CN105491598A - Dual-mode eNode B adjacent zone information sharing method and apparatus - Google Patents

Abstract

The invention relates to the field of communication, and especially relates to a dual-mode eNode B adjacent zone information sharing method and apparatus. The method is as follows: a TDS eNode B module obtaining 2G and 3G adjacent zone information through interception and a TDL eNode B module obtaining 4G adjacent zone information through interception, and the TDS eNode B module and the TDL eNode B module respectively sending their respective intercepted information to each other; the TDS eNode B module, after receiving the 4G adjacent zone information sent by the TDL eNode B module, updating first adjacent zone information of its own and establishing a TDS cell; and the TDL eNode B module, after receiving the 2G adjacent zone information and 3G adjacent zone information which are sent by the TDS eNode B module, updating second adjacent zone information of its own and establishing a TDL cell. In such a way, TDS and TDL share adjacent zone information and are used in a mutually cooperating mode, interception correlation software and hardware do not have to be developed for eNode Bs of all modes, resource consumption is reduced, the eNode Bs of all the modes do not have to intercept all adjacent zone information, corresponding cells can be established, and the initial station time is shortened.

Description

A kind of method that dual-mode base station neighboring BS information is shared and device

Technical field

The present invention relates to the communications field, particularly relate to a kind of shared method of dual-mode base station neighboring BS information and device.

Background technology

Small home base station (HomeeNodeB), be also called Femtocell, be called " flying honeycomb " and " Femto cell " in China, at present for being different from the general designation of the base station type of macro base station, be a kind of base station equipment be applied under family room's environment, working environment and other small-sized overlay environments, its coverage is little, is generally bought by user, for strengthening local covering, for specific user provides service.Because small base station is installed simple, subenvironment covers, and therefore can provide the attractive business of more high data rate, more low cost for operator, small-sized femto cell also more and more receives publicity.

At present, the neighbor cell configuration of small base station is generally adopted in two ways: management station's configuration mode and self eat dishes without rice or wine to intercept mode.But because small base station coverage is less, need the number arranged more, if like this by management station configuring adjacent cell, workload is comparatively large, very time-consuming, thus be generally employing small base station eat dishes without rice or wine intercept mode, automatically configure the adjacent area of small base station.

But some small base station, due to hardware constraints, cannot intercept adjacent area alone, and if increase hardware, then carry out hardware and software debugging, can be very time-consuming.

Under prior art; for TD SDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess; and time-division Long Term Evolution (TimeDivisionLongTermEvolution TDS); TDL) dual-mode base station, TDS and TDL can only intercept respective adjacent area separately.

As can be seen here, under prior art, in dual-mode base station; the adjacent area of the other side cannot be obtained mutually, like this, for often kind of multi-mode base station; TDS and TDL must have the hardware possessing and intercept 2G, 3G, 4G adjacent area, just needs to develop hardware, more newly-increased software flow; just can obtain the neighboring BS information of self; and if so, the base station of every side all needs through GSM, TDS; TDL intercepts to obtain adjacent area, and a station time is longer.

Summary of the invention

A kind of method that the embodiment of the present invention provides dual-mode base station neighboring BS information to share and device; adjacent area can not be shared to solve dual-mode base station in prior art; cause each standard to need to develop corresponding hardware and software to obtain adjacent area, thus increase debug time, and play the problem of station time length.

The concrete technical scheme that the embodiment of the present invention provides is as follows:

The method that dual-mode base station neighboring BS information is shared, comprising:

TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module;

TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to TDS base station module;

TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading;

TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.

In the embodiment of the present invention, TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module; TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to TDS base station module; TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading; TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.Like this, TDS and TDL shares neighboring BS information, coordinates mutually to use, do not need all multi-mode base station are all developed to intercept relevant software and hardware, reduce resource cost, and all multi-mode base station do not need to intercept all neighboring BS information, just can complete the foundation of respective cell, shorten the station time.

Preferably, comprise further:

TDS base station module by the first neighboring BS information, sends to each user terminal in TDS community by system message, and TDL base station module by the second neighboring BS information, sends to each user terminal in TDL community by system message.

Preferably, comprise further:

TDS base station module determines that 2G and the 3G neighboring BS information obtained is when changing, and upgrades self the first neighboring BS information above-mentioned, and above-mentioned 2G and the 3G neighboring BS information changed is sent to TDL base station module with 2G and the 3G neighboring BS information changed.

