CN107347191B - Method and system for adding adjacent frequency of adjacent cell - Google Patents

Abstract

The invention provides a method and a system for adding adjacent frequency of a neighboring cell, wherein the method comprises the following steps: generating a parameter name specification table according to input information of a user; wherein, the parameter name specification table includes: standardizing parameter names; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. The method and the device improve the adjacent frequency adding efficiency of the adjacent region and reduce the capability requirement on operators.

Description

Method and system for adding adjacent frequency of adjacent cell

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and a system for adding neighboring cells to neighboring cells.

Background

With the development of wireless networks, the convergence process of 2G (2-Generation wireless telephone technology, second Generation mobile communication technology), 3G (3rd-Generation, third Generation mobile communication technology) and 4G (the 4th Generation mobile communication technology, fourth Generation mobile communication technology) networks is further accelerated, and higher requirements are put on the networks: there is a need to support inter-system interoperation.

From the current products, the inter-system interoperation of the whole communication system can be divided into at least five major parts: TDD-LTE (Time Division Long Term Evolution) and GSM (Global System for mobile communication) System interoperability, TDD-LTE and TD-SCDMA (Time Division-Synchronous Code Division Multiple Access) System interoperability, TDD-LTE and WCDMA (Wideband Code Division Multiple Access) System interoperability, TDD-LTE and CDMA2000 System interoperability, and TDD-LTE and FDD-LTE (Frequency Division duplex Long Term Evolution) System interoperability. The interoperation among the systems has three directions according to a protocol, namely reselection, redirection and switching. According to different strategies of different operators, the interoperation directions of the systems needing to be started are different. Generally, if the base station of 4G is to implement inter-system operation to other systems, a large number of data tables are required to be configured.

Taking the current network as an example, for example, taking Jiangsu mobile as an example, a base station of TDD-LTE needs to add the adjacent frequency relationship of TD-SCDMA and the adjacent frequency relationship of GSM. Taking 3000 base stations in one sector as an example, each base station has 3 cells, TD-SCDMA adds 6 frequency points, GSM adds a group of frequency points, so the number of scripts that TD-LTE base stations need to generate is as follows:

TD-SCDMA related script quantity: 3000 (base station) × 3 (local cell) × 6 (frequency points) × 3 (sheet) ═ 162000

Number of scripts of adjacent frequencies of GSM (global system for mobile communications) neighbors: 3000 (base station) × 3 (local cell) × 4 (tablature) ═ 36000

As can be seen from the above, the total price number of the adjacent frequency relationship between TD-SCDMA and GSM is 162000+36000 ═ 198000; that is, an operator is required to manually generate approximately 20W scripts, and 32 frequency points are required to be added to each script. Therefore, the existing adjacent cell adjacent frequency adding scheme has the advantages of huge workload, high error probability, extremely low efficiency and high requirement on the capability of operators.

Disclosure of Invention

The invention provides a method and a system for adding adjacent frequency of an adjacent region, which are used for reducing the workload and the error probability of operators, improving the efficiency of adding the adjacent frequency of the adjacent region and reducing the capability requirement on the operators.

In order to solve the above problems, the present invention discloses a method for adding adjacent frequency of a neighboring cell, which comprises:

generating a parameter name specification table according to input information of a user; wherein, the parameter name specification table includes: standardizing parameter names;

screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table;

generating a command line script according to the output data table;

and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script.

Preferably, before the step of screening the neighboring cell data information matched with the canonical parameter name from the standard data table to generate an output data table, the method further includes:

importing the standard data table; wherein, the standard data table comprises: and standard adjacent cell adjacent frequency data information and standard parameter names provided by a third party.

Preferably, the screening of the neighboring cell adjacent channel data information matched with the canonical parameter name from the standard data table includes:

screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table;

extracting standard adjacent cell adjacent frequency data information corresponding to the first parameter name from the standard data table to obtain first standard adjacent cell adjacent frequency data information;

and generating an output data table carrying the first parameter name and the first standard adjacent cell adjacent frequency data information.

Preferably, before the step of generating a command line script from the output data table, the method further comprises:

judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one; if yes, executing the step of generating a command line script according to the output data table; and if not, regenerating the output data table.

Preferably, the input information includes: at least one of operator information, network system information and table information of a data table determined according to the type of interoperation between systems; wherein the data table includes: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table.

