CN102076029B - A kind of descending resource allocation method, device, base station and system thereof - Google Patents
A kind of descending resource allocation method, device, base station and system thereof Download PDFInfo
- Publication number
- CN102076029B CN102076029B CN201110027583.3A CN201110027583A CN102076029B CN 102076029 B CN102076029 B CN 102076029B CN 201110027583 A CN201110027583 A CN 201110027583A CN 102076029 B CN102076029 B CN 102076029B
- Authority
- CN
- China
- Prior art keywords
- cell
- base station
- code channel
- scch
- scheduling
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The invention provides a kind of descending resource allocation method, said method comprising the steps of: step 1, base station reserved part HS-SCCH code channel; Be step 2, base station first to transmission HS-SCCH? the UE of order uses reserved HS-SCCH code channel to dispatch; Step 3, base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state; Step 4, last base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.The present invention also provides a kind of downlink resource distributor, base station and system thereof.Can the application of the invention, strengthen CELL_FACH state UE and HS-SCCH in guarantee? while order sending performance, improve the utilance of HS-PDSCH code channel resource, thus improve the throughput of CELL_DCH state UE.
Description
Technical field
The present invention relates to high-speed packet access evolution (HSPA+) mobile communication technology, refer to a kind of descending resource allocation method that in HSPA+ base station (NodeB) support to introduce during descending enhancing CELL_FACH and HS-SCCH order technology, device, base station and system thereof especially.
Background technology
3G (Third Generation) Moblie partner program (3GPP) descending introducing in HSPA+ evolution strengthens CELL_FACH, CPC (Continuous Packet Connectivity, continuity grouping connects), the technology such as E-SCC and DC-HSDPA, uply introduce DC-HSUPA technology etc.
After 3GPP R6 version introduces F-DPCH, wireless signaling carrying SRB will be sent by HS-DSCH, thus greatly reduce signalling time delay.Introduce in R7 and strengthen CELL_FACH technology, under making CELL_FACH state, UE can use HS-DSCH transmission channel, reduces signalling time delay and state transitions time delay.Meanwhile, the peak rate increased under CELL_FACH state, also will make to be similar to mail sending, and PTT etc. frequently parcel transmission business will not transfer to CELL_DCH state.Can find out, the UE being in the CELL_FACH state of enhancing due to data volume fewer, have HS-PDSCH code channel and the few feature of power resource consumption.For the UE be under CELL_DCH state, usually all require higher speed, therefore all larger to the consumption of HS-PDSCH code channel and power resource.
In 3GPP R7 and R8 standard, introduce CPC technology and E-SCC technology respectively.Enter fast to make UE and exit CPC state, introduce HS-SCCH order in Node B side, comprise and activating and the order of deexcitation and order that is actuator-activated to HS-SCCH-less and deexcitation with order, the descending DRX of deexcitation for up DTX activation.Serving cell changes in enhancing E-SCC and changes process success rate to improve Serving cell, introduces and sends HS-SCCH order in non-service cell, for the reliability of enhancement service cell changing procedure.
In addition, in multi-transceiver technology, DC-HSDPA is comprised, DB-DC-HSDPA, DC-HSUPA and 4C-HSDPA, have also been introduced the HS-SCCH order for auxiliary carrier activation and deexcitation, the auxiliary carrier wave of deexcitation is used for when UE data rate is lower, carries out power saving to UE.In addition, when UE up-link power is by limited time, if under UE is in auxiliary serving cell state of activation, also can by HS-SCCH order by the auxiliary carrier wave deexcitation of UE.
The UE sending data is needed to share HSDPA code channel resource (comprising HS-PDSCH and HS-SCCH) and power resource due to Enhanced CELL_FACH technology and various HS-SCCH order and under being in CELL_DCH state, if the resource of three can not be distributed well, then can not ensure to strengthen CELL_FACH state UE and HS-SCCH order sending performance, the utilance of HS-PDSCH code channel resource can be reduced simultaneously, thus reduce the throughput of CELL_DCH state UE.