Preferably, comprise further:

TDL base station module determines that the 4G neighboring BS information obtained is when changing, and upgrades self the second neighboring BS information above-mentioned, and the above-mentioned 4G neighboring BS information changed is sent to TDS base station module with the 4G neighboring BS information changed.

Preferably, TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, specifically comprise:

TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, the above-mentioned 4G neighboring BS information received is sorted from big to small according to Reference Signal Received Power RSRP, above-mentioned RSRP is greater than the 4G neighboring BS information that default first threshold is corresponding, be written to the first neighboring BS information of self, wherein, the RSRP of above-mentioned each community of TDL base station module periphery is at least comprised in above-mentioned 4G neighboring BS information.

Preferably, TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, specifically comprise:

TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, the above-mentioned 3G neighboring BS information received is sorted from big to small according to received signal code power RSCP, above-mentioned RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and above-mentioned 2G neighboring BS information, be written to the second neighboring BS information of self, wherein, the RSCP of above-mentioned each community of TDS base station module periphery is at least comprised in above-mentioned 3G neighboring BS information.

The device that dual-mode base station neighboring BS information is shared, comprising:

TDS base station module, 2G and 3G neighboring BS information is obtained for intercepting by first, and above-mentioned 2G and 3G neighboring BS information is sent to time-division Long Term Evolution TDL base station module, and receive the above-mentioned 4G neighboring BS information of TDL base station module transmission, and according to above-mentioned 4G neighboring BS information, upgrade the first neighboring BS information of self, and set up TDS community according to the first neighboring BS information after upgrading;

TDL base station module, 4G neighboring BS information is obtained for intercepting by second, and above-mentioned 4G neighboring BS information is sent to TDS base station module, and receive above-mentioned 2G and the 3G neighboring BS information of TDS base station module transmission, and according to above-mentioned 2G and 3G neighboring BS information, upgrade the second neighboring BS information of self, and set up TDL community according to the second neighboring BS information after upgrading.

In the embodiment of the present invention, TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module; TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to TDS base station module; TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading; TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.Like this, TDS and TDL shares neighboring BS information, coordinates mutually to use, do not need all multi-mode base station are all developed to intercept relevant software and hardware, reduce resource cost, and all multi-mode base station do not need to intercept all neighboring BS information, just can complete the foundation of respective cell, shorten the station time.

Preferably, TDS base station module is further used for:

By system message by the first neighboring BS information, send to each user terminal in TDS community, and TDL base station module is further used for, by system message by the second neighboring BS information, sends to each user terminal in TDL community.

Preferably, TDS base station module is further used for:

Determine that 2G and the 3G neighboring BS information obtained is when changing, upgrade self the first neighboring BS information above-mentioned with 2G and the 3G neighboring BS information changed, and above-mentioned 2G and the 3G neighboring BS information changed is sent to TDL base station module.

Preferably, TDL base station module is further used for:

Determine that the 4G neighboring BS information obtained is when changing, upgrade self the second neighboring BS information above-mentioned with the 4G neighboring BS information changed, and the above-mentioned 4G neighboring BS information changed is sent to TDS base station module.

Preferably, receive the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, when upgrading the first neighboring BS information of self, TDS base station module specifically for:

Receive the above-mentioned 4G neighboring BS information that TDL base station module sends, the above-mentioned 4G neighboring BS information received is sorted from big to small according to Reference Signal Received Power RSRP, above-mentioned RSRP is greater than the 4G neighboring BS information that default first threshold is corresponding, be written to the first neighboring BS information of self, wherein, the RSRP of above-mentioned each community of TDL base station module periphery is at least comprised in above-mentioned 4G neighboring BS information.

Preferably, receive above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, when upgrading the second neighboring BS information of self, TDL base station module specifically for:

Receive above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, the above-mentioned 3G neighboring BS information received is sorted from big to small according to received signal code power RSCP, above-mentioned RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and above-mentioned 2G neighboring BS information, be written to the second neighboring BS information of self, wherein, the RSCP of above-mentioned each community of TDS base station module periphery is at least comprised in above-mentioned 3G neighboring BS information.

