CN106034311B

CN106034311B - A kind of information processing method and device

Info

Publication number: CN106034311B
Application number: CN201510102091.4A
Authority: CN
Inventors: 范大光
Original assignee: China Mobile Group Guizhou Co Ltd
Current assignee: China Mobile Group Guizhou Co Ltd
Priority date: 2015-03-09
Filing date: 2015-03-09
Publication date: 2019-07-02
Anticipated expiration: 2035-03-09
Also published as: CN106034311A

Abstract

The invention discloses a kind of information processing methods, comprising: the related data in acquisition mutual operation network；Minizone, which is generated, using the related data is total to covering relation table, performance of handoffs statistics adjacent area table, measurement report (MR) measurement adjacent area table, cell reselection and handoff parameter adjustment table；Covering relation table is total to using the minizone, performance of handoffs counts adjacent area table, the data in MR measurement adjacent area table, generation miss-configured neighboring cells table and redundancy adjacent area table；According to the data of the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter adjustment table, determine neighboring BS relationship and parameter adjustment work order, and the second network element of the first network element and second network for being issued to the first network respectively carries out the adjustment of corresponding adjacent area and parameter.The present invention also discloses a kind of information processing units.

Description

A kind of information processing method and device

Technical field

The present invention relates to wireless communication field more particularly to a kind of information processing methods and device.

Background technique

2/3G network interoperability adjacent section planning, 2/3G network interoperability Neighborhood Optimization are as common carrier routine optimization work A part of work is mainly completed by way of hand data collection, manual analysis, artificial optimization at present.

2/3G inter-network traffic is unbalanced, and changes with time, at present mainly by way of manually monitoring It transfers the biggish cell of some effects and carries out adjustment observation in real time.

The total amount that data acquisition, data analysis, the adjustment that can manually complete daily at present are implemented is all limited, and exists very much False judgment, faulty operation caused by artificial, there are greater risks.

Summary of the invention

To solve existing technical problem, the embodiment of the present invention provides a kind of information processing method and device.

The present invention provides a kind of information processing method, which comprises

Acquire the related data in mutual operation network；

Using the engineering parameter in the related data, generates minizone and be total to covering relation table；Utilize the related data Performance of handoffs data in middle OMC performance statistic generate performance of handoffs and count adjacent area table；Using in the related data MR data generate MR and measure adjacent area table；Covering relation table, performance of handoffs statistics adjacent area table, MR is total to using the minizone to measure Data in the table of adjacent area generate miss-configured neighboring cells table and redundancy adjacent area table；And utilize the OMC performance statistic and the ginseng of cell Number information, generates cell reselection and handoff parameter adjusts table；

According to the data of the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter adjustment table, determine adjacent Cell relation and parameter adjust work order, and are issued to the first network element of the first network and the second net of second network respectively Member carries out the adjustment of corresponding adjacent area and parameter；First network element and second network element are the net for being responsible for terminal access control Member.

In above scheme, the engineering parameter using in the related data generates minizone and is total to covering relation table, wraps It includes:

Using cell longitude and latitude, deflection, lobe width, the radius of society in the engineering parameter, based on longitude and latitude and The total covering algorithm of deflection generates the minizone and is total to covering relation table.

In above scheme, performance of handoffs data in the OMC performance statistic using in the related data are raw Adjacent area table is counted at performance of handoffs, comprising:

Based on from second network cell to the one day total handover request number in the first network adjacent area, based on from institute The handover request number for stating the second network cell to first network list adjacent area accounts for second network cell to described first The ratio of each adjacent area handover request number summation of network generates the performance of handoffs statistics adjacent area table.

In above scheme, the MR data using in the related data generate MR and measure adjacent area table, comprising:

It is raw based on the second network cell average level described in the MR data and the first network cell average level Adjacent area table is measured at the MR.

It is described to be total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement neighbour using the minizone in above scheme Data in area's table generate miss-configured neighboring cells table and redundancy adjacent area table, comprising:

It is total to the total coverage distance in covering relation table based on the minizone, setting covers the first weight of adjacent area altogether；Base Second network in performance of handoffs statistics adjacent area table is to the handover request number of the first network and described Switching accounting of second network to the first network, the second weight of setting performance of handoffs statistics adjacent area；It is surveyed based on the MR Measure the first network carrier wave transmission power in the table of adjacent area, the third weight of setting MR measurement statistics adjacent area；

Being total to the second network cell and the first network cell in covering relation table with the minizone, will be described for index Minizone is total to corresponding first weight in covering relation table, the second weight and the summation of third weight, obtains the 4th weight, and It generates comprising second network cell, first network cell, altogether the first table of coverage distance and the 4th weight；With the switching The second network cell and the first network cell are index in the table of performance statistics adjacent area, and the performance of handoffs is counted adjacent area table In corresponding first weight, the second weight and the summation of third weight, obtain the 5th weight, and generating includes second net Network cell, first network cell, second network to the first network handover request number, switching accounting and the 5th weight The second table；

On the basis of second network cell, based on the 4th power between each adjacent area pair in first table and second table Value and the 5th weight generate miss-configured neighboring cells table and redundancy adjacent area table.

It is described to be based on the 4th weight and the 5th weight in above scheme, it generates miss-configured neighboring cells table and redundancy is adjacent Area's table, specifically:

Compare in first table and second table the 4th weight and the 5th weight between each adjacent area pair；

4th weight, which is greater than in the 5th weight and network, is not configured adjacent area, then corresponding adjacent area is leaked to for preparation Matched adjacent zone；Alternatively, the 4th weight be less than or equal to the 5th weight, then corresponding adjacent area to for prepare redundancy adjacent area；

In conjunction with the adjacent area logarithm threshold values of setting, miss-configured neighboring cells are determined from preparation miss-configured neighboring cells, and it is adjacent to generate the leakage Area's table；In conjunction with the adjacent area logarithm threshold values, redundancy adjacent area is determined from preparation redundancy adjacent area, and generates redundancy adjacent area table.

It is described using the OMC performance statistic and the parameter information of cell in above scheme, generate cell reselection and Handoff parameter adjusts table, comprising:

Based on the OMC performance statistic of each cell of the first network, the busy of each cell of the first network is determined State；And the OMC performance statistic based on each cell of the second network, determine the busy shape of each cell of the second network State；

The busy-idle condition of busy-idle condition and each cell of the second network based on each cell of the first network generates institute State the busy judgement table between first network and second network neighbor；

The first network/second network reselecting parameters and switching of table and setting are judged based on the busy Parameter determines parameter and corresponding adjustment direction and step that the first network cell or second network cell need to adjust It is long, to generate the cell reselection and handoff parameter adjustment table.