Therefore be necessary to propose a kind of when NodeB supports enhancing CELL_FACH in HSPA+ and HS-SCCH order technology, when participating in scheduling to CELL_FACH state UE, HS-SCCH order and CELL_DCH state UE, how three carries out the method for Resourse Distribute.
Summary of the invention
The object of the present invention is to provide and a kind ofly support to carry out when the enhancing CELL_FACH in HSPA+ and HS-SCCH order technology the method for Resourse Distribute, device, base station and system thereof at NodeB, to improve the utilance of HS-PDSCH code channel resource while ensureing to strengthen CELL_FACH state UE and HS-SCCH order sending performance, thus improve the throughput of CELL_DCH state UE.
The invention provides a kind of descending resource allocation method, said method comprising the steps of:
Step 1, base station reserved part HS-SCCH code channel;
Step 2, base station first use reserved HS-SCCH code channel to dispatch to the UE sending HS-SCCH order;
Step 3, then base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state;
Step 4, last base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.
Further, in step 2, after the UE of HS-SCCH order has dispatched, as residue has HS-SCCH code channel, base station assigns has used to the UE of CELL_FACH state.
Further, in step 3, after the UE of CELL_FACH state has dispatched, as residue has HS-SCCH code channel, base station assigns has used to the UE of CELL_DCH state.
The invention provides another kind of descending resource allocation method, it is characterized in that, said method comprising the steps of:
Step 10, base station assigns are used for UE, CELL_FACH state UE of HS-SCCH order, the HS-SCCH code channel number of each self scheduling of CELL_DCH state UE;
Step 20, within dispatching cycle, base station first completes the UE scheduling to sending HS-SCCH order, and the residue HS-SCCH code channel number that will be used for the UE of HS-SCCH order dispatches cumulative use to CELL_FACH state UE;
Whether step 30, base station judgement can be used for CELL_FACH state UE scheduling HS-SCCH code channel number after adding up runs out, if do not run out, then base station completes the UE scheduling to being in CELL_FACH state, is used by the residue HS-SCCH code channel number being used for CELL_FACH state UE to the cumulative scheduling of CELL_DCH state UE is cumulative; Otherwise, go to step 40;
Step 40, judge that whether base station also has HS-PDSCH code channel resource and power resource residue, if had, base station completes the UE scheduling to being in CELL_DCH state, otherwise, go to step 20.
Further, described method also comprises step 50 further, whether continues scheduling, if so, then goes to step 20, otherwise, finishing scheduling.
Present invention also offers a kind of resource allocation device, described resource allocation device reserved part HS-SCCH code channel, and UE, CELL_FACH state UE and/or the CELL_DCH state UE that described reserved part HS-SCCH code channel are distributed to HS-SCCH order.
Present invention also offers a kind of base station, described base station comprises resource allocation device and scheduling unit, wherein, described resource allocation device reserved part HS-SCCH code channel, and UE, CELL_FACH state UE, the CELL_DCH state UE that described reserved part HS-SCCH code channel are distributed to HS-SCCH order; Described scheduling unit is dispatched for UE, CELL_FACH state UE, the CELL_DCH state UE completing HS-SCCH order.
Further, described scheduling unit first uses reserved HS-SCCH code channel to dispatch to the UE sending HS-SCCH order, then use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state, finally use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.
Present invention also offers a kind of downlink resource distribution system, described system comprises base station, resource allocation device, scheduling unit, judging unit, terminal (UE), wherein, described scheduling unit is connected with described base station, described resource allocation device, described judging unit, described terminal respectively; Wherein,
Described base station comprises HS-SCCH code channel, HS-PDSCH code channel resource and power resource, and above-mentioned Resourse Distribute is used for each self scheduling use of UE, CELL_FACH state UE, CELL_DCH state UE of HS-SCCH order by described resource allocation device;
Described judging unit judges whether code channel resource exhausts, and judged result is fed back to described scheduling unit;
UE, CELL_FACH state UE, CELL_DCH state UE that described scheduling unit completes HS-SCCH order respectively according to the judged result of judging unit dispatch.
