CN105491598B - A kind of method and device that dual-mode base station neighboring BS information is shared - Google Patents
A kind of method and device that dual-mode base station neighboring BS information is shared Download PDFInfo
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- CN105491598B CN105491598B CN201510923667.3A CN201510923667A CN105491598B CN 105491598 B CN105491598 B CN 105491598B CN 201510923667 A CN201510923667 A CN 201510923667A CN 105491598 B CN105491598 B CN 105491598B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0055—Transmission or use of information for re-establishing the radio link
- H04W36/0061—Transmission or use of information for re-establishing the radio link of neighbour cell information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0083—Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
- H04W88/10—Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
Abstract
The present invention relates to the shared method and device in the communications field more particularly to a kind of dual-mode base station neighboring BS information, this method is that TDS base station module listens to acquisition 2G and 3G neighboring BS information and TDL base station module listens to and obtains 4G neighboring BS information, and is sent respectively to other side;After TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, the first neighboring BS information of itself is updated, and establish TDS cell;After TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, the second neighboring BS information of itself is updated, and establish TDL cell.In this way, TDS and TDL shares neighboring BS information, coordinate to use mutually, it is all developed without need for all multi-mode base stations and listens to related software and hardware, reduce resource cost, and all multi-mode base stations do not need to listen to all neighboring BS information, the foundation that can complete respective cell has shortened the station time.
Description
Technical field
The present invention relates to the shared method and devices in the communications field more particularly to a kind of dual-mode base station neighboring BS information.
Background technique
Small home base station (Home eNodeB), also known as Femto cell are known as " winged honeycomb " and " millimicro in China
Microcell " is at present the general designation for being different from the base station type of macro base station, is a kind of apply in family's indoor environment, working environment
With the base station equipment under other small-sized overlay environments, coverage area is small, is generally bought by user, for enhancing local covering,
Service is provided for specific user.Since small base station installation is simple, subenvironment covering, therefore can be provided for operator higher
Data rate, more inexpensive attractive business, small-sized femto cell also more and more attention has been paid to.
Currently, the neighbor cell configuration of small base station generally uses two ways: management station's configuration mode and itself eating dishes without rice or wine to listen to
Mode.But since small base station coverage area is smaller, the number for needing to arrange is more, in this way if configured by management station adjacent
Area, larger workload is very time-consuming, thus be usually used small base station eat dishes without rice or wine listen to mode, to automatically configure small base station
Adjacent area.
But some small base stations are due to hardware limitation, can not listen to adjacent area alone, and if increase hardware, then carry out
It, can be very time-consuming if hardware and software debugging.
Under the prior art, for TD SDMA (Time Division-Synchronous Code
Division Multiple Access, TDS) and time-division long term evolution (Time Division Long Term
Evolution, TDL) dual-mode base station, TDS and TDL can only respectively listen to respective adjacent area.
It can be seen that in dual-mode base station, the adjacent area of other side can not be obtained mutually under the prior art, in this way, being directed to every kind of mould
Formula base station, TDS and TDL must have the hardware for having and listening to the adjacent area 2G, 3G, 4G, it is necessary to develop hardware, then newly-increased software
Process can just obtain the neighboring BS information of itself, and if so, the base station of every side is required by GSM, TDS, TDL
It listens to obtain adjacent area, it is longer to play the station time.
Summary of the invention
The embodiment of the present invention provides a kind of method and device that dual-mode base station neighboring BS information is shared, to solve in the prior art
Dual-mode base station cannot share adjacent area, and each standard is caused to require to develop corresponding hardware and software to obtain adjacent area, to increase
Add debug time, and plays the problem of station time length.