The present invention provides a kind of information processing unit, and described device includes: acquisition unit, the first generation unit, the second life At unit, third generation unit, the 4th generation unit, the 5th generation unit, determination unit and issuance unit；Wherein,

The acquisition unit, for acquiring the related data in mutual operation network；

First generation unit, for generating minizone and covering pass altogether using the engineering parameter in the related data It is table；

Second generation unit, for utilizing the performance of handoffs number in OMC performance statistic in the related data According to generation performance of handoffs counts adjacent area table；

The third generation unit, for generating MR and measuring adjacent area table using the MR data in the related data；

4th generation unit, for being total to covering relation table, performance of handoffs using the minizone in the related data Data in statistics adjacent area table, MR measurement adjacent area table, generate miss-configured neighboring cells table and redundancy adjacent area table；

5th generation unit generates cell for the parameter information using the OMC performance statistic and cell Gravity treatment and handoff parameter adjust table；

The determination unit, for according to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter tune The data of whole table determine neighboring BS relationship and parameter adjustment work order；

The issuing unit, for the neighboring BS relationship and parameter adjustment work order to be issued to the first of the first network Second network element of network element and second network carries out the adjustment of corresponding adjacent area and parameter；First network element and described second Network element is the network element for being responsible for terminal access control.

In above scheme, first generation unit is specifically used for: using in the engineering parameter cell longitude and latitude, Deflection, lobe width, radius of society, the total covering algorithm based on longitude and latitude and deflection generate the minizone and cover altogether Relation table.

In above scheme, the 4th generation unit includes: setup module, the first table generation module, the second table generation mould Block and miss-configured neighboring cells table and redundancy adjacent area table generation module；Wherein,

The setup module, the total coverage distance for being total in covering relation table based on the minizone set covering altogether First weight of adjacent area；Switching based on second network in performance of handoffs statistics adjacent area table to the first network The switching accounting of request times and second network to the first network, the second power of setting performance of handoffs statistics adjacent area Value；And based on the first network carrier wave transmission power in MR measurement adjacent area table, the of setting MR measurement statistics adjacent area Three weights；

The first table generation module, for being total in covering relation table the second network cell and described the with the minizone One network cell is index, and the minizone is total to corresponding first weight in covering relation table, the second weight and third and is weighed Value summation obtains the 4th weight, and generates comprising second network cell, first network cell, altogether coverage distance and the 4th First table of weight；

The second table generation module, for the second network cell and described the in performance of handoffs statistics adjacent area table One network cell is index, and the performance of handoffs is counted corresponding first weight, the second weight and third in the table of adjacent area and is weighed Value summation obtains the 5th weight, and generating includes second network cell, first network cell, second network to institute State the second table of first network handover request number, switching accounting and the 5th weight；

The miss-configured neighboring cells table and redundancy adjacent area table generation module, for being based on the basis of second network cell 4th weight and the 5th weight between each adjacent area pair in first table and second table generate miss-configured neighboring cells table and redundancy adjacent area Table.

Information processing method and device provided in an embodiment of the present invention acquire the related data in mutual operation network；It is described Related data includes: the measurement report of the engineering parameter of first network and the second network, the second network switching to first network (MR, Measurement Report) data, first network and the second network cell operation and maintenance center (OMC, Operation and Maintenance Center) performance statistic and first network and the second network cell ginseng Number information；The network performance of second network is better than the network performance of first network；Using the engineering parameter, it is total to generate minizone Covering relation table；Using the performance of handoffs data in the OMC performance statistic, generates performance of handoffs and count adjacent area table；Benefit With the MR data, generates MR and measure adjacent area table；Using the minizone be total to covering relation table, performance of handoffs statistics adjacent area table, MR measures the data in the table of adjacent area, generates miss-configured neighboring cells table and redundancy adjacent area table；And utilize the OMC performance statistic and small The parameter information in area, generates cell reselection and handoff parameter adjusts table；According to the miss-configured neighboring cells table, redundancy adjacent area table and cell The data of gravity treatment and handoff parameter adjustment table determine neighboring BS relationship and parameter adjustment work order, and are issued to first net respectively Second network element of the first network element of network and second network carries out the adjustment of corresponding adjacent area and parameter, in this way, can be automatically real The adjustment of existing adjacent area and parameter, improves accuracy, the timeliness to interoperate between network.

Detailed description of the invention

In attached drawing (it is not necessarily drawn to scale), similar appended drawing reference can describe phase in different views As component.Similar reference numerals with different letter suffix can indicate the different examples of similar component.Attached drawing with example and Unrestricted mode generally shows each embodiment discussed herein.

Fig. 1 is the method flow schematic diagram of one information processing of the embodiment of the present invention；

Fig. 2 is the method flow schematic diagram of information processing under one 2G/3G network interoperability application scenarios of the embodiment of the present invention；

Fig. 3 is two information processing unit structural schematic diagram of the embodiment of the present invention.

Specific embodiment

The present invention is described in further detail again with reference to the accompanying drawings and embodiments.

Before describing the embodiment of the present invention, first learn about that some effects are transferred by way of manually monitoring is biggish small Area carries out the problems of adjustment observation in real time.

The total amount that data acquisition, data analysis, the adjustment that can manually complete daily at present are implemented is all limited, and exists very much False judgment, faulty operation caused by artificial, have the following deficiencies:

1. the data category of acquisition is less or collected data are not complete, cause subsequent judgment basis insufficient；

2. different people is not fully identical according to the identical or different obtained judging result of data, therefore judge Accuracy is not high；

3. the data volume of the artificial acquisition and analysis that can be completed daily is limited, the data analysis of whole network is finished simultaneously Comprehensively optimize and revise that the required period is longer, and therefore, it is difficult to form effective effect of optimization；

4. 2/3G inter-network traffic is unbalanced, and changes with time, artificial monitoring is difficult to effective in real time complete Face tracking adjustment, therefore, it is difficult to resources between efficient balance system.

Based on this, in various embodiments of the present invention: the related data in acquisition mutual operation network；Utilize the correlation Data generate minizone and are total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table, cell reselection and handoff parameter Adjust table；Covering relation table is total to using the minizone, performance of handoffs counts adjacent area table, the data in MR measurement adjacent area table, life At miss-configured neighboring cells table and redundancy adjacent area table；According to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter tune The data of whole table determine neighboring BS relationship and parameter adjustment work order, and are issued to the first network element and the institute of the first network respectively The second network element for stating the second network carries out the adjustment of corresponding adjacent area and parameter.

