structural representation for the base station that another embodiment of the present invention provides；

Figure 15 is the structural representation for the user equipment that another embodiment of the present invention provides.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

Technical scheme, various wireless communication systems are can apply to, such as：Global system for mobile communications (English Text：Global System for Mobile Communications, abbreviation GSM), GPRS (English： General Packet Radio Service, abbreviation GPRS) system, CDMA (English：Code Division Multiple Access, abbreviation CDMA) system, CDMA2000 systems, WCDMA (English：Wideband Code Division Multiple Access, abbreviation WCDMA) system, Long Term Evolution (English：Long Term Evolution, letter Claim LTE) system or World Interoperability for Microwave Access, WiMax (English：World Interoperability for Microwave Access, abbreviation WiMAX) system etc..

Master base station or prothetic group station, can be the base station controller (English in gsm system, gprs system or cdma system： Base Station Controller, abbreviation BSC), it can also be the evolved base station (English in LTE system： EvolvedNodeB, abbreviation eNB), it can also be the base station (English of the access service network in WiMAX network：Access Service Network Base Station, abbreviation ASN BS) etc. network element.

Various embodiments of the present invention can apply to the situation of carrier aggregation between base station, wherein, master base station is to be used to control number According to the control base station of forwarding process, prothetic group station refers in order to improve the data traffic of user or reduce interference, for sharing use The base station of partial data resource or offer covering required for the equipment access of family.

Fig. 1 be one embodiment of the invention provide system message processing method schematic flow sheet, it is assumed that user equipment with There is no control signaling between prothetic group station, or when prothetic group station can not send control signaling to user equipment, thus user equipment without Method directly obtains the system message after change from prothetic group station, as shown in figure 1, the system message processing method of the present embodiment can wrap Include：

101st, prothetic group station determines to change the system message at the prothetic group station.

102nd, the prothetic group station sends the change instruction and the life of the system message changed of the system message to master base station Imitate persond eixis.

Wherein, the entry-into-force time of the system message of change is indicated to indicate that master base station indicates really according to the entry-into-force time Surely the entry-into-force time of the system message changed, master base station indicates the change of the system message received and what is determined changes The entry-into-force time of the system message of change is sent to user equipment, so that user equipment is in when the coming into force of system message of the change Between come into force the system message of the change.

In an embodiment of the invention, the prothetic group station can send what is changed by high-level signaling to master base station The entry-into-force time instruction of system message, is specifically included：

In yet another embodiment of the present invention, it is described to come into force when the master base station and the auxiliary base station asynchronous Time is the System Frame Number of the master base station and/or the subframe numbers of the master base station；When the master base station and the prothetic group station are same During step, the entry-into-force time is the System Frame Number at the prothetic group station and/or the subframe numbers at the prothetic group station.

103rd, the system message of the change is applied at the prothetic group station in the entry-into-force time.

It should be noted that the system message of above-mentioned change includes following at least one：Downlink bandwidth, the physics of cell mix Close HARQ (English：Hybrid Automatic Repeat Request, abbreviation HARQ) instruction channel configuration ginseng Number, the configuration parameter of RACH, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, Detection (English：Sounding) configuration parameter of reference signal, uplink power control parameter, upstream frequency and band width configuration ginseng Number and multimedia broadcasting SFN (English：Multicast Broadcast S ingle Frequency Network, referred to as MBSFN) sub-frame configuration parameter.

In yet another embodiment of the present invention, the system message of above-mentioned change also includes the cell mark at the prothetic group station Know, the system that the change is applied in the entry-into-force time by cell corresponding to the cell ID for the user equipment Message.

The system that the prothetic group station of the embodiment of the present invention sends the change instruction of the system message and changed to master base station disappears The entry-into-force time instruction of breath, when the coming into force of system message of determination change is indicated according to the entry-into-force time to the master base station Between and to user equipment forwarding it is described change instruction and the entry-into-force time, so that the user equipment is given birth in the entry-into-force time Imitate the system message of the change；It can solve the problem that existing 3GPP Release-10 versions do not support cell aggregation between base station, After when prothetic group station, system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to cause UE can not access network or cisco unity malfunction, influence data transfer, increase the risk of loss of data.

Fig. 2 is the schematic flow sheet for the system message processing method that another embodiment of the present invention provides, it is assumed that user equipment There is no control signaling between prothetic group station, or when prothetic group station can not send control signaling to user equipment, so that user equipment The system message after change directly can not be obtained from prothetic group station, as shown in Fig. 2 the system message processing method of the present embodiment can be with Including：

201st, when the coming into force of system message that master base station receives the change instruction for the system message that prothetic group station is sent and changed Between indicate.

Wherein, master base station can be indicated and changed by the change for the system message that high-level signaling reception prothetic group station is sent The entry-into-force time instruction of system message.

202nd, the master base station indicates to determine the entry-into-force time of the system message of change according to the entry-into-force time.

In an embodiment of the invention, the master base station determines the entry-into-force time of the system message changed, specifically Including：

In yet another embodiment of the present invention, it is described to come into force when the master base station and the auxiliary base station asynchronous Time is the System Frame Number of the master base station and/or the subframe numbers of the master base station；

203rd, the system of change instruction and the change of the master base station to the user equipment transmission system message disappears The entry-into-force time of breath.

Accordingly, the user equipment and the prothetic group station disappear in the entry-into-force time using the system of the change respectively Breath.