Specific technical solution provided in an embodiment of the present invention is as follows:
A kind of method that dual-mode base station neighboring BS information is shared, comprising:
TDS base station module is listened to by first obtains 2G and 3G neighboring BS information, and above-mentioned 2G and 3G neighboring BS information is sent
Give TDL base station module;
TDL base station module listens to by second and obtains 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent to the base station TDS
Module;
TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and according to above-mentioned 4G neighboring BS information,
The first neighboring BS information of itself is updated, and TDS cell is established according to updated first neighboring BS information;
TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and adjacent according to above-mentioned 2G and 3G
Area's information updates the second neighboring BS information of itself, and establishes TDL cell according to updated second neighboring BS information.
In the embodiment of the present invention, TDS base station module listens to by first and obtains 2G and 3G neighboring BS information, and by above-mentioned 2G and
3G neighboring BS information is sent to TDL base station module;TDL base station module listens to by second and obtains 4G neighboring BS information, and by 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 is sent, and root
According to above-mentioned 4G neighboring BS information, the first neighboring BS information of itself is updated, and according to updated first neighboring BS information to establish TDS small
Area;TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and is believed according to the above-mentioned adjacent area 2G and 3G
Breath, updates the second neighboring BS information of itself, and establish TDL cell according to updated second neighboring BS information.In this way, TDS and
TDL shares neighboring BS information, coordinates to use mutually, all develops without need for all multi-mode base stations and listen to related software and hardware, reduces
Resource cost, and all multi-mode base stations do not need to listen to all neighboring BS information, so that it may the foundation of respective cell is completed, is shortened
Play station time.
Preferably, further comprising:
TDS base station module by system message by the first neighboring BS information, each user terminal being sent in TDS cell,
And TDL base station module passes through system message for the second neighboring BS information, each user terminal being sent in TDL cell.
Preferably, further comprising:
When TDS base station module determines that 2G the and 3G neighboring BS information obtained changes, with the changed adjacent area 2G and 3G
Itself above-mentioned the first neighboring BS information of information update, and above-mentioned changed 2G and 3G neighboring BS information is sent to the base station TDL
Module.
Preferably, further comprising:
When TDL base station module determines that the 4G neighboring BS information obtained changes, updated with changed 4G neighboring BS information
Itself above-mentioned the second neighboring BS information, and above-mentioned changed 4G neighboring BS information is sent to TDS base station module.
Preferably, TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and adjacent according to above-mentioned 4G
Area's information updates the first neighboring BS information of itself, specifically includes:
TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and the above-mentioned adjacent area 4G received is believed
Breath is ranked up from big to small according to Reference Signal Received Power RSRP, and it is corresponding that above-mentioned RSRP is greater than preset first threshold
4G neighboring BS information is written to the first neighboring BS information of itself, wherein the above-mentioned base station TDL is included at least in above-mentioned 4G neighboring BS information
The RSRP of each cell in module periphery.
Preferably, TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and according to above-mentioned
2G and 3G neighboring BS information updates the second neighboring BS information of itself, specifically includes:
TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, by the above-mentioned 3G received neighbour
Area's information is ranked up from big to small according to received signal code power RSCP, and above-mentioned RSCP is greater than to pair of preset second threshold
3G neighboring BS information and above-mentioned 2G neighboring BS information are answered, the second neighboring BS information of itself is written to, wherein above-mentioned 3G neighboring BS information
In include at least each cell in above-mentioned TDS base station module periphery RSCP.
A kind of device that dual-mode base station neighboring BS information is shared, comprising:
TDS base station module obtains 2G and 3G neighboring BS information for listening to by first, and by above-mentioned 2G and 3G neighboring BS information
It is sent to time-division long term evolution TDL base station module, and receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and according to
Above-mentioned 4G neighboring BS information updates the first neighboring BS information of itself, and according to updated first neighboring BS information to establish TDS small
Area;
TDL base station module obtains 4G neighboring BS information for listening to by second, and above-mentioned 4G neighboring BS information is sent to
TDS base station module, and the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent is received, and according to the above-mentioned adjacent area 2G and 3G
Information updates the second neighboring BS information of itself, and establishes TDL cell according to updated second neighboring BS information.