Further, when carrying out Resourse Distribute, first scheduling unit completes the scheduling of the UE of HS-SCCH order, and the residue HS-SCCH code channel number being used for the UE of HS-SCCH order is distributed to CELL_FACH state UE and dispatched cumulative use by base station; Whether the HS-SCCH code channel number that can be used for CELL_FACH state UE scheduling after judging unit judgement is cumulative exhausts, and judged result is returned scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_FACH state according to judged result, and the residue HS-SCCH code channel number being used for CELL_FACH state UE is distributed to the cumulative use of the cumulative scheduling of CELL_DCH state UE by base station; Judging unit judges whether base station also has HS-PDSCH code channel resource and power resource residue again, and judged result is returned to scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_DCH state according to judged result.
Further, it is characterized in that, described resource allocation device is an independent functional module, or, be a functional module of described base station.Further,
Described scheduling unit is an independent functional module, or, be a functional module of described base station.
Further, described judging unit is an independent functional module, or, be a functional module of described base station.
The invention provides and a kind ofly support to carry out when the enhancing CELL_FACH in HSPA+ and HS-SCCHorder technology the method for Resourse Distribute, device, base station and system thereof at NodeB, pass through the present invention, can while guarantee strengthens CELL_FACH state UE and HS-SCCH order sending performance, improve the utilance of HS-PDSCH code channel resource, thus improve the throughput of CELL_DCH state UE.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide a further understanding of the present invention, forms a part of the present invention, and schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the present invention base station (NodeB) in HSPA+ when supporting descending enhancing CELL_FACH and HS-SCCH order technology, the flow chart of a kind of descending resource allocation method of introducing.
Fig. 2 is the flow chart of embodiments of the invention.
Fig. 3 is when in HSPA+ of the present invention, base station (NodeB) supports descending enhancing CELL_FACH and HS-SCCH order technology, the schematic diagram of a kind of downlink resource distribution system of introducing.
Embodiment
In order to make technical problem to be solved by this invention, technical scheme and beneficial effect clearly, understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
UE (user or the terminal) data rate strengthening CELL_FACH state is all lower, and the HS-PDSCH code channel resource of consumption and power resource are all fewer, takes the preferential strategy ensured; And the UE data rate of CELL_DCH state is usually all larger, HS-PDSCH code channel resource and the power resource of single UE consumption are just larger.Therefore, when CELL_FACH state UE and CELL_DCH state UE shares HSDPA resource based on code division multiplexing, be fully utilized to make HS-PDSCH code channel resource and power resource, while the preferential CELL_FACH of guarantee state UE dispatches, base station reserved part HS-SCCH code channel is used for CELL_DCH state UE to be dispatched, avoid the HS-PDSCH code channel that brings because CELL_FACH state UE occupies all HS-SCCH channels and the remaining phenomenon of power, cause community throughput to reduce.
When the HS-SCCH code channel that HS-SCCH order and data sharing are reserved, because HS-SCCHorder needs to send higher dispatching priority than data, also may exhaust due to HS-SCCH code channel, bring the situation that HS-PDSCH code channel resource is wasted.Therefore, the pre-assigned mode of HS-SCCH code channel is adopted for HS-SCCH order.
When dispatching, base station first to needing the UE sending HS-SCCH order to dispatch, and then is dispatched the UE being in CELL_FACH state, finally needs the UE sending data to dispatch to being in CELL_DCH state.When base station assigns has residue to the HS-SCCH code channel that HS-SCCH order sends, remaining HS-SCCH code channel is distributed to CELL_FACH state UE and is used by base station; After the UE under CELL_FACH state dispatches, when also having HS-SCCH surplus resources available, then base station sends the UE use of data under residue HS-SCCH code channel is distributed to CELL_DCH state.The UE of UE and the CELL_DCH state of CELL_FACH state shares HS-PDSCH code channel and power resource completely.