It should be noted that the system message of the change includes following at least one：Downlink bandwidth, the physics of cell mix HARQ HARQ instructions parameter channel configuration, the configuration parameter of RACH, Physical Downlink Shared Channel is closed to match somebody with somebody Put parameter, Physical Uplink Shared Channel configuration parameter, the configuration parameter for detecting sounding reference signals, uplink power control ginseng Number, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN sub-frame configuration parameter.

The system message of the change also includes the cell ID at the prothetic group station, passes through for the user equipment described Cell corresponding to cell ID applies the system message of the change in the entry-into-force time.

The change instruction and change that the system message that prothetic group station is sent is received by master base station of the embodiment of the present invention System message entry-into-force time instruction, according to the entry-into-force time indicate determine change system message entry-into-force time, and Change instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force institute in the entry-into-force time State the system message of change；It can solve the problem that existing 3GPP Release-10 versions do not support cell aggregation between base station, when auxiliary After base station system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to cause UE not Network or cisco unity malfunction can be accessed, influences data transfer, increases the risk of loss of data.

Fig. 3 is the schematic flow sheet for the system message processing method that another embodiment of the present invention provides, it is assumed that user equipment There is no control signaling between prothetic group station, or when prothetic group station can not send control signaling to user equipment, so that user equipment The system message after change directly can not be obtained from prothetic group station, as shown in figure 3, the system message processing method of the present embodiment can be with Including：

301st, user equipment receives coming into force for the system message of change instruction and the change for the system message that master base station is sent Time.

Wherein, user equipment can be received the change instruction for the system message that master base station is sent and be changed by high-level signaling System message entry-into-force time.

302nd, the user equipment applies the system message of the change in the entry-into-force time.

In an embodiment of the invention, it is described when coming into force when the master base station and during the auxiliary base station asynchronous Between be the System Frame Number of the master base station and/or the subframe numbers of the master base station；

The change instruction for the system message that user equipment of the embodiment of the present invention is sent by master base station and the system changed disappear The entry-into-force time of breath, the system message of the change is applied in the entry-into-force time of the system message of the change；It can solve the problem that existing Some 3GPP Release-10 versions do not support cell aggregation between base station, after when prothetic group station, system message changes, user Equipment UE can not obtain the system message after the change of prothetic group station, so as to cause UE to access network or cisco unity malfunction, shadow Data transfer is rung, increases the risk of loss of data.

It should be noted that in the various embodiments described above, for high-level signaling, it can specifically pass through wireless heterogeneous networks Information element (Information Element, abbreviation IE) in (Radio Resource Control, abbreviation RRC) message Above-mentioned configuration information is carried, the RRC information can be RRC information of the prior art, such as：RRC connections reconfigure (RRC CONNECTION RECONFIGURATION) message etc., the present embodiment also may be used to this without restriction, or the RRC information Think different from existing RRC information in the prior art.

Again for example：, specifically can also be by increasing new media access control (Media Access for high-level signaling Control, abbreviation MAC) the above-mentioned first access network equipment general of control element (Control Element, abbreviation CE) message carrying The system message to be changed and the entry-into-force time of the system message.

Fig. 4 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；Assuming that master base station and Prothetic group station is asynchronous, i.e. master base station and prothetic group station be not in a retaining zone, then the process of system message processing method Specifically include：

401st, the entry-into-force time of the system message of change and the system message is sent to master base station by prothetic group station.

For example, when system message alteration will occur for prothetic group station, can be by the system message of change and the system message Entry-into-force time issues master base station by X2 interface.Wherein, X2 interface can realize the interconnection between master base station and prothetic group station.

The above-mentioned system message that will change only may include important system message, for example, UE be linked into prothetic group station must The system message needed, include but is not limited to：The downlink bandwidth of cell；Physical mixed HARQ (English：Hybrid Automatic Repeat Request, abbreviation HARQ) instruction channel configuration；The configuration parameter of RACH；Under physics Row shared channel configuration parameter；Physical Uplink Shared Channel configuration parameter；Detection reference signal (English：Sounding Reference Signal) configuration parameter；Uplink power control parameter, upstream frequency and band width configuration, multimedia broadcasting list Frequency net (English：Multicast Broadcast S ingle Frequency Network, abbreviation MBSFN) sub-frame configuration ginseng At least one of in number.

The entry-into-force time of said system message is absolute time, for example, absolute time can be defined as：Relative to 1900 The time on January 1, calculated by the second for unit.

402nd, master base station calculates the system-frame that the system message comes into force according to the entry-into-force time of the system message received Number.

Because master base station is nonsynchronous with prothetic group station in the present embodiment, therefore, master base station needs to be sent according to prothetic group station Change system message entry-into-force time, calculate the System Frame Number or son in master base station that the system message of the change comes into force Frame number.

In another embodiment, master base station can also calculate this according to the entry-into-force time of the system message received Subframe numbers of the entry-into-force time of the system message of change in master base station.

Above-mentioned calculation can directly inquire about System Frame Number corresponding with the absolute time according to absolute time (System Frame Number, SFN) or subframe numbers, wherein, System Frame Number or System Frame Number or son that subframe numbers are master base station Frame number.

403rd, the system message that prothetic group station will change and the System Frame Number that the system message comes into force are sent to by master base station UE。

Implementing to be：Master base station can will be changed at prothetic group station by high-level signaling (such as RRC dedicated signalings) The System Frame Number or subframe numbers that the system message of change and the system message come into force are sent to UE.

404th, the System Frame Number that UE comes into force according to the system message that will change and the system message that receive, specifying System Frame Number come into force the system message.

For example, system message and system message that the prothetic group station that UE can also receive master base station transmission will change come into force Subframe numbers, come into force the system message in specified subframe numbers.