Accompanying drawing explanation

Fig. 1 is the general introduction flow chart that in the embodiment of the present invention, dual-mode base station neighboring BS information shares method;

Fig. 2 is the detail flowchart that in the embodiment of the present invention, dual-mode base station neighboring BS information shares method;

Fig. 3 is the structural representation of dual-mode base station neighboring BS information sharing means in the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, is not whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Adjacent area can not be shared to solve dual-mode base station in prior art; cause often kind of standard all to need to develop corresponding hardware and software, increase debug time, and play the problem of station time length; in the embodiment of the present invention; for dual-mode base station, without the need to additionally increasing design of hardware and software, based on existing hardware; self neighboring BS information is eated dishes without rice or wine to intercept in the base station of every side; and send to the other side by message, thus each base station can obtain all neighboring BS information.

In embodiments of the present invention; for dual-mode base station be the base station simultaneously supporting TDS and TDL standard network; and the base station in the embodiment of the present invention refers to small base station; also referred to as micro-base station; certainly; be not limited in the dual-mode base station of TDS and TDL, for other dual-mode base station, also can reach identical technique effect to apply the method for the invention.

Consult shown in Fig. 1, in the embodiment of the present invention, the idiographic flow of the method that dual-mode base station neighboring BS information is shared is as follows:

Step 100:TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module.

In reality, the neighboring BS information obtaining self can be intercepted in each base station by eating dishes without rice or wine, but, corresponding hardware device must be had, then completed just passable by the debugging of software and hardware, such as, can intercept the base station obtaining 2G neighboring BS information, then must there be the hardware device can intercepting 2G neighboring BS information this base station.

Perform step 100, specifically comprise:

First, TDS base station module first intercepts mode by eating dishes without rice or wine, and obtains 2G and 3G neighboring BS information.

Then, above-mentioned 2G and 3G neighboring BS information is preserved.

Finally, above-mentioned 2G and 3G neighboring BS information, by message, is sent to TDL base station module by TDS base station module.Certainly, wherein, for the mode sending message, do not limit in the embodiment of the present invention.

Wherein, the 2G neighboring BS information that TDS base station module obtains, at least comprise following parameter: 2G frequency (ARFCN), community ID (CellID), Location Area Code (LocationAreaCode, LAC), base station identity code (BaseStationIdentityCode, BSIC), Public Land Mobile Nerwork (PublicLandMobileNetwork, PLMN), bandwidth (BAND).

The 3G neighboring BS information that TDS base station module obtains, at least comprises following parameter: 3G frequency (UARFCN), scrambler (CellParameterID), received signal code power (ReceivedSignalCodePower, RSCP).

Step 110:TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to TDS base station module.

The implementation of step 110 and step 100 is roughly similar, and TDL base station module second is intercepted by eating dishes without rice or wine and obtained 4G neighboring BS information, this 4G neighboring BS information can be preserved equally, and by message, send to TDS base station module.

Wherein, the 4G neighboring BS information that TDL base station module obtains, at least comprise following parameter: 4G frequency (EARFCN), physical cell identity (PhysicalcellID, PCI), BAND, Reference Signal Received Power (Referencesignalreceivedpower, RSRP).

Step 120:TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading.

According to step 110, when TDL base station module sends message to TDS base station module, TDS base station module receives this message, just can from this message, obtain 4G neighboring BS information, then, the first neighboring BS information of self is upgraded, preferably, the 4G neighboring BS information that TDS base station module will obtain, sort from big to small according to RSRP, select RSRP to be greater than 4G neighboring BS information corresponding to default first threshold, be written in the first neighboring BS information of self.That is, the first neighboring BS information of TDS base station module, not only comprises 2G and the 3G neighboring BS information of self intercepting acquisition, also comprises the 4G neighboring BS information obtained from TDL base station module, and finally, TDS sets up TDS community based on the first neighboring BS information after renewal.

Further, if the 4G neighboring BS information that TDL base station module obtains changes, send message can to equally TDS base station module, TDS base station module just can the first neighboring BS information of real-time update self.

Further, after TDS community has been set up, TDS base station module can send primary system information broadcast message, namely, first neighboring BS information is sent to each user terminal in TDS community, like this, each user terminal in TDS community, just according to above-mentioned first neighboring BS information, can switch.

Step 130:TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.

