CN1214671C - Method for realizing synchronization between base stations in mobile communication system - Google Patents
Method for realizing synchronization between base stations in mobile communication system Download PDFInfo
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Abstract
The present invention provides a method for realizing synchronization between base stations in a mobile communication system. In the method, a base station with a clock reference source and a base station group corresponding to the base station are determined in the system, and stable interface transmission resources exist between base stations in the base station group and the base station with the clock reference source; therefore, each base station in the base station group can obtain corresponding synchronous information from the base station with the clock reference source by the corresponding interface transmission resource; and simultaneously, base stations not in the base station group can be synchronized with the synchronized base station having the information transmission resources between the base stations. The method simplifies the process of synchronization between the base stations, and simultaneously, directly realizes the transmission synchronization between the base stations through the transmission resources between the base stations. Wireless resources are saved, the capacity of the system is increased, and simultaneously, the burden of RNC is lightened. Therefore, RNC can process other business at a faster speed to improve the communication quality of the mobile communication system.
Description
Technical field
The present invention relates to the mobile communication technology field, relate in particular to and realize synchronous method in a kind of mobile communication system between the base station.
Background technology
In mobile communication system, especially in CDMA (code division multiple access, Code Division MultipleAccess) mobile communication system, realize that between the base station good can reducing synchronously disturb, improve the transmitting-receiving performance of system, increase power system capacity.
In CDMA mobile communication system, particularly in the 3-G (Generation Three mobile communication system), its working method is divided into TDD (time division multiplexing, Time Division Duplex) and FDD (frequency division multiplexing, Frequency Division Duplex) dual mode.Under the FDD mode, NodeB (base station) is by keeping synchronously with RNC (radio network controller, Radio Network Controller), thus realize between the base station synchronously.Under the TDD mode, be to keep synchronized with each other between the NodeB by direct synchronizing process, and comparatively commonly used is by air interface realize between NodeB synchronously, all monitor the SYNC of NodeB (synchronously) signal on every side as each NodeB, adjust the clock of oneself then according to these synchronizing signals.
At present, realize that by air interface the synchronous method between NodeB is that RNS (RNS, Radio Network Subsystem) is divided into a plurality of cell base station groups, each cell base station group adopts single descending synchronous code.Realize specifically comprising synchronously of cell base station by air interface:
Starting stage: make when initial in system realize between cell base station synchronized with each other:
1) obtain reference time in RNC zone: each RNC zone has a cell base station to have the external sync time reference, as GPS (global positioning system) time, and to be responsible for converting to gps time with SFN (System Frame Number) by this cell base station be the local zone time of mould;
At first, RNC asks for the reference time to the cell base station with external sync time reference; And obtain the reference time that beam back the reference cell base station;
Then, RNC wherein deducts the transmission delay between RNC and this cell base station according to the local clock RFN (RNC FrameNumber, RNC frame number) of this time adjustment oneself;
At last, RNC adjusts local clock BFN (the base station frame number of other cell base station in the one's respective area by the unified time value, Base-station Frame Number), wherein send to the average transfer delay of having deducted in the time adjusted value of each cell base station between RNC and this cell base station.
2) other cell base station enters the frequency acquisition stage (Frequency Acquisition Phase), in this stage, cell base station with external clock reference need send down-going synchronous (SYNC-DL) sequence continuously in each radio frames, other cell base station is then monitored this burst, when cell base station the frequency lock of oneself with the 50ppb scope of reference frequency in the time, finish the frequency acquisition stage and also notify RNC.
3) starting stage (Initial Phase): the synchronizing process of when network begins, carrying out the cell base station in the RNS zone;
Make each cell base station send separately SYNC-DL in continuous wireless frame period, the cell base station that receives other cell base station SYNC-DL signal is to time of their received signals of RNC report and S/ (N+I) (S, the signal power that receives; N, noise power; I, interference power; S/ (N+I), signal to noise ratio) value; RNC measures the relative time error that matrix calculates these cell base stations by one, and determines the time adjustment calibration of each cell base station; In order to guarantee synchronous accuracy, can repeatedly repeat said process.
