CN103780353B - The method and apparatus carried out data transmission in the mobile communication network - Google Patents
The method and apparatus carried out data transmission in the mobile communication network Download PDFInfo
- Publication number
- CN103780353B CN103780353B CN201410041294.2A CN201410041294A CN103780353B CN 103780353 B CN103780353 B CN 103780353B CN 201410041294 A CN201410041294 A CN 201410041294A CN 103780353 B CN103780353 B CN 103780353B
- Authority
- CN
- China
- Prior art keywords
- channel
- resource allocation
- multimedia
- dynamic resource
- transmission
- 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.)
- Active
Links
Abstract
The present invention relates to the method and apparatus carried out data transmission in the mobile communication network, including:The first Dynamic Resource Allocation for Multimedia is received on the first channel;Data are sent according to first Dynamic Resource Allocation for Multimedia;During the time for being scheduled to occur on a second channel for the confirmation of transmitted data or NACK, the priority activity confirmed than reception or NACK is preferential is participated in;The second Dynamic Resource Allocation for Multimedia is received on first channel, wherein second Dynamic Resource Allocation for Multimedia is used to refer to the re-transmission relevant with transmitted data or the transmission of new data including information.So as to which the base station expectability user equipment of long-term evolving network receives downlink information or the information transmitted in the uplink.
Description
The application is Application No. 200880127832.2, the applying date to be on January 4th, 2008, entitled " using
The divisional application of the application for a patent for invention of channel distribution during measurement gap with H-ARQ ".
Technical field
The exemplary and non-limiting example of the present invention relates generally to wireless communication system, method, equipment and calculating
Machine program product, and relate more specifically to the distribution of the automatic repeat request in dynamic dispatching environment.
Background technology
Here is some abbreviations used in the description of the invention:
3GPP third generation partner programs
CCE connection controlled entities
DL downlinks
ENB. evolved node B(The base station of LTE network)
E-UTRAN evolved universal terrestrial radios access network
FDD FDDs
H-ARQ mixed automatic repeat requests
LTE Long Term Evolutions(Also referred to as E-UTRAN or 3.9G)
PHICH physics H-ARQ indicator channels
PDCCH physical downlink control channels
PRB Physical Resource Block
TDD time division duplexs
TTI Transmission Time Intervals
UE user equipmenies
UL up-links
Related with these teachings is the H-ARQ behavior relevant with measurement gap.One of LTE principal character is quick mixed
Close automatic repeat request(H-ARQ)Use, the quick mixed automatic repeat request be used to increase spectrum efficiency.Dynamic is adjusted
Conventional H-ARQ the operations of degree uplink data are, for [in downlink control channel(PDCCH)On signal]
Each uplink resource license, there will be for positive acknowledgment(ACK)And NACK(NAK or NACK)Associated H-
ARQ feedback channel.In current agreement in 3 gpp,(Sent on PDCCH)The time of up-link license will with UE
Delay between the time of actual transmissions uplink data be present, and should be in PHICH to eNB(Physics H-ARQ instruction letters
Road)Another delay between upper transmission ACK/NACK time be present.Current hypothesis is:Dispatch delay will be 3ms(Add
The delay of physical signaling on PDCCH), and eNB processing times also will be 3ms.This means single H-ARQ processes or channel
Timing relationship will(Such as)According to the TTI of following order:
TTI#0:UL distribution licenses are sent on PDCCH.
TTI#4:In licensed UL resources UL data transfers are carried out from UE.
TTI#8:ACK/NACK is sent on PHICH [or to enter the re-transmission on PDCCH in the case of adaptive H-ARQ
Mobile state is dispatched].
Consider that non-self-adapting H-ARQ is used for the situation of up-link(Mean to perform on identical physical resource
Line link retransmit, and UE only need its whether the instruction that should be retransmitted in the uplink).This passes through PHICH signalings
To handle, wherein under current agreement in 3 gpp, PHICH resource will be specified for UE by UE " allocation order ", it is described
" allocation order " for example may with for indicating resource allocation(TTI#0 in above-mentioned sequence)CCE indexes it is relevant.Another kind side
Method is to make allocation order related to the specified uplink physical resource for being combined with additional signaling to indicate relative to dividing
The skew of first PRB indexes of the physical resource matched somebody with somebody.
In the RAN4 groups of 3GPP exploitations, currently carrying out on when and how allowing UE progress relevant with switching
Measurement(Measured including cell identification and signal level)Discussion.It should be understood that UE needs to carry out cell identification and added
Ground carries out some measurements in the case where preparing adjacent eNB being switched to another eNB from an eNB to channel(That is channel matter
Certain measurement of amount, such as signal intensity).This is referred to as measurement gap, the cell of peripheral cell is performed in UE in 3 gpp
Identification(Frequency of interaction or interaction radio access technologies RAT)And measure to report the above(Typically for
Switch purpose, but it is also possible that being applied by eNB for network configuration or test or other more customary purposes)When
Between.The measurement gap occurs at the time of coordinating between eNB and UE.But it is clear that these measurement gaps will influence or interrupt H-
ARQ timing relationships.