Embodiment one

The method of the present embodiment information processing, be suitable for network between inter-operation system, as shown in Figure 1, this method include with Lower step:

Step 101: the related data in acquisition mutual operation network；The related data includes: first network and the second net The engineering parameter of network, the MR data of the second network switching to first network, first network and the OMC performance of the second network cell system It counts and the parameter information of first network and the second network cell；The network performance of second network is better than first network Network performance；

Here, the network performance of second network refers to better than the network performance of first network: the system of the second network Capacity, communication quality and message transmission rate are above power system capacity, communication quality and the message transmission rate of first network.

For example for, when practical application, the first network can be 2G network, correspondingly, second network It can be 3G network.

Step 102: utilizing the engineering parameter, generate minizone and be total to covering relation table；Utilize the OMC performance statistics number Performance of handoffs data in generate performance of handoffs and count adjacent area table；Using the MR data, generates MR and measure adjacent area table；Benefit Covering relation table is total to the minizone, performance of handoffs counts adjacent area table, the data in MR measurement adjacent area table, generation miss-configured neighboring cells Table and redundancy adjacent area table；And using the OMC performance statistic and the parameter information of cell, cell reselection and switching ginseng are generated Number adjustment table；

Here, the minizone is total to covering relation table and characterizes between the first network cell and second network cell altogether The distance of covering；Table characterization in the performance of handoffs adjacent area switches to the corresponding first network neighbour from second network cell Switching times, switching proportion and handover success rate when area；MR measurement adjacent area table characterize second network cell with The signal strength of the first network adjacent area；The cell reselection and handoff parameter adjustment table characterize different network system adjacent cell parameter Adjustment direction and adjusting step.

Wherein, described to utilize the engineering parameter, it generates minizone and is total to covering relation table, specifically include:

For example for, it is assumed that first network is global system for mobile communications (GSM, Global System for Mobile Communication) network, the second network is TD (TD SDMA (TD-SCDMA, Time Division-Synchronous Code Division Multiple Access) abbreviation) network, then the work of GSM network Journey parameter is as shown in table 1, and the engineering parameter of TD network is as shown in table 2.

Table 1

Table 2

In table 1, city_name indicates districts and cities' name, and gsm_lac indicates position area, and gsm_ci indicates cell id, gsm_ Lon indicates that longitude, gsm_lat indicate that latitude, the room of indicating whether gsm_covertype point covering, gsm_dir indicate cell direction Angle, gsm_cellname indicate that cell Chinese name, gsm_county indicate district title.

In table 2, city_name indicates districts and cities' name, and td_lac indicates position area, and td_ci indicates cell id, td_lon table Show that longitude, td_lat indicate that latitude, the room of indicating whether td_covertype point covering, td_dir indicate cell deflection, td_ Cellname indicates that cell Chinese name, td_county indicate district title.

Using the engineering parameter in table 1, table 2, the total covering algorithm based on longitude and latitude and deflection is generated as shown in table 3 Minizone be total to covering relation.

Table 3

In table 3, city_id indicates districts and cities' name, and gcell_id indicates cell name, and gsm_cellname indicates GSM network Cell Chinese name, gsm_lac indicate corresponding position area in GSM network, and gsm_ci indicates GSM network cell id, gsm_lon table Show that the longitude of cell in GSM network, gsm_lat indicate that the latitude of cell in GSM network, gsm_dir are cell side in GSM network To angle, gsm_width indicates cell lobe width in GSM network, gsm_covertype are that cell whether divide by room in GSM network Covering, and 0 represents "No", 1 represents "Yes", and gsm_county is the corresponding district title of cell in GSM network, ncell_dis_ Gt is minizone longitude and latitude distance, and dir_same is that deflection is total to covering marking, and 0 represents "no", and 1 represents "Yes", Tcell_id is cell name in TD network, and td_cellname is cell Chinese name in TD network, and td_lac is cell in TD network Position area, td_ci be TD network in cell id, td_lon be TD network in cell longitude, td_lat be TD network in cell Latitude, td_dir are cell deflection in TD network, and td_width is lobe width in TD network, and td_covertype is TD net In network cell whether room point covering, and 0 represents "No" 1 and represents "Yes", and td_county is district title.

Using gcell_id according to shown in table 3 sequence, using ncell_dis_gt according to inverted order shown in table 3 as condition, it is right After all data are ranked up in table 3, covering relation table is total to by extracting the available minizone as shown in table 4.

Table 4

The performance of handoffs data using in the OMC performance statistic generate performance of handoffs and count adjacent area table, tool Body includes:

Wherein, described one day total handover request number includes: that packet switch (PS, Packet Switch) in one day is cut Change the sum of circuit switching (CS, Circuit Switch) handover request number of request times Yu one day.

The handover request number from second network cell to first network list adjacent area accounts for second net Network cell to each adjacent area handover request number summation of the first network ratio, for example for, it is assumed that the second network is 3G network, the first network is 2G network, then from second network cell to the switching Shen of first network list adjacent area Please number can be expressed as the handover request number of the mono- adjacent area 3G_1-2G_1；Second network cell is to the first network Each adjacent area handover request number summation can be expressed as 3G_1-2G_1+3G_1-2G_2+...+3G_1-2G_N；Here, 2G_1, 2G_2 ..., 2G_N indicate 3G_1 cell each adjacent area.

For example for, the minizone described for above-mentioned generation is total to the example of covering relation table, the switching of TD-GSM Energy statistical parameter is as shown in table 5, and the neighboring BS information of TD-GSM is as shown in table 6, the external GSM cell information of TD cell such as 7 institute of table Show.

Table 5

Table 6

Table 7

In table 6,7, first row indicates that radio network controller (RNC) name secondary series indicates the Location Area Code of TD cell (LAC, Location Area Code), third column indicate the cell identification (CI, Community Identity) of GSM cell.

Table 5,6,7 is matched as follows, then handover request number shown in available table 8, switch successfully number Performance of handoffs statistical form:

Step 1: the RNC name in RNC name, TD cell name and the table 6 in table 5, TD cell LAC are matched into the TD in table 8 Cell name；

Step 2: the RNC name in RNC name, GSM cell name and the table 7 in table 5, GSM cell CI are matched in table 8 GSM cell name；

Step 3: switching in table 5 statistics is with the group cooperation unique value of TD cell name and GSM cell name by request times etc. Statistical data is associated in table 8.

Table 8

With the performance of handoffs statistical data in table 8, carries out following merging etc. and calculate, obtain performance of handoffs as shown in table 9 Count adjacent area table:

By the group cooperation unique value of TD cell name in table 8 and GSM cell name, corresponding statistical indicator phase will be carried out behind The operations such as add, be divided by obtain the index value in table 9.

