CN106332294A - Scheduling method and device in power division multiplexing transmission - Google Patents

Abstract

The invention discloses a scheduling method and device in power division multiplexing transmission. In step 1, UE receives first information. RE occupied by the first information is orthogonal to the RE used for MBSFN RS. A transmission channel corresponding to the first information is DL-SCH. The scheduling method and device disclosed by the invention provides the possibility of transmitting the first information by unicast information, which is helpful to improve the transmission efficiency. In addition, the data of non-MBMS business is transmitted by MBSFN resources in the above-mentioned method, thereby improving the system capacity of the non-MBMS business.

Description

A kind of merit divides the dispatching method in multiplexing transmission and device

Technical field

The present invention relates to the transmission plan in wireless communication system, particularly relate to for MUST The biography of (Multi User Superposition Transmission, multi-user's superposed transmission) Transmission method and device.

Background technology

Traditional 3GPP (3rd Generation Partner Project, third generation affiliate Project) in cellular system, the downstream wireless signals of multi-user is by { TDM (Time Division Multiplexing, time division multiplex), FDM (Frequency Division Multiplexing, Frequency division multiplexing), CDM (Code Division Multiplexing, code division multiplexing) in one Plant or various ways realizes.3GPP R (Release, version) 13 introduces one newly Research topic (RP-150496)-descending MUST, i.e. utilize the different of transmit power to distinguish two The downstream wireless signals of individual user.Said two user generally includes a nearly user (i.e. distance base Stand near) and a remote user (i.e. distance base station is remote), base station is the first signal for nearly user Distribute relatively low transmit power, be that the secondary signal for remote user distributes higher transmission merit simultaneously Rate.Remote user directly demodulates secondary signal (will the first signal work as noise processed), and closely user First demodulate secondary signal and (possess lower path loss in view of nearly user user farther out, decoding Successfully probability is the highest), the interference then removing secondary signal from reception signal is remained Signal, obtains the first signal to residual signal decoding, here it is SIC (Successive Interference Cancellation, successive interference cancellation) algorithm.In order to perform SIC, closely User needs to obtain the first signal and the schedule information-of secondary signal and remote user has only to obtain the The schedule information of binary signal.

It should be noted that the specific implementation of above-mentioned SIC algorithm is by UE (User Equipment, subscriber equipment) manufacturer determines voluntarily.And as the replacement of a kind of SIC or benefit Filling scheme, nearly UE (or remote UE) can use IRC (Interference Rejection Combining, AF panel merges) algorithm carries out whitening operation to the wireless signal of superposition, with Improve receptivity.IRC algorithm does not require that UE correct decoding disturbs wireless signal, it is only necessary to estimate The channel parameter of interference wireless signal.

Two kinds are used for defined in traditional LTE (Long Term Evolution, Long Term Evolution) The physical layer channel of transmission data, i.e. PDSCH (Physical Downlink Shared Channel, Physical Downlink Control Channel) PMCH (Physical Multicast Channel, believe by physical multicast Road).The former is mainly used in the transmission of mode of unicast, and the latter is mainly used in the transmission of multicast. The transmission channel that PMCH maps is MCH (Multicast Channel, Multicast Channel).At 3GPP In RAN1#81 meeting, some companies propose two PMCH being applied to MUST be overlapped mutually Between.

Summary of the invention

Inventor is found by research, when MUST is applied to a PMCH and two PMCH, One typical application scenarios is: a MBSFN (Multicast Broadcast corresponding for PMCH Single Frequency Network, multicast broadcast single frequency network) region (Area) (i.e. cover Region) relatively big, and the overlay area of the 2nd PMCH is less and is sent by a community.Inventor By research it has furthermore been found that when the overlay area of the 2nd PMCH is less, the 2nd PMCH's covers It is likely to the most less UE in the range of lid, and now uses multicast transmission may reduce transmission effect Rate, (Hybrid Auto Retransmission Request, mixing is certainly the most not to support HARQ Dynamic repeat requests), do not support that arrowband is dispatched, do not support non-MBMS (Multimedia Broadcast And Multicast Service, media broadcast multicast service) business etc..