In the embodiment of the present invention, TDS base station module listens to by first and obtains 2G and 3G neighboring BS information, and by above-mentioned 2G and
3G neighboring BS information is sent to TDL base station module;TDL base station module listens to by second and obtains 4G neighboring BS information, and by 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 is sent, and root
According to above-mentioned 4G neighboring BS information, the first neighboring BS information of itself is updated, and according to updated first neighboring BS information to establish TDS small
Area;TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and is believed according to the above-mentioned adjacent area 2G and 3G
Breath, updates the second neighboring BS information of itself, and establish TDL cell according to updated second neighboring BS information.In this way, TDS and
TDL shares neighboring BS information, coordinates to use mutually, all develops without need for all multi-mode base stations and listen to related software and hardware, reduces
Resource cost, and all multi-mode base stations do not need to listen to all neighboring BS information, so that it may the foundation of respective cell is completed, is shortened
Play station time.
Preferably, TDS base station module is further used for:
By system message by the first neighboring BS information, each user terminal being sent in TDS cell, and, the base station TDL
Module is further used for, by system message by the second neighboring BS information, each user terminal for being sent in TDL cell.
Preferably, TDS base station module is further used for:
When determining that 2G the and 3G neighboring BS information obtained changes, updated with changed 2G and 3G neighboring BS information above-mentioned
The first neighboring BS information of itself, and above-mentioned changed 2G and 3G neighboring BS information is sent to TDL base station module.
Preferably, TDL base station module is further used for:
Determine the 4G neighboring BS information obtained when changing, with changed 4G neighboring BS information update it is above-mentioned itself the
Two neighboring BS information, and above-mentioned changed 4G neighboring BS information is sent to TDS base station module.
Preferably, receiving the above-mentioned 4G neighboring BS information that TDL base station module is sent, and according to above-mentioned 4G neighboring BS information, update
When the first neighboring BS information of itself, TDS base station module is specifically used for:
The above-mentioned 4G neighboring BS information that TDL base station module is sent is received, by the above-mentioned 4G neighboring BS information received according to reference
Signal reception power RSRP is ranked up from big to small, and above-mentioned RSRP is greater than the corresponding adjacent area 4G of preset first threshold and is believed
Breath, is written to the first neighboring BS information of itself, wherein above-mentioned TDL base station module periphery is included at least in above-mentioned 4G neighboring BS information
The RSRP of each cell.
Preferably, receiving the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and believe according to the above-mentioned adjacent area 2G and 3G
Breath, when updating the second neighboring BS information of itself, TDL base station module is specifically used for:
Receive TDS base station module send above-mentioned 2G and 3G neighboring BS information, by the above-mentioned 3G neighboring BS information received according to
Received signal code power RSCP is ranked up from big to small, and the adjacent area correspondence 3G for being greater than preset second threshold above-mentioned RSCP is believed
Breath and above-mentioned 2G neighboring BS information, are written to the second neighboring BS information of itself, wherein include at least in above-mentioned 3G neighboring BS information
The RSCP of each cell in above-mentioned TDS base station module periphery.
Detailed description of the invention
Fig. 1 is the general introduction flow chart of dual-mode base station neighboring BS information sharing method in the embodiment of the present invention;
Fig. 2 is the detail flowchart of dual-mode base station neighboring BS information sharing method in the embodiment of the present invention;
Fig. 3 is the structural schematic diagram of dual-mode base station neighboring BS information sharing means in the embodiment of the present invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, is not whole embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Adjacent area cannot be shared in order to solve dual-mode base station in the prior art, causes every kind of standard to require exploitation corresponding hard
Part 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 additional
Increase design of hardware and software, is based on existing hardware, the base station of every side eats dishes without rice or wine to listen to the neighboring BS information of itself, and sends by message
To other side, thus, each base station can obtain all neighboring BS information.