It has recorded in the newest change of the specification 36.300 of E-UTRAN stages 2 and currently this problem in 3GPP reached
Into agreement, this may refer to document R2-075484(The Change of Nokia Siemens Networks companies
Request, 3GPP TSGRAN2 Meeting #60, Jeju, South Korea, in November, 2007 5-9):
- measurement gap, which has, retransmits higher priority than H-ARQ:When H-ARQ, which retransmits, to conflict with measurement gap,
H-ARQ re-transmissions will not occur.
Accordingly recognize that:These measurement gaps will appear from and with H-ARQ communication contention awares, and identified be:In UE
In the case of H-ARQ transmission will occur while in measurement gap, H-ARQ transmission will not occur.This is simple reality
Mode is applied, because eNB knows measurement gap(And generally dominate UE measurement gap)And eNB also knows should be when by ACK/
NACK is sent to identical UE, thus eNB simply abandoned its ACK according to the priority decisions reached above with regard to LTE or
NACK is sent to UE.
The agreement basically implies that measurement gap is following gap in fact:In the gap, expectability UE does not connect eNB
Packet receiving is included including PDCCHIt is anyDL information or any information of the transmission including H-ARQ ACK and NACK in UL.
The present inventor does not know any solution that others proposes.A direct option for avoiding this problem be for
UE equips two transmitters and two receivers.But except increasing UE cost and failing to consider without such double transmitting-receivings
Device ability used leave outside UE, such UE design is not simple thing because frequency of use division come
In the case of division signals, it may inherently increase interference problem in UE to/from transmitting and receiving while identical equipment.
A kind of mode for realizing H-ARQ is needed, wherein conventional H-ARQ timings will occur in measurement interval and need not
Wait too long so that H-ARQ worthless for all practical purposes(Such as it is interpreted not receive because of the passage of threshold time period).
The content of the invention
It is a kind of method according to one embodiment of present invention, this method includes:The first dynamic is received on the first channel
Resource allocation, and distributed according to the first resource to send data.In the confirmation for transmitted data or NACK
During being scheduled to time for occurring on a second channel, this method includes:Participate in than confirming or that NACK is preferential is preferential
Level activity, hereafter receives the second Dynamic Resource Allocation for Multimedia and is determined according to second Dynamic Resource Allocation for Multimedia on the first channel
Confirmation or NACK to sending data.The determination can be direct, such as by receiving null value resource allocation;Or can
Be it is indirect, such as by by the second Dynamic Resource Allocation for Multimedia be mapped to second channel and after the mapping on a second channel
Receive and confirm.
It is a kind of computer-readable memory according to another embodiment of the invention, the computer-readable memory includes
The program for dispatching the machine readable instructions of the action confirmed to carry out purpose to be can be performed by digital data processor.In the reality
Apply in example, step includes:Come in response to receiving the first Dynamic Resource Allocation for Multimedia on the first channel according to the first resource point
With transmission data;And the time for being scheduled to occur on a second channel in the confirmation for transmitted data or NACK
Period, participate in the priority activity than confirming or NACK is preferential.Another step includes:In response on first channel
The second Dynamic Resource Allocation for Multimedia is received to determine the confirmation or no for transmitted data according to second Dynamic Resource Allocation for Multimedia
It is fixed to confirm.
It is a kind of device according to another embodiment of the invention, the device includes receiver, transmitter and processor.Institute
State receiver to be configured to receive the first Dynamic Resource Allocation for Multimedia on the first channel, and the transmitter is configured to according to institute
State first resource distribution and send data.The processor is configured to be adjusted in the confirmation for transmitted data or NACK
At least one receiver is controlled to participate in during spending into the time received on a second channel more excellent than receiving confirmation or NACK
First priority activity.The receiver is further configured to hereafter receive the second Dynamic Resource Allocation for Multimedia simultaneously on first channel
And the confirmation for transmitted data or NACK are determined according to second Dynamic Resource Allocation for Multimedia.
A kind of device according to another embodiment of the invention, the device include acceptor device, emitter and
Processing unit.The acceptor device is used to receive the first Dynamic Resource Allocation for Multimedia, and the emitter on the first channel
For being distributed according to the first resource to send data.The processing unit is used in the confirmation for transmitted data or no
At least described acceptor device is controlled to participate in during the time for confirming to be scheduled to be received on a second channel calmly more true than receiving
Recognize or priority activity that NACK is preferential.The acceptor device is additionally operable to receive the second dynamic on first channel
Resource allocation, and processor is additionally operable to determine the confirmation or no for transmitted data according to second Dynamic Resource Allocation for Multimedia
It is fixed to confirm.In a particular embodiment, the acceptor device is receiver, and the emitter is transmitter, and the place
It is digital data processor to manage device, and first channel is physical downlink control channel in addition, second letter
Road is physics H-ARQ indicator channels, and the processing unit be configured to according to first Dynamic Resource Allocation for Multimedia
First Dynamic Resource Allocation for Multimedia is mapped to the second channel and according to second dynamic resource point by one index sequence
Second Dynamic Resource Allocation for Multimedia is mapped to the second channel by the second index sequence matched somebody with somebody, wherein in one embodiment,
Second index sequence is mapped using received skew.