Correspondingly, the invention also discloses a system for adding the adjacent frequency of the adjacent region, which comprises the following steps:

the first generation module is used for generating a parameter name specification table according to input information of a user; wherein, the parameter name specification table includes: standardizing parameter names;

the second generation module is used for screening adjacent region adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table;

the third generation module is used for generating a command line script according to the output data table;

and the sending module is used for sending the command line script to the OMC so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script.

Preferably, the system further comprises:

the import module is used for importing the standard data table before the second generation module generates the output data table; wherein, the standard data table comprises: and standard adjacent cell adjacent frequency data information and standard parameter names provided by a third party.

Preferably, the second generating module includes:

the screening submodule is used for screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table;

the obtaining submodule is used for extracting standard adjacent cell adjacent frequency data information corresponding to the first parameter name from the standard data table to obtain first standard adjacent cell adjacent frequency data information;

and the generating submodule is used for generating an output data table carrying the first parameter name and the first standard adjacent cell adjacent frequency data information.

Preferably, the system further comprises:

the judging module is used for judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one before the third generating module generates the command line script according to the output data table; if yes, executing the third generation module; and if not, regenerating the output data table.

Preferably, the input information includes: at least one of operator information, network system information and table information of a data table determined according to the type of interoperation between systems; wherein the data table includes: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table.

Compared with the prior art, the invention has the following advantages:

the addition scheme of adjacent frequency of the adjacent region disclosed by the invention generates a parameter name standard table according to the input information of a user; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. Therefore, the invention can automatically generate the command line script executable by the OMC according to the input information of the user, and the command line script is executed in batch by the OMC, thereby reducing the manual operation flow of operators, improving the efficiency of adding the adjacent cells and optimizing the efficiency of starting the interoperation function between network systems; meanwhile, the accuracy of data is ensured, and the success rate of adding adjacent frequency of the inter-operation adjacent region between systems is improved; in addition, even non-professionals can adopt the scheme of the invention to complete the addition of the adjacent frequency of the adjacent region, which is oriented to the public users, has wide application range and universality.

Drawings

Fig. 1 is a flowchart illustrating a method for adding neighboring cells to neighboring cells according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a method for adding neighboring cells to neighboring cells according to a second embodiment of the present invention;

fig. 3 is a flowchart illustrating steps of a method for adding neighboring cells to neighboring cells according to a third embodiment of the present invention;

FIG. 4 is a schematic view of a user interface in accordance with a third embodiment of the present invention;

FIG. 5 is a flowchart illustrating a command line script generation process according to a third embodiment of the present invention;

fig. 6 is a block diagram of a system for adding neighboring cells to neighboring frequencies in a fourth embodiment of the present invention;

fig. 7 is a block diagram of a preferred system for adding neighboring cells to neighboring frequencies in a fourth embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example one

Referring to fig. 1, a flowchart illustrating a step of a method for adding neighboring cells to neighboring cells in an embodiment of the present invention is shown. In this embodiment, the method for adding neighboring channels of the neighboring cell includes:

and 102, generating a parameter name specification table according to the input information of the user.

In the present embodiment, the parameter name specification table may be determined according to input information of the user. Wherein, the parameter name specification table includes: a canonical parameter name that matches the user's input information.

And 104, screening the adjacent region adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table.

In this embodiment, the standard data table may include all currently known neighbor cell neighbor frequency data information, and then neighbor cell neighbor frequency data information matched with the canonical parameter name may be screened from the standard data table to generate an output data table. It should be noted that the standard data table may be provided by an operator, and different operators may provide different standard data tables according to their own protocol rules, which is not limited in this embodiment.

And 106, generating a command line script according to the output data table.

In this embodiment, the output data table may be in an Excel format, and the output data table in the Excel format may be converted into a command line script for output according to any suitable manner. For example, the conversion of the output data table and the Command line script may be implemented by, but not limited to, a C Language or a TCL Language (Tool Command Language).

Step 108, sending the command line script to an Operation and Maintenance Center (OMC) (operation and maintenance center) so that the OMC completes the addition of the adjacent frequency of the adjacent cell by executing the command line script.

In this embodiment, the command line script may be sent to the OMC, and the OMC may directly execute the received command line script in batch, thereby completing the addition of the adjacent frequency of the neighboring cell and realizing the inter-operation between systems.

In summary, the method for adding neighboring cells and adjacent channels described in this embodiment may generate a parameter name specification table according to the input information of the user; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. Therefore, in the embodiment, the command line scripts executable by the OMC can be automatically generated according to the input information of the user, and the command line scripts are executed in batch by the OMC, so that the manual operation process of operators is reduced, the efficiency of adding the adjacent cells is improved, and the efficiency of starting the interoperation function between network systems is optimized; meanwhile, the accuracy of data is ensured, and the success rate of adding adjacent frequency of the inter-operation adjacent cell between systems is improved.

In addition, even non-professionals can adopt the scheme of the invention to complete the addition of the adjacent frequency of the adjacent region, which is oriented to the public users, has wide application range and universality.

Example two

Referring to fig. 2, a flowchart illustrating a step of a method for adding neighboring cells in a second embodiment of the present invention is shown. In this embodiment, the method for adding neighboring channels of the neighboring cell includes:

step 202, generating a parameter name specification table according to the input information of the user.

In the present embodiment, the input information includes, but is not limited to: at least one of operator information, network system information, and table information of a data table determined according to an inter-system interoperation type. For example, major operators today are: china Mobile, China Unicom and China telecom. Network formats include, but are not limited to: GSM, TD-SCDMA, WCDMA, EUTRAN (Evolved Universal Radio Access Network, LTE Radio Access Network), CDMA2000eHRPD and CDMA 2001 xRTT, etc. The data tables include, but are not limited to: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table. Preferably, a parameter name specification table may be generated according to input information of a user, such as operator information, network system information, and table information, where the parameter name specification table includes: and specifying parameter names.

And step 204, importing the standard data table.

In this embodiment, the standard data table includes, but is not limited to: and standard adjacent cell adjacent frequency data information and standard parameter names provided by a third party. For example, the standard data table may be a neighbor cell neighbor data table directly provided by each operator.

It should be noted that, in this embodiment, there is no necessary sequence between the step 202 and the step 204, and the steps may be executed simultaneously, which is not limited in this embodiment.

And step 206, screening the adjacent region adjacent frequency data information matched with the standard parameter name from the standard data table to generate an output data table.

Generally, the standard data table includes data information related to various inter-system handovers, and in this embodiment, it is necessary to screen neighboring cell and neighboring frequency data information required by the current inter-system handover from the standard data table according to actual inter-handover requirements. One possible implementation may be as follows:

and a substep 2062 of screening the first parameter name from the standard data table.

In this embodiment, the first parameter name includes: and the standard parameter names matched with the standard parameter names in the standard data table.

Substep 2064, extracting the standard neighboring cell adjacent frequency data information corresponding to the first parameter name from the standard data table, and obtaining the first standard neighboring cell adjacent frequency data information.

Substep 2066, generating an output data table carrying the first parameter name and the first standard neighboring cell adjacent frequency data information.

And 208, judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one.

In this embodiment, in order to ensure the accuracy of the data, the output data table may be detected, and it is determined whether the first parameter name carried in the output data table matches one to one with the specification parameter name in the parameter name specification table, if so, it indicates that the output data table is accurate, and the following step 210 may be executed. If not, it indicates that the output data table is inaccurate, and the output data table needs to be regenerated, for example, but not limited to, the above step 206 is performed to determine the output data table again.

And step 210, generating a command line script according to the output data table.

In this embodiment, the output data table may be converted into a command line script executable by the OMC. For example, since the output data table is in a standard Excel format, and the output data table gives the completely planned first parameter name and the first standard neighboring cell adjacent frequency data information, the conversion between the output data table and the command line script can be realized by, but not limited to, C voice or TCL language.

Step 212, sending the command line script to an operation maintenance center OMC, so that the OMC completes the addition of the adjacent frequency of the adjacent cell by executing the command line script.

In summary, the method for adding neighboring cells and adjacent channels described in this embodiment may generate a parameter name specification table according to the input information of the user; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. Therefore, in the embodiment, the command line scripts executable by the OMC can be automatically generated according to the input information of the user, and the command line scripts are executed in batch by the OMC, so that the manual operation process of operators is reduced, the efficiency of adding the adjacent cells is improved, and the efficiency of starting the interoperation function between network systems is optimized; meanwhile, the accuracy of data is ensured, and the success rate of adding adjacent frequency of the inter-operation adjacent cell between systems is improved.

In addition, even non-professionals can adopt the scheme of the invention to complete the addition of the adjacent frequency of the adjacent region, which is oriented to the public users, has wide application range and universality.

EXAMPLE III

With reference to the foregoing embodiments, this embodiment describes in detail the method for adding the neighboring frequency in the neighboring cell by using a specific example.

Referring to fig. 3, a flowchart illustrating a step of a method for adding neighboring cells to neighboring cells in a third embodiment of the present invention is shown. In this embodiment, the method for adding neighboring channels of the neighboring cell includes:

step 302, according to the input information of the user, a parameter name specification table is generated.

In this embodiment, the input information of the user may be received in any suitable manner, for example, one possible receiving manner may be: and receiving input information of a user through the provided user interface. Specifically, referring to fig. 4, a schematic diagram of a user interface according to a third embodiment of the present invention is shown. In this embodiment, the input of information may be implemented through the user interface, for example, the input information of the user may be determined through an operator selected by the user, a network system, and generated data (data table).

In this embodiment, preferably, the parameter name specification table may include specification parameter names. Common parameter name specification tables may be as follows, among others, tables 1-6:

GeranFreq	GeranBand	GeranCellID
				GeranLAN	GeranRAN	GeranBasestationColourCode	GeranNetworkColourCode

TABLE 1 GSM neighbor parameter name Specification Table

TDSFreq	TDSBand	TDSCellID	TDSCellSC
				TDSLAN	TDSRAN	TDSRNCID	TDSLACID

Table 2 TDS (Time Division Switching) neighbor parameter name specification table

EutranFreq	EutranBand	EutranCellID	EutranCellPCI
				EutranENBID	EutranTAC	MCC	MNC

Table 3, specification table of names of Eutran neighbor parameters

WCDMAFreq	WCDMABand	WCDMACellID	WCDMACellSC
				WCDMALAN	WCDMARAN	WCDMARACID	WCDMALANID

TABLE 4 WCDMA Adjacent parameter name Specification Table

WCDMA2000Freq

WCDMA2000BandClass

WCDMA2000CellID

WCDMA2000CellPCI

TABLE 5 WCDMA 20001 xRTT neighborhood parameter name specification table

WCDMA2000Freq

WCDMA2000BandClass

WCDMA2000CellID

WCDMA2000CellPCI

TABLE 6 WCDMA200 eHRPD neighbor parameter name Specification Table

And 304, screening the adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table.

In this embodiment, the standard data table includes data information related to various inter-system handovers, and in this embodiment, neighboring cell and neighboring frequency data information required by the current inter-system handover needs to be screened from the standard data table according to actual inter-handover requirements. One possible implementation may be as follows: screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table; extracting standard adjacent cell adjacent frequency data information corresponding to the first parameter name from the standard data table to obtain first standard adjacent cell adjacent frequency data information; and generating an output data table carrying the first parameter name and the first standard adjacent cell adjacent frequency data information.

It should be noted that, because the standard data table may be provided by different operators, and protocol standards adopted by different operators are not completely consistent, the matching between the first parameter name and the specification parameter name in this embodiment may specifically include two layers: the first parameter name and the canonical parameter name are completely consistent, and the first parameter name and the canonical parameter name correspond to each other. For example, the following: geran freq corresponds to Geran frequency points, Geran band corresponds to Geran frequency bands, Geran cell ID corresponds to Geran cell ID, etc., which are not described herein.

Step 306, judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one.

In this embodiment, if the first parameter name in the output data table is completely matched with the specification parameter name in the parameter name specification table, that is, the first parameter name in the output data table is complete and has no omission, the following step 308 may be executed; otherwise, the above step 304 may be performed to regenerate an output data table.

And 308, generating a command line script according to the output data table.

In this embodiment, one possible way to generate a command line script may be as follows:

referring to fig. 5, a flowchart for generating a command line script in the third embodiment of the present invention is shown. The specific flow of generating the command line script is as follows:

substep 3082, inputting the output data table and table relationships.

In this embodiment, the table relationship may specifically refer to the first parameter name.

Sub-step 3084, defining a blank file having the same relation as the table (i.e. the first parameter name).

In this embodiment, the blank file may be, but is not limited to, a TXT format file.

And a substep 3086 of reading the index in the output data table.

In this embodiment, the index may be read starting from index 1.

And a substep 3088 of reading the first standard neighboring cell adjacent frequency data information corresponding to each index from the output data table.

And a substep 30810, writing the read first standard neighboring cell adjacent frequency data information into a corresponding position of a blank file in a TXT format.

In this embodiment, as described above, the blank file is a file in the TXT format having the same table relationship (i.e., the first parameter name), that is, the blank file corresponds to the first parameter name, and therefore, the read first standard neighbor data information may be written into the corresponding position of the blank file in the TXT format according to the first parameter name.

And a substep 30812 of judging whether all the first standard neighboring cell adjacent frequency data information carried in the output data table is read.

In this embodiment, if the first normal neighboring cell adjacent frequency data information carried in the output data table is completely read, the TXT file in which the first normal neighboring cell adjacent frequency data information is written in the sub-step 30810 can be used as a command line script to be output. If not, the above sub-step 3086 may be performed after the index is incremented by 1.

And 310, sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent cell by executing the command line script.

In summary, the method for adding neighboring cells and adjacent channels described in this embodiment may generate a parameter name specification table according to the input information of the user; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. Therefore, in the embodiment, the command line scripts executable by the OMC can be automatically generated according to the input information of the user, and the command line scripts are executed in batch by the OMC, so that the manual operation process of operators is reduced, the efficiency of adding the adjacent cells is improved, and the efficiency of starting the interoperation function between network systems is optimized; meanwhile, the accuracy of data is ensured, and the success rate of adding adjacent frequency of the inter-operation adjacent cell between systems is improved.

In addition, even non-professionals can adopt the scheme of the invention to complete the addition of the adjacent frequency of the adjacent region, which is oriented to the public users, has wide application range and universality.

It should be noted that the foregoing method embodiments are described as a series of acts or combinations for simplicity in explanation, but it should be understood by those skilled in the art that the present invention is not limited by the order of acts or acts described, as some steps may occur in other orders or concurrently in accordance with the invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Example four

Based on the same inventive concept as the above method embodiment, referring to fig. 6, a block diagram of a neighboring cell neighboring frequency adding system in a fourth embodiment of the present invention is shown. In this embodiment, the system for adding neighboring channels of the neighboring cell includes:

a first generating module 402, configured to generate a parameter name specification table according to the input information of the user.

In this embodiment, the parameter name specification table includes: and specifying parameter names.

And a second generating module 404, configured to screen, from the standard data table, neighboring cell neighboring frequency data information that matches the canonical parameter name, and generate an output data table.

And a third generating module 406, configured to generate a command line script according to the output data table.

A sending module 408, configured to send the command line script to the OMC, so that the OMC completes adding the neighboring cell neighboring frequency by executing the command line script.

In a preferred solution of this embodiment, referring to fig. 7, a block diagram of a preferred system for adding neighboring cells and neighboring frequencies in a fourth embodiment of the present invention is shown.

Preferably, the system for adding neighboring channels of the neighboring cell may further include:

an importing module 410, configured to import the standard data table before the second generating module 404 generates the output data table.

In this embodiment, the standard data table includes: and standard adjacent cell adjacent frequency data information and standard parameter names provided by a third party.

Preferably, the system for adding neighboring channels of the neighboring cell may further include:

a determining module 412, configured to determine whether the first parameter name carried in the output data table matches the specification parameter name in the parameter name specification table one by one before the third generating module 406 generates the command line script according to the output data table; if yes, the third generation module 406 is executed; and if not, regenerating the output data table.

Preferably, the second generating module 404 may specifically include: the screening submodule 4042 is used for screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table; an obtaining sub-module 4044, configured to extract, from the standard data table, standard neighboring cell adjacent frequency data information corresponding to the first parameter name to obtain first standard neighboring cell adjacent frequency data information; the generating sub-module 4046 is configured to generate an output data table carrying the first parameter name and the first standard neighboring cell neighboring frequency data information.

It should be noted that the input information includes, but is not limited to: at least one of operator information, network system information, and table information of a data table determined according to an inter-system interoperation type. Wherein the data table includes but is not limited to: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table.