Similarly, the implementation of step 130 and step 120 is roughly similar, according to the execution result of step 100, TDS base station module sends message to TDL base station module, after TDL base station module receives this message, just can therefrom obtain 2G and 3G neighboring BS information, and upgrade the second neighboring BS information of self, preferably, the 3G neighboring BS information of acquisition sorts according to RSCP by TDL base station module from big to small, RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and the 2G neighboring BS information obtained, be written to the second neighboring BS information of self, like this, similarly, second neighboring BS information of TDL base station module, not only comprise the 4G neighboring BS information of self intercepting acquisition, also comprise 2G and the 3G neighboring BS information obtained from TDS base station module, finally, TDL sets up TDL community based on the second neighboring BS information after renewal.

Further, if 3G and the 2G neighboring BS information that TDS base station module obtains changes, send message can to equally TDL base station module, TDL base station module just can the second neighboring BS information of real-time update self.

Further, after TDL community has been set up, TDL base station module also can send primary system information broadcast message, by the second neighboring BS information, send to each user terminal in TDL community, each user terminal in TDL community, just according to above-mentioned second adjacent area message, can switch.

Further, if TDS base station module determines that 2G and the 3G neighboring BS information obtained changes, then upgrade self the first neighboring BS information above-mentioned, and 2G and the 3G neighboring BS information changed is sent to TDL base station module.

And, if TDL base station module determines that the 4G neighboring BS information obtained changes, then upgrade self the second neighboring BS information above-mentioned, and 2G and the 3G neighboring BS information changed is sent to TDS base station module.

Like this, just do not need design TDS base station module and TDL base station module all being carried out to the corresponding software and hardware of 2G, 3G, 4G, coordinate mutually to use, reduce the resource of debug time and use; And, TDS base station module and TDL base station module do not need to intercept all 2G, 3G, 4G neighboring BS information, TDS base station module only need intercept 2G, 3G neighboring BS information, and TDL base station module only need intercept 4G neighboring BS information, just can set up respective community, shorten the station time, improve base station efficiency.

The application scenarios that employing one is concrete below makes further description to above-described embodiment.Specifically consult shown in Fig. 2, in the embodiment of the present invention, the implementation that dual-mode base station neighboring BS information shares method is specific as follows:

Step 200:TDS intercepts and obtains 2G, 3G neighboring BS information.

Above-mentioned 2G, 3G neighboring BS information is preserved by step 201:TDS.

Above-mentioned 2G, 3G neighboring BS information, by message, is sent to TDL by step 202:TDS.

Step 203:TDL intercepts and obtains 4G neighboring BS information.

Above-mentioned 4G neighboring BS information is preserved by step 204:TDL.

Above-mentioned 4G neighboring BS information, by message, is sent to TDS by step 205:TDL.

Step 206:TDS receives the 4G neighboring BS information that TDL sends, and is preserved by above-mentioned 4G neighboring BS information, upgrades the neighboring BS information of self.

Step 207:TDS, according to the neighboring BS information of self, sets up TDS community.

Step 208:TDS transmitting system information broadcast message, sends to each user terminal in TDS community by the neighboring BS information after renewal in step 206.

Step 209:TDL receives 2G, 3G neighboring BS information that TDS sends, and is preserved by above-mentioned 2G, 3G neighboring BS information, upgrades the neighboring BS information of self.

Step 210:TDL, according to the neighboring BS information of self, sets up TDL community.

Step 211:TDL transmitting system information broadcast message, sends to each user terminal in TDL community by the neighboring BS information after renewal in step 209.

Based on above-described embodiment, consult shown in Fig. 3, in the embodiment of the present invention, the device that dual-mode base station neighboring BS information is shared, specifically comprises:

TDS base station module 30,2G and 3G neighboring BS information is obtained for intercepting by first, and above-mentioned 2G and 3G neighboring BS information is sent to time-division Long Term Evolution TDL base station module, and receive the above-mentioned 4G neighboring BS information of TDL base station module transmission, and according to above-mentioned 4G neighboring BS information, upgrade the first neighboring BS information of self, and set up TDS community according to the first neighboring BS information after upgrading.

TDL base station module 31,4G neighboring BS information is obtained for intercepting by second, and above-mentioned 4G neighboring BS information is sent to TDS base station module, and receive above-mentioned 2G and the 3G neighboring BS information of TDS base station module transmission, and according to above-mentioned 2G and 3G neighboring BS information, upgrade the second neighboring BS information of self, and set up TDL community according to the second neighboring BS information after upgrading.