It is a kind of method according to another embodiment of the invention, this method includes:On the first channel by the first dynamic
Resource allocation is sent to user equipment;Distributed according to the first resource correctly to receive or not receive from the user equipment
Data, and determine to be scheduled to the for confirmation that is corresponding received or not receiving data or NACK
The user equipment participates in more excellent than receiving confirmation or NACK during the time of the user equipment is sent on two channels
First priority activity.In addition, in the method, the second Dynamic Resource Allocation for Multimedia is sent to the use on first channel
Family equipment, second Dynamic Resource Allocation for Multimedia include being used for determining by the user equipment for corresponding received
Or the confirmation for the data not received or the information of NACK.
It is a kind of device according to another aspect of the present invention, the device includes transmitter, receiver and processor.It is described
Transmitter is configured to that the first Dynamic Resource Allocation for Multimedia is sent into user equipment on the first channel, and the receiver by with
It is set to and is distributed according to the first resource correctly to receive data from the user equipment.The processor is configured to determine
It is scheduled to be sent to phase time of the user equipment on a second channel in the confirmation of the data for having correctly received
Between the user equipment participate in confirming or priority activity that NACK is preferential than receiving.In addition, transmitter is configured to this
The second Dynamic Resource Allocation for Multimedia is sent to the user equipment, the second Dynamic Resource Allocation for Multimedia bag on first channel afterwards
Including can be used for determining the confirmation for the data according to received by second Dynamic Resource Allocation for Multimedia by the user equipment.
These and other aspects of the invention will be more specifically described in detail below.
Brief description of the drawings
Fig. 1 is schematically showing for uplink time slot aligned with each other and downlink time slots, and is shown various logical
The problem of letter is produced with illustrating due to measurement gap, wherein H-ARQ timings depend on dynamic resource in these measurement gaps
Distribution.
Fig. 2 may be employed to implement the element of Radio Access Network and the schematically showing for user equipment of the present invention.
Fig. 3 is the flow chart for showing the process steps according to embodiments of the present invention from two angles of UE and node B.
Embodiment
As indicated above, aspect of the invention is particularly conducive to 3GPP Long Term Evolution(LTE)Concept life
Into.These teachings are considered as especially valuable to LTE FDD operational modes, but can also be applied to tdd mode.At one
In embodiment, the present invention has the configuration rule preferably limited in wireless access specification, and the configuration rule is limited on H-
ARQ is operated and acquiescence UE and the eNB behavior of measurement gap.When conceiving the solution, emphasis considers, whenever UE is at this
When UE can not possibly transmit data at the time of H-ARQ information is received on PHICH, the UE will lose PHICH distribution, and be only capable of leading to
Cross new UL resource allocations and receive the information related to H-ARQ.In other words, if UE can not receive ACK/ when scheduled
NACK, then be assigned to that PHICH the first mapping is no longer valid, therefore we simply can not make UE exist from first on PDCCH
Except by intercepting ACK/ by distributing another moment being indexed in addition to mapping given scheduling time from original PDCCH
NACK.In an embodiment of the present invention, H-ARQ information is transmitted by the dynamically distributes on PDCCH, wherein by informing that UE is expected
There is re-transmission(The original NACK's that UE can not be received)Redundancy versions indicate NACK, while are indicated by distribution/license(It is logical
Cross the ACK's that new PDCCH is distributed on mapped PHICH)The resources of the redundancy versions newly transmitted indicates positive acknowledgment.If
Any new resource will not be permitted to UE, then indicate positive acknowledgment to UE by distributing null value resource.This particular allocation is permitted
Can for example can by by zero physical source distributing to UE or by by the transport block size for zero be assigned to UE for pass
It is defeated, and indicate that the UE should send new data simultaneously(By using new data indicator).
In order to illustrate more clearly of foregoing invention, Fig. 1 is considered.The line of block above/set instruction uplink resource is permitted
Can be in the downlink transmission on PDCCH.The line of following block/set indicates corresponding up-link transmission.Each block represents
1ms time slots or TTI, and these blocks are temporally aligned between top and bottom line/row.Numbering instruction rope above block
Draw, and the numbering in block indicates specific H-ARQ processes, so for example will numbering " 1 " hair at DL time slots 0 according to UL distribution
UE is given, then the UE sends its data " 1 " according to UL distribution at UL TTI#4.Identical " 1 " in block in the figure refers to
Show identical H-ARQ processes.
As can be seen that 3ms delay be present from the UE of the distribution actual transmissions for receiving uplink data.Transmitting
(It spends 1ms)Afterwards, prolonging for other 3ms also be present untill ACK/NACK or dynamic uplink distribution can occur
Late.In addition, in Fig. 1 it can be seen that some measurement gaps be present(Indicated with orange region), wherein UE can not receive or
Transmission.
