CN101448273A - BSC base station cleft grafting and redundant disaster emergency system and method - Google Patents

Abstract

The invention relates to a BSC base station cleft grafting and redundant disaster emergency system and a method thereof. The BSC base station cleft grafting and redundant disaster emergency system and a method read BTS cleft grafting information documents and BTS unblocking documents by software, the cleft grafting system obtains the information of the original BSC base station and the target BSC base station from the two documents and automatically complete the establishment of BTS data, the activation of BTS adjacent area data, ET and LAPD, the unblocking of BTS and the deletion of BTS data. The BSC base station redundant disaster emergency system and the BSC base station redundant disaster emergency method only back up the information of the BCF configuration, the BTS configuration, the TRX configuration and the LAPD configuration of the BSC base station, and read the base station backup information of an FTP server by the specified BTS redundant disaster document. The establishment of base station data is completed on the redundant disaster BSC according to the corresponding relationship of all parameters in the BTS redundant disaster information document. The invention has the advantages that manual operation in the process of SC base station cleft grafting and redundant disaster emergency is reduced, the operation efficiency is increased, and the reliability is improved.

Description

BSC base station cutover and superfluous disaster emergency system and method

Technical field

The present invention relates to the mobile communication technology field, particularly the BSC base station cutover of wireless network and superfluous disaster emergency system and method.

Background technology

At present, the scale of whole wireless network is increasing, and network operation is gone in a large amount of newly-built base stations, and the quantity of base station controller (BSC) also increases thereupon.When network size constantly enlarged, for network is optimized adjustment, the cutover of base station between different B SC adjusted increased; And in order to guarantee network security, the emergency disaster tolerant mechanism of BSC also becomes the normal important component part of safeguarding of BSC.

Aspect base station cutover, existing method for cutting over often needs manually to import mass data in the process of implementation, complex operation, and execution speed is slow, makes mistakes easily, is not suitable for large-scale base station cutover work.

Aspect emergency disaster tolerant, existing scheme adopts the mode of base station data coupling more, creates various types of base station datas in superfluous calamity BSC in advance, and when carrying out superfluous calamity task, real base station that needs are ensured and the base station data of superfluous calamity BSC mate.Because base station type is many, and the configuration of each base station has nothing in common with each other, and can not guarantee that all base stations can both perfectly be mated.For the base station that can not mate, then need in superfluous calamity BSC, manually to make base station data temporarily, prolonged the time of emergency guarantee greatly.

The actual expression of base station controller (BSC) is exactly to be made up of several Base Station Control Function (BCF), below extension several base transceiver stations (BTS) under the Base Station Control Function (BCF), a base transceiver station (BTS) several transceivers (TRX) are arranged.For simplicity of exposition, the base station parameter noun that hereinafter relates to is all represented with conventional code name:

BSC Base Station Controller base station controller;

BTS Base Transceiver Station base transceiver station;

LAC Location Area Code lane place coding;

BCF Base Control Function Base Station Control Function;

TRX Transceiver transceiver (carries

Frequently);

IDE BTS identification parameters BTS sign class parameter;

CEL cell access parameters sub-district access parameter;

RAD radio link control DL parameters down wireless link

Control Parameter;

CCH Common Channel configuration parameters common channel is joined

Put parameter;

INT interference averaging parameters disturbs mean parameter;

MIS miscellaneous parameters hybrid parameter;

HOP frequency hopping parameters frequency parameter;

BCC BCCH frequency list usageparameters broadcasting control letter

Road list of frequency operation parameter;

GPRS General Packet Radio Service GPRS;

ET Exchange Terminal switching equipment interrupts;

GSM Global System for Mobile communications moves in the whole world

Communication system;

CELL cell sub-district (honeycomb);

CI Cell Identify sub-district indicates number (cell id);

LAPD Link Access Procedureon the D-Channel D channel chain

The road access regulation;

The dynamic ABIS resource pool of DAP DYNAMIC ABIS POOL;

Summary of the invention

The technical problem to be solved in the present invention is, provides a kind of BSC base station cutover system and BSC base station superfluous disaster emergency system, and the superfluous disaster emergency system of BSC base station cutover system and BSC base station all can reduce manual operation, improves operational efficiency and operating reliability; The present invention also provides a kind of BSC base station cutover method and BSC base station superfluous calamity emergency method simultaneously, and it is few that the superfluous calamity emergency method in BSC base station cutover method and BSC base station has a manual operation, the high and high advantage of operating reliability of operational efficiency.