For the problems referred to above, the invention provides solution.It should be noted that do not conflicting In the case of, the embodiment in the UE of the application and the feature in embodiment may apply in base station, Vice versa.Further, in the case of not conflicting, in embodiments herein and embodiment Feature can arbitrarily be mutually combined.

The invention discloses a kind of method in UE supporting multi-user's superposition, wherein, including as follows Step:

-step A. receives the first information.

Wherein, the first information takies RE (Resource Element, resource particle) and being used for The RE of MBSFN RS is orthogonal.The transmission channel that the first information is corresponding is DL-SCH (Downlink Shared Channel, DSCH Downlink Shared Channel).

RE that the above-mentioned first information takies and be orthogonal referring to for the RE of MBSFN RS: first Information can not take the RE for MBSFN RS.The essence of said method is that PMCH resource can be by For transmitting the information in DL-SCH, it is provided that with the probability of the mode of unicast transmission first information, It is favorably improved efficiency of transmission.Additionally, the resource mapping method that said method utilizes PMCH is transmitted The data of non-MBMS, improve the power system capacity of non-MBMS.

As an embodiment, the MCCH of the logic channel Shi Dan community that the first information is corresponding (Multicast Control Channel, multicast control channel) and MTCH (Multicast Traffic Channel, Logical Traffic Channels).

As an embodiment, described step A also comprises the steps:

-step A10. determines the channel of wireless channel that the first information experienced according to the RS shared Parameter.

As a sub-embodiment of above-described embodiment, described shared RS is the transmission of the first information MBSFN RS in subframe, the first information and the second information are transmitted in same subframe.

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps:

-step A0. receives the second information, deducts the second information from the wireless signal received Interference.

Wherein, for transmitting the running time-frequency resource of the first information and providing for transmitting the time-frequency of the second information Source is the most overlapping, RE that the second information takies and be just for the RE of MBSFN RS Handing over, transmission channel corresponding to the second information is MCH (Multicast Channel, Multicast Channel).

As an embodiment, the demodulation of the second information is symbol level (Symbol Level) (the second information not being carried out channel decoding).As an embodiment, the reception of the second information It is (i.e. the second information being carried out channel decoding) of code word level (Code Word Level).

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps A1:

-step A1. receives the first signaling, the transmission of the first signaling scheduling first information.

As an embodiment, the first signaling is physical layer signaling.As an embodiment, first At PDCCH, (Physical Downlink Control Channel, physical down controls letter to signaling Road) upper transmission.As an embodiment, DCI (the Downlink Control of the first signaling Information, Downlink Control Information) form is DCI 1A.As an embodiment, first Signaling is RRC (Radio Resource Control, wireless heterogeneous networks) layer signaling.As One embodiment, the first signaling and the first information transmit in same subframe.As an enforcement Example, the first signaling and the first information transmit on different carrier waves.As an embodiment, first Signaling is transmitted in the first subframe, and the first information transmits in the second subframe, and the first subframe is second Subframe before subframe.

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps:

-step A2. receives the second signaling, and the second signaling indicates the first sub-frame set.

Wherein, the transmission subframe of the first information belongs to the first sub-frame set.

As an embodiment, described UE only monitors the first information in the first sub-frame set.As One embodiment, the second signaling is RRC signaling.

As an embodiment, the first sub-frame set is the subset of the second sub-frame set, the second subframe Set is to be made up of all subframes being configured to MBSFN sub-frame by high-level signaling.As this enforcement One sub-embodiment of example, described high-level signaling is to receive described UE the last time MBSFN-SubframeConfig IE (Information Element, information unit).

Concrete, according to an aspect of the present invention, it is characterised in that also comprise the steps:

-step B. sends the 3rd signaling.Whether the 3rd signaling instruction transmission block corresponding to the first information It is correctly received.

Traditional PMCH be do not support re-transmission based on HARQ_ACK because target UE Re-transmission demand is likely to inconsistent.And above-mentioned aspect makes the base station can be for described transmission block Perform HARQ, improve efficiency of transmission.As an embodiment, the 3rd signaling is at PUCCH (Physical Uplink Control Channel, Physical Uplink Control Channel) upper transmission. As an embodiment, the 3rd signaling PUSCH (Physical Uplink Sharing Channel, Physical Uplink Shared Channel) upper transmission.As an embodiment, the transmission subframe of the 3rd signaling is The n-th subframe after the transmission subframe of the first information, described n is greater than the positive integer of 3.

The invention discloses a kind of method in base station supporting multi-user's superposition, wherein, including such as Lower step:

-step A. sends the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First letter The transmission channel that breath is corresponding is DL-SCH.

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps:

-step A0. sends the second information.

Wherein, for transmitting the running time-frequency resource of the first information and providing for transmitting the time-frequency of the second information Source is the most overlapping, RE that the second information takies and be just for the RE of MBSFN RS Handing over, transmission channel corresponding to the second information is MCH.

As an embodiment, the second information is sent by multiple base stations.

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps A1:

-step A1. sends the first signaling, the transmission of the first signaling scheduling first information.

Concrete, according to an aspect of the present invention, it is characterised in that described step A also includes Following steps:

-step A2. sends the second signaling, and the second signaling indicates the first sub-frame set.

Wherein, the transmission subframe of the first information belongs to the first sub-frame set.

Concrete, according to an aspect of the present invention, it is characterised in that also comprise the steps:

-step B. receives the 3rd signaling.Whether the 3rd signaling instruction transmission block corresponding to the first information It is correctly received.

The invention discloses a kind of subscriber equipment supporting multi-user's superposition, wherein, including such as lower mold Block:

First module: be used for receiving the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First Transmission channel corresponding to information is DL-SCH.

The invention discloses a kind of base station equipment supporting multi-user's superposition, wherein, including such as lower mold Block:

First module: be used for sending the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First Transmission channel corresponding to information is DL-SCH.

Comparing existing public technology, the present invention has a following technical advantage:

-. provide with unicast info transmission the first information probability arrowband scheduling and HARQ, is favorably improved efficiency of transmission.

-. utilize the resource mapping method of PMCH to transmit the data of non-MBMS, improve non- The power system capacity of MBMS.

Accompanying drawing explanation

The detailed description that non-limiting example is made made with reference to the following drawings by reading, this The other features, objects and advantages of invention will become more apparent:

Fig. 1 shows the flow chart of downlink transfer according to an embodiment of the invention；

Fig. 2 shows a PRB (Physical Resource according to an embodiment of the invention Block, Physical Resource Block) to resource distribution schematic diagram；

Fig. 3 shows the schematic diagram that channel according to an embodiment of the invention maps；

Fig. 4 shows the structured flowchart of the processing means in UE according to an embodiment of the invention；

Fig. 5 shows the structural frames of the processing means in base station according to an embodiment of the invention Figure；

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme is described in further detail, needs explanation It is that, in the case of not conflicting, the feature in embodiments herein and embodiment can be the most mutual Combination.

Embodiment 1

Embodiment 1 illustrates the flow chart of downlink transfer, as shown in Figure 1.In accompanying drawing 1, base station N2 is the maintenance base station of the Serving cell of UE U1, and N3 (i.e. other base stations) represents outside the N2 of base station One or more base station, wherein the step in square frame F1 and the step in square frame F2 are can respectively Select step.

ForUE U1, receive the first signaling in step slo, receive first in step s 11 Information and the second information, send the 3rd signaling in step s 12.

ForBase station N2, step S20 sends the first signaling, sends the first letter in the step s 21 Breath and the second information, receive the 3rd signaling in step S22.

ForN3, step S31 sends the second information.

In embodiment 1, for transmitting the running time-frequency resource of the first information and for transmitting the second information Running time-frequency resource is the most overlapping, and the RE that the first information and the second information take respectively and uses It is orthogonal in the RE of MBSFN RS.The transmission channel that the first information is corresponding is DL-SCH, second Transmission channel corresponding to information is MCH.The transmission of the first signaling scheduling first information, the 3rd signaling Whether the transmission block that the instruction first information is corresponding is correctly received.