Stabilization sub stage: when system stability, carry out the cell base station adjustment of lock in time, keep the synchronization accuracy of sub-district in real time;
RNC is the SYNC-DL information of the adjacent cell base station that reports of each cell base station relatively regularly, and carry out the adjustment of corresponding synchronous time according to this information; Usually requiring all should have direct or indirect bidirectional measurement passage (passing through RNC) between each cell base station and the cell base station with GPS reference clock, so that each cell base station acquisition lastest imformation lock in time.
When mobile communication system increases the coffee cell base station newly, SYNC-DL sign indicating number and carrier frequency that RNC monitors according to its needs of position informing of new cell base station; New cell base station reports to RNC with the frequency of locking; RNC calculates the time offset that new sub-district should be calibrated according to the position of all cell base stations with the snoop results that new cell base station reports then.Then, RNC issues corresponding synchronous transmission plan to new cell base station.
In the prior art, RNC is controlling whole synchronized algorithm, comprises initial and the plan of connecting, and collects metrical information, and computing time, accurate value was supported NBAP (NodeB ApplicationPart, base station application part) signaling.And be responsible for estimating the synchronous precision in minizone, with these information notice UE (subscriber equipment, User Equipemt) when switching.RNC is independently to the calculating and the planning of amount time calibration, improves clock synchronization accuracy if desired, can adopt the calibration program (promptly recognize frequency surely, when send, when receive) of renewal to realize.
Therefore, the method of the synchronization among base stations that prior art adopted, process complexity not only, increased the burden of mobile communication system, simultaneously because RNC is responsible for the control and management of synchronization among base stations, also increased the burden of RNC greatly, influenced RNC to other professional processing speed, in RNC function increasing today, if some can all concentrate on RNC by the business function that the heterogeneous networks entity is finished, will influence the communication quality of mobile communication system, therefore, function is unreasonable with respect to the method for salary distribution of each entity in the present this mobile communications network.
Summary of the invention
The purpose of this invention is to provide and realize synchronous method in a kind of mobile communication system between the base station, directly realize synchronously to realize utilizing between the base station interface between the base station, the synchronous function of realization of existing RNC is finished by the base station, thereby made in the mobile communications network distribution of each function and entity more reasonable.
The object of the present invention is achieved like this: realize between the base station in the mobile communication system comprising synchronous method:
Exist stable interface signaling to be connected between a, the base station of determining to have timing reference input and the base station group corresponding, each base station in the base station group and base station with timing reference input with it;
Each base station in b, the base station group connects to the base station transmission propagation delay time with timing reference input by the corresponding interface signaling measures request, and replys the acquisition propagation delay time according to the feedback of the base station with timing reference input;
Each base station in c, the base station group connects to the base station with timing reference input by the corresponding interface signaling and sends synchronization request, and according to the reference clock of the base station in response with timing reference input, the transmission of deducting this base station makes prolongs, and obtains lock in time;
Each base station in d, the base station group is according to realizing synchronously the lock in time that obtains.
Described steps d comprises:
D1, described base station are according to the lock in time that obtains and the Time Calculation synchronous error of this base station;
D2, described base station judge that whether synchronous error carry out the threshold value adjusted lock in time greater than the needs of setting, if greater than preset threshold, and execution in step d3 then, otherwise, execution in step b;
D3, the time intercropping of described base station is adjusted accordingly.
Described steps d 3 also comprises:
D31, judge need carry out the clock adjustment the base station whether for synchronously and for the base station outside the base station group provides the base station of synchronous base clock, if, execution in step d32, otherwise, the process end;
D32, for synchronously and for the base station outside the base station group provides the base station of synchronous base clock, remove and carry out the clock adjustment, also need to adjust message to send transmission time with its base station as the synchronous base clock;
Message is then adjusted according to the transmission time that receives in d33, this base station, carries out the renewal of lock in time synchronously by transmission delay test and node;
After d34, this base station synchronization time renewal process finish, notify the base station that reference clock is provided for it.