In embodiments of the present invention, for dual-mode base station be support the base station of TDS and TDL standard network simultaneously, and
Base station in inventive embodiments refers to small base station, also referred to as micro-base station, certainly, is not limited in the bimodulus base of TDS and TDL
It stands, for other dual-mode base stations, identical technical effect can also be reached using method of the invention.
As shown in fig.1, the detailed process of the shared method of dual-mode base station neighboring BS information is as follows in the embodiment of the present invention:
Step 100:TDS base station module listens to by first and obtains 2G and 3G neighboring BS information, and by the above-mentioned adjacent area 2G and 3G
Information is sent to TDL base station module.
In practice, each base station can listen to the neighboring BS information for obtaining itself by eating dishes without rice or wine, it is necessary to have accordingly
Hardware device, then being completed by the debugging of software and hardware just can be with, for example, the base station for obtaining 2G neighboring BS information can be listened to,
Then the base station must have the hardware device that can listen to 2G neighboring BS information.
Step 100 is executed, is specifically included:
Firstly, TDS base station module first listens to mode by eating dishes without rice or wine, 2G and 3G neighboring BS information is obtained.
Then, above-mentioned 2G and 3G neighboring BS information is preserved.
Finally, above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module by message by TDS base station module.Certainly,
Wherein, it for sending the mode of message, is not defined in the embodiment of the present invention.
Wherein, the 2G neighboring BS information that TDS base station module obtains includes at least following parameter: 2G frequency point (ARFCN), cell
ID (Cell ID), Location Area Code (Location Area Code, LAC), base station identity code (Base Station Identity
Code, BSIC), public land mobile network (Public Land Mobile Network, PLMN), bandwidth (BAND).
The 3G neighboring BS information that TDS base station module obtains includes at least following parameter: 3G frequency point (UARFCN), scrambling code (Cell
Parameter ID), received signal code power (Received Signal Code Power, RSCP).
Step 110:TDL base station module is listened to by second obtains 4G neighboring BS information, and above-mentioned 4G neighboring BS information is sent
Give TDS base station module.
The implementation procedure of step 110 and step 100 is substantially similar, TDL base station module by eat dishes without rice or wine second listen to obtain 4G
Neighboring BS information can equally preserve the 4G neighboring BS information, and by message, be sent to TDS base station module.
Wherein, the 4G neighboring BS information that TDL base station module obtains includes at least following parameter: 4G frequency point (EARFCN), cell
Physical label (Physical cell ID, PCI), BAND, Reference Signal Received Power (Reference signal
Received power, RSRP).
Step 120:TDS base station module receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and adjacent according to above-mentioned 4G
Area's information updates the first neighboring BS information of itself, and establishes TDS cell according to updated first neighboring BS information.
According to step 110, when TDL base station module sends message to TDS base station module, TDS base station module receives this and disappears
Breath, so that it may from the message, obtain 4G neighboring BS information and then update the first neighboring BS information of itself, preferably, the base station TDS
Module is ranked up from big to small by the 4G neighboring BS information of acquisition, according to RSRP, and RSRP is selected to be greater than preset first threshold pair
The 4G neighboring BS information answered, is written in the first neighboring BS information of itself.That is, the first neighboring BS information of TDS base station module,
Include not only 2G the and 3G neighboring BS information for itself listening to acquisition, further includes the 4G neighboring BS information obtained from TDL base station module, most
Afterwards, TDS is based on updated first neighboring BS information and establishes TDS cell.
Further, if the 4G neighboring BS information that TDL base station module obtains changes, TDS base station module can equally be given
Send message, TDS base station module can real-time update itself the first neighboring BS information.
Further, after TDS cell, which is established, to be completed, TDS base station module can send primary system information broadcast message,
That is, the first neighboring BS information is sent to each user terminal in TDS cell, in this way, each user terminal in TDS cell,
It can be switched over according to above-mentioned first neighboring BS information.