For solving the problems of the technologies described above, the technical solution used in the present invention is: BSC base station cutover system, comprise source BSC and target BS C, and it is characterized in that also comprising: the LAC acquisition module, BTS data creation module, BTS adjacent area data module, module, ET and LAPD active module are checked in the BTS adjacent area, BTS separates the mold closing piece, BTS data removing module, LAC acquisition module obtain the LAC data of each BSC that moves in the existing network, offer BTS data creation module; BTS data creation module is created to the base station parameter among the BSC of source among the target BS C; BTS adjacent area data module is created the adjacent area data of newly-built BTS among the target BS C; Whether with among the BSC of source the adjacent area data that newly-built BTS among the module check target BS C is checked in the BTS adjacent area treat the data consistent of cutover BTS; ET and LAPD active module are activated to operating state with the ET that is not activated among the target BS C, activate the corresponding LAPD data on the ET again; BTS separates the mold closing piece with the BTS automatic blocking of cutover among the BSC of source, searches the BCF that signaling has activated automatically simultaneously in target BS C, with its BTS automatic unlocking; BTS data removing module is all deleted base station data old among the BSC of source, and cleaning LAPD and DAP data, with the ET deexcitation.

BSC base station cutover method is characterized in that may further comprise the steps:

A, in target BS C, create BTS cutover message file, BTS cutover information is kept in the Excel file, as BTS cutover message file; BTS cutover information spinner will comprise: basic station number, cell id, base station name, source BSC, source LAC, index (BCF and BTS sequence number) and the transmit port of base station in the BSC of source, purpose BSC, purpose LAC, index and the transmit port of base station in purpose BSC;

B, obtain the LAC data of each BSC that moves in the existing network, the BSC-LAC corresponding data that obtains is stored in the BTS cutover message file by the LAC acquisition module;

C, in target BS C, make the BTS data for the treatment of cutover by following steps:

1) reads BTS cutover information in the BTS cutover message file;

2) according to BTS cutover information in the BSC of source according to the BCF sequence number among the BSC of source, read the configuration data of single BCF; The configuration data of BCF mainly comprises: the BCF signaling data, and BTS quantity and index that single BCF disposed, the configuration of TRX comprises quantity, position, frequency, information such as transmit port;

3) according to step 2) configuration data of the single BCF that obtains, read IDE, CEL, RAD, CCH, INT, MIS, HOP, BCC, the GPRS parameter of each BTS under this BCF;

4) read the power contorl parameters of each BTS;

5) read the switching control parameter of each BTS;

6) read the neighbor cell data of each BTS;

7) read other parameters of BTS;

8), in target BS C, set up and the corresponding new LAC of source BSC BCF, BTS, TRX according to the BTS cutover information that from BTS cutover message file, reads;

9) with the Data Update that reads in the step 3) to the newly-built LAC of step 8), BCF, BTS, TRX;

10), the power contorl parameters of newly-built BTS is set according to the power contorl parameters of step 4) acquisition;

11), the switching control parameter of newly-built BTS is set according to the switching control parameter of step 5) acquisition;

12), create the neighbor cell data of newly-built BTS according to the neighbor cell data of step 6) acquisition;

13), other parameters of newly-built BTS are set according to other parameters of BTS of step 7) acquisition;

15) according to BTS cutover information in the BTS cutover message file, repeating step 3) to 13), all the BCF data in BSC base station, source are created in target BS C and are finished;

D, finish adjacent area, base station data modification by following steps:

(1) reads that all treat the adjacent area data of the BTS of cutover among the BSC of source, search LAC information wherein, generate a LAC tabulation;