The embodiment of the present invention is in the case of master base station and prothetic group station are nonsynchronous, change that master base station is sent according to prothetic group station System message entry-into-force time, determine System Frame Number or subframe of the entry-into-force time in master base station of the system message of the change Number, and by the System Frame Number or subframe numbers of the entry-into-force time of the system message of the change of determination, and changing of sending of prothetic group station The system message of change is sent to user equipment, so that come into force in the entry-into-force time system of the change of the user equipment disappears Breath；It can solve the problem that existing 3GPP Release-10 versions do not support cell aggregation between base station, when prothetic group station system message is sent out After changing, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to cause UE to access network or not Energy normal work, influences data transfer, increases the risk of loss of data.

Fig. 5 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；Assuming that master base station and Prothetic group station is synchronous, i.e. master base station and the System Frame Number at prothetic group station is identical, the system message processing method of the present embodiment Process specifically include：

501st, the system message and the entry-into-force time of the system message that prothetic group station will change are sent to master base station.

For example, when system message alteration will occur for prothetic group station, the system message and the system message that will can change The System Frame Number to come into force issues master base station by X2 interface.

Due to master base station with state prothetic group station be it is synchronous, then the entry-into-force time of system message can supplemented by base station system-frame Number and/or prothetic group station subframe numbers.

The above-mentioned system message that will change only may include important system message, for example, UE be linked into prothetic group station must The system message needed, include but is not limited to：The downlink bandwidth of cell；Physical HARQ Indicator Channel configures；RACH Configuration parameter；Physical Downlink Shared Channel configuration parameter；Physical Uplink Shared Channel configuration parameter；The configuration of detection reference signal Parameter；At least one of uplink power control parameter, upstream frequency and band width configuration, in MBSFN sub-frame configuration parameter.

502nd, the system message that prothetic group station will change and the System Frame Number that the system message comes into force are sent to by master base station UE。

Implementing to be：Master base station can will be changed at prothetic group station by high-level signaling (such as RRC dedicated signalings) The System Frame Number that the system message of change and the system message come into force is sent to UE.

For example, system message and the system message that master base station can also will be changed at prothetic group station by high-level signaling are given birth to The subframe numbers of effect are sent to UE.

503rd, the System Frame Number that UE comes into force according to the system message that will change and the system message that receive, specifying System Frame Number come into force the system message.

In the case of master base station and auxiliary base station synchronization, change that master base station sends prothetic group station is the embodiment of the present invention The entry-into-force time for message of uniting and the system message of change are sent to user equipment, so that the user equipment is in described come into force Between come into force the system message of the change；Can solve the problem that existing 3GPP Release-10 versions do not support base station between cell gather Close, after when prothetic group station, system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to lead Cause UE to access network or cisco unity malfunction, influence data transfer, increase the risk of loss of data.

Fig. 6 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；Assuming that prothetic group station system When system message will change, the absolute time that transmission system message alteration instruction comes into force with system message is to master base station, master base station It is asynchronous with prothetic group station, the process of the system message processing method specifically includes：

601st, prothetic group station indicates system message alteration and the entry-into-force time of system message is sent to master base station.

For example, when system message alteration will occur for prothetic group station, system message alteration can be indicated and system message Entry-into-force time issues master base station by X2 interface.

The system message that above-mentioned prothetic group station will change only may include important system message, such as UE is linked into prothetic group System message necessary to standing, include but is not limited to：The downlink bandwidth of cell；Physical HARQ Indicator Channel configures；Stochastic accessing The configuration parameter of channel；Physical Downlink Shared Channel configuration parameter；Physical Uplink Shared Channel configuration parameter；Detection reference signal Configuration parameter；At least one of uplink power control parameter, upstream frequency and band width configuration, in MBSFN sub-frame configuration parameter.

The entry-into-force time of said system message may be absolute time, for example, absolute time can be defined as：Relative to The time on January 1st, 1900, calculated by the second for unit.

The instruction of said system message alteration can be carried in paging (paging) message that prothetic group station is sent, and pass through X2 mouths Beep-page message is issued into master base station.

602nd, master base station calculates the system-frame that the system message comes into force according to the entry-into-force time of the system message received Number.

Above-mentioned calculation can directly inquire about System Frame Number (English corresponding with the absolute time according to absolute time： System Frame Number, abbreviation SFN) or subframe numbers, wherein, because master base station and prothetic group station are nonsynchronous, system-frames Number or subframe numbers be master base station System Frame Number or subframe numbers.

603rd, the System Frame Number that system message alteration indicates and system message comes into force is sent to UE by master base station.

For example, the subframe numbers that system message alteration indicates and the system message comes into force can also be sent to UE by master base station.

Implementing to be：Master base station can be by high-level signaling (such as RRC dedicated signalings) by system message alteration The System Frame Number or subframe numbers that instruction and system message come into force are sent to UE.

604th, the System Frame Number that UE comes into force according to the system message modification instruction received and system message, it is in specified Reception system message under system frame number and corresponding prothetic group station, and the system message that comes into force.

For example, the subframe that UE can also receive the system message modification instruction of master base station transmission and system message comes into force Number, the reception system message under specified subframe numbers and corresponding prothetic group station, and the system message that comes into force.