Table 9

In table 9, the switching accounting of T to G is bigger to represent that this is more excellent to the adjacent area T-G, and calculation method is as follows: molecule=T1 To G1 handover request number, denominator=T1 to G1 handover request number+T1 to G2 handover request number+T1 to G3 handover request time Number+... T1 to Gn handover request number, wherein n indicates the adjacent area the GSM logarithm of T1；

It is described to utilize the MR data, it generates MR and measures adjacent area table, specifically include:

For example for, the example of the performance of handoffs statistics adjacent area table described for above-mentioned generation, the level of TD-MR measurement As shown in table 10, corresponding TD cell parameter is as shown in table 11, and the external GSM cell information of TD is as shown in table 12 for statistics.

Table 10

Table 11

Table 12

In table 10, TD cell signal strength can represent the level of TD cell, and GSM carrier wave transmission power can represent The level of GSM cell.

Table 10,11,12 is matched as follows, then TD-MR shown in available table 13 measures level statistics table:

Step 1: RNC system name, the TD cell CI of the RNC system name of table 10, TD cell CI and table 11 are matched into table 13 TD cell name；

(2) by the RNC system name of table 10, GSM cell dominant frequency, GSM network colour coding, the RNC name of GSM base station color code and table 12 Title, BCCH, NCC, BCC match the GSM cell name of table 13；

(3) by TD signal strength, GSM carrier frequency power etc. in table 10 with TD cell CI, GSM cell dominant frequency, GSM network Colour coding, GSM base station color code group cooperation unique value be associated in table 13.

Table 13

Data in table 13 are subjected to following merging, then MR shown in available table 14 measures adjacent area table:

It, will by the group cooperation unique value of TD cell name, GSM cell dominant frequency, GSM network colour coding, GSM base station color code in table 13 TD cell signal strength, GSM carrier frequency power are averaged to obtain the index value in table 14 respectively.

Table 14

It is described using the minizone be total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table in number According to generation miss-configured neighboring cells table and redundancy adjacent area table specifically include:

It is total to the total coverage distance in covering relation table based on the minizone, setting covers the first weight of adjacent area altogether Ncell_dis_gt, weight setting method are as follows: <=50 item ncell_dis_gt are 1*20%*100%, (2) ncell_ Dis_gt > 50 and <=200 item are 1*20%*80%, (3) ncell_dis_gt > 200 and <=350 ncell_dis_gt It is then 1*20%*50% (4) ncell_dis_gt > 350 and <=500 item ncell_dis_gt are 1*20%*30%, (5) ELSE is 1*20%*10%；

Handover request time based on second network in performance of handoffs statistics adjacent area table to the first network Switching accounting of several and described second network to the first network, the second weight of setting performance of handoffs statistics adjacent area；

Based on the first network carrier wave transmission power in MR measurement adjacent area table, setting MR measurement counts adjacent area Third weight；

Being total to the second network cell and the first network cell in covering relation table with the minizone, will be described for index Minizone is total to corresponding first weight in covering relation table, the second weight and the summation of third weight, obtains the 4th weight, and It generates comprising second network cell, first network cell, altogether the first table of coverage distance and the 4th weight；

It is index with the second network cell in performance of handoffs statistics adjacent area table and the first network cell, it will be described Performance of handoffs counts corresponding first weight in the table of adjacent area, the second weight and the summation of third weight, obtains the 5th weight, and Generate comprising second network cell, first network cell, second network to the first network handover request number, Switch the second table of accounting and the 5th weight；

Wherein, first weight, the second weight and third weight is arranged can according to need setting, for example come It says, for the example of above-mentioned generation MR measurement adjacent area table, if it is ncell_dis_gt that TD and GSM neighboring interval, which is total to coverage distance, then The first weight setting method is as follows: if (1) <=50 ncell_dis_gt, first weight is set as 1*20%* 100%；(2) if ncell_dis_gt > 50 and <=200, first weight is set as 1*20%*80%；(3) if Ncell_dis_gt > 200 and <=350 ncell_dis_gt, then first weight is set as 1*20%*50%；(4) if Ncell_dis_gt > 350 and <=500 ncell_dis_gt, then first weight is set as 1*20%*30%, (5) if Ncell_dis_gt > 500, then first weight is set as 1*20%*10%.If TD and GSM neighboring interval handover request number For tg_req_ct, it is tg_ho_prop that TD and GSM neighboring interval, which switches accounting, and the second weight setting method is as follows: if (1) Tg_req_ct > 10, then second weight is set as 1*50%*100%；(2) if <=10 tg_req_ct and tg_ho_ >=80 prop, then second weight is set as 1*50%*100%；(3) if <=10 tg_req_ct and tg_ho_prop >=60 and tg_ho_prop < 80, then second weight is set as 1*50%*80%；(4) if <=10 tg_req_ct and >=40 tg_ho_prop and tg_ho_prop < 60, then second weight is set as 1*50%*50%, and (5) are if tg_req_ <=10 ct and >=20 tg_ho_prop and tg_ho_prop < 40, then second weight is set as 1*50%*30%, (6) if <=10 tg_req_ct and tg_ho_prop < 20, second weight is set as 1*20%*10%.If TD is measured GSM carrier frequency power is RSSI, and the third weight setting method is as follows: if (1) <=60 RSSI, the third weight It is set as 1*30%*100%；(2) if RSSI > 60 and <=70 RSSI, the third weight is set as 1*30%*80%； (3) if RSSI > 70 and <=80 RSSI, the third weight is set as 1*30%*50%；(4) if RSSI > 80 and RSSI <=90, then the third weight is set as 1*30%*30%；(5) if RSSI > 90, the third weight is set as 1* 30%*10%.

Wherein, the adjacent area superiority and inferiority judgement thinking of the specific implementation of above-mentioned generation miss-configured neighboring cells table and redundancy adjacent area table is: this The entity of general character present in a little tables is the second network cell to the adjacent area pair of first network cell, therefore can be united by these It counts and assigns them the value of same type respectively；The reason of imparting, is: due to having part adjacent area to be not added in total covering adjacent area It in existing net adjacent area (i.e. performance of handoffs statistics adjacent area), needs to one value to determine its value, now nets adjacent area and (cut Change performance statistics adjacent area) in there may be worth it is low, need to one value with determine its value；It is adjacent for total covering The value summation that the value that area is endowed is summed, performance of handoffs statistics adjacent area is endowed, summation are based on multidata summation, in this way meeting So that the content that this weight is included is richer so that it is subsequent it is more more acurrate, be more described power；It is carried out by weights sum Compare, can determine which adjacent area is more excellent than performance of handoffs statistics adjacent area in total covering adjacent area, which performance of handoffs counts adjacent area ratio Covering adjacent area is bad altogether；Excellent can be considered as the subsequent addition in miss-configured neighboring cells, and bad can be considered as the subsequent deletion in redundancy adjacent area.