Step 130:TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and according to above-mentioned
2G and 3G neighboring BS information updates the second neighboring BS information of itself, and according to updated second neighboring BS information to establish TDL small
Area.
Similarly, the implementation procedure of step 130 and step 120 is substantially similar, according to the implementing result of step 100, TDS base
Module of standing sends messages to TDL base station module, after TDL base station module receives the message, so that it may therefrom obtain the adjacent area 2G and 3G
Information, and update the second neighboring BS information of itself, preferably, TDL base station module by the 3G neighboring BS information of acquisition according to RSCP from
Arrive greatly it is small be ranked up, by RSCP be greater than preset second threshold correspondence 3G neighboring BS information, and obtain 2G neighboring BS information,
It is written to the second neighboring BS information of itself, in this way, similarly, the second neighboring BS information of TDL base station module is not only detectd including itself
The 4G neighboring BS information for listening acquisition further includes 2G the and 3G neighboring BS information obtained from TDS base station module, finally, TDL is based on after updating
The second neighboring BS information establish TDL cell.
Further, if 3G the and 2G neighboring BS information that TDS base station module obtains changes, the base station TDL can equally be given
Module send message, TDL base station module can real-time update itself the second neighboring BS information.
Further, after TDL cell, which is established, to be completed, TDL base station module can also send the broadcast of primary system information and disappear
Breath, by the second neighboring BS information, each user terminal being sent in TDL cell, each user terminal in TDL cell, so that it may
To switch over according to above-mentioned second adjacent area message.
Further, if TDS base station module determine obtain 2G and 3G neighboring BS information change, update it is above-mentioned itself
The first neighboring BS information, and changed 2G and 3G neighboring BS information is sent to TDL base station module.
And if TDL base station module determines that the 4G neighboring BS information obtained changes, itself above-mentioned second adjacent is updated
Area's information, and changed 2G and 3G neighboring BS information is sent to TDS base station module.
In this way, there is no need to all carry out setting for the corresponding software and hardware of 2G, 3G, 4G for TDS base station module and TDL base station module
Meter is coordinated to use mutually, the resource for reducing debug time and using;And TDS base station module and TDL base station module do not need to detect
All 2G, 3G, 4G neighboring BS information are listened, TDS base station module need to only listen to 2G, 3G neighboring BS information, and TDL base station module need to only be detectd
Listen 4G neighboring BS information, so that it may establish respective cell, shorten the station time, improved base station efficiency.
Further description is made to above-described embodiment using a specific application scenarios below.Referring particularly to Fig. 2
Shown, in the embodiment of the present invention, the implementation procedure of dual-mode base station neighboring BS information sharing method is specific as follows:
Step 200:TDS, which is listened to, obtains 2G, 3G neighboring BS information.
Step 201:TDS saves above-mentioned 2G, 3G neighboring BS information.
Above-mentioned 2G, 3G neighboring BS information is sent to TDL by message by step 202:TDS.
Step 203:TDL, which is listened to, obtains 4G neighboring BS information.
Step 204:TDL saves above-mentioned 4G neighboring BS information.
Above-mentioned 4G neighboring BS information is sent to TDS by message by step 205:TDL.
Step 206:TDS receives the 4G neighboring BS information of TDL transmission, and above-mentioned 4G neighboring BS information is preserved, and updates
The neighboring BS information of itself.
Step 207:TDS establishes TDS cell according to itself neighboring BS information.
Step 208:TDS sends system information broadcast message, and neighboring BS information updated in step 206 is sent to TDS
Each user terminal in cell.
Step 209:TDL receives 2G, 3G neighboring BS information of TDS transmission, and will be under the preservation of above-mentioned 2G, 3G neighboring BS information
Come, updates the neighboring BS information of itself.
Step 210:TDL establishes TDL cell according to itself neighboring BS information.
Step 211:TDL sends system information broadcast message, and neighboring BS information updated in step 209 is sent to TDL
Each user terminal in cell.