The embodiment of the present invention is in the case of master base station and prothetic group station are nonsynchronous, change that master base station is sent according to prothetic group station System message entry-into-force time, determine System Frame Number or subframe of the entry-into-force time in master base station of the system message of the change Number, and by the System Frame Number or subframe numbers of the entry-into-force time of the system message of the change of determination, and prothetic group station send be System message alteration instruction is sent to user equipment, so as to the user equipment according to the System Frame Number or subframe numbers received right Reception system message under the prothetic group station answered, and the system message that comes into force；It can solve the problem that existing 3GPP Release-10 versions Cell aggregation between base station is not supported, and after when prothetic group station, system message changes, user equipment (UE) can not obtain the change of prothetic group station System message afterwards, so as to cause UE to access network or cisco unity malfunction, data transfer is influenceed, increases loss of data Risk.

Further, in the present embodiment, the change that master base station is sent to the simply prothetic group station system message of user equipment refers to Show, rather than the system message that prothetic group station changes, therefore, it can further reduce interface-free resources occupancy.

Fig. 7 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；Assuming that X2 interface and Time delay of eating dishes without rice or wine is smaller, and the system message for the change that prothetic group station is sent can be immediately sent to UE by master base station, and UE, which is received, to be changed Come into force the system message after the system message of change, then the process of system message processing method specifically includes：

701st, the system message of change is sent to master base station by prothetic group station.

When system message alteration occurs for prothetic group station, the system message of change can be issued master base station by X2 interface.Its In, existing flow can be used in X2 interface, such as base station configuration updating (English：ENB Configuration Update) flow, Or new flow can be used in X2 interface, as system changes notice (English：System change notification) flow Deng.

In order to further reduce loss of data, prothetic group station can deactivate prothetic group station before system message alteration.

702nd, the system message for the change that master base station sends prothetic group station is sent to UE.

After master base station receives the system message of the change of prothetic group station transmission, the system message of change is handed down to immediately UE.It can specifically be sent by RRC dedicated signalings, such as be included in RRC Connection Reconfiguration message In.

703rd, after UE receives the system message of change, the system message for the change that comes into force.

704th, UE sends success response message to master base station.

After UE comes into force the system message of change successfully, success response message can be sent to master base station, can specifically be led to RRC dedicated signalings are crossed to send, as being included in RRC Connection Reconfiguration Complete message.

705th, master base station sends the successfully modified message of system message and gives prothetic group station.

After the success response message that the system message that master base station receives UE transmissions comes into force, system message modification can be sent After success message gives prothetic group station, prothetic group station to receive the successfully modified message of system message, it can reactivate.

Because the X2 interface of the present embodiment and time delay of eating dishes without rice or wine are smaller, therefore, the deactivation at prothetic group station and it is reactivated Between time delay it is almost small to can be ignored.

X2 interface of the embodiment of the present invention between master base station and prothetic group station and time delay of eating dishes without rice or wine are almost small to can ignore not When in the case of meter, the system message for the change that prothetic group station is sent can be immediately sent to UE by master base station, and UE receives change System message after come into force the system message；It can solve the problem that existing 3GPP Release-10 versions are not supported between base station Cell aggregation, after when prothetic group station, system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, So as to cause UE to access network or cisco unity malfunction, data transfer is influenceed, increases the risk of loss of data.

And in the present embodiment, prothetic group station can be deactivated before system message alteration, be receiving by prothetic group station Unite after message modification success message, prothetic group station can be reactivated, further reduce loss of data.

Fig. 8 is the signalling diagram for the system message processing method that another embodiment of the present invention provides；It is as shown in figure 8, false If master base station and prothetic group station pass through beep-page message (English respectively：Paging system message) is sent to UE, because UE is in two bases Stand down simultaneously reception system message, it is necessary to monitor paging.

It should be noted that in practical application, when system message alteration, master base station or prothetic group standing-meeting send beep-page message Notifying user equipment receives the entry-into-force time of the system message changed and system message, wherein, comprising a kind of special in system message Different system message, for example, seismic sea wave warning system (English：Earthquake and Tsunami Warning System, Abbreviation ETWS) message and business mobile alerting service (English：Commercial Mobile Alert Service, referred to as CMAS) message, because the timeliness of this kind of special system message is urgent, if being wrapped in the beep-page message that master base station or prothetic group station are sent During containing this kind of special system message, the entry-into-force time of special system message can not be typically carried, that is, gives tacit consent to the special system and disappears The entry-into-force time of breath is to come into force at once.

According to the default paging policy of cell aggregation between base station, for example, default paging policy, which is UE, only passes through master base station The system message of ETWS changes and the entry-into-force time of system message are received, the ETWS that includes that the transmission of prothetic group station is received as UE changes When the system message of change and the entry-into-force time of system message change the paging message of instruction, UE can ignore system message alteration ETWS message is indicated, or does not receive the system message of change and the entry-into-force time of system message system message alteration ETWS disappears Breath.That is, either master base station or prothetic group station will issue the system message of change and the entry-into-force time of system message During ETWS message, UE can only by master base station send paging message, obtain the change of main Kiev base station system message and The entry-into-force time ETWS message of system message.

For example, default paging policy is to arrive first the principle first received, that is to say, that when UE receives the transmission of prothetic group station When including the system message of change and the paging message of the entry-into-force time of system message, first determine whether in master base station Under receive the system message of change and the entry-into-force time of system message, if not having, under the prothetic group station receive change is The entry-into-force time of message of uniting and system message.

In Fig. 4-embodiment illustrated in fig. 8, beep-page message that UE is sent respectively by prothetic group station and master base station, according to default Paging policy, system message that prothetic group station will change and described is obtained in the beep-page message that master base station or prothetic group station are sent The entry-into-force time of system message；It can solve the problem that existing 3GPP Release-10 versions do not support cell aggregation between base station, when After prothetic group station system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to cause UE Network or cisco unity malfunction can not be accessed, influences data transfer, increases the risk of loss of data.