As shown in Figure 1, be the detail flowchart of descending resource allocation method of the present invention.When the enhancing CELL_FACH supported at base station (NodeB) in HSPA+ and HS-SCCH order technology, following method is adopted to carry out Resourse Distribute:
Step 10, NodeB divide the HS-SCCH code channel number being used in HS-SCCH order transmission to be R bar, the HS-SCCH code channel number used for CELL_FACH state UE is S bar, the HS-SCCH code channel number used for CELL_DCH state UE is T bar, wherein R+S+T <=4, R can not be set to 0, T can not be set to 0;
Step 20, within every 2ms dispatching cycle, first NodeB dispatches needing the UE sending HS-SCCH order, when scheduling completes, calculates and is used for HS-SCCH order to send the HS-SCCH code channel number consumed be R
0;
NodeB upgrades the HS-SCCH code channel number S that can be used for CELL_FACH state UE and dispatch
n=S+R-R
0;
Step 30, NodeB judge S
nwhether be 0 (running out), if S
nbe not that 0, NodeB dispatches the UE being in CELL_FACH state, when scheduling completes, calculating the code channel number being used for CELL_FACH state UE scheduling consumption is S
0, and upgrade the HS-SCCH code channel number T that can be used for CELL_DCH state UE and dispatch
n=T+S
n-S
0, go to step 40; If S
nbe 0, go to step 40;
Step 40, judge that whether NodeB also has HS-PDSCH code channel resource and power resource residue, if HS-PDSCH code channel and power resource have residue, NodeB completes scheduling to the UE being in CELL_DCH state, goes to step 50; If HS-PDSCH code channel and power resource do not remain, go to step 50;
Whether step 50, system also proceed scheduling, if so, go to step 20, otherwise system call terminate.
Below with a concrete example, method of the present invention is further described.
Fig. 2 is the present invention base station (NodeB) in HSPA+ when supporting descending enhancing CELL_FACH and HS-SCCH order technology, a kind of descending resource allocation method of introducing, and the inventive method mainly comprises the following steps:
Steps A, NodeB divide the HS-SCCH code channel number being used in HS-SCCH order transmission to be R=1 bar, set and be used for HS-SCCH code channel number that CELL_FACH state UE uses as S=1 bar, set the HS-SCCH code channel number that is used for CELL_DCH state UE use as T=1 bar;
Step B, within every 2ms dispatching cycle, first NodeB dispatches needing the UE sending HS-SCCH order, when scheduling completes, calculates and is used for HS-SCCH order to send the HS-SCCH code channel number consumed be R
0, only have 1 HS-SCCH order to send in the present embodiment, then R
0=1;
Step C, NodeB upgrade the HS-SCCH code channel number S that can be used for CELL_FACH state UE and dispatch
n=S+R-R
0, i.e. S
n=1+1-1=1;
Step D, NodeB judge S
nwhether be 0, if be not 0, perform step e, otherwise, go to step G;
Step e, NodeB dispatch the UE being in CELL_FACH state, and when scheduling completes, it is S that NodeB calculates the code channel number being used for CELL_FACH state UE scheduling consumption
0, do not have the UE of CELL_FACH state to be scheduled in the present embodiment, then S
0=0;
Step F, NodeB upgrade the HS-SCCH code channel number T that can be used for CELL_DCH state UE and dispatch
n=1+S
n-S
0, i.e. T
n=1+1-0=2;
Step G, judge that whether NodeB also has HS-PDSCH code channel resource and power resource residue, if HS-PDSCH code channel and power resource have residue, perform step H, otherwise, go to step I;
Step H, NodeB complete scheduling to the UE being in CELL_DCH state;
Whether step I, system also proceed scheduling, if so, go to step B, otherwise to step J;
Step J, system call terminate.