Based on the above embodiment, as shown in fig.3, in the embodiment of the present invention, the shared device of dual-mode base station neighboring BS information,
It specifically includes:
TDS base station module 30 obtains 2G and 3G neighboring BS information for listening to by first, and the above-mentioned adjacent area 2G and 3G is believed
Breath is sent to time-division long term evolution TDL base station module, and receives the above-mentioned 4G neighboring BS information that TDL base station module is sent, and root
According to above-mentioned 4G neighboring BS information, the first neighboring BS information of itself is updated, and according to updated first neighboring BS information to establish TDS small
Area.
TDL base station module 31 obtains 4G neighboring BS information for listening to by second, and above-mentioned 4G neighboring BS information is sent to
TDS base station module, and the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent is received, and according to the above-mentioned adjacent area 2G and 3G
Information updates the second neighboring BS information of itself, and establishes TDL cell according to updated second neighboring BS information.
Preferably, TDS base station module 30 is further used for:
By system message by the first neighboring BS information, each user terminal being sent in TDS cell, and, the base station TDL
Module 31 is further used for, by system message by the second neighboring BS information, each user terminal for being sent in TDL cell.
Preferably, TDS base station module 30 is further used for:
When determining that 2G the and 3G neighboring BS information obtained changes, updated with changed 2G and 3G neighboring BS information above-mentioned
The first neighboring BS information of itself, and above-mentioned changed 2G and 3G neighboring BS information is sent to TDL base station module.
Preferably, TDL base station module 31 is further used for:
Determine the 4G neighboring BS information obtained when changing, with changed 4G neighboring BS information update it is above-mentioned itself the
Two neighboring BS information, and above-mentioned changed 4G neighboring BS information is sent to TDS base station module.
Preferably, receiving the above-mentioned 4G neighboring BS information that TDL base station module is sent, and according to above-mentioned 4G neighboring BS information, update
When the first neighboring BS information of itself, TDS base station module 30 is specifically used for:
The above-mentioned 4G neighboring BS information that TDL base station module 31 is sent is received, by the above-mentioned 4G neighboring BS information received according to ginseng
It examines signal reception power RSRP to be ranked up from big to small, above-mentioned RSRP is greater than the corresponding adjacent area 4G of preset first threshold and is believed
Breath, is written to the first neighboring BS information of itself, wherein includes at least above-mentioned TDL base station module 31 weeks in above-mentioned 4G neighboring BS information
The RSRP of each cell in side.
Preferably, receiving the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and believe according to the above-mentioned adjacent area 2G and 3G
Breath, when updating the second neighboring BS information of itself, TDL base station module 31 is specifically used for:
Receive TDS base station module 30 send above-mentioned 2G and 3G neighboring BS information, by the above-mentioned 3G neighboring BS information received by
It is ranked up from big to small according to received signal code power RSCP, above-mentioned RSCP is greater than to the adjacent area correspondence 3G of preset second threshold
Information and above-mentioned 2G neighboring BS information, are written to the second neighboring BS information of itself, wherein at least wrap in above-mentioned 3G neighboring BS information
Include the RSCP of each cell in above-mentioned 30 periphery of TDS base station module.
In conclusion TDS base station module is listened to by first obtains 2G and 3G neighboring BS information in the embodiment of the present invention, and
Above-mentioned 2G and 3G neighboring BS information is sent to TDL base station module;TDL base station module listens to by second and obtains 4G neighboring BS information,
And above-mentioned 4G neighboring BS information is sent to TDS base station module;It is adjacent that TDS base station module receives the above-mentioned 4G that TDL base station module is sent
Area's information, and according to above-mentioned 4G neighboring BS information, the first neighboring BS information of itself is updated, and believe according to updated first adjacent area
Breath establishes TDS cell;TDL base station module receives the above-mentioned 2G and 3G neighboring BS information that TDS base station module is sent, and according to above-mentioned 2G
With 3G neighboring BS information, the second neighboring BS information of itself is updated, and TDL cell is established according to updated second neighboring BS information.
In this way, TDS and TDL share neighboring BS information, mutually coordinate use, all develop without need for all multi-mode base stations listen to correlation it is soft
Hardware reduces resource cost, and all multi-mode base stations do not need to listen to all neighboring BS information, so that it may complete respective cell
It establishes, has shortened the station time.
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, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention
Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more,
The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces
The form of product.
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.
Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic
Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as
It selects embodiment and falls into all change and modification of the scope of the invention.
Obviously, those skilled in the art can carry out various modification and variations without departing from this hair to the embodiment of the present invention
The spirit and scope of bright embodiment.In this way, if these modifications and variations of the embodiment of the present invention belong to the claims in the present invention
And its within the scope of equivalent technologies, then the present invention is also intended to include these modifications and variations.
Claims (12)
1. a kind of shared method of dual-mode base station neighboring BS information characterized by comprising
TD SDMA TDS base station module listens to by first and obtains 2G and 3G neighboring BS information, and by the 2G and 3G
Neighboring BS information is sent to time-division long term evolution TDL base station module;
TDL base station module listens to by second and obtains 4G neighboring BS information, and the 4G neighboring BS information is sent to the base station TDS mould
Block;
TDS base station module receives the 4G neighboring BS information that TDL base station module is sent, and according to the 4G neighboring BS information, updates
The first neighboring BS information of itself, and TDS cell is established according to updated first neighboring BS information;
TDL base station module receives 2G the and 3G neighboring BS information that TDS base station module is sent, and is believed according to the adjacent area 2G and 3G
Breath, updates the second neighboring BS information of itself, and establish TDL cell according to updated second neighboring BS information.
2. the method as described in claim 1, which is characterized in that further comprise:
TDS base station module by system message by the first neighboring BS information, each user terminal being sent in TDS cell, and,
TDL base station module passes through system message for the second neighboring BS information, each user terminal being sent in TDL cell.
3. the method as described in claim 1, which is characterized in that further comprise:
When TDS base station module determines that 2G the and 3G neighboring BS information obtained changes, with changed 2G and 3G neighboring BS information
The first neighboring BS information of itself described in updating, and the changed 2G and 3G neighboring BS information is sent to TDL base station module.
4. the method as described in claim 1, which is characterized in that further comprise:
When TDL base station module determines that the 4G neighboring BS information obtained changes, described in the update of changed 4G neighboring BS information
The second neighboring BS information of itself, and the changed 4G neighboring BS information is sent to TDS base station module.
5. method according to any of claims 1-4, which is characterized in that TDS base station module receives TDL base station module and sends
The 4G neighboring BS information update the first neighboring BS information of itself, specifically include and according to the 4G neighboring BS information:
TDS base station module receive TDL base station module send the 4G neighboring BS information, by the 4G neighboring BS information received by
It is ranked up from big to small according to Reference Signal Received Power RSRP, it is adjacent that the RSRP is greater than the corresponding 4G of preset first threshold
Area's information is written to the first neighboring BS information of itself, wherein the TDL base station module is included at least in the 4G neighboring BS information
The RSRP of each cell in periphery.
6. method as claimed in claim 5, which is characterized in that TDL base station module receives the 2G that TDS base station module is sent
With 3G neighboring BS information the second neighboring BS information of itself is updated, is specifically included and according to 2G the and 3G neighboring BS information:
TDL base station module receives 2G the and 3G neighboring BS information that TDS base station module is sent, and the adjacent area 3G received is believed
Breath is ranked up from big to small according to received signal code power RSCP, and the RSCP is greater than to the correspondence 3G of preset second threshold
Neighboring BS information and the 2G neighboring BS information, are written to the second neighboring BS information of itself, wherein in the 3G neighboring BS information extremely
It less include the RSCP of each cell in TDS base station module periphery.