It should be noted that above-mentioned UE obtains system message that prothetic group station will change and described by monitoring beep-page message During the entry-into-force time of system message, interface-free resources may be wasted, therefore, under normal conditions, not in this way, in spy In the case of different, for example, seismic sea wave warning system (English：Earthquake and Tsunami Warning System, letter Claim ETWS) message and business mobile alerting service (English：Commercial Mobile Alert Service, abbreviation CMAS) Message, because the timeliness of this kind of special system message is urgent, master base station or prothetic group station are needed using paging special system message Special system message is sent to user equipment by this mode.

It should be noted that in above-mentioned Fig. 4-embodiment illustrated in fig. 8, in practical application, prothetic group station includes multiple small Area, when wherein one or more cells in prothetic group station will change system message, prothetic group station can be sent to master base station The system message that will change in carry cell ID, when receiving coming into force for the system message that will change and system message During the time, user equipment can be disappeared by cell corresponding to cell ID in the entry-into-force time using the system of the change Breath.

Fig. 9 is the structural representation for the base station that another embodiment of the present invention provides, the base station can perform above method reality That applies prothetic group station in example performs action, as shown in figure 9, the base station of the present embodiment can include：

Determining module 91, for determining the system message of the change base station；

Sending module 92, the system message of change instruction from the system message to another base station and change for sending Entry-into-force time indicates, indicates the entry-into-force time of the system message of determination change according to the entry-into-force time to another base station And change instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force in the entry-into-force time The system message of the change；With

The module that comes into force 93, for applying the system message of the change in the entry-into-force time.

Optionally, another base station is master base station.

Wherein, sending module 92 is specifically used for：

Wherein, when another base station and the base station asynchronous, the entry-into-force time is for another base station The subframe numbers of system frame number and/or the master base station；

Wherein, the system message of the change includes following at least one：

The system that the base station of the embodiment of the present invention sends the change instruction of the system message and changed to another base station disappears The entry-into-force time instruction of breath, the system message for determining to change according to entry-into-force time instruction to another base station come into force Time simultaneously changes instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment is in the entry-into-force time Come into force the system message of the change；Can solve the problem that existing 3GPP Release-10 versions do not support base station between cell gather Close, after when prothetic group station, system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to lead Cause UE to access network or cisco unity malfunction, influence data transfer, increase the risk of loss of data.

Figure 10 is the structural representation for the base station that another embodiment of the present invention provides, and the base station can perform above method reality That applies master base station in example performs action, as shown in Figure 10, including：

Receiving module 11, the system message of change instruction and the change of the system message sent for receiving another base station Entry-into-force time indicates；

Determining module 12, the entry-into-force time of the system message for indicating determination change according to the entry-into-force time；With

Sending module 13, disappear for sending the system of change instruction and the change of the system message to user equipment The entry-into-force time of breath, so that the user equipment and another base station are respectively using the change in the entry-into-force time System message.

Optionally, base station supplemented by another base station.

Wherein it is determined that module 12 is specifically used for：

When the base station and another base station asynchronous, the system message for the change that the receiving module receives Entry-into-force time be designated as the absolute time of entry-into-force time, the determining module is specifically used for determining to change according to the absolute time The entry-into-force time of the system message of change；Or

When the base station and another base station synchronization, the system message for the change that the receiving module receives Entry-into-force time is designated as the entry-into-force time, and the determining module is specifically used for the system message that the entry-into-force time is defined as to change Entry-into-force time.

When the base station and another base station synchronization, the entry-into-force time is the System Frame Number of another base station And/or the subframe numbers at the prothetic group station.

Wherein, the system message of the change includes following at least one：

The change instruction and change that the system message that another base station is sent is received by base station of the embodiment of the present invention System message entry-into-force time instruction, according to the entry-into-force time indicate determine change system message entry-into-force time, and Change instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force institute in the entry-into-force time State the system message of change；It can solve the problem that existing 3GPP Release-10 versions do not support cell aggregation between base station, when auxiliary After base station system message changes, user equipment (UE) can not obtain the system message after the change of prothetic group station, so as to cause UE not Network or cisco unity malfunction can be accessed, influences data transfer, increases the risk of loss of data.

Figure 11 is the structural representation for the user equipment that another embodiment of the present invention provides, as shown in figure 11, the present embodiment User equipment can include：

Receiving module 21, for the change instruction and the life of the system message changed of the system message for receiving master base station transmission Imitate the time；With

The module that comes into force 22, for applying the system message of the change in the entry-into-force time；

It should be noted that when the master base station and the auxiliary base station asynchronous, the entry-into-force time is the main base The System Frame Number and/or the subframe numbers of the master base station stood；Or

The system message of the change includes following at least one：

Figure 12 is the structural representation for the system message processing system that another embodiment of the present invention provides, as shown in figure 12, System message processing system specifically includes：Prothetic group station 121, master base station 122 and user equipment 123；

Wherein, prothetic group station 121 is the base station provided in embodiment corresponding to above-mentioned Fig. 9；

Master base station 122 is the base station provided in embodiment corresponding to above-mentioned Figure 10；

User equipment 123 is the user equipment provided in embodiment corresponding to above-mentioned Figure 11.

Wherein, the detailed description at prothetic group station may refer to the related content in embodiment corresponding to Fig. 9, master base station it is detailed Description may refer to the related content in embodiment corresponding to Figure 10, and the detailed description of user equipment may refer to corresponding to Figure 11 Related content in embodiment, here is omitted.