Realize synchronous method in the described mobile communication system between the base station, between step a and step b, also comprising synchronously of new adding base station:
(1) newly add the base station by with adjacent base station between the identifier and the address information of communicating by letter and obtaining the base station that has timing reference input accordingly, and set up with base station and to communicate by letter with timing reference input;
(2) this base station with timing reference input connects according to self signaling and determines whether to set up the synchronization message transmission for this new adding base station;
(3) set up synchronization message transmission, then execution in step b if having the base station of timing reference input for the new base station that adds;
(4) if having the base station of timing reference input does not have to transmit for the new synchronization message of setting up the base station that adds, then initiate base station is the base station with timing reference input with synchronous base station, execution in step b.
Described step (1) comprising:
(11) newly add the base station and send the request of adjacent base station reference information to adjacent base station;
(12) newly add the response message of base station receiving neighbor bs, response message comprises: the identifier and the address information of the base station with timing reference input under the identifier of adjacent base station, the adjacent base station;
(13) newly add identifier and the address information of base station, send the isochronous resources request to base station with timing reference input according to the base station that obtains with timing reference input.
Described base station with timing reference input is the base station of GPS (global positioning system).
By technique scheme as can be seen, realize synchronous method in the mobile communication system provided by the present invention between the base station, simplified the synchronous process of realization between the base station greatly; Simultaneously, directly carry out transmitting synchronous between the base station among the present invention, saved the base station and sent downlink synchronous sequence and each base station measurement downlink synchronous sequence process, saved Radio Resource, increase power system capacity by the transfer resource between the base station; Simultaneously also saved the processing procedure of RNC, alleviated the burden of RNC, thereby made RNC can handle other business at faster speed, improved the communication quality of mobile communication system synchronization among base stations.
Description of drawings
Fig. 1 is concrete implementing procedure figure A of the present invention;
Fig. 2 is concrete implementing procedure figure B of the present invention;
Fig. 3 is a sequential chart of the present invention.
Embodiment
Specific implementation of the present invention is described below in conjunction with Fig. 1, Fig. 3:
Step 1: determine a base station with external clock reference source as the clock reference benchmark, this base station is called the G base station, for example the base station of GPS; It is the local clock BFN (Base Station FrameNumber, base station frame number) of mould that the G base station is converted into the clock in gps clock or other source with SFN (System Frame Number); The BFN of G base station can be adjusted the clock of oneself in other base station as benchmark.
Step 2: determine the base station group corresponding with the G base station;
Before the clock adjustment is carried out in other base station, the propagation delay time that IuNB (inter-base station interface) carries out transfer of data of passing through with the G base station need be known in each base station, this just requires must have steady I uNB protocol interface transfer resource and priority between each base station and G base station, and has the base station group of each base station of steady I uNB interface transfer resource and priority forming between the G base station and be called T group;
Step 3: the signaling that relies on the IuNB interface that has distributed connects, and IuNB latency measurement request " IuNB Transport Time Delay Test Request " signaling is sent to the G base station in the base station among the T group;
After the G base station receives request, on the IuNb interface, beam back " IuNBTransport Time Delay Test Report " and reply by the signaling connection; The request base station can determine according to replying of G base station feedback and the G base station between the propagation delay time of IuNB;
Base station among the step 4:T group sends synchronization request to the G base station, to obtain reference clock;
Base station among the T group sends " IuNB NodeB Syncronization Request " signaling to the G base station, the G base station responds this request by signaling " IuNB NodeB Syncronization Report ", carrying the BFN of G base station on the signaling, base station among the T group is according to the BFN of G base station, deduct the IuNB propagation delay time of itself and G base station, calculate accurate lock in time;
Base station among the step 5:T group judges whether to realize synchronously, if realized that then execution in step 6 synchronously, otherwise, execution in step 8;
Step 6: determine the lock in time that calculates and the base station synchronous error between current lock in time;
Step 7: judge the threshold value whether synchronous error carries out the adjustment of lock in time greater than the needs of setting, if greater than preset threshold, be to exist between the respective measurement values of IuNB propagation delay time current measurement and the G base station and the current reservation of reference clock and base station than mistake, then execution in step 8, otherwise, execution in step 3;
Step 8: will be adjusted into lock in time of this base station the lock in time that calculates, realize with the G base station between synchronous; Circulation execution in step 3 to step 8 just can realize between base station among the T group and G base station synchronously and synchronous keeping.