7. a kind of shared device of dual-mode base station neighboring BS information characterized by comprising
TDS base station module obtains 2G and 3G neighboring BS information for listening to by first, and 2G the and 3G neighboring BS information is sent
To time-division long term evolution TDL base station module, and the 4G neighboring BS information that TDL base station module is sent is received, and adjacent according to the 4G
Area's information updates the first neighboring BS information of itself, and establishes TDS cell according to updated first neighboring BS information;
TDL base station module obtains 4G neighboring BS information for listening to by second, and the 4G neighboring BS information is sent to TDS base
It stands module, and receives 2G the and 3G neighboring BS information that TDS base station module is sent, and according to 2G the and 3G neighboring BS information,
The second neighboring BS information of itself is updated, and TDL cell is established according to updated second neighboring BS information.
8. device as claimed in claim 7, which is characterized in that TDS base station module is further used for:
By system message by the first neighboring BS information, each user terminal being sent in TDS cell, and, TDL base station module
It is further used for, by system message by the second neighboring BS information, each user terminal for being sent in TDL cell.
9. device as claimed in claim 7, which is characterized in that TDS base station module is further used for:
Determine 2G the and 3G neighboring BS information obtained when changing, with changed 2G and 3G neighboring BS information update it is described itself
The first neighboring BS information, and the changed 2G and 3G neighboring BS information is sent to TDL base station module.
10. device as claimed in claim 7, which is characterized in that TDL base station module is further used for:
When determining that the 4G neighboring BS information obtained changes, itself second is adjacent described in the update of changed 4G neighboring BS information
Area's information, and the changed 4G neighboring BS information is sent to TDS base station module.
11. such as the described in any item devices of claim 7-10, which is characterized in that receive the 4G that TDL base station module is sent
Neighboring BS information, and according to the 4G neighboring BS information, when updating the first neighboring BS information of itself, TDS base station module is specifically used for:
The 4G neighboring BS information that TDL base station module is sent is received, by the 4G neighboring BS information received according to reference signal
It receives power RSRP to be ranked up from big to small, the RSRP is greater than the corresponding 4G neighboring BS information of preset first threshold, is write
Enter the first neighboring BS information to itself, wherein it is each small that TDL base station module periphery is included at least in the 4G neighboring BS information
The RSRP in area.
12. device as claimed in claim 11, which is characterized in that receive the adjacent area 2G and 3G that TDS base station module is sent
Information, and according to 2G the and 3G neighboring BS information, when updating the second neighboring BS information of itself, TDL base station module is specifically used for:
2G the and 3G neighboring BS information that TDS base station module is sent is received, by the 3G neighboring BS information received according to reception
Signal code power RSCP is ranked up from big to small, and the RSCP is greater than to the correspondence 3G neighboring BS information of preset second threshold,
And the 2G neighboring BS information, it is written to the second neighboring BS information of itself, wherein include at least in the 3G neighboring BS information described
The RSCP of each cell in TDS base station module periphery.
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103260268A (en) * | 2013-04-15 | 2013-08-21 | 美商威睿电通公司 | Mobile communication device suitable for multimode communication and integrated circuit thereof |
CN103945397A (en) * | 2014-04-02 | 2014-07-23 | 京信通信系统(中国)有限公司 | Method, device and system for scale networking adjacent region configuration |
CN104780547A (en) * | 2015-03-23 | 2015-07-15 | 京信通信技术(广州)有限公司 | Method and device for determining working frequency points of cells |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103260268A (en) * | 2013-04-15 | 2013-08-21 | 美商威睿电通公司 | Mobile communication device suitable for multimode communication and integrated circuit thereof |
CN103945397A (en) * | 2014-04-02 | 2014-07-23 | 京信通信系统(中国)有限公司 | Method, device and system for scale networking adjacent region configuration |
CN104780547A (en) * | 2015-03-23 | 2015-07-15 | 京信通信技术(广州)有限公司 | Method and device for determining working frequency points of cells |
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