Figure 13 is the structural representation for the base station that another embodiment of the present invention provides；The base station can perform above method reality The action at prothetic group station in example is applied, as shown in figure 13, is specifically included：

Processor 31, for determining the system message of the change base station；

Emitter 32, the change for sending the system message to another base station indicates and the life of the system message of change Persond eixis is imitated, indicates the entry-into-force time of system message of determination change according to the entry-into-force time to another base station simultaneously Change instruction and the entry-into-force time to user equipment forwarding is described, so that the user equipment comes into force institute in the entry-into-force time State the system message of change；

Processor 31, it is additionally operable to apply the system message of the change in the entry-into-force time.

Wherein, another base station is master base station.

Wherein, emitter 32 is specifically used for：

It should be noted that when another base station and the base station asynchronous, the entry-into-force time is described another The System Frame Number of base station and/or the subframe numbers of another base station；

Wherein, the system message of the change includes following at least one：

Figure 14 is the structural representation for the base station that another embodiment of the present invention provides；The base station can perform above method reality That applies master base station in example performs action, as shown in figure 14, specifically includes：

Receiver 41, the change instruction and the life of the system message changed of the system message sent for receiving another base station Imitate persond eixis；

Processor 42, the entry-into-force time instruction for the system message according to the change determine the system message changed Entry-into-force time；With

Emitter 43, the system message of change instruction from the system message to user equipment and the change for sending Entry-into-force time, the system for applying the change in the entry-into-force time respectively so as to the user equipment and another base station Message.

Optionally, base station supplemented by another base station.

Wherein, the system message of the change includes following at least one：

Figure 15 is the structural representation for the user equipment that another embodiment of the present invention provides；As shown in figure 15, specifically include：

Receiver 51, the system message for changing instruction and change of the system message for receiving master base station transmission come into force Time；With

Processor 52, the entry-into-force time for the system message in the change apply the system message of the change；

Wherein, the system message of the change includes following at least one：

It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, the corresponding process in preceding method embodiment is may be referred to, will not be repeated here.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be with Realize by another way.For example, device embodiment described above is only schematical, for example, the unit Division, only a kind of division of logic function, can there is other dividing mode, such as multiple units or component when actually realizing Another system can be combined or be desirably integrated into, or some features can be ignored, or do not perform.It is another, it is shown or The mutual coupling discussed or direct-coupling or communication connection can be the indirect couplings by some interfaces, device or unit Close or communicate to connect, can be electrical, mechanical or other forms.

The unit illustrated as separating component can be or may not be physically separate, show as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, can also be realized in the form of hardware adds SFU software functional unit.

The above-mentioned integrated unit realized in the form of SFU software functional unit, can be stored in one and computer-readable deposit In storage media.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are causing a computer Equipment (can be personal computer, server, or network equipment etc.) performs the portion of each embodiment methods described of the present invention Step by step.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic disc or CD etc. are various to store The medium of program code.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although The present invention is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that：It still may be used To be modified to the technical scheme described in foregoing embodiments, or equivalent substitution is carried out to which part technical characteristic； And these modification or replace, do not make appropriate technical solution essence depart from various embodiments of the present invention technical scheme spirit and Scope.

Claims

A kind of 1. system message processing method, it is characterised in that including：

Prothetic group station determines to change the system message at the prothetic group station；

The prothetic group station sends the change instruction of the system message to master base station and the entry-into-force time of the system message changed refers to Show, entry-into-force time for the system message for being indicated according to the entry-into-force time to determine to change to the master base station and to user equipment The change instruction and the entry-into-force time are forwarded, so that what the user equipment came into force the change in the entry-into-force time is System message；With

The system message of the change is applied in the entry-into-force time in the prothetic group station.
2. according to the method for claim 1, it is characterised in that the prothetic group station sends the system message changed to master base station Entry-into-force time instruction, specifically include：

When the master base station and the auxiliary base station asynchronous, the prothetic group station sends the entry-into-force time to the master base station Absolute time, the entry-into-force time is obtained according to the absolute time to the master base station；Or

When the master base station and the auxiliary base station synchronization, the prothetic group station sends the entry-into-force time to the master base station.
3. according to the method for claim 2, it is characterised in that：

When the master base station and during the auxiliary base station asynchronous, the entry-into-force time for the master base station System Frame Number and/or The subframe numbers of the master base station；Or

When the master base station and the auxiliary base station synchronization, System Frame Number and/or institute of the entry-into-force time for the prothetic group station State the subframe numbers at prothetic group station.
4. according to the method for claim 1, it is characterised in that the system message of the change includes following at least one：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
5. according to the method described in any one of claim 1-4 claim, it is characterised in that：

The system message of the change also includes the cell ID at the prothetic group station, passes through the cell for the user equipment Cell corresponding to mark applies the system message of the change in the entry-into-force time.
A kind of 6. system message processing method, it is characterised in that including：

Master base station receives the change instruction for the system message that prothetic group station is sent and the entry-into-force time instruction of the system message changed；

The master base station indicates to determine the entry-into-force time of the system message of change according to the entry-into-force time；With

The master base station sends coming into force for the system message of change instruction and the change of the system message to user equipment Time, so that the system message of the change is applied at the user equipment and the prothetic group station in the entry-into-force time respectively.
7. according to the method for claim 6, it is characterised in that the master base station determines when the coming into force of system message changed Between, specifically include：

When the master base station and the auxiliary base station asynchronous, when being come into force described in the master base station reception prothetic group station transmission Between absolute time, and entry-into-force time is obtained according to the absolute time；Or

When the master base station and the auxiliary base station synchronization, when being come into force described in the master base station reception prothetic group station transmission Between.
8. according to the method for claim 7, it is characterised in that：

When the master base station and during the auxiliary base station asynchronous, the entry-into-force time for the master base station System Frame Number and/or The subframe numbers of the master base station；

When the master base station and the auxiliary base station synchronization, System Frame Number and/or institute of the entry-into-force time for the prothetic group station State the subframe numbers at prothetic group station.
9. according to the method for claim 6, it is characterised in that the system message of the change includes following at least one：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
10. according to the method described in any one of claim 6-9 claim, it is characterised in that the system message of the change Also include the cell ID at the prothetic group station, for the user equipment by cell corresponding to the cell ID in the life Imitate system message of the time using the change.
A kind of 11. system message processing method, it is characterised in that including：

User equipment receives change instruction and the entry-into-force time of the system message changed for the system message that master base station is sent；With

The user equipment applies the system message of the change in the entry-into-force time；

Wherein, the change of the system message indicates and is determined and be sent to by prothetic group station corresponding to the instruction of the entry-into-force time The master base station, disappear simultaneously using the system of the change in the entry-into-force time to the user equipment and the prothetic group station Breath.
12. according to the method for claim 11, it is characterised in that：

When the master base station and during the auxiliary base station asynchronous, the entry-into-force time for the master base station System Frame Number and/or The subframe numbers of the master base station；Or

When the master base station and the auxiliary base station synchronization, System Frame Number and/or institute of the entry-into-force time for the prothetic group station State the subframe numbers at prothetic group station.
13. according to the method for claim 11, it is characterised in that the system message of the change includes following at least one Kind：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
14. according to the method described in any one of claim 11-13 claim, it is characterised in that：

The system message of the change also includes the cell ID at the prothetic group station, passes through the cell for the user equipment Cell corresponding to mark applies the system message of the change in the entry-into-force time.
A kind of 15. base station, it is characterised in that including：

Determining module, for determining the system message of the change base station；

Sending module, the change for sending the system message to master base station indicates and the entry-into-force time of the system message of change Instruction, indicate to determine the entry-into-force time of the system message of change according to the entry-into-force time to the master base station and set to user It is standby forward it is described change instruction and the entry-into-force time, so that the user equipment comes into force the change in the entry-into-force time System message；With

Come into force module, for applying the system message of the change in the entry-into-force time.
16. base station according to claim 15, it is characterised in that the sending module is specifically used for：

When the master base station and base station asynchronous, the change instruction of the system message and the life are sent to the master base station The absolute time of time is imitated, the entry-into-force time is obtained according to the absolute time to the master base station；Or

When the master base station and during the base station synchronization, the change instruction of the system message and described is sent to the master base station Entry-into-force time.
17. base station according to claim 16, it is characterised in that：

When the master base station and the base station asynchronous, System Frame Number and/or institute of the entry-into-force time for the master base station State the subframe numbers of master base station；

When the master base station and the base station synchronization, System Frame Number and/or the base of the entry-into-force time for the base station The subframe numbers stood.
18. base station according to claim 15, it is characterised in that the system message of the change includes following at least one Kind：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
19. according to the base station described in any one of claim 15-18 claim, it is characterised in that：The system of the change disappears Breath also includes the cell ID of the base station, for the user equipment by cell corresponding to the cell ID in the life Imitate system message of the time using the change.
A kind of 20. base station, it is characterised in that including：

Receiving module, for receiving the change instruction of system message and the entry-into-force time of the system message changed of the transmission of prothetic group station Instruction；

Determining module, the entry-into-force time of the system message for indicating determination change according to the entry-into-force time；With

Sending module, the life of the system message of change instruction from the system message to user equipment and the change for sending The time is imitated, so that the system message of the change is applied at the user equipment and the prothetic group station in the entry-into-force time respectively.
21. base station according to claim 20, it is characterised in that the determining module is specifically used for：

When the base station and the auxiliary base station asynchronous, the system message for the change that the receiving module receives comes into force Persond eixis is the absolute time of entry-into-force time, and the determining module is specifically for determine to change according to the absolute time The entry-into-force time for message of uniting；Or

When the base station and the auxiliary base station synchronization, when the coming into force of system message for the change that the receiving module receives Between be designated as the entry-into-force time, the system message that the determining module is specifically used for being defined as changing by the entry-into-force time comes into force Time.
22. base station according to claim 21, it is characterised in that：

When the base station and during the auxiliary base station asynchronous, the entry-into-force time is the System Frame Number of the base station and/or described The subframe numbers of base station；

When the base station and during the auxiliary base station synchronization, the entry-into-force time is the System Frame Number at the prothetic group station and/or described The subframe numbers at prothetic group station.
23. base station according to claim 20, it is characterised in that the system message of the change includes following at least one Kind：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
24. according to the base station described in any one of claim 20-23 claim, it is characterised in that：The system of the change disappears Breath also includes the cell ID at the prothetic group station, for the user equipment by cell corresponding to the cell ID described Entry-into-force time applies the system message of the change.
A kind of 25. user equipment, it is characterised in that including：

Receiving module, for receiving the change instruction of system message and when the coming into force of system message of change of master base station transmission Between；With

Come into force module, for applying the system message of the change in the entry-into-force time；

Wherein, the change of the system message indicates and is determined and be sent to by prothetic group station corresponding to the instruction of the entry-into-force time The master base station, disappear simultaneously using the system of the change in the entry-into-force time to the user equipment and the prothetic group station Breath.
26. user equipment according to claim 25, it is characterised in that：

When the master base station and during the auxiliary base station asynchronous, the entry-into-force time for the master base station System Frame Number and/or The subframe numbers of the master base station；Or

When the master base station and the auxiliary base station synchronization, System Frame Number and/or institute of the entry-into-force time for the prothetic group station State the subframe numbers at prothetic group station.
27. user equipment according to claim 25, it is characterised in that the system message of the change include it is following at least It is a kind of：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
28. according to the user equipment described in any one of claim 25-27 claim, it is characterised in that：The change is System message also includes the cell ID at the prothetic group station, is existed for the user equipment by cell corresponding to the cell ID The entry-into-force time applies the system message of the change.
A kind of 29. system message processing system, it is characterised in that including：

Base station as described in claim any one of 15-19；

Base station as described in claim any one of 20-24；

User equipment as described in claim any one of 25-28.
A kind of 30. base station, it is characterised in that including：

Processor, for determining the system message of the change base station；

Emitter, the entry-into-force time for the system message that the change for sending the system message to master base station is indicated and changed refer to Show, entry-into-force time for the system message for being indicated according to the entry-into-force time to determine to change to the master base station and to user equipment The change instruction and the entry-into-force time are forwarded, so that what the user equipment came into force the change in the entry-into-force time is System message；

The processor, it is additionally operable to apply the system message of the change in the entry-into-force time.
31. base station according to claim 30, it is characterised in that the emitter is specifically used for：

When the master base station and the base station asynchronous, change instruction and the institute of the system message are sent to the master base station The absolute time of entry-into-force time is stated, the entry-into-force time is obtained according to the absolute time to the master base station；Or

When the master base station and during the base station synchronization, the change instruction of the system message and described is sent to the master base station Entry-into-force time.
32. base station according to claim 31, it is characterised in that：

When the master base station and the base station asynchronous, System Frame Number and/or institute of the entry-into-force time for the master base station State the subframe numbers of master base station；

When the master base station and the base station synchronization, System Frame Number and/or the base of the entry-into-force time for the base station The subframe numbers stood.
33. base station according to claim 30, it is characterised in that the system message of the change includes following at least one Kind：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
34. according to the base station described in any one of claim 30-33 claim, it is characterised in that：The system of the change disappears Breath also includes the cell ID of the base station, for the user equipment by cell corresponding to the cell ID in the life Imitate system message of the time using the change.
A kind of 35. base station, it is characterised in that including：

Receiver, refer to for the change instruction of system message for receiving the transmission of prothetic group station and the entry-into-force time of the system message changed Show；

Processor, the entry-into-force time instruction for the system message according to the change determine when the coming into force of system message changed Between；With

Emitter, the system message of change instruction from the system message to user equipment and the change for sending come into force Time, so that the system message of the change is applied at the user equipment and the prothetic group station in the entry-into-force time respectively.
36. base station according to claim 35, it is characterised in that：

When the base station and the auxiliary base station asynchronous, when the coming into force of system message for the change that the receiver receives Between be designated as the absolute time of entry-into-force time, the processor is specifically used for being disappeared according to the system that the absolute time determines to change The entry-into-force time of breath；Or

When the base station and the auxiliary base station synchronization, the entry-into-force time of the system message for the change that the receiver receives The entry-into-force time is designated as, the determining module is specifically used for when the coming into force of system message that the entry-into-force time is defined as to change Between.
37. base station according to claim 36, it is characterised in that：

When the base station and during the auxiliary base station asynchronous, the entry-into-force time is the System Frame Number of the base station and/or described The subframe numbers of base station；

When the base station and during the auxiliary base station synchronization, the entry-into-force time is the System Frame Number at the prothetic group station and/or described The subframe numbers at prothetic group station.
38. base station according to claim 35, it is characterised in that the system message of the change includes following at least one Kind：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
39. according to the base station described in any one of claim 35-38 claim, it is characterised in that：The system of the change disappears Breath also includes the cell ID at the prothetic group station, for the user equipment by cell corresponding to the cell ID described Entry-into-force time applies the system message of the change.
A kind of 40. user equipment, it is characterised in that including：

Receiver, for receiving the change instruction of system message and the entry-into-force time of the system message changed of master base station transmission； With

Processor, the entry-into-force time for the system message in the change apply the system message of the change；

Wherein, the change of the system message indicates and is determined and be sent to by prothetic group station corresponding to the instruction of the entry-into-force time The master base station, disappear simultaneously using the system of the change in the entry-into-force time to the user equipment and the prothetic group station Breath.
41. user equipment according to claim 40, it is characterised in that：

When the master base station and during the auxiliary base station asynchronous, the entry-into-force time for the master base station System Frame Number and/or The subframe numbers of the master base station；Or

When the master base station and the auxiliary base station synchronization, System Frame Number and/or institute of the entry-into-force time for the prothetic group station State the subframe numbers at prothetic group station.
42. user equipment according to claim 40, it is characterised in that the system message of the change include it is following at least It is a kind of：

The downlink bandwidth of cell, physical mixed HARQ HARQ instructions parameter channel configurations, RACH are matched somebody with somebody Put parameter, Physical Downlink Shared Channel configuration parameter, Physical Uplink Shared Channel configuration parameter, detection sounding reference signals Configuration parameter, uplink power control parameter, upstream frequency and band width configuration parameter and multimedia broadcasting SFN MBSFN Frame configuration parameter.
43. according to the user equipment described in any one of claim 40-42 claim, it is characterised in that：The change is System message also includes the cell ID at the prothetic group station, is existed for the user equipment by cell corresponding to the cell ID The entry-into-force time applies the system message of the change.