By said process realized in the mobile communication system between each base station synchronously, but consider that mobile communication system not is unalterable after setting up, often may in system, increase new base station according to demand such as business expansion, utilize above-mentioned each base station to realize that synchronous mobile communication system realizes that synchronous detailed process is as follows for initiate base station, referring to Fig. 2, Fig. 3:
Step 9: there have new base station to add in mobile communication system to be fashionable, the new base station that adds need be to the request " IuNB NodeB StatusRequest " of the base station transmission that is adjacent about the correlation circumstance of adjacent base station, to obtain the correlation circumstance of adjacent base station, be convenient to understand oneself whether one be among the T group;
Step 10: after adjacent base station is received " IuNb NodeB Status Rerquest " signaling of new base station, the identifier and the address of the G base station in oneself the NodeB identifier, address, affiliated T group fed back to this initiate base station by " IuNB NodeB Status Report " signaling;
Step 11: new base station remains the information of receiving, by feedack determine new base station can with the address of G base station among the T group that its foundation is communicated by letter, new base station is sent IuNB isochronous resources request " IuNB NodeB SyncronizationResource Request " according to affiliated T group's address, G base station to the G base station;
Step 12:G base station judges whether and can set up steady I uNB transfer resource with new adding base station according to the IuNB interface transfer resource situation of self, if can, execution in step 13, otherwise, execution in step 14;
Step 13:G base station, newly adds the base station and realizes transmitting synchronous by this G base station to resources such as new base station feedback corresponding transport layer address and port numbers by " IuNB NodeB Syncronization Resource Report " signaling;
Step 14:G base station can't provide the information of required transfer resource for new adding base station by " IuNB NodeB Syncronization Resource Report " feedback;
Step 15:, do not belong to this G base station to just T group so newly add the base station because IuNB synchronization message transfer resource is not set up with initiate base station in the G base station; Make initiate base station by realizing that with synchronous base station transmitting synchronous is next with IuNB synchronization message transfer resource; Synchronous and new base station has the base station of IuNB synchronization message transfer resource to be called the H base station;
At first, IuNB propagation delay time with the H base station is determined by propagation delay time request " IuNB NodeB Transport TimeDelay " signaling and propagation delay time response " IuNB NodeB Transport Time Delay Report " signaling in new base station; Then, realize the transmitting synchronous of new base station and H base station by transmitting synchronous request " IuNBNodeB Syncroniztion Request " signaling and transmitting synchronous response " IuNB NodeBSyncronization Report " signaling.
For the synchronous maintenance process of new adding base station as shown in Figure 3, the synchronous maintenance process of this process and preceding step 6 base station to the described T group of step 8 is basic identical.Clock alignment is regularly carried out by the clock reference reference source of G base station in initiate base station; Timing alignment is by each base station timed sending and reception " IuNB Transport Time Delay Test Request, IuNB Transport TimeReport " and the realization of " IuNB NodeB Syncronization Request, IuNB NodeBSyncronization Report " signaling, the base station judges whether oneself clock and reference clock have bigger error, determining whether the to carry out clock adjustment, and adjust accordingly as required.
Then cooperate realization for the synchronous maintenance process of realizing synchronous new adding base station by the H base station by the H base station.Promptly, the clock adjustment need be carried out in H base station in system, then afterwards in its synchronous renewal process (carrying out the clock adjustment), need send synchronous adjustment message " IuNB NodeB Syncronization Adjustment Request " to the base station that with oneself is the reference clock reference source, during synchronous adjustment message that corresponding base station receives that the H base station sends, carry out synchronous refresh clock by transmission delay test and node synchronizing process, wherein the transmission delay test is finished with " IuNB Transport Time DelayTest Request " and " IuNB Transport Time Report " two signalings, and node uses " IuNB NodeB Syncronization Request " and " IuNB NodeBSyncronization Report " to finish synchronously, after this base station transmits is upgraded synchronously and is finished, need send out " IuNB NodeB Syncronization Adjustment Report " message to the H base station, notice H has finished the adjustment of lock in time in the base station.