As shown in Figure 3, the present invention also provides a kind of downlink resource distribution system, this system comprises: base station, resource allocation device, scheduling unit, judging unit, terminal UE, wherein, described scheduling unit is connected with described base station, described resource allocation device, described judging unit, described terminal respectively, and described base station comprises HS-SCCH code channel, HS-PDSCH code channel resource and power resource, and terminal comprises UE, CELL_DCH state UE of UE, CELL_FACH state of HS-SCCH order, wherein
HS-SCCH code channel, HS-PDSCH code channel resource and power resource allocation are used to each self scheduling of UE, CELL_FACH state UE of HS-SCCH order, CELL_DCH state UE by described resource allocation device by base station;
Judging unit judges whether code channel resource exhausts, and judged result is fed back to scheduling unit;
Scheduling unit is within dispatching cycle, and UE, CELL_FACH state UE, the CELL_DCH state UE that complete HS-SCCH order according to judged result respectively dispatch.
When carrying out Resourse Distribute, HS-SCCH code channel divides each self scheduling of UE, CELL_FACH state UE, the CELL_DCH state UE that are used in HS-SCCH order to use by resource allocation device by base station; First scheduling unit completes the scheduling of the UE of HS-SCCH order, and the residue HS-SCCH code channel number being used for the UE of HS-SCCHorder is distributed to CELL_FACH state UE and dispatched cumulative use by base station; Whether the HS-SCCH code channel number that can be used for CELL_FACH state UE scheduling after judging unit judgement is cumulative exhausts, and no judged result is returned scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_FACH state according to judged result, and the residue HS-SCCH code channel number being used for CELL_FACH state UE is distributed to the cumulative use of the cumulative scheduling of CELL_DCH state UE by base station; Judging unit judges whether base station also has HS-PDSCH code channel resource and power resource residue again, and remaining judged result will be had to return to scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_DCH state according to judged result.
Further, described resource allocation device can be a functional module of described base station.
Further, described scheduling unit can be a functional module of described base station.
Further, described judging unit can be a functional module of described base station.
The present invention also provides a kind of base station, described base station comprises resource allocation device and scheduling unit, wherein, described resource allocation device reserved part HS-SCCH code channel, and UE, CELL_FACH state UE, the CELL_DCH state UE that described reserved part HS-SCCH code channel are distributed to HS-SCCH order; Described scheduling unit for completing the terminal (UE) of HS-SCCH order, CELL_FACH state UE, CELL_DCH state UE dispatch.
When UE, CELL_FACH state UE of HS-SCCH order and CELL_DCH state UE shares HS-PDSCH code channel resource based on code division multiplexing, described scheduling unit first uses reserved HS-SCCH code channel to dispatch to the UE sending HS-SCCHorder, then use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state, finally use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.
By the invention provides a kind of method and system of supporting to carry out when the enhancing CELL_FACH in HSPA+ and HS-SCCH order technology Resourse Distribute at NodeB, can while guarantee strengthens CELL_FACH state UE and HS-SCCH order sending performance, improve the utilance of HS-PDSCH code channel resource, thus improve the throughput of CELL_DCH state UE.
Above-mentioned explanation illustrate and describes a preferred embodiment of the present invention, but as previously mentioned, be to be understood that the present invention is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in invention contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from the spirit and scope of the present invention, then all should in the protection range of claims of the present invention.
Claims (10)
1. a descending resource allocation method, is characterized in that, said method comprising the steps of:
Step 1, base station reserved part HS-SCCH code channel;
Step 2, base station first use reserved HS-SCCH code channel to dispatch to the terminal UE sending HS-SCCH order;
Step 3, then base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state;
Step 4, last base station use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.
2. the method for claim 1, is characterized in that, in step 2, after the UE of HS-SCCHorder has dispatched, as residue has HS-SCCH code channel, base station assigns uses to the UE of CELL_FACH state.
3. method as claimed in claim 2, is characterized in that, in step 3, after the UE of CELL_FACH state has dispatched, as residue has HS-SCCH code channel, base station assigns uses to the UE of CELL_DCH state.