(2) according to the BSC-LAC corresponding relation in the BTS cutover message file, utilize the LAC tabulation, find corresponding BSC tabulation;

(3) in the BSC that step (2) is found, utilize LAC and CI to search and treat the neighbor cell parameter that cutover BTS is relevant, and, generate the neighbor cell parameter that newly-built BTS among the target BS C is upgraded in the BSC instruction according to the new LAC parameter for the treatment of cutover BTS with this;

E), by new, the adjacent area quantity of old BTS of contrast, the LAC and the CI situation of adjacent area, whether the adjacent area data of verifying newly-built BTS correct, prevent adjacent area loss of data or mistake;

F) by ET and LAPD active module the ET that is not activated among the target BS C is activated to operating state, activates the corresponding LAPD data on the ET again;

G) implement base station cutover;

H) separate in the mold closing piece at BTS and create BTS and separate closed file, separate the BTS that needs locking that puts down in writing in the closed file,, in target BS C, search the BCF that signaling has activated automatically simultaneously, its BTS automatic unlocking with the BTS automatic blocking of cutover among the BSC of source according to BTS;

I) after base station cutover is finished, BTS data removing module is all deleted base station data old among the BSC of source according to BTS cutover message file, and cleaning LAPD and DAP data, with the ET deexcitation.

The superfluous disaster emergency system in BSC base station, it is characterized in that: comprise base station data backup module and base station superfluous calamity data creation module, the base station data backup module obtains BCF configuration, BTS configuration, TRX configuration, the LAPD configuration information of each BSC, configuration information to each BSC generates a text separately, is kept on the ftp server; Base station superfluous calamity data creation module is created to the base station data that backs up in the ftp server among the superfluous calamity BSC.

The superfluous calamity emergency method in BSC base station, its spy is to wrap following steps:

A, the BCF configuration information with each BSC in the existing network, BTS configuration information, TRX configuration information and the backup of LAPD configuration information are on ftp server, and the configuration information of each BSC is kept at separately in the text;

B, in superfluous calamity BSC, create base station data according to the following step:

I) read BSC sequence number in the superfluous calamity message file of BTS, BCF, CI, ET parameter;

II), download the backup file of base station data from ftp server according to the sequence number of BSC;

III) according to the BCF parameter, in the backup file of base station data, obtain corresponding BCF configuration data, comprise BTS, the TRX configuration that BCF comprises;

IV), in superfluous calamity BSC, create the base station data of identical configuration according to the corresponding relation of the parameters that generates by the superfluous calamity message file of BTS.

BSC base station cutover system and method for the present invention by software read BTS cutover message file, BTS separates closed file, the cutover system obtains the information of BSC base station, source and target BS C base station from these two files, automatically finishing BTS data creation, BTS adjacent area data, ET and LAPD activation, BTS separates to close with the BTS data and deletes, simplified the BSC base station cutover, improved the slow shortcoming of manual execution speed, accuracy and reliability in the cutover implementation have been improved, for Cybersecurity Operation provides strong support and guarantee.

The superfluous calamity emergency method in superfluous disaster emergency system in BSC of the present invention base station and BSC base station only backs up BCF configuration, BTS configuration, TRX configuration and the LAPD configuration information of BSC base station, read base station backup information on the ftp server by the superfluous calamity message file of the BTS of appointment, according to the corresponding relation of parameters in the superfluous calamity message file of BTS, on superfluous calamity BSC, finish base station data and create.

Beneficial effect of the present invention is: the cutover system and method for BSC base station can reduce the manual operation in the cut-over process of BSC base station, improves the reliability of operational efficiency and operation.Superfluous disaster emergency system in BSC base station and method can reduce the manual operation in the superfluous calamity processing procedure in BSC base station, improve the reliability of operational efficiency and operation.

Description of drawings

Fig. 1 is a BSC base station cutover system configuration schematic diagram

Fig. 2 is a BTS data creation schematic flow sheet

Fig. 3 is a base station superfluous calamity data creation schematic flow sheet

Embodiment

Embodiment 1:

As shown in Figure 1, BSC base station cutover system comprises source BSC1 and target BS C2, it is characterized in that also comprising: LAC acquisition module 3, BTS data creation module 4, BTS adjacent area data module 5, module 6, ET and LAPD active module 7 are checked in the BTS adjacent area, BTS separates mold closing piece 8, BTS data removing module 9, LAC acquisition module 3 obtain the LAC data of each BSC that moves in the existing network, offer BTS data creation module 4; BTS data creation module 4 is created to the base station parameter among the BSC1 of source among the target BS C2; BTS adjacent area data module 5 is created the adjacent area data of newly-built BTS among the target BS C; The BTS adjacent area checks that whether with among the BSC1 of source adjacent area data that module 6 checks newly-built BTS among the target BS C2 treat the data consistent of cutover BTS; ET and LAPD active module 7 are activated to the WO-EXx state with the ET that is not activated among the target BS C2 from SE-NH, activate the corresponding LAPD data on the ET again; BTS separates mold closing piece 8 with the BTS automatic blocking of cutover among the BSC1 of source, searches the BCF that signaling has activated automatically simultaneously in target BS C2, with its BTS automatic unlocking; BTS data removing module 9 is all deleted base station data old among the BSC1 of source, and cleaning LAPD and DAP data, and the ET state is killed.

Embodiment 2:

As shown in Figure 1 and Figure 2, BSC base station cutover method may further comprise the steps:

A, in target BS C2, create BTS cutover message file, BTS cutover information is kept in the Excel file, as BTS cutover message file; BTS cutover information spinner will comprise: basic station number, cell id, base station name, source BSC, source LAC, index (BCF and BTS sequence number) and the transmit port of base station in the BSC of source, purpose BSC, purpose LAC, index and the transmit port of base station in purpose BSC;

B, obtain the LAC data of each BSC that moves in the existing network, the BSC-LAC corresponding data that obtains is stored in the BTS cutover message file by LAC acquisition module 3;

C, in target BS C, make the BTS data for the treatment of cutover by following steps:

1) reads BTS cutover information 11 in the BTS cutover message file;

2) according to BTS cutover information in the BSC of source according to the BCF sequence number among the BSC of source, read the configuration data 12 of single BCF; The configuration data of BCF mainly comprises: the BCF signaling data, and BTS quantity and index that single BCF disposed, the configuration of TRX comprises quantity, position, frequency, information such as transmit port;

3) according to step 2) configuration data of the single BCF that obtains, read IDE, CEL, RAD, CCH, INT, MIS, HOP, BCC, the GPRS parameter 13 of each BTS under this BCF;

4) read the power contorl parameters 14 of each BTS;

5) read the switching control parameter 15 of each BTS;

6) read the neighbor cell data 16 of each BTS;

7) read other parameters 17 of BTS;

8), in target BS C, set up and the corresponding new LAC of source BSC BCF, BTS, TRX18 according to the BTS cutover information that from BTS cutover message file, reads;

9) with the Data Update that reads in the step 3) to the newly-built LAC of step 8), BCF, BTS, TRX19;

10), the power contorl parameters 20 of newly-built BTS is set according to the power contorl parameters of step 4) acquisition;

11), the switching control parameter 21 of newly-built BTS is set according to the switching control parameter of step 5) acquisition;

12), create the neighbor cell data 22 of newly-built BTS according to the neighbor cell data of step 6) acquisition;

13), other parameters 23 of newly-built BTS are set according to other parameters of BTS of step 7) acquisition;

15) according to BTS cutover information in the BTS cutover message file, repeating step 3) to 13), all the BCF data in BSC base station, source are created in target BS C and are finished;

D, finish adjacent area, base station data modification by following steps:

(1) reads that all treat the adjacent area data of the BTS of cutover among the BSC of source, search LAC information wherein, generate a LAC tabulation;

(2) according to the BSC-LAC corresponding relation in the BTS cutover message file, utilize the LAC tabulation, find corresponding BSC tabulation;

(3) in the BSC that step (2) is found, utilize LAC and CI to search and treat the neighbor cell parameter that cutover BTS is relevant, and, generate the neighbor cell parameter that newly-built BTS among the target BS C is upgraded in the BSC instruction according to the new LAC parameter for the treatment of cutover BTS with this;

E), by new, the adjacent area quantity of old BTS of contrast, the LAC and the CI situation of adjacent area, whether the adjacent area data of verifying newly-built BTS correct, prevent adjacent area loss of data or mistake;

F) by ET and LAPD active module the ET that is not activated among the target BS C is activated to the WO-EXx state from SE-NH, activates the corresponding LAPD data on the ET again;

G) implement base station cutover;

H) separate in the mold closing piece at BTS and create BTS and separate closed file, separate the BTS that needs locking that puts down in writing in the closed file,, in target BS C, search the BCF that signaling has activated automatically simultaneously, its BTS automatic unlocking with the BTS automatic blocking of cutover among the BSC of source according to BTS;

I) after base station cutover is finished, BTS data removing module is all deleted base station data old among the BSC of source according to BTS cutover message file, and cleaning LAPD and DAP data, and the ET state is killed.

Embodiment 3:

The superfluous disaster emergency system in BSC base station, comprise base station data backup module and base station superfluous calamity data creation module, the base station data backup module obtains BCF configuration, BTS configuration, TRX configuration, the LAPD configuration information of each BSC, configuration information to each BSC generates a text separately, is kept on the ftp server; Base station superfluous calamity data creation module is created to the base station data that backs up in the ftp server among the superfluous calamity BSC.

Embodiment 4:

The superfluous calamity emergency method in BSC base station may further comprise the steps:

A, the BCF configuration information with each BSC in the existing network, BTS configuration information, TRX configuration information and the backup of LAPD configuration information are on ftp server, and the configuration information of each BSC is kept at separately in the text;

B, in superfluous calamity BSC, create base station data according to the following step:

I) read BSC sequence number in the superfluous calamity message file of BTS, BCF, CI, ET parameter 24;

II), download the backup file of base station data from ftp server according to the sequence number of BSC;

III) according to the BCF parameter, in the backup file of base station data, obtain corresponding BCF configuration data, comprise BTS, the TRX configuration 25 that BCF comprises;

IV), in superfluous calamity BSC, create the base station data 26 of identical configuration according to the corresponding relation of the parameters that generates by the superfluous calamity message file of BTS.

Claims (4)

1, BSC base station cutover system, comprise source BSC and target BS C, it is characterized in that also comprising: LAC acquisition module, BTS data creation module, BTS adjacent area data module, module is checked in the BTS adjacent area, ET and LAPD active module, BTS separates the mold closing piece, BTS data removing module, the LAC acquisition module obtains the LAC data of each BSC that moves in the existing network, offers BTS data creation module; BTS data creation module is created to the base station parameter among the BSC of source among the target BS C; BTS adjacent area data module is created the adjacent area data of newly-built BTS among the target BS C; Whether with among the BSC of source the adjacent area data that newly-built BTS among the module check target BS C is checked in the BTS adjacent area treat the data consistent of cutover BTS; ET and LAPD active module are activated to operating state with the ET that is not activated among the target BS C, activate the corresponding LAPD data on the ET again; BTS separates the mold closing piece with the BTS automatic blocking of cutover among the BSC of source, searches the BCF that signaling has activated automatically simultaneously in target BS C, with its BTS automatic unlocking; BTS data removing module is all deleted base station data old among the BSC of source, and cleaning LAPD and DAP data, with the ET deexcitation.