Preferably, TDS base station module 30 is further used for:

By system message by the first neighboring BS information, send to each user terminal in TDS community, and TDL base station module 31 is further used for, by system message by the second neighboring BS information, sends to each user terminal in TDL community.

Preferably, TDS base station module 30 is further used for:

Determine that 2G and the 3G neighboring BS information obtained is when changing, upgrade self the first neighboring BS information above-mentioned with 2G and the 3G neighboring BS information changed, and above-mentioned 2G and the 3G neighboring BS information changed is sent to TDL base station module.

Preferably, TDL base station module 31 is further used for:

Determine that the 4G neighboring BS information obtained is when changing, upgrade self the second neighboring BS information above-mentioned with the 4G neighboring BS information changed, and the above-mentioned 4G neighboring BS information changed is sent to TDS base station module.

Preferably, receive the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, when upgrading the first neighboring BS information of self, TDS base station module 30 specifically for:

Receive the above-mentioned 4G neighboring BS information that TDL base station module 31 sends, the above-mentioned 4G neighboring BS information received is sorted from big to small according to Reference Signal Received Power RSRP, above-mentioned RSRP is greater than the 4G neighboring BS information that default first threshold is corresponding, be written to the first neighboring BS information of self, wherein, the RSRP of above-mentioned each community of TDL base station module 31 periphery is at least comprised in above-mentioned 4G neighboring BS information.

Preferably, receive above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, when upgrading the second neighboring BS information of self, TDL base station module 31 specifically for:

Receive above-mentioned 2G and the 3G neighboring BS information that TDS base station module 30 sends, the above-mentioned 3G neighboring BS information received is sorted from big to small according to received signal code power RSCP, above-mentioned RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and above-mentioned 2G neighboring BS information, be written to the second neighboring BS information of self, wherein, the RSCP of above-mentioned each community of TDS base station module 30 periphery is at least comprised in above-mentioned 3G neighboring BS information.

In sum, in the embodiment of the present invention, TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module; TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to TDS base station module; TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module sends, and according to above-mentioned 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading; TDL base station module receives above-mentioned 2G and the 3G neighboring BS information that TDS base station module sends, and according to above-mentioned 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.Like this, TDS and TDL shares neighboring BS information, coordinates mutually to use, do not need all multi-mode base station are all developed to intercept relevant software and hardware, reduce resource cost, and all multi-mode base station do not need to intercept all neighboring BS information, just can complete the foundation of respective cell, shorten the station time.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the embodiment of the present invention and not depart from the spirit and scope of the embodiment of the present invention.Like this, if these amendments of the embodiment of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (12)

1. the method that dual-mode base station neighboring BS information is shared, is characterized in that, comprising:

TD SDMA TDS base station module is intercepted by first and is obtained 2G and 3G neighboring BS information, and described 2G and 3G neighboring BS information is sent to time-division Long Term Evolution TDL base station module;

TDL base station module is intercepted by second and is obtained 4G neighboring BS information, and described 4G neighboring BS information is sent to TDS base station module;

TDS base station module receives the described 4G neighboring BS information that TDL base station module sends, and according to described 4G neighboring BS information, upgrades the first neighboring BS information of self, and sets up TDS community according to the first neighboring BS information after upgrading;

TDL base station module receives described 2G and the 3G neighboring BS information that TDS base station module sends, and according to described 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, and sets up TDL community according to the second neighboring BS information after upgrading.

2. the method for claim 1, is characterized in that, comprises further:

TDS base station module by the first neighboring BS information, sends to each user terminal in TDS community by system message, and TDL base station module by the second neighboring BS information, sends to each user terminal in TDL community by system message.

3. the method for claim 1, is characterized in that, comprises further:

TDS base station module determines that 2G and the 3G neighboring BS information obtained is when changing, and upgrades self the first neighboring BS information described, and described 2G and the 3G neighboring BS information changed is sent to TDL base station module with 2G and the 3G neighboring BS information changed.

4. the method for claim 1, is characterized in that, comprises further:

TDL base station module determines that the 4G neighboring BS information obtained is when changing, and upgrades self the second neighboring BS information described, and the described 4G neighboring BS information changed is sent to TDS base station module with the 4G neighboring BS information changed.