4. a descending resource allocation method, is characterized in that, said method comprising the steps of:
Step 10, base station assigns are used for the HS-SCCH code channel number of the terminal UE of HS-SCCH order, CELL_FACH state UE, each self scheduling of CELL_DCH state UE;
Step 20, within dispatching cycle, base station first completes the UE scheduling to sending HS-SCCH order, and the residue HS-SCCH code channel number that will be used for the UE of HS-SCCH order dispatches cumulative use to CELL_FACH state UE;
Whether step 30, base station judgement can be used for CELL_FACH state UE scheduling HS-SCCH code channel number after adding up runs out, if do not run out, then base station completes the UE scheduling to being in CELL_FACH state, and the residue HS-SCCH code channel number being used for CELL_FACH state UE is dispatched cumulative use to CELL_DCH state UE; Otherwise, go to step 40;
Step 40, judging that whether base station also has HS-PDSCH code channel resource and power resource residue, if had, completing the UE scheduling to being in CELL_DCH state, otherwise, go to step 20.
5. method as claimed in claim 4, is characterized in that, described method also comprises step 50 further, whether base station continue scheduling, if so, then go to step 20, otherwise, finishing scheduling.
6. a base station, it is characterized in that, described base station comprises resource allocation device and scheduling unit, wherein, described resource allocation device reserved part HS-SCCH code channel, and the terminal UE, CELL_FACH state UE, the CELL_DCH state UE that described reserved part HS-SCCH code channel are distributed to HS-SCCH order; Described scheduling unit for completing the terminal UE of HS-SCCH order, CELL_FACH state UE, CELL_DCH state UE dispatch;
Wherein, described scheduling unit first uses reserved HS-SCCH code channel to dispatch to the UE sending HS-SCCH order, then use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_FACH state, finally use remaining reserved HS-SCCH code channel to dispatch the UE being in CELL_DCH state.
7. a downlink resource distribution system, it is characterized in that, described system comprises base station, resource allocation device, scheduling unit, judging unit, terminal UE, and wherein, described scheduling unit is connected with described base station, described resource allocation device, described judging unit, described terminal respectively; Wherein,
Described base station comprises HS-SCCH code channel, HS-PDSCH code channel resource and power resource, and above-mentioned Resourse Distribute is used for each self scheduling use of UE, CELL_FACH state UE, CELL_DCH state UE of HS-SCCH order by described resource allocation device;
Described judging unit judges whether code channel resource exhausts, and judged result is fed back to described scheduling unit;
UE, CELL_FACH state UE, CELL_DCH state UE that described scheduling unit completes HS-SCCH order respectively according to the judged result of judging unit dispatch;
Wherein, when carrying out Resourse Distribute, first scheduling unit completes the scheduling of the UE of HS-SCCH order, and the residue HS-SCCH code channel number being used for the UE of HS-SCCH order is distributed to CELL_FACH state UE and dispatched cumulative use by base station; Whether the HS-SCCH code channel number that can be used for CELL_FACH state UE scheduling after judging unit judgement is cumulative exhausts, and judged result is returned scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_FACH state according to judged result, and the residue HS-SCCH code channel number being used for CELL_FACH state UE is distributed to CELL_DCH state UE and dispatched cumulative use by base station; Judging unit judges whether base station also has HS-PDSCH code channel resource and power resource residue again, and judged result is returned to scheduling unit; Scheduling unit completes the UE scheduling to being in CELL_DCH state according to judged result.
8. system as claimed in claim 7, it is characterized in that, described resource allocation device is an independent functional module, or, be a functional module of described base station.
9. system as claimed in claim 7, it is characterized in that, described scheduling unit is an independent functional module, or, be a functional module of described base station.