Now, the distribution of the up-link transmission for H-ARQ processes #1 is considered(Sent at Fig. 1 DL TTI#0
UL is distributed).The up-link transmission of data will occur in UL TTI#4, and the ACK/NACK instructions on PHICH will be in DL
Occur in TTI#8.Now, consider to permit/signal the situation that new up-link is distributed in DL TTI#8.For
The uplink data transmission of the new up-link distribution will occur in UL TTI#12.However, can from Fig. 1
Arrive, UE would be impossible to receive the instruction on H-ARQ states during the measurement gap across TTI#14-19.In addition, because
PHICH resource distribution it is relevant with PDCCH " allocation order ", so UE can not later moment maintain the information and
By the dynamically distributes for the later retransmission being necessarily dependent upon after measurement gap.Sent what is occurred afterwards in then next PDCCH
H-ARQ processes #1 any ACK/NACK can not reuse being mapped from PDCCH to PHICH for original PDCCH, because this reflects
Penetrate and expired.
So from the perspective of UE, UE receives the first Dynamic Resource Allocation for Multimedia on the first channel PDCCH, then according to institute
State first resource distribution and send data.It is scheduled in the ACK or NACK for transmitted data on second channel PHICH
During the time of appearance, the UE participates in the priority activity as talked about in above-mentioned background, such as more preferential than ACK/NACK adjacent
Cell measurement and/or report.Therefore, UE can not receive the ACK/NACK for transmitted data as usual, so the UE
The second Dynamic Resource Allocation for Multimedia is received on the first channel PDCCH, and is received according to second Dynamic Resource Allocation for Multimedia for being sent out
The ACK or NACK of data are sent, wherein the second Dynamic Resource Allocation for Multimedia is due to the different index order in the 2nd PDCCH and different from original
Beginning, PDCCH was mapped to PHICH like that.
From the perspective of eNB, the first Dynamic Resource Allocation for Multimedia is sent to UE, Ran Hougen by eNB on the first channel PDCCH
Data are not received from UE receptions or according to first resource distribution.For it is correspondingly received to data or do not receive data
During ACK or NACK is scheduled to time for being sent on second channel PHICH, the eNB determines that the UE participates in carrying on the back as described above
The priority activity talked about in scape, such as the neighbor cell measurement more preferential than ACK/NACK and/or report.ENB is according to the determination
Recognize, UE can not receive the ACK/NACK for the data from eNB as usual, so the eNB is in the first channel
PDCCH is upper to be sent to UE by the second Dynamic Resource Allocation for Multimedia, and is sent according to the second Dynamic Resource Allocation for Multimedia PDCCH on institute
Send data ACK or NACK, the second Dynamic Resource Allocation for Multimedia PDCCH due in the 2nd PDCCH different index order and
PHICH is mapped to like that different from original PDCCH
Illustrate to be suitable for the various electronic equipments used in the exemplary embodiment for carrying out the present invention with reference now to Fig. 2
Simplified block diagram.In fig. 2, wireless network 18 is suitable to UE 10 and node B 12(Enode b)Between communication.Network 18
Gateway GW/ service mobility entity MME/ radio network controllers RNC 14 can be included or in different wireless communication system
With other radio controller functions known to various terms.UE 10 includes data processor(DP)10A, storage program
(PROG)10C memory(MEM)10B and with one or more antenna 10E(Show one)Couple for passing through one
Or multiple Radio Links 20 carry out the suitable radio frequency with node B 12 two-way wireless communication(RF)Transceiver 10D.
Term " connection ", " coupling " or its any modification mean direct or indirect between two or more elements appoint
Meaning connection or coupling, and one or more cental elements between two elements of " connection " or " coupling " together can be included
The presence of part.Coupling or connection between element can be physics, logic or its combination.As utilized herein,
As non-limiting examples, two elements can be regarded as using one or more electric wires, cable and printing electrical connection with
And by using electromagnetic energy(Such as with radio-frequency region, microwave range and optics(It is it can be seen that and invisible)Wavelength in scope
Electromagnetic energy)Come " connection " or " coupling " together.
Node B 12 also include DP 12A, storage PROG 12C MEM 12B and with one or more antenna 12E couplings
The suitable RF transceivers 12D closed.Node B 12 can be via data path 30(Such as lub or S1 interfaces)With service or other
GW/MME/RNC 14 is coupled.The GW/MME/RNC 14 includes DP 14A, the MEM 14B for storing PROG 14C and passes through lub
The suitable modem and/or transceiver that link 30 communicates with node B 12(It is not shown).
For scheduler 12F also in node B 12, scheduler 12F is directed to each UL and DL under node B 12 control
Frame/time slot/TTI dispatches each UE.Once scheduled, node B is just by the message with scheduling grant(Multiple UE will be generally directed to
License be multiplexed in a message)It is sent to UE.Pass through the particular channel pointed by specific embodiment detailed above
To send these licenses.In general, the node B 12 of LTE system is quite independent in its scheduling, and except will
One UE of LTE system be switched to another node B during outside need not coordinate with GW/MME 14.
Assuming that at least one including programmed instruction in PROG 10C, 12C and 14C, wherein described program instruction is by phase
The DP of association enable when performing electronic equipment as described in detail above according to the exemplary embodiment of the present invention come
Operation.In DP 10A, 12A and 14A intrinsic being such that in required time slot and suitable time interval be used to transmit and
It is capable of the clock of synchronization between each device received, because scheduling grant and licensed resource/subframe are relevant with the time
's.
PROG 10C, 12C and 14C can be by suitable software, firmware and/or hardware-embodieds.In general, it is of the invention
Exemplary embodiment can be by being stored in MEM 10B and can be by the UE 10 DP 10A computer softwares performed and by depositing
Store up in another MEM 12B and can by node B 12 DP 10A perform computer software or by hardware or by any or institute
There is the combination of the hardware in shown equipment, firmware and/or software to implement.
In general, UE 10 various embodiments can include but is not limited to movement station, cell phone, have channel radio
The personal digital assistant of letter ability(PDA), portable computer with wireless communication ability, with all of wireless communication ability
Image capture device such as digital camera etc, the game station with wireless communication ability, with wireless communication ability
Music stores and playback reproducer, the access of allowance wireless Internet and the internet appliance browsed and the group for combining these functions
The portable unit or terminal of conjunction.
MEM 10B, 12B and 14B can be suitable for any types of local technical environment, and can use any suitable
The data storage technology of conjunction is implemented, any suitable data storage technology such as memory devices based on semiconductor,
Magnetic storage device and system, optical memory devices and system, read-only storage and packaged type memory.DP 10A、12A
Any types of local technical environment can be suitable for 14A, and can include general-purpose computations as non-limiting examples
Machine, special-purpose computer, microprocessor, data signal processor(DSP)And in the processor based on polycaryon processor framework
It is one or more.
For the present invention aspect relevant with node B 12, embodiments of the invention can be by can be by node B 12 data
Processor(Example processor 12A as shown)The computer software of execution is by hardware or real by the combination of software and hardware
Apply.For the present invention aspect relevant with UE 10, embodiments of the invention can be by can be by UE 10 data processor(Such as
The processor 10A shown)The computer software of execution is implemented, in addition, with regard to this by hardware or by the combination of software and hardware
For a bit, it should be noted that each logic step above description can with representation program step or the logic circuit of interconnection, block and
Function, or the combination of program step and logic circuit, block and function.
Fig. 3 illustrates some universal process steps according to an embodiment of the invention, shows from two angles of UE and node B
Go out.At block 302, node B sends the first Dynamic Resource Allocation for Multimedia on PDCCH and UE receives first dynamic on PDCCH and provided
Source is distributed, and therefore node B receives the data sent by UE according to the resource allocation of block 302(Or in case of a nack
Do not receive).In block 306, node B determines that UE participates in some other activities more preferential than receiving conventional H-ARQ ACK/NACK, example
Such as measurement or reporting channel or measurement neighbor cell.UE knows that it participates in priority activity and will not do other things certainly
Feelings, but node B can abandon sending conventional H-ARQ ACK/NACK at block 308.As replacement, at block 310, node
B sends the second Dynamic Resource Allocation for Multimedia on PDCCH and UE receives second Dynamic Resource Allocation for Multimedia on PDCCH.In block 312
Place, it can be seen that node B will can be used to determine that H-ARQ ACK/NACK information to be included in the second Dynamic Resource Allocation for Multimedia by UE
In.At block 314, UE determines the H-ARQ ACK/NACK for the UE data sent at block 304 according to the information.Block
316 list both different types of information.
The example that UE distributes the situation for directly determining H-ARQ ACK/NACK according to Secondary resource is Secondary resource distribution
Including null value radio resource.This is identified as ACK by UE.Certainly other non-zero allocations of the identical UE are can exist for, still
What is be zeroed is specific(Such as the first distribution to the UE)Distribution except being signaled but in block 308 on time on PHICH
Also ACK is indicated outside the conventional ACK that place is abandoned to UE.UE is distributed according to Secondary resource and is determined H-ARQ ACK/NACK's indirectly
The example of situation is that the index sequence of the second distribution is mapped to distributed resource by UE, and is assigned to UE by the mapping
One of resource be PHICH(It is ACK in this case), in this case UE be tuned to the PHICH and receive should
ACK.UE is recognized:Because it is when conventional ACK should be sent(But may not be sent at block 308, UE is unable to find out)
The priority activity at block 306 is take part in, then the ACK must be relevant with the data sent at block 204.Node B must be to UE
Skew is sent, the skew is used for that index is mapped into resource when the condition of block 306 meets by UE, and the skew causes the rope
Draw and be mapped to PHICH.These examples collect at block 316.
The present invention includes or is related to the coordination between the element of communication system.The example of wireless communication system includes E-
UTRAN embodiment, but the concept provided herein by example can be extended to other systems, such as GSM(The whole world
GSM)And UMTS(Universal Mobile Telecommunications System)Etc..The element of illustrated communication system be only it is exemplary,
And not in any way only by these elements of the invention for fettering, limiting or be constrained in communication system, because the present invention is not only
It is limited to E-UTRAN.