5. the method as described in any one of claim 1-4, is characterized in that, TDS base station module receives the described 4G neighboring BS information that TDL base station module sends, and according to described 4G neighboring BS information, upgrades the first neighboring BS information of self, specifically comprise:

TDS base station module receives the described 4G neighboring BS information that TDL base station module sends, the described 4G neighboring BS information received is sorted from big to small according to Reference Signal Received Power RSRP, described RSRP is greater than the 4G neighboring BS information that default first threshold is corresponding, be written to the first neighboring BS information of self, wherein, the RSRP of described each community of TDL base station module periphery is at least comprised in described 4G neighboring BS information.

6. method as claimed in claim 5, is characterized in that, TDL base station module receives described 2G and the 3G neighboring BS information that TDS base station module sends, and according to described 2G and 3G neighboring BS information, upgrades the second neighboring BS information of self, specifically comprise:

TDL base station module receives described 2G and the 3G neighboring BS information that TDS base station module sends, the described 3G neighboring BS information received is sorted from big to small according to received signal code power RSCP, described RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and described 2G neighboring BS information, be written to the second neighboring BS information of self, wherein, the RSCP of described each community of TDS base station module periphery is at least comprised in described 3G neighboring BS information.

7. the device that dual-mode base station neighboring BS information is shared, is characterized in that, comprising:

TDS base station module, 2G and 3G neighboring BS information is obtained for intercepting by first, and described 2G and 3G neighboring BS information is sent to time-division Long Term Evolution TDL base station module, and receive the described 4G neighboring BS information of TDL base station module transmission, and according to described 4G neighboring BS information, upgrade the first neighboring BS information of self, and set up TDS community according to the first neighboring BS information after upgrading;

TDL base station module, 4G neighboring BS information is obtained for intercepting by second, and described 4G neighboring BS information is sent to TDS base station module, and receive described 2G and the 3G neighboring BS information of TDS base station module transmission, and according to described 2G and 3G neighboring BS information, upgrade the second neighboring BS information of self, and set up TDL community according to the second neighboring BS information after upgrading.

8. device as claimed in claim 7, it is characterized in that, TDS base station module is further used for:

By system message by the first neighboring BS information, send to each user terminal in TDS community, and TDL base station module is further used for, by system message by the second neighboring BS information, sends to each user terminal in TDL community.

9. device as claimed in claim 7, it is characterized in that, TDS base station module is further used for:

Determine that 2G and the 3G neighboring BS information obtained is when changing, upgrade self the first neighboring BS information described with 2G and the 3G neighboring BS information changed, and described 2G and the 3G neighboring BS information changed is sent to TDL base station module.

10. device as claimed in claim 7, it is characterized in that, TDL base station module is further used for:

Determine that the 4G neighboring BS information obtained is when changing, upgrade self the second neighboring BS information described with the 4G neighboring BS information changed, and the described 4G neighboring BS information changed is sent to TDS base station module.

11. devices as described in any one of claim 7-10, is characterized in that, receive the described 4G neighboring BS information that TDL base station module sends, and according to described 4G neighboring BS information, when upgrading the first neighboring BS information of self, TDS base station module specifically for:

Receive the described 4G neighboring BS information that TDL base station module sends, the described 4G neighboring BS information received is sorted from big to small according to Reference Signal Received Power RSRP, described RSRP is greater than the 4G neighboring BS information that default first threshold is corresponding, be written to the first neighboring BS information of self, wherein, the RSRP of described each community of TDL base station module periphery is at least comprised in described 4G neighboring BS information.

12. devices as claimed in claim 11, is characterized in that, receive described 2G and the 3G neighboring BS information that TDS base station module sends, and according to described 2G and 3G neighboring BS information, when upgrading the second neighboring BS information of self, TDL base station module specifically for:

Receive described 2G and the 3G neighboring BS information that TDS base station module sends, the described 3G neighboring BS information received is sorted from big to small according to received signal code power RSCP, described RSCP is greater than the corresponding 3G neighboring BS information of default Second Threshold, and described 2G neighboring BS information, be written to the second neighboring BS information of self, wherein, the RSCP of described each community of TDS base station module periphery is at least comprised in described 3G neighboring BS information.