10. system as claimed in claim 7, it is characterized in that, described judging unit is an independent functional module, or, be a functional module of described base station.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110027583.3A CN102076029B (en) | 2011-01-26 | 2011-01-26 | A kind of descending resource allocation method, device, base station and system thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110027583.3A CN102076029B (en) | 2011-01-26 | 2011-01-26 | A kind of descending resource allocation method, device, base station and system thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102076029A CN102076029A (en) | 2011-05-25 |
| CN102076029B true CN102076029B (en) | 2015-10-28 |
Family
ID=44034335
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201110027583.3A Expired - Fee Related CN102076029B (en) | 2011-01-26 | 2011-01-26 | A kind of descending resource allocation method, device, base station and system thereof |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102076029B (en) |
Families Citing this family (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102882824B (en) * | 2011-07-13 | 2015-06-17 | 华为技术有限公司 | Multi-carrier configuration method and device |
| CN103139887B (en) * | 2011-12-02 | 2018-06-19 | 中兴通讯股份有限公司 | The power distribution method and system of High-Speed Shared Control Channel |
| CN104660385A (en) * | 2013-11-18 | 2015-05-27 | 马维尔国际有限公司 | Method and device of detecting high speed sharing control channel order in wideband code division multiple access system |
| EP3340704B1 (en) * | 2016-12-22 | 2020-06-10 | Volkswagen Aktiengesellschaft | Method for resource allocation in a mobile communication system and base station, and participant communication module for the use in the method |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101437290A (en) * | 2007-11-12 | 2009-05-20 | 华为技术有限公司 | Method and apparatus for using code channel resource |
| CN101662835A (en) * | 2009-09-29 | 2010-03-03 | 中兴通讯股份有限公司 | Dispatching method of HS-SCCH order and device thereof |
| CN101925138A (en) * | 2010-07-20 | 2010-12-22 | 中兴通讯股份有限公司 | Sending method of high-speed shared control channel command and node B |
-
2011
- 2011-01-26 CN CN201110027583.3A patent/CN102076029B/en not_active Expired - Fee Related
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101437290A (en) * | 2007-11-12 | 2009-05-20 | 华为技术有限公司 | Method and apparatus for using code channel resource |
| CN101662835A (en) * | 2009-09-29 | 2010-03-03 | 中兴通讯股份有限公司 | Dispatching method of HS-SCCH order and device thereof |
| CN101925138A (en) * | 2010-07-20 | 2010-12-22 | 中兴通讯股份有限公司 | Sending method of high-speed shared control channel command and node B |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102076029A (en) | 2011-05-25 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP4979092B2 (en) | Resource allocation method in wireless communication system | |
| CN101400188B (en) | Transmission method for high-speed downlink shared channel under non-CELL_DCH state | |
| US20090303939A1 (en) | Shared data channel assigning apparatus and shared data channel assigning method | |
| CN101127556B (en) | A dynamic scheduling method for carrier resource | |
| CN101843009B (en) | Method and device for scheduling resource between different tdd systems | |
| CN103621168A (en) | Downlink-data feedback information transmission method, terminal, and base station | |
| CN102076029B (en) | A kind of descending resource allocation method, device, base station and system thereof | |
| CN102104939A (en) | Communication method, equipment and system in power save mode | |
| CN101784117B (en) | Method, system and device for resource instruction and data transmission | |
| CN107852725B (en) | Method, device and equipment for allocating resources | |
| CN101938726B (en) | Uplink signaling transmission method and uplink resource allocation method | |
| CN113194434B (en) | Indication method and device for configuration information | |
| CN116671188A (en) | Discontinuous reception of side-chain communications | |
| CN101651848B (en) | DTX processing method and DRX processing method | |
| CN102215574A (en) | Configuration and application method of semicontinuous scheduling resource | |
| CN110557834B (en) | Data transmission method and communication device | |
| CN101998295A (en) | Resource indication method and equipment | |
| CN102255841B (en) | Broadcast Control Channel, data channel resource mapping method and device | |
| CN101931869A (en) | Transmitting and receiving method for dynamic scheduling information and related equipment thereof | |
| CN100450215C (en) | Method for grouping data channel adopted by indicating terminal transmitting data | |
| CN108235439B (en) | Wireless communication method, device and system | |
| CN102781045B (en) | Space division multiplexing method and device | |
| CN101389129B (en) | Dynamic sharing method for code channel resource | |
| CN102791028A (en) | Distributing method and distributing system of sharing resources | |
| CN102469594B (en) | Method for sharing timeslot by dedicated physical channel (DPCH) and enhanced physical uplink channel (EPUCH) |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20151028 Termination date: 20220126 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |