CN102196491A - Mobile communication resource allocation method and base station equipment - Google Patents
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Abstract
The invention provides a mobile communication resource allocation method and base station equipment. The method comprises that: when a current cell and all neighbor cells thereof are administered by the same base station equipment (NodeB), the NodeB performs mobile communication resource allocation among the current cell and the neighbor cells thereof. The base station equipment comprises a cell identification module and a resource allocation module, wherein the cell identification module identifies whether the current cell and all the neighbor cells thereof are administered by the base station equipment or not; and the resource allocation module performs the mobile communication resource allocation among the current cell and the neighbor cells thereof if the cell identification module identifies that the current cell and all the neighbor cells thereof are administered by the base station equipment. By the method and the base station equipment, the accuracy and timeliness of the mobile communication resource allocation can be improved.
Description
Technical field
The present invention relates to the mobile communication technology field, relate in particular to a kind of mobile communication resources distribution method and base station equipment.
Background technology
Fig. 1 is that at present typical mobile communication system is formed schematic diagram.
As shown in Figure 1, a radio network controller (RNC) has a plurality of base stations (NB), is typically provided with a plurality of sub-districts under each NB.When distributing mobile communication resources in the minizone, each base station that need administer respective cell is measured the resource allocation information of respective cell respectively, then the resource allocation information that records is reported RNC, how to adjust the resource allocation conditions of each sub-district by the RNC judgement, and will adjust indication and be handed down to NB, carry out described adjustment indication by NB, to redistribute the mobile communication resources of each sub-district.
For example, when subscriber equipment (UE) need switch in the minizone, UE need measure the communication quality of each Target cell to be selected, then measurement report is reported NB, the measurement report that NB reports UE again reports RNC, and RNC rules out Target cell according to the measurement report of UE, issues the adjustment indication that UE is switched to this Target cell from the cell-of-origin to NB, NB adjusts indication according to this, and UE is switched to this Target cell from the cell-of-origin.
As seen from Figure 1, in the present mobile communication system, the mobile communication resources that is carried out all sub-districts by RNC distributes, and therefore, if adjust mobile communication resources in the minizone, then not only needs to communicate by letter between UE and NB, also needs to communicate between each NB and RNC.As seen, accuracy and promptness that the minizone mobile communication resources is adjusted depend on not only whether the mobile communication resources measurement result of each sub-district accurate, also depend between UE and NB and NB and RNC between the accuracy and the promptness of communicating by letter.UE and NB, and NB and RNC between the accuracy and the promptness of communicating by letter usually can be interfered, the influence of extraneous factor such as network interrupts and route is congested, the accuracy and the promptness that cause mobile communication resources to distribute are all lower.
Summary of the invention
In view of this, the invention provides a kind of mobile communication resources distribution method and base station equipment, to improve accuracy and the promptness that mobile communication resources distributes.
Technical scheme provided by the invention specifically is achieved in that
A kind of mobile communication resources distribution method, this method comprises:
When returning same base station node B administration in current area and all adjacent sub-districts thereof, between this current sub-district and adjacent sub-district thereof, carry out mobile communication resources by this NodeB and distribute.
A kind of base station equipment, this base station equipment comprises cell identification module and resource distribution module;
Whether described cell identification module, identification current area and all adjacent sub-districts thereof all return this base station equipment administration;
Described resource distribution module when cell identification module identifies current area and all adjacent sub-districts thereof and all returns this base station equipment administration, carries out mobile communication resources and distributes between this current sub-district and adjacent sub-district thereof.
As seen from the above technical solution, when the present invention returns the administration of same base station in current area and all adjacent sub-districts thereof, carrying out mobile communication resources by this base station between this current sub-district and adjacent sub-district thereof distributes, need not the base station mobile communication resources assignment information of current area and adjacent sub-district thereof is reported RNC, thereby avoided situation such as network interferences, network congestion between NodeB and RNC to the influence of mobile communication resources assignment information, also shorten communication path, thereby improved the accuracy and the promptness of mobile communication resources.
Description of drawings
Fig. 1 is a mobile communication resources distribution method flow chart provided by the invention.
Fig. 2 is a sub-district provided by the invention distribution schematic diagram.
Fig. 3 is UE provided by the invention switches to female sub-district from sub cell a method flow diagram.
Fig. 4 is UE provided by the invention switches to sub cell from female sub-district a method flow diagram.
Fig. 5 is the method flow diagram that female sub-district provided by the invention and sub cell carry out interference coordination.
Fig. 6 is the method flow diagram that female sub-district provided by the invention and sub cell carry out the diversity cooperation.
Fig. 7 is the method flow diagram that carries out service distributing provided by the invention.
Fig. 8 is a method flow diagram of admitting control provided by the invention.
Fig. 9 is a base station equipment structure chart provided by the invention.
Embodiment
Mobile communication resources distribution method provided by the invention when returning same NodeB administration in current area and all adjacent sub-districts thereof, is carried out mobile communication resources by this NodeB and is distributed between this current sub-district and adjacent sub-district thereof.
When returning plural NodeB administration in current area and all adjacent sub-districts thereof, can adopt method of the prior art to carry out mobile communication resources distributes, promptly report the mobile communication resources assignment information of this current sub-district or this current adjacent cells of cells by each NodeB to wireless network resource controller (RNC) respectively, between this current sub-district and adjacent sub-district thereof, carry out mobile communication resources by RNC and distribute.
Fig. 1 is a mobile communication resources distribution method flow chart provided by the invention.
As shown in Figure 1, this method comprises:
Current area in this step can be any one sub-district under the NodeB administration.
Referring to Fig. 2, Fig. 2 is a sub-district provided by the invention distribution schematic diagram.
Be example with Fig. 2 below, illustrate that how utilizing Fig. 1 method to carry out mobile communication resources distributes.
In the following example, all return this current sub-district of same NodeB administration to be called sub cell current area and all adjacent sub-districts thereof, the adjacent sub-district of this sub cell is called female sub-district.
Among Fig. 2, base station A has sub-district 1 and sub-district 2 under its command, and base station B has sub-district 3, sub-district 4, sub-district 5 and sub-district 6 under its command, and wherein, sub-district 1 is arranged in sub-district 2 fully, and the adjacent sub-district of sub-district 2 comprises sub-district 3, and the adjacent sub-district of sub-district 6 is sub-district 3, sub-district 4 and sub-district 5.
As seen, all adjacent sub-districts of sub-district 1 (being sub-district 2) all returns base station A administration among Fig. 2, base station B administration is all returned in the adjacent sub-district of all of sub-district 6 (being sub-district 3, sub-district 4 and sub-district 5), therefore sub-district 1 is a sub cell, sub-district 2 is female sub-districts of sub-district 1, sub-district 6 is sub cells, and sub-district 3, sub-district 4 and sub-district 5 are female sub-districts of sub-district 6.
Divide timing carrying out mobile communication resources, between sub cell 1 and female sub-district 2, carry out mobile communication resources by base station A and distribute, carrying out the mobile communication resources distribution between female sub-district 3 and the sub cell 6 or between female sub-district 4 and the sub cell 6 or between female sub-district 5 and the sub cell 6 by base station B.Because different base station administrations is returned with sub-district 3 in sub-district 2, therefore if between sub-district 2 and sub-district 3, carry out the mobile communication resources distribution, then need base station A and B respectively to the mobile communication resources assignment information of RNC reporting subdistrict 2 and sub-district 3, how between sub-district 2 and sub-district 3, to distribute mobile communication resources by the RNC judgement.
As seen, the present invention is by whole resources of sub-district, NodeB bearing part, this NodeB administration is all returned in the adjacent sub-district of all of this part sub-district, this part sub-district can be called sub cell, NodeB can dispose one or more sub cells, and all resources of carrying this sub cell, this sub cell should have semiclosed property, promptly only has minizone resource management such as switching to concern with same NodeB sub-district down.In this NodeB, can finish sub cell and communicate by letter,, therefore can improve the accuracy and the real-time of minizone resource management because NodeB does not need to communicate by letter with RNC with the whole of all adjacent sub-districts of this sub cell.