In summary, the system for adding neighboring cells and neighboring channels described in this embodiment may generate a parameter name specification table according to the input information of the user; screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; generating a command line script according to the output data table; and sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of the adjacent frequency of the adjacent region by executing the command line script. Therefore, in the embodiment, the command line scripts executable by the OMC can be automatically generated according to the input information of the user, and the command line scripts are executed in batch by the OMC, so that the manual operation process of operators is reduced, the efficiency of adding the adjacent cells is improved, and the efficiency of starting the interoperation function between network systems is optimized; meanwhile, the accuracy of data is ensured, and the success rate of adding adjacent frequency of the inter-operation adjacent cell between systems is improved.

In addition, even non-professionals can adopt the scheme of the invention to complete the addition of the adjacent frequency of the adjacent region, which is oriented to the public users, has wide application range and universality.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The method and system for adding neighboring cell neighboring frequency provided by the present invention are introduced in detail, and a specific example is applied in the text to explain the principle and the implementation of the present invention, and the description of the above embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (8)

1. A method for adding adjacent frequency of adjacent area is characterized in that the method comprises the following steps:

generating a parameter name specification table according to input information of a user; wherein, the parameter name specification table includes: standardizing parameter names;

screening adjacent cell adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; wherein, the standard data table comprises: the standard adjacent cell adjacent frequency data information and the standard parameter name are provided by a third party;

generating a command line script according to the output data table;

sending the command line script to an Operation Maintenance Center (OMC) so that the OMC completes the addition of adjacent frequency of the adjacent cell by executing the command line script;

the step of obtaining neighbor cell adjacent frequency data information matched with the standard parameter name by screening from a standard data table includes:

screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table;

extracting standard adjacent cell adjacent frequency data information corresponding to the first parameter name from the standard data table to obtain first standard adjacent cell adjacent frequency data information;

and generating an output data table carrying the first parameter name and the first standard adjacent cell adjacent frequency data information.

2. The method according to claim 1, wherein before the step of screening the neighboring cell adjacent channel data information matching the canonical parameter name from the canonical data table to generate an output data table, the method further comprises:

and importing the standard data table.

3. The method of claim 1, wherein prior to the step of generating a command line script from the output data table, the method further comprises:

judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one; if yes, executing the step of generating a command line script according to the output data table; and if not, regenerating the output data table.

4. The method of any of claims 1-3, wherein the input information comprises: at least one of operator information, network system information and table information of a data table determined according to the type of interoperation between systems; wherein the data table includes: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table.

5. A system for adding neighbor frequencies of a neighboring cell is characterized by comprising:

the first generation module is used for generating a parameter name specification table according to input information of a user; wherein, the parameter name specification table includes: standardizing parameter names;

the second generation module is used for screening adjacent region adjacent frequency data information matched with the standard parameter name from a standard data table to generate an output data table; wherein, the standard data table comprises: the standard adjacent cell adjacent frequency data information and the standard parameter name are provided by a third party;

the third generation module is used for generating a command line script according to the output data table;

a sending module, configured to send the command line script to the OMC, so that the OMC completes addition of the neighboring cell adjacent frequency by executing the command line script;

wherein the second generating module comprises:

the screening submodule is used for screening the standard data table to obtain a first parameter name; wherein the first parameter name comprises: the standard parameter name matched with the standard parameter name in the standard data table;

the obtaining submodule is used for extracting standard adjacent cell adjacent frequency data information corresponding to the first parameter name from the standard data table to obtain first standard adjacent cell adjacent frequency data information;

and the generating submodule is used for generating an output data table carrying the first parameter name and the first standard adjacent cell adjacent frequency data information.

6. The system of claim 5, further comprising:

and the importing module is used for importing the standard data table before the second generating module generates the output data table.

7. The system of claim 6, further comprising:

the judging module is used for judging whether the first parameter names carried in the output data table are matched with the standard parameter names in the parameter name standard table one by one before the third generating module generates the command line script according to the output data table; if yes, starting the third generation module; and if not, regenerating the output data table.

8. The system of any of claims 5-7, wherein the input information comprises: at least one of operator information, network system information and table information of a data table determined according to the type of interoperation between systems; wherein the data table includes: at least one of a pilot frequency table, an external neighbor table, a neighbor relation table, a CDMA2000BandClass table, and a CDMA2000 cell parameter table.

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