In general, can be with hardware or special circuit, software(What is included on a computer-readable medium is computer-readable
Instruction), logic or its any combinations implement various embodiments.For example, some aspects can be implemented with hardware, and other sides
Face can be can be implemented by controller, the firmware of microprocessor or other computing devices or software, but the present invention is simultaneously
It is not limited to this.Although various aspects of the invention can be depicted and described as to block diagram, flow chart, or using some other
Diagram represent, can conduct but these blocks described herein, device, system, techniques or methods should be best understood by
Non-limiting example with hardware, software, firmware, special circuit or logic, common hardware or controller or other computing devices or
Its certain combination is implemented.
Embodiments of the invention can be carried out in the various parts of such as integrated circuit modules etc.Integrated circuit is set
Meter is generally highly automated process.Complicated and powerful Software tool can be used for being converted into preparing by logic level design
The semiconductor circuit design for etching and being formed in Semiconductor substrate.
The Synopsys companies and California San Jose of program-such as by Jia Lifuni Mountain View
The program that Cadence Design are provided-come using the storehouse of the design rule suitably established and the design module prestored
Automatically to wire wiring and by positioning parts on a semiconductor die.Once complete the design of semiconductor circuit, so that it may
With the design that obtains result with standardized electronic format(Such as Opus, GDSII etc.)Be transferred to semiconductor manufacturing facility or
" factory(fab)" to manufacture.
When read in conjunction with the accompanying drawings, in view of description above, various modifications and adjustment may be to the technology people of association area
Member becomes apparent.However, any and all modifications of the teachings of the present invention will fall into non-limiting example of the present invention
In the range of.
Although describing the present invention in the background of specific embodiment, will be apparent to persons skilled in the art
Be, in fact it could happen that to these teaching many modifications and various change.Therefore, although on of the invention one or more
The present invention is specifically illustrated and described in individual embodiment, but those skilled in the art should understand that can be without departing from above-mentioned hair
Some modifications or change are made in the case of bright scope or subsequent claims scope.
Claims (29)
1. a kind of method for carrying out data transmission in the mobile communication network, including:
The first Dynamic Resource Allocation for Multimedia is received on the first channel;
Data are sent according to first Dynamic Resource Allocation for Multimedia;
During the time for being scheduled to occur on a second channel for the confirmation of transmitted data or NACK, ratio is participated in
The priority activity that reception confirms or NACK is preferential;
The second Dynamic Resource Allocation for Multimedia is received on first channel, wherein second Dynamic Resource Allocation for Multimedia is used for including information
Indicate the re-transmission relevant with transmitted data or the transmission of new data.
2. according to the method for claim 1, wherein first channel is physical downlink control channel, and it is described
Second channel is physical mixed automatic repeat request indicator channel.
3. according to the method for claim 1, wherein second Dynamic Resource Allocation for Multimedia also includes uplink resource allocation.
4. according to the method for claim 1, wherein the re-transmission relevant with transmitted data is to be used to mix automatic weight
The re-transmission asked again, the transmission of the new data are the new data transmissions for mixed automatic repeat request.
5. according to the method for claim 1, wherein first Dynamic Resource Allocation for Multimedia is according to first dynamic resource point
The first index sequence matched somebody with somebody is mapped to the second channel, and second Dynamic Resource Allocation for Multimedia provides according to the described second dynamic
Second index sequence of source distribution is mapped to the second channel.
6. according to the method for claim 5, including according to the second Dynamic Resource Allocation for Multimedia of reception determine instruction with having sent out
The related re-transmission of the data sent or the information of the transmission of new data, wherein determine to indicate the re-transmission related to the data sent or
The information of the transmission of new data includes:Using the skew of the second received index sequence by second Dynamic Resource Allocation for Multimedia
It is mapped to the second channel.
7. according to the method for claim 1, wherein the priority activity includes measurement channel quality, reporting channel quality
It is and at least one in the cell identification of neighbor cell.
8. according to the method for claim 1, held by the user equipment in evolved universal terrestrial radio access network
OK.
9. a kind of device for carrying out data transmission in the mobile communication network, including:
Receiver, it is configured to receive the first Dynamic Resource Allocation for Multimedia on the first channel;
Transmitter, it is configured to send data according to first Dynamic Resource Allocation for Multimedia;
Processor, it is configured to be scheduled to be connect on a second channel in the confirmation for transmitted data or NACK
At least described receiver is controlled to participate in the priority activity confirmed than reception or NACK is preferential during the time of receipts;
The receiver is further configured to hereafter receive the second Dynamic Resource Allocation for Multimedia on first channel,
Wherein described second Dynamic Resource Allocation for Multimedia includes information and is used to refer to the re-transmission relevant with transmitted data or new data
Transmission.
10. device according to claim 9, wherein first channel is physical downlink control channel, and institute
It is physical mixed automatic repeat request indicator channel to state second channel.
11. device according to claim 9, wherein second Dynamic Resource Allocation for Multimedia is also including uplink resource point
Match somebody with somebody.
12. device according to claim 9, wherein the re-transmission relevant with transmitted data is to be used to mix automatic weight
The re-transmission asked again, the transmission of the new data are the new data transmissions for mixed automatic repeat request.
13. device according to claim 9, wherein the processor is configured to according to first Dynamic Resource Allocation for Multimedia
The first index sequence first Dynamic Resource Allocation for Multimedia is mapped to the second channel, and provided according to the described second dynamic
Second Dynamic Resource Allocation for Multimedia is mapped to the second channel by the second index sequence of source distribution.
14. device according to claim 13, wherein the processor is configured to the second dynamic resource according to reception
Distribute to determine the information for indicating the re-transmission related to the data sent or the transmission of new data, wherein the processor passes through
The skew received using the skew of second index sequence, i.e. at the receiver is by second Dynamic Resource Allocation for Multimedia
The second channel is mapped to determine the information for indicating the re-transmission related to the data sent or the transmission of new data.
15. device according to claim 9, wherein the priority activity includes measurement channel quality, reporting channel matter
It is at least one in amount and the cell identification of neighbor cell.
16. device according to claim 9, wherein described device are included in evolved universal terrestrial radio access network
User equipment.
17. a kind of method for carrying out data transmission in the mobile communication network, including:
The first Dynamic Resource Allocation for Multimedia is sent to user equipment on the first channel;
Data are received from the user equipment according to first Dynamic Resource Allocation for Multimedia;
It is determined that:It is scheduled in the NACK that instruction has correctly received the confirmation of data or indicates not having correctly received data
During the time that the user equipment is sent on second channel, the user equipment is participated in than receiving confirmation or NACK
Preferential priority activity;
The second Dynamic Resource Allocation for Multimedia is sent to the user equipment on first channel,
Wherein described second Dynamic Resource Allocation for Multimedia includes information and is used to refer to the re-transmission relevant with transmitted data or new data
Transmission.
18. according to the method for claim 17, wherein first channel is physical downlink control channel, and institute
It is physical mixed automatic repeat request indicator channel to state second channel.
19. according to the method for claim 17, wherein the re-transmission relevant with transmitted data is to be used to mix automatically
The re-transmission of repetitive requests, the transmission of the new data are the new data transmissions for mixed automatic repeat request.
20. according to the method for claim 17, wherein first Dynamic Resource Allocation for Multimedia is according to first dynamic resource
First index sequence of distribution is mapped to the second channel, and second Dynamic Resource Allocation for Multimedia is according to the described second dynamic
Second index sequence of resource allocation is mapped to the second channel.
21. the method according to claim 11, in addition to:Send for mapping second index sequence to described second
The skew of Dynamic Resource Allocation for Multimedia.
22. according to the method for claim 17, wherein the priority activity includes measurement channel quality, reporting channel matter
It is at least one in amount and the cell identification of neighbor cell.
23. a kind of device for carrying out data transmission in the mobile communication network, including:
Transmitter, it is configured to that the first Dynamic Resource Allocation for Multimedia is sent into user equipment on the first channel;
Receiver, it is configured to receive data from the user equipment according to first Dynamic Resource Allocation for Multimedia;
Processor, it is configured to determine:The confirmation of data is had correctly received in instruction or instruction does not have correctly received data
During the time that NACK is scheduled to be sent to the user equipment on a second channel, the user equipment participates in ratio
The priority activity that reception confirms or NACK is preferential;
Transmitter is further configured to that the second Dynamic Resource Allocation for Multimedia hereafter is sent into the user equipment on first channel,
Wherein described second Dynamic Resource Allocation for Multimedia includes information and is used to refer to the re-transmission relevant with transmitted data or new data
Transmission.
24. device according to claim 23, wherein first channel is physical downlink control channel, and institute
It is physical mixed automatic repeat request indicator channel to state second channel.
25. device according to claim 23, wherein second Dynamic Resource Allocation for Multimedia is also including uplink resource point
Match somebody with somebody.
26. device according to claim 23, wherein the re-transmission relevant with transmitted data is to be used to mix automatically
The re-transmission of repetitive requests, the transmission of the new data are the new data transmissions for mixed automatic repeat request.
27. device according to claim 23, wherein the processor is configured to according to first dynamic resource point
First Dynamic Resource Allocation for Multimedia is mapped to the second channel by the first index sequence matched somebody with somebody, and according to the described second dynamic
Second Dynamic Resource Allocation for Multimedia is mapped to the second channel by the second index sequence of resource allocation.
28. device according to claim 27, wherein the transmitter is further configured to for mapping second rope
The skew for drawing sequence to second Dynamic Resource Allocation for Multimedia is sent to the user equipment.
29. device according to claim 23, wherein the priority activity includes measurement channel quality, reporting channel matter
It is at least one in amount and the cell identification of neighbor cell.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410041294.2A CN103780353B (en) | 2008-01-04 | 2008-01-04 | The method and apparatus carried out data transmission in the mobile communication network |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN200880127832.2A CN101965706B (en) | 2008-01-04 | 2008-01-04 | Channel allocation when using measurement gaps with H-ARQ |
CN201410041294.2A CN103780353B (en) | 2008-01-04 | 2008-01-04 | The method and apparatus carried out data transmission in the mobile communication network |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN200880127832.2A Division CN101965706B (en) | 2008-01-04 | 2008-01-04 | Channel allocation when using measurement gaps with H-ARQ |
Publications (2)
Publication Number | Publication Date |
---|---|
CN103780353A CN103780353A (en) | 2014-05-07 |
CN103780353B true CN103780353B (en) | 2018-02-23 |
Family
ID=50572233
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410041294.2A Active CN103780353B (en) | 2008-01-04 | 2008-01-04 | The method and apparatus carried out data transmission in the mobile communication network |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN103780353B (en) |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2017192070A1 (en) * | 2016-05-02 | 2017-11-09 | Telefonaktiebolaget Lm Ericsson (Publ) | Network node, wireless device and methods for handling radio resources |
WO2018007851A1 (en) * | 2016-07-06 | 2018-01-11 | Telefonaktiebolaget Lm Ericsson (Publ) | Methods and network nodes for scheduling a plurality of tti-bundle transmissions |
US10834757B2 (en) * | 2016-09-15 | 2020-11-10 | Qualcomm Incorporated | Methods and apparatus for channel reservation |
CN108365938B (en) * | 2017-01-26 | 2020-06-26 | 华为技术有限公司 | Resource scheduling method, user equipment and access network equipment |
US20190281491A1 (en) * | 2018-03-12 | 2019-09-12 | Qualcomm Incorporated | Quality of service (qos) congestion control handling |
US10952260B1 (en) * | 2019-09-13 | 2021-03-16 | Nokia Technologies Oy | Enhancements for contention based shared preconfigured uplink resource mechanism with additional resource allocation for retransmissions |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1286000A (en) * | 1997-11-03 | 2001-02-28 | 夸尔柯姆股份有限公司 | Method and apparatus for high rate packet data transmission |
CN1926795A (en) * | 2004-01-22 | 2007-03-07 | 松下电器产业株式会社 | Method of HARQ retransmission timing control |
CN1951057A (en) * | 2004-05-06 | 2007-04-18 | 皇家飞利浦电子股份有限公司 | ARQ communication system and method with acknowledgment mapping |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101062674B1 (en) * | 2006-02-18 | 2011-09-06 | 삼성전자주식회사 | Apparatus and method for allocating resources and performing communication in a wireless communication system |
-
2008
- 2008-01-04 CN CN201410041294.2A patent/CN103780353B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1286000A (en) * | 1997-11-03 | 2001-02-28 | 夸尔柯姆股份有限公司 | Method and apparatus for high rate packet data transmission |
CN1381997A (en) * | 1997-11-03 | 2002-11-27 | 夸尔柯姆股份有限公司 | Method and device of high-speed transmission block data |
CN1926795A (en) * | 2004-01-22 | 2007-03-07 | 松下电器产业株式会社 | Method of HARQ retransmission timing control |
CN1951057A (en) * | 2004-05-06 | 2007-04-18 | 皇家飞利浦电子股份有限公司 | ARQ communication system and method with acknowledgment mapping |
Also Published As
Publication number | Publication date |
---|---|
CN103780353A (en) | 2014-05-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101965706B (en) | Channel allocation when using measurement gaps with H-ARQ | |
US8861472B2 (en) | Selecting between normal and virtual dual layer ACK/NACK | |
CN104158640B (en) | For (H) the ARQ methods of semi-persistent scheduling and base station | |
TWI419508B (en) | Wireless communication having reduced feedback delay | |
CN106301711B (en) | Method, apparatus and memory for communication | |
CN104868980B (en) | Cyclic shift is mapped to the channel indexes for being used for ACK/NACK resource allocation | |
CN104243108B (en) | Uplink hybrid automatic repeat request feedback method, device and system | |
US9379850B2 (en) | Controlling retransmissions | |
CN102090087B (en) | Method,system and equipment for processing information | |
CN107534529A (en) | The enhanced control channel design for authorizing auxiliary access technology | |
CN104885376B (en) | Method and apparatus used in carrier wave polymerization | |
CN103780353B (en) | The method and apparatus carried out data transmission in the mobile communication network | |
CN106452661A (en) | Response message transmission method, response message transmission device, base station, and terminal | |
CN104604159A (en) | Method and apparatus for transmitting control channel in intra-cell carrier aggregation system | |
US20110128859A1 (en) | Method for communicating in a network, a secondary station and system therefor | |
CN110198546A (en) | A kind of dispatching method and the network equipment | |
CN103873214B (en) | A kind of data transmission method and device | |
JP2021016057A5 (en) | ||
JP2011521527A5 (en) |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C53 | Correction of patent for invention or patent application | ||
CB02 | Change of applicant information |
Address after: Espoo, Finland Applicant after: Nokia Siemens Networks OY Address before: Espoo, Finland Applicant before: Nokia Siemens Networks OY |
|
GR01 | Patent grant | ||
GR01 | Patent grant |