Therefore, thinking is adjudicated based on above-mentioned adjacent area superiority and inferiority, it is described to be based on the 4th weight and the 5th weight, it generates Miss-configured neighboring cells table and redundancy adjacent area table, specifically:

4th weight, which is greater than in the 5th weight and network, is not configured adjacent area, then corresponding adjacent area is leaked to for preparation Matched adjacent zone；

4th weight be less than or equal to the 5th weight, then corresponding adjacent area to for prepare redundancy adjacent area；

In conjunction with the adjacent area logarithm threshold values of setting, miss-configured neighboring cells are determined from preparation miss-configured neighboring cells, generate the miss-configured neighboring cells Table；

In conjunction with the adjacent area logarithm threshold values, redundancy adjacent area is determined from preparation redundancy adjacent area, and generates the redundancy adjacent area Table.

Wherein, the adjacent area logarithm threshold values of the setting can according to need to be arranged, such as: it can be set to 9, then will The adjacent area of setting substitutes into algorithm threshold values, calculates miss-configured neighboring cells number and redundancy adjacent area number, then mentions from preparation miss-configured neighboring cells The miss-configured neighboring cells for taking corresponding number generate the miss-configured neighboring cells table, and the redundancy that corresponding number is extracted from preparation redundancy adjacent area is adjacent Area generates redundancy adjacent area table；

Here, the calculation method of miss-configured neighboring cells number and redundancy adjacent area number are as follows: cover adjacent area altogether and performance of handoffs counts adjacent area It is compared, at most only retains 9 adjacent areas at this stage, redundancy adjacent area number is switching if performance of handoffs statistics adjacent area is more than 9 Performance statistics adjacent area number subtracts 9, and miss-configured neighboring cells subtract performance of handoffs statistics neighbour for 9 if performance of handoffs statistics adjacent area is less than 9 Area's number calculates the part for covering altogether and not being added to performance of handoffs in adjacent area and counting adjacent area if performance of handoffs statistics adjacent area is 9 The weight of adjacent area is greater than <=9 item number N, N leakage number=redundant digit=N of performance of handoffs statistics adjacent area weight, and N > 9 then leaks With number=redundant digit=9.

For above-mentioned example, it is assumed that the first weight is a, and the second weight is b, third weight c, the 4th weight d, the 5th weight For e, then the available table 15 of data shown in table 4 is used, using the available table 16 of data shown in table 9, using table 14 The available table 17 of data.

Table 15

Table 16

Table 17

Wherein, in table 15 every a line a value may not it is identical may also be identical；The b value of every a line may not phase in table 16 With may also be identical；In table 17 the c value of every a line may not it is identical may also be identical, need to go to determine according to aforementioned process each Capable a, b, c value.

Then, based on table 15, with tcell_id | | gcell_id is matched, and is summed by a, b, c, is calculated d, obtain table 18；Based on table 16, with tcell_id | | gcell_id is matched, and is summed by a, b, c, is calculated e, obtain table 19；Wherein, | | Indicate Connection operator.

Table 18

Table 19

Wherein, the d value possibility of every a line is identical in table 18 may also be different；The e value of every a line may be identical in table 19 It may be different.

On the basis of the tcell_id in table 18 and table 19, d and e between adjacent area pair each between two tables is compared, d is greater than e And in network current non-matched adjacent zone adjacent area to for preparation miss-configured neighboring cells, d less than or equal to e adjacent area to for prepare redundancy adjacent area, Miss-configured neighboring cells and redundancy adjacent area are determined in conjunction with adjacent area logarithm threshold values, to obtain described in miss-configured neighboring cells table and table 21 shown in table 20 Redundancy adjacent area table.

Table 20

Table 21

It is described using the OMC performance statistic and the parameter information of cell, generate cell reselection and handoff parameter tune Whole table, specifically includes:

For example for, for above-mentioned example, it may be assumed that first network is 2G network (GSM network), and the second network is 3G net Network (TD network), the then OMC of 3G cell shown in the OMC performance statistic and table 23 of the 2G cell according to shown in table 22 Performance statistic determines the busy proportion size of 2/3G neighboring interval.Specifically, based in 2G cell OMC performance statistic Wireless resource utility efficiency, TCH congestion ratio, TBF establish the indexs such as the frequency of failure to set the busy of 2G cell, be based on 3G cell HSDPA maximum number of user in OMC performance statistic sets the busy of 3G cell；Based on the above 2G cell busy determine and The busy of 3G cell determines to generate 2/3G neighboring interval busy judgement table as shown in table 24.Wherein, the finger being arranged according to region Mark first sets 2G cell in Maintenance Table (tables of data for being manually set and remaining unchanged for a long period of time is used as object of reference, convenient to call at any time) Wireless resource utility efficiency busy thresholding a, TCH congestion ratio busy thresholding b, TBF in OMC performance statistic establish the frequency of failure The busy thresholding d of HSDPA maximum number of user in busy thresholding c and 3G cell OMC performance statistic, while in software Operation interface provides the approach of thresholding modification, and the corresponding data in table 22 and table 23 is compared with the threshold value of setting, from And obtain the data in table 24.

Table 22

Table 23

Table 24

The 2/3G reselecting parameters that then, are arranged in 2/3G neighboring interval busy judgement table and network according to shown in table 24, The setting of 2/3G handoff parameter, determines that 2G or 3G cell needs adjusting parameter and adjusting step.Wherein, the busy based on 2/3G neighboring interval Several situations in judgement: 2G cell is busy and 3G cell is not busy, 2G cell is not busy and 3G busy cells, 2G cell are busy and its major part 3G is small Area's spare time, 3G busy cells and its most of 2G cell spare time etc. determine adjustable cell, and are based on the minizone 2G and 3G reselecting parameters And the setting value of handoff parameter determines the adjustment direction and adjusting step of parameter, based on determining adjustable cell and parameter Adjustment direction and adjusting step, generate the adjacent area pair 2/3G between parameter value and the different system adjacent cell handoff parameter of adjusting step table, 3G And adjusting step table and the different system adjacent cell parameter of 2G-3G and adjusting step table.