From user side, sub cell and common sub-district of the prior art are as broad as long; From network side, RNC can not the recognin sub-district, can only discern the sub-district except that sub cell, and common sub-district promptly of the prior art has only the NodeB of this sub cell of carrying can discern this sub cell.
Also there is difference the bearing mode of sub cell and communication mode and common sub-district of the prior art, and the bearing mode and the communication mode of sub cell are specific as follows:
Take out a part in the resource of NodeB common sub-district from prior art and be used for the carrier sub-district, for example, RNC has given common cell configuration of the prior art 2 carrier waves, then a carrier wave in these 2 carrier waves is only used in this common sub-district, and another carrier wave is used for the carrier sub-district.
With the communication mode of UE on, that sub cell uses is all different with any one common sub-district, independently cell parameter ID communicates by letter with UE.The information such as scrambler of cell parameter ID identifying cells wherein, the physical layer data of different scrambling codes are also different.
With the communication mode of network side on, NodeB adopts independently that cell parameter ID and frequency identify sub cell, utilize this independently cell parameter ID communicate by letter with this sub cell with frequency, for example, specific as follows to the process of this sub cell sending system broadcast:
Sub cell is sightless for RNC, the broadcast that RNC will carry the common sub-district of this sub cell is handed down to NodeB, NodeB is revised as carrier frequency and the cell parameter ID that this sub cell uses respectively with main carrier frequency in this broadcast and cell parameter ID, will broadcast in amended broadcast cell each sub cell under this NodeB then.
Wherein, the common sub-district that is used to carry this sub cell can be female sub-district of this sub cell, also can be any one the common sub-district that does not have neighbouring relations with this sub cell.
Mobile communication resources that the present invention mentions distributes can comprise multiple situation, and for example, UE is in the switching of minizone, the interference coordination of two above sub-districts, diversity cooperation, service distributing and admit judgement such as control.When all returning same NodeB administration in current area and all adjacent sub-districts thereof, distribute required information all in same NodeB owing to carry out mobile communication resources, NodeB and this current sub-district and adjacent sub-district thereof are carried out information interaction and RNC and current area and adjacent sub-district thereof and are carried out information interaction and compare more accurately and in time, therefore can improve accuracy and the promptness that mobile communication resources distributes.
For concrete example the method that NodeB carries out the mobile communication resources distribution is introduced below.
Fig. 3 is UE provided by the invention switches to female sub-district from sub cell a method flow diagram.
As shown in Figure 3, this method comprises:
Step 301, UE on sub cell to the NodeB reporting measurement reports.
UE in this step is a Serving cell with this sub cell, and the measurement report that reports is the measurement report that is used for switch decision, for example channel quality measurement report etc.
Step 302, NodeB carries out switch decision according to the measurement report that UE reports, if rule out UE is switched to its female sub-district, execution in step 303 from sub cell.
Step 303, NodeB stimulating food reason channel about sub cell is reshuffled signaling.
Step 304, UE reshuffles signaling according to physical channel and switches to female sub-district.
Fig. 4 is UE provided by the invention switches to sub cell from female sub-district a method flow diagram.
As shown in Figure 4, this method comprises:
Fig. 5 is the method flow diagram that female sub-district provided by the invention and sub cell carry out interference coordination.
As shown in Figure 5, this method comprises:
Step 501, NodeB measures respectively with the sub cell on sub cell or female sub-district to be the UE of Serving cell and to be the ascending power of the UE of Serving cell with female sub-district.
Step 502, NodeB judge with the sub cell be Serving cell UE power and with female sub-district be Serving cell UE power difference or the merchant less than predetermined value, the power that is the UE on sub cell and the female sub-district is approaching, NodeB according to the priority of UE to being the UE of Serving cell with the sub cell and being that the UE of Serving cell dispatches with female sub-district.
As seen, by Fig. 5, not only dispatch at the UE of self sub cell and female sub-district, and sub cell also dispatches the UE in female sub-district of this sub cell, and also dispatch the UE in the sub cell of this mother sub-district female sub-district.
Fig. 6 is the method flow diagram that female sub-district provided by the invention and sub cell carry out the diversity cooperation.
As shown in Figure 6, this method comprises:
By Fig. 6 method, can improve diversity gain, promptly improve the signal quality that NodeB issues and the UE signal quality of reception.
Fig. 7 is the method flow diagram that carries out service distributing provided by the invention.
As shown in Figure 7, this method comprises:
Step 701, NodeB judges does not have enough Radio Resources to be used for sending data, execution in step 702 to UE on sub cell or female sub-district.
Step 702, it can be this UE service that NodeB judges in that remaining Radio Resource be arranged on female sub-district of this sub cell or on should the sub cell of mother sub-district, execution in step 703.
Step 703, NodeB utilize this sub cell female sub-district or should the sub cell of mother sub-district on remaining Radio Resource be this UE service.
Fig. 8 is a method flow diagram of admitting control provided by the invention.
As shown in Figure 8, this method comprises:
Step 801 is the UE of Serving cell with the sub cell or be the UE access service on its Serving cell respectively of Serving cell with female sub-district.
For example, during beginning, UE inserts at sub cell, NodeB receives the access request of UE, finds the sub cell off-capacity, and this UE also is positioned at the coverage of female sub-district of this sub cell simultaneously, then NodeB judgement is diverted to female sub-district with this UE and inserts, particularly, NodeB sends physical channel reprovision signaling to this UE, and UE is linked into female sub-district according to this physical channel reprovision signaling.
The present invention also provides a kind of base station equipment, specifically sees also Fig. 9.
Fig. 9 is a base station equipment structure chart provided by the invention.
As shown in Figure 9, this base station equipment comprises cell identification module 901 and resource distribution module 902.
Whether cell identification module 901, identification current area and all adjacent sub-districts thereof all return this base station equipment administration.
The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being made, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.
Claims (14)
1. a mobile communication resources distribution method is characterized in that, this method comprises:
When returning same base station node B administration in current area and all adjacent sub-districts thereof, between this current sub-district and adjacent sub-district thereof, carry out mobile communication resources by this NodeB and distribute.
2. method according to claim 1 is characterized in that,
When returning plural NodeB administration in current area and all adjacent sub-districts thereof, report the mobile communication resources assignment information of this current sub-district or this current adjacent cells of cells by each NodeB to the wireless network resource controller (RNC) respectively, between this current sub-district and adjacent sub-district thereof, carry out mobile communication resources by RNC and distribute.
3. method according to claim 1 is characterized in that, describedly carries out mobile communication resources by this NodeB between this current sub-district and adjacent sub-district thereof and distributes and to comprise:
Whether between this current sub-district and this current adjacent cells of cells, switch by NodeB judgement user equipment (UE), and carry out the sub-district switching according to court verdict control UE.
4. method according to claim 3 is characterized in that, whether NodeB judgement user equipment (UE) switches between this current sub-district and this current adjacent cells of cells comprises:
To the NodeB reporting measurement reports, whether NodeB switches to this current adjacent cells of cells from this current sub-district according to this measurement report judgement UE with this current sub-district UE that is Serving cell.
5. method according to claim 3 is characterized in that, whether NodeB judgement user equipment (UE) switches between this current sub-district and this current adjacent cells of cells comprises:
The ascending power of the UE that it is Serving cell that NodeB measures with this current adjacent cells of cells respectively on this current sub-district and this neighbour sub-district, if be higher than the ascending power of this UE that records at the ascending power of this UE that records on this current sub-district on this neighbour sub-district, NodeB judges that this UE switches to this current sub-district from this neighbour sub-district.
6. method according to claim 1 is characterized in that, describedly carries out mobile communication resources by this NodeB between this current sub-district and adjacent sub-district thereof and distributes and to comprise:
First ascending power of the UE that it is Serving cell that NodeB measures with this current sub-district on this current sub-district or this current adjacent cells of cells and with second ascending power of this current adjacent cells of cells UE that is Serving cell, the difference of first ascending power and second ascending power or merchant during less than predetermined value, NodeB carries out the UE scheduling according to the priority of the UE that is Serving cell with this current sub-district with the priority of this current adjacent cells of cells UE that is Serving cell.
7. method according to claim 1 is characterized in that, describedly carries out mobile communication resources by this NodeB between this current sub-district and adjacent sub-district thereof and distributes and to comprise:
NodeB measures with this current sub-district on this current sub-district and this current adjacent cells of cells or should the neighbour sub-district be the ascending power of the UE of Serving cell, if all less than predetermined value, NodeB sends downlink data or receives upstream data from this UE to this UE on this current sub-district and this neighbour sub-district at the ascending power that records on this current sub-district and the ascending power that records on this current adjacent cells of cells.
8. method according to claim 1 is characterized in that, describedly carries out mobile communication resources by this NodeB between this current sub-district and adjacent sub-district thereof and distributes and to comprise:
If judging the Radio Resource of the Serving cell that is in the UE on this current sub-district and this intersection region, neighbour sub-district, NodeB can't satisfy the requirement that sends data to this UE, NodeB judges whether the sub-district except that the Serving cell of this UE has the residue Radio Resource in this current sub-district and this neighbour sub-district, if have, NodeB utilizes this surplus resources to send data to this UE.
9. method according to claim 1 is characterized in that, describedly carries out mobile communication resources by this NodeB between this current sub-district and adjacent sub-district thereof and distributes and to comprise:
UE this current sub-district or should the neighbour sub-district on during access service, think this UE service if NodeB judges the surplus resources deficiency that this UE attempts the sub-district of access service, this NodeB is linked into this UE in this current sub-district and this neighbour sub-district other sub-district.
10. according to claim 1 or the described method of 3 to 9 arbitrary claims, it is characterized in that,
Described current area is contained in the described adjacent sub-district fully.
11. a base station equipment is characterized in that this base station equipment comprises cell identification module and resource distribution module;
Whether described cell identification module, identification current area and all adjacent sub-districts thereof all return this base station equipment administration;
Described resource distribution module when cell identification module identifies current area and all adjacent sub-districts thereof and all returns this base station equipment administration, carries out mobile communication resources and distributes between this current sub-district and adjacent sub-district thereof.
12. base station equipment according to claim 11 is characterized in that,
Described resource distribution module, the ascending power of the UE that to measure with this current adjacent cells of cells respectively be Serving cell on this current sub-district and this neighbour sub-district, if be higher than the ascending power of this UE that on this neighbour sub-district, records at the ascending power of this UE that records on this current sub-district, judge that this UE switches to this current sub-district from this neighbour sub-district.
13. base station equipment according to claim 11 is characterized in that,
Described resource distribution module, first ascending power of the UE that to measure with this current sub-district on this current sub-district or this current adjacent cells of cells be Serving cell and with second ascending power of this current adjacent cells of cells UE that is Serving cell, the difference of first ascending power and second ascending power or merchant during less than predetermined value, NodeB carries out the UE scheduling according to the priority of the UE that is Serving cell with this current sub-district with the priority of this current adjacent cells of cells UE that is Serving cell.
14. base station equipment according to claim 11 is characterized in that,
Described resource distribution module, measurement is with this current sub-district or should the neighbour sub-district be the ascending power of the UE of Serving cell on this current sub-district and this current adjacent cells of cells, if all less than predetermined value, NodeB sends downlink data or receives upstream data from this UE to this UE on this current sub-district and this neighbour sub-district at the ascending power that records on this current sub-district and the ascending power that records on this current adjacent cells of cells.
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CN109417535A (en) * | 2016-01-11 | 2019-03-01 | 刘兴 | The connection control method of radio audio-visual data flow, equipment and system |
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Application publication date: 20110921 |