2, BSC base station cutover method is characterized in that may further comprise the steps:

A, in target BS C, create BTS cutover message file, BTS cutover information is kept in the Excel file, as BTS cutover message file;

B, obtain the LAC data of each BSC that moves in the existing network, the BSC-LAC corresponding data that obtains is stored in the BTS cutover message file by the LAC acquisition module;

C, in target BS C, make the BTS data for the treatment of cutover by following steps:

1) reads BTS cutover information in the BTS cutover message file;

2) according to BTS cutover information in the BSC of source according to the BCF sequence number among the BSC of source, read the configuration data of single BCF;

3) according to step 2) configuration data of the single BCF that obtains, read IDE, CEL, RAD, CCH, INT, MIS, HOP, BCC, the GPRS parameter of each BTS under this BCF;

4) read the power contorl parameters of each BTS;

5) read the switching control parameter of each BTS;

6) read the neighbor cell data of each BTS;

7) read other parameters of BTS;

8), in target BS C, set up and the corresponding new LAC of source BSC BCF, BTS, TRX according to the BTS cutover information that from BTS cutover message file, reads;

9) with the Data Update that reads in the step 3) to the newly-built LAC of step 8), BCF, BTS, TRX;

10), the power contorl parameters of newly-built BTS is set according to the power contorl parameters of step 4) acquisition;

11), the switching control parameter of newly-built BTS is set according to the switching control parameter of step 5) acquisition;

12), create the neighbor cell data of newly-built BTS according to the neighbor cell data of step 6) acquisition;

13), other parameters of newly-built BTS are set according to other parameters of BTS of step 7) acquisition;

15) according to BTS cutover information in the BTS cutover message file, repeating step 3) to 13), all the BCF data in BSC base station, source are created in target BS C and are finished; D, finish adjacent area, base station data modification by following steps:

(1) reads that all treat the adjacent area data of the BTS of cutover among the BSC of source, search LAC information wherein, generate a LAC tabulation;

(2) according to the BSC-LAC corresponding relation in the BTS cutover message file, utilize the LAC tabulation, find corresponding BSC tabulation;

(3) in the BSC that step (2) is found, utilize LAC and CI to search and treat the neighbor cell parameter that cutover BTS is relevant, and, generate the neighbor cell parameter that newly-built BTS among the target BS C is upgraded in the BSC instruction according to the new LAC parameter for the treatment of cutover BTS with this;

E), by new, the adjacent area quantity of old BTS of contrast, the LAC and the CI situation of adjacent area, whether the adjacent area data of verifying newly-built BTS correct, prevent adjacent area loss of data or mistake;

F) by ET and LAPD active module the ET that is not activated among the target BS C is activated to operating state, activates the corresponding LAPD data on the ET again;

G) implement base station cutover;

H) separate in the mold closing piece at BTS and create BTS and separate closed file, separate the BTS that needs locking that puts down in writing in the closed file,, in target BS C, search the BCF that signaling has activated automatically simultaneously, its BTS automatic unlocking with the BTS automatic blocking of cutover among the BSC of source according to BTS;

I) after base station cutover is finished, BTS data removing module is all deleted base station data old among the BSC of source according to BTS cutover message file, and cleaning LAPD and DAP data, with the ET deexcitation.

3, the superfluous disaster emergency system in BSC base station, it is characterized in that: comprise base station data backup module and base station superfluous calamity data creation module, the base station data backup module obtains BCF configuration, BTS configuration, TRX configuration, the LAPD configuration information of each BSC, configuration information to each BSC generates a text separately, is kept on the ftp server; Base station superfluous calamity data creation module is created to the base station data that backs up in the ftp server among the superfluous calamity BSC.

4, the superfluous calamity emergency method in BSC base station, its spy is may further comprise the steps:

A, the BCF configuration information with each BSC in the existing network, BTS configuration information, TRX configuration information and the backup of LAPD configuration information are on ftp server, and the configuration information of each BSC is kept at separately in the text;

B, in superfluous calamity BSC, create base station data according to the following step:

I) read BSC sequence number in the superfluous calamity message file of BTS, BCF, CI, ET parameter;

II), download the backup file of base station data from ftp server according to the sequence number of BSC;

III) according to the BCF parameter, in the backup file of base station data, obtain corresponding BCF configuration data, comprise BTS, the TRX configuration that BCF comprises;

IV), in superfluous calamity BSC, create the base station data of identical configuration according to the corresponding relation of the parameters that generates by the superfluous calamity message file of BTS.

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