Here, parameter value and adjusting step table are used to control 2/3G neighboring interval switching speed between the adjacent area pair 2/3G；The different system of 3G System adjacent area handoff parameter and adjusting step table are for controlling the speed that 3G cell switches to 2G system；The different system adjacent cell ginseng of 2G-3G The speed that several and adjusting step table is used to control 2G cell to 3G system gravity treatment.It needs to be carried out according to these three tables simultaneously subsequent Adjustment.

Step 103: according to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and the number of handoff parameter adjustment table According to determining neighboring BS relationship and parameter adjustment work order, and be issued to the first network element and second net of the first network respectively Second network element of network carries out the adjustment of corresponding adjacent area and parameter.

Here, first network element and second network element are the network element for being responsible for terminal access control.For example for, Assuming that the first network be 2G network, second network be 3G network, then first network element be base station controller (BSC, Base Station Controller), second network element is radio network controller (RNC, Radio Network Controller)。

Accordingly for the specific implementation of step 103, for example for, it is assumed that miss-configured neighboring cells be related to RNC1 and The two network elements of RNC2, redundancy adjacent area are related to the two network elements of RNC1 and RNC3, and 3G cell reselection and handoff parameter adjustment relate to And RNC2 and RNC4 the two network elements, the adjustment of 2G cell reselecting parameters are related to the two network elements of BSC1 and BSC2, then generate The adjustment work order of RNC1 includes: the 3G cell operated needed for miss-configured neighboring cells, redundancy adjacent area in the adjustment work order of generation and corresponding Instruction group, and 1 3G cell and instructing combination account for a line, while generating the adjustment work of RNC2, RNC3, RNC4, BSC1, BSC2 Single, work order is simultaneously or sequentially issued in each network element and is executed by row.

From the above description, it will be seen that by taking 2G network and 3G network as an example, at information provided in an embodiment of the present invention Reason method, as shown in Fig. 2, data needed for first collection analysis, then according to the various data of acquisition, generation includes: covering altogether Adjacent area table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table and cell reselection and handoff parameter adjust the analytical table of table； Then, covering relation table is total to using minizone, performance of handoffs counts adjacent area table, the data in MR measurement adjacent area table, generation leakage Adjacent area table and redundancy adjacent area table；Finally, adjusting table using miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter In data, determine neighboring BS relationship and parameter adjustment work order, to realize the adjust automatically of adjacent area and parameter.

Wherein, according to cell longitude and latitude, deflection, lobe width, radius of society, determine that minizone is total to coverage height, Adjacent area table is covered altogether to generate；It is counted according to the performance of handoffs of 3G-2G, generates performance of handoffs and count adjacent area table, it is adjacent to determine The superiority and inferiority in area；It according to TD-MR measurement data, generates MR and measures adjacent area table, to determine the adjacent area 2G in 3G cell coverage area Superiority and inferiority；Adjacent area table is measured according to total covering adjacent area table, performance of handoffs statistics adjacent area table, MR, miss-configured neighboring cells table is generated and redundancy is adjacent Area's table determines the superiority and inferiority of existing adjacent area and the superiority and inferiority of non-matched adjacent zone；According to 2G cell and the OMC performance statistic of 3G cell, It generates 2/3G neighboring interval busy and judges table, to determine that the busy of 2/3G neighboring interval matches size；Sentenced according to 2/3G neighboring interval busy The setting of parameter in disconnected table and network, generates 2/3G cell reselection and handoff parameter adjusts table, to determine that 2G or 3G cell needs to adjust Whole parameter and adjusting step；After above-mentioned analysis, according to miss-configured neighboring cells table and redundancy adjacent area table, 2/3G cell reselection and cut Change parameter adjustment table, determine neighboring BS relationship and parameter adjustment work order, by neighboring BS relationship and parameter adjustment work order be handed down to BSC and RNC implements to optimize and revise, and to realize the automatic regulating function of adjacent area and parameter, improves Neighborhood Optimization accuracy, contracting to reach The purpose of short optimizing cycle；It can be reached by 2/3G cell reselection and handoff parameter adjustment table, adjacent area and parameter automatic regulating function To the purpose for effectively adjusting, being promoted resource balancing degree between 2/3G network system in real time.

Information processing method provided in an embodiment of the present invention acquires the related data in mutual operation network；Utilize the phase It closes data generation minizone and is total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table, cell reselection and switching ginseng Number adjustment table；Using the minizone be total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table in data, Generate miss-configured neighboring cells table and redundancy adjacent area table；According to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter Adjust table data, determine neighboring BS relationship and parameter adjustment work order, and be issued to respectively the first network the first network element and Second network element of second network carries out the adjustment of corresponding adjacent area and parameter, in this way, adjacent area and parameter can be realized automatically Adjustment improves accuracy, the timeliness to interoperate between network.Simultaneously, moreover it is possible to which the resource promoted between network in inter-operation system is equal Weighing apparatus degree.

Embodiment two

The method of embodiment to realize the present invention, the present embodiment provides a kind of information processing units, are suitable between network mutually Operating system, as shown in figure 3, the device includes: acquisition unit 31, the first generation unit 32, the second generation unit 33, third life At unit 34, the 4th generation unit 35, the 5th generation unit 36, determination unit 37 and issuance unit 38；Wherein,

The acquisition unit 31, for acquiring the related data in mutual operation network；The related data includes: the first net The engineering parameter of network and the second network, the MR data of the second network switching to first network, first network and the second network cell OMC performance statistic and first network and the second network cell parameter information；The network performance of second network is better than The network performance of first network；

First generation unit 32 generates minizone and is total to covering relation table for utilizing the engineering parameter；It is described small Section is total to covering relation table and characterizes at a distance from the first network cell covers altogether between second network cell；

Second generation unit 33, for using the performance of handoffs data in the OMC performance statistic, generation to be cut Change performance statistics adjacent area table；Table characterization in the performance of handoffs adjacent area switches to corresponding described first from second network cell Switching times, switching proportion and handover success rate when network neighbor；

The third generation unit 34 generates MR and measures adjacent area table for utilizing the MR data；The MR measures adjacent area Table characterizes the signal strength of second network cell Yu the first network adjacent area；

4th generation unit 35, for using the minizone be total to covering relation table, performance of handoffs count adjacent area table, MR measures the data in the table of adjacent area, generates miss-configured neighboring cells table and redundancy adjacent area table；

5th generation unit 36 generates small for the parameter information using the OMC performance statistic and cell Area's gravity treatment and handoff parameter adjust table；The tune of the cell reselection and handoff parameter adjustment table characterization different network system adjacent cell parameter Perfect square to and adjusting step；

The determination unit 37, for according to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter The data for adjusting table determine neighboring BS relationship and parameter adjustment work order；

The issuing unit 38, for the neighboring BS relationship and parameter adjustment work order to be issued to the of the first network Second network element of one network element and second network carries out the adjustment of corresponding adjacent area and parameter, more network elements simultaneously or sequentially under Hair.