Claims (6)
1, realize synchronous method in a kind of mobile communication system between the base station, comprising:
Exist stable interface signaling to be connected between a, the base station of determining to have timing reference input and the base station group corresponding, each base station in the base station group and base station with timing reference input with it;
Each base station in b, the base station group connects to the base station transmission propagation delay time with timing reference input by the corresponding interface signaling measures request, and replys the acquisition propagation delay time according to the feedback of the base station with timing reference input;
Each base station in c, the base station group connects to the base station with timing reference input by the corresponding interface signaling and sends synchronization request, and according to the reference clock of the base station in response with timing reference input, the transmission of deducting this base station makes prolongs, and obtains lock in time;
Each base station in d, the base station group is according to realizing synchronously the lock in time that obtains.
2, realize synchronous method in the mobile communication system according to claim 1 between the base station, it is characterized in that described steps d comprises:
D1, described base station are according to the lock in time that obtains and the Time Calculation synchronous error of this base station;
D2, described base station judge that whether synchronous error carry out the threshold value adjusted lock in time greater than the needs of setting, if greater than preset threshold, and execution in step d3 then, otherwise, execution in step b;
D3, the time intercropping of described base station is adjusted accordingly.
3, realize synchronous method in the mobile communication system according to claim 2 between the base station, it is characterized in that described steps d 3 also comprises:
D31, judge need carry out the clock adjustment the base station whether for synchronously and for the base station outside the base station group provides the base station of synchronous base clock, if, execution in step d32, otherwise, the process end;
D32, for synchronously and for the base station outside the base station group provides the base station of synchronous base clock, remove and carry out the clock adjustment, also need to adjust message to send transmission time with its base station as the synchronous base clock;
Message is then adjusted according to the transmission time that receives in d33, this base station, carries out the renewal of lock in time synchronously by transmission delay test and node;
After d34, this base station synchronization time renewal process finish, notify the base station that reference clock is provided for it.
4, realize synchronous method in the mobile communication system according to claim 1 between the base station, it is characterized in that: between step a and step b, also comprising synchronously of new adding base station:
(1) newly add the base station by with adjacent base station between the identifier and the address information of communicating by letter and obtaining the base station that has timing reference input accordingly, and set up with base station and to communicate by letter with timing reference input;
(2) this base station with timing reference input connects according to self signaling and determines whether to set up the synchronization message transmission for this new adding base station;
(3) set up synchronization message transmission, then execution in step b if having the base station of timing reference input for the new base station that adds;
(4) if having the base station of timing reference input does not have to transmit for the new synchronization message of setting up the base station that adds, then initiate base station is the base station with timing reference input with synchronous base station, execution in step b.
5, realize synchronous method in the mobile communication system according to claim 4 between the base station, it is characterized in that described step (1) comprising:
(11) newly add the base station and send the request of adjacent base station reference information to adjacent base station;
(12) newly add the response message of base station receiving neighbor bs, response message comprises: the identifier and the address information of the base station with timing reference input under the identifier of adjacent base station, the adjacent base station;
(13) newly add identifier and the address information of base station, send the isochronous resources request to base station with timing reference input according to the base station that obtains with timing reference input.
6, realize synchronous method in the mobile communication system according to claim 1 between the base station, it is characterized in that: described base station with timing reference input is the base station of GPS.
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CN101123468B (en) * | 2006-08-08 | 2011-07-20 | 电信科学技术研究院 | A method and system for synchronizing air interface synchronization between base stations |
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Cited By (1)
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CN101123468B (en) * | 2006-08-08 | 2011-07-20 | 电信科学技术研究院 | A method and system for synchronizing air interface synchronization between base stations |
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