Wherein, when practical application, which can be located in network management net, can pass through acquisition server, storage Server, strategic server, application server etc. are realized.

The network performance of second network refers to better than the network performance of first network: the power system capacity of the second network, Communication quality and message transmission rate are above power system capacity, communication quality and the message transmission rate of first network.

First generation unit 32, is specifically used for: utilizing cell longitude and latitude, the deflection, wave in the engineering parameter Valve width, radius of society, the total covering algorithm based on longitude and latitude and deflection generate the minizone and are total to covering relation table.

Second generation unit 33, is specifically used for: based on from second network cell to the first network adjacent area One day total handover request number, based on the handover request number from second network cell to first network list adjacent area Second network cell is accounted for the ratio of each adjacent area handover request number summation of the first network, generates the performance of handoffs Count adjacent area table.

Wherein, described one day total handover request number includes: that one day PS handover request number and one day CS switch The sum of request times.

It is described to account for second net from second network cell to the adjacent small handover request number of the first network list Network cell to each adjacent area handover request number summation of the first network ratio, for example for, it is assumed that the second network is 3G network, the first network is 2G network, then from second network cell to the switching Shen of first network list adjacent area Please number can be expressed as the handover request number of the mono- adjacent area 3G_1-2G_1；Second network cell is to the first network Each adjacent area handover request number summation can be expressed as 3G_1-2G_1+3G_1-2G_2+...+3G_1-2G_N；Here, 2G_1, 2G_2 ..., 2G_N indicate 3G_1 cell each adjacent area.

The third generation unit 34, is specifically used for: based on the second network cell average level described in the MR data And the first network cell average level, generate the MR measurement adjacent area table.

4th generation unit 35, may include: setup module, the first table generation module, the second table generation module, with And miss-configured neighboring cells table and redundancy adjacent area table generation module；Wherein,

In conjunction with the adjacent area logarithm threshold values of setting, miss-configured neighboring cells are determined from preparation miss-configured neighboring cells, and it is adjacent to generate the leakage Area's table；

5th generation unit 36 may include: busy-idle condition determining module, busy judgement table generation module and cell Gravity treatment and handoff parameter adjust table generation module；Wherein,

The busy-idle condition determining module is determined for the OMC performance statistic based on each cell of the first network The busy-idle condition of each cell of first network；And the OMC performance statistic based on each cell of the second network, determine institute State the busy-idle condition of each cell of the second network；

The busy judges table generation module, for the busy-idle condition and described second based on each cell of the first network The busy-idle condition of each cell of network generates the busy judgement table between the first network and second network neighbor；

The cell reselection and handoff parameter adjust table generation module, for judging table and setting based on the busy The first network/second network reselecting parameters and handoff parameter, determine the first network cell or described second The parameter and corresponding adjustment direction and step-length that network cell needs to adjust, to generate the cell reselection and handoff parameter adjustment Table.

First network element and second network element are the network element for being responsible for terminal access control.For example for, it is assumed that The first network is 2G network, and second network is 3G network, then first network element is BSC, and second network element is RNC。

When practical application, the issuing unit 38 simultaneously or sequentially can issue the neighboring BS relationship and parameter to each network element Adjust work order.

When practical application, the acquisition unit 31 can be by central processing unit (CPU, the Central in information processing unit Processing Unit), microprocessor (MCU, Micro Control Unit), digital signal processor (DSP, Digital Signal Processor) or programmable logic array (FPGA, Field-Programmable Gate Array) combination transmitting-receiving Machine is realized；First generation unit 32, the second generation unit 33, third generation unit 34, the 4th generation unit the 35, the 5th are raw At unit 36, determination unit 37: setup module, the first table generation module, the second table generation module, miss-configured neighboring cells table and redundancy Adjacent area table generation module, busy-idle condition determining module, busy judge table generation module and cell reselection and handoff parameter adjustment table Generation module can be realized by CPU, MCU, DSP or FPGA in information processing unit；The issuing unit 38 can be by information processing Transmitter in device is realized.

Information processing unit provided in an embodiment of the present invention, acquisition unit 31 acquire the related data in mutual operation network； First generation unit 32, the second generation unit 33, third generation unit 34, the 5th generation unit 36 are raw using the related data Covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table, cell reselection and handoff parameter adjustment are total at minizone Table；4th generation unit 35 is total to covering relation table, performance of handoffs statistics adjacent area table, MR using the minizone and measures in the table of adjacent area Data, generate miss-configured neighboring cells table and redundancy adjacent area table；Determination unit 37 is according to the miss-configured neighboring cells table, redundancy adjacent area table and small Area's gravity treatment and handoff parameter adjustment table data, determine neighboring BS relationship and parameter adjustment work order, and by issuance unit 38 respectively under Second network element of the first network element and second network that are sent to the first network carries out the adjustment of corresponding adjacent area and parameter, In this way, the adjustment of adjacent area and parameter can be realized automatically, accuracy, the timeliness to interoperate between network is improved.Simultaneously, moreover it is possible to be promoted Resource balancing degree between network in inter-operation system.

It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, system or computer program Product.Therefore, the shape of hardware embodiment, software implementation or embodiment combining software and hardware aspects can be used in the present invention Formula.Moreover, the present invention, which can be used, can use storage in the computer that one or more wherein includes computer usable program code The form for the computer program product implemented on medium (including but not limited to magnetic disk storage and optical memory etc.).

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims

1. a kind of information processing method, which is characterized in that the described method includes:

Acquire the related data in mutual operation network；

Using the engineering parameter in the related data, generates minizone and be total to covering relation table；Utilize OMC in the related data Performance of handoffs data in performance statistic generate performance of handoffs and count adjacent area table；Utilize the MR number in the related data According to generation MR measures adjacent area table；Covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area are total to using the minizone Data in table generate miss-configured neighboring cells table and redundancy adjacent area table；And believed using the parameter of the OMC performance statistic and cell Breath, generates cell reselection and handoff parameter adjusts table；

According to the data of the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter adjustment table, determine that adjacent area is closed System and parameter adjust work order, and the second network element of the first network element and the second network for being issued to first network respectively carries out accordingly The adjustment of adjacent area and parameter；First network element and second network element are the network element for being responsible for terminal access control；

Wherein, it is described using the minizone be total to covering relation table, performance of handoffs statistics adjacent area table, MR measurement adjacent area table in number According to generation miss-configured neighboring cells table and redundancy adjacent area table, comprising:

It is total to the total coverage distance in covering relation table based on the minizone, setting covers the first weight of adjacent area altogether；Based on institute Second network in performance of handoffs statistics adjacent area table is stated to the handover request number of the first network and described second Switching accounting of the network to the first network, the second weight of setting performance of handoffs statistics adjacent area；It is measured based on the MR adjacent The first network carrier wave transmission power in area's table, the third weight of setting MR measurement statistics adjacent area；

Being total to the second network cell and the first network cell in covering relation table with the minizone is index, by the cell Between corresponding first weight, the second weight and the summation of third weight in covering relation table altogether, obtain the 4th weight, and generate Include second network cell, first network cell, altogether the first table of coverage distance and the 4th weight；With the performance of handoffs Counting the second network cell and the first network cell in the table of adjacent area is index, and the performance of handoffs is counted right in the table of adjacent area The first weight, the second weight and the summation of third weight answered, obtain the 5th weight, and generate small comprising second network Area, first network cell, second network to the first network handover request number, switching accounting and the 5th weight the Two tables；

On the basis of second network cell, based on the 4th weight between each adjacent area pair in first table and second table and 5th weight generates miss-configured neighboring cells table and redundancy adjacent area table.

2. the method according to claim 1, wherein the engineering parameter using in the related data, raw Covering relation table is total at minizone, comprising:

Using cell longitude and latitude, deflection, lobe width, the radius of society in the engineering parameter, it is based on longitude and latitude and direction The total covering algorithm at angle generates the minizone and is total to covering relation table.

3. the method according to claim 1, wherein the OMC performance statistics using in the related data Performance of handoffs data in data generate performance of handoffs and count adjacent area table, comprising:

Based on from second network cell to the one day total handover request number in the first network adjacent area, based on from described the The handover request number of two network cells to first network list adjacent area accounts for second network cell to the first network The ratio of each adjacent area handover request number summation generates the performance of handoffs statistics adjacent area table.

4. the method according to claim 1, wherein the MR data using in the related data, generate MR measures adjacent area table, comprising:

Based on the second network cell average level described in the MR data and the first network cell average level, institute is generated State MR measurement adjacent area table.

5. the method according to claim 1, wherein it is described be based on the 4th weight and the 5th weight, Miss-configured neighboring cells table and redundancy adjacent area table are generated, specifically:

4th weight, which is greater than in the 5th weight and network, is not configured adjacent area, then corresponding adjacent area is to adjacent to prepare leakage Area；Alternatively, the 4th weight be less than or equal to the 5th weight, then corresponding adjacent area to for prepare redundancy adjacent area；

In conjunction with the adjacent area logarithm threshold values of setting, miss-configured neighboring cells are determined from preparation miss-configured neighboring cells, and generate the miss-configured neighboring cells table； In conjunction with the adjacent area logarithm threshold values, redundancy adjacent area is determined from preparation redundancy adjacent area, and generates redundancy adjacent area table.

6. the method according to claim 1, wherein described using the OMC performance statistic and cell Parameter information, generates cell reselection and handoff parameter adjusts table, comprising:

Based on the OMC performance statistic of each cell of the first network, the busy-idle condition of each cell of the first network is determined； And the OMC performance statistic based on each cell of the second network, determine the busy-idle condition of each cell of the second network；

The busy-idle condition of busy-idle condition and each cell of the second network based on each cell of the first network generates described the Busy between one network and second network neighbor judges table；

The first network/second network the reselecting parameters and switching ginseng of table and setting are judged based on the busy Number determines parameter and corresponding adjustment direction and step that the first network cell or second network cell need to adjust It is long, to generate the cell reselection and handoff parameter adjustment table.

7. a kind of information processing unit, which is characterized in that described device includes: acquisition unit, the first generation unit, the second generation Unit, third generation unit, the 4th generation unit, the 5th generation unit, determination unit and issuance unit；Wherein,

First generation unit, for generating minizone and being total to covering relation table using the engineering parameter in the related data；

Second generation unit, for utilizing the performance of handoffs data in OMC performance statistic in the related data, life Adjacent area table is counted at performance of handoffs；

4th generation unit, for being total to covering relation table using the minizone in the related data, performance of handoffs counts Data in adjacent area table, MR measurement adjacent area table, generate miss-configured neighboring cells table and redundancy adjacent area table；

5th generation unit generates cell reselection for the parameter information using the OMC performance statistic and cell And handoff parameter adjusts table；

The determination unit, for adjusting table according to the miss-configured neighboring cells table, redundancy adjacent area table and cell reselection and handoff parameter Data, determine neighboring BS relationship and parameter adjustment work order；

The issuing unit, for the neighboring BS relationship and parameter adjustment work order to be issued to the first network element and the of first network Second network element of two networks carries out the adjustment of corresponding adjacent area and parameter；First network element and second network element are to be responsible for eventually Terminate the network element into control；

Wherein, the 4th generation unit includes:

Setup module, the total coverage distance for being total in covering relation table based on the minizone, setting cover the of adjacent area altogether One weight；Handover request number based on second network in performance of handoffs statistics adjacent area table to the first network And second network sets the second weight of performance of handoffs statistics adjacent area to the switching accounting of the first network；And base The first network carrier wave transmission power in MR measurement adjacent area table, the third weight of setting MR measurement statistics adjacent area；

First table generation module is small for being total to the second network cell and the first network in covering relation table with the minizone Area is index, and the minizone is total to corresponding first weight in covering relation table, the second weight and third weight and is summed, Obtain the 4th weight, and generate comprising second network cell, first network cell, altogether coverage distance and the 4th weight the One table；

Second table generation module, for small with the second network cell in performance of handoffs statistics adjacent area table and the first network Area is index, and the performance of handoffs is counted corresponding first weight, the second weight and third weight in the table of adjacent area and is summed, The 5th weight is obtained, and generating includes second network cell, first network cell, second network to first net Second table of network handover request number, switching accounting and the 5th weight；

Miss-configured neighboring cells table and redundancy adjacent area table generation module, for being based on described first on the basis of second network cell 4th weight and the 5th weight between each adjacent area pair in table and second table generate miss-configured neighboring cells table and redundancy adjacent area table.

8. device according to claim 7, which is characterized in that first generation unit is specifically used for: utilizing the work Cell longitude and latitude, deflection, lobe width, radius of society in journey parameter, the total covering algorithm based on longitude and latitude and deflection, It generates the minizone and is total to covering relation table.