As the sub-embodiment 1 of embodiment 1, first UE U1 receives the second letter Breath, deducts the interference of the second information from the wireless signal received, then receives the first information.

Identical subframe is taken as the sub-embodiment 2 of embodiment 1, the first information and the second information, The frequency band that the first information takies is a part for the second information band occupancy.

As the sub-embodiment 3 of embodiment 1, the first signaling is transmitted on PDCCH.

As the sub-embodiment 4 of embodiment 1, the first signaling is DCI 1A.

Embodiment 2

Embodiment 2 illustrates the resource distribution schematic diagram of PRB pair, as shown in Figure 2.Accompanying drawing In 2, the blank lattice of thin frame is allocated to the first information and the RE of the second information, thick frame Blank lattice is allocated to the RE of PDCCH, and the lattice that oblique line is filled is that MBSFN RS takies RE, reticule fill lattice be CRS (Cell specific Reference Signal, little District's specific reference signals) RE that takies.

In embodiment 2, the first two OFDM symbol of described PRB centering is assigned to PDCCH.

As the sub-embodiment 1 of embodiment 2, the first signaling in the present invention is transmitted on PDCCH.

Embodiment 3

Embodiment 3 illustrates the schematic diagram that channel maps, as shown in Figure 3.

In embodiment 3, the first information and the second information map at the RE of physical layer channel and all use The resource mapping scheme (i.e. avoiding taking MBSFN RS) of PMCH.Map about transmission channel, the One information is transmitted on DL-SCH, as shown in line segment 1；Second information is to upload at MCH Defeated, as shown in line segment 2.

As the sub-embodiment 1 of embodiment 3, about mapping logical channels, the first information is at { DTCH (Dedicated Traffic Channel, Dedicated Traffic Channel), DCCH (Dedicated Control Channel, DCCH) } at least one channel-difference As shown in the both threads section indicating a.

As the sub-embodiment 2 of embodiment 3, about mapping logical channels, the first information is at { MTCH (Multicast Traffic Channel, Logical Traffic Channels), MCCH (Multicast Control Channel, multicast control channel) } at least one channel-difference As shown in the both threads section indicating b.

As the sub-embodiment 3 of embodiment 3, about mapping logical channels, the second information be { at least one channel in MTCH, MCCH}, respectively as shown in indicate the both threads section of c.

Embodiment 4

Embodiment 4 illustrates the structured flowchart of the processing means in a UE, as shown in Figure 4.Attached In Fig. 4, UE processing means 200 is mainly made up of, wherein receiver module 201 and sending module 202 Sending module 202 is optional.

Receiver module 201 is used for receiving the first information and the second information, and sending module 202 is used for sending 3rd signaling.Whether the transmission block that the 3rd signaling instruction first information is corresponding is correctly received.

In embodiment 4, for transmitting the running time-frequency resource of the first information and for transmitting the second information Running time-frequency resource is the most overlapping, and the RE that the first information and the second information take respectively and uses It is orthogonal in the RE of MBSFN RS.The transmission channel that the first information is corresponding is DL-SCH, second Transmission channel corresponding to information is MCH.

Pass in same subframe as the sub-embodiment 1 of embodiment 4, the first information and the second information Defeated.

As the sub-embodiment 2 of embodiment 4, receiver module 201 be additionally operable to receive the second signaling and Monitoring the first information in first sub-frame set, the second signaling indicates the first sub-frame set.Wherein, Two signalings are high-level signalings, and the transmission subframe of the first information belongs to the first sub-frame set, the first subframe Set is the subset of the second sub-frame set, and the second sub-frame set is by MBSFN-SubframeConfig IE Configuration.

As the sub-embodiment 3 of embodiment 4, the first signaling is transmitted on PDCCH or EPDCCH.

As the sub-embodiment 4 of embodiment 4, the DCI payload size of the first signaling carries equal to first The payload size of the object format for scheduling the second carrier wave of transmission on ripple.First carrier is the first letter The transmission carrier wave of order, the second carrier wave is the transmission carrier wave of the first information and the second information, described target lattice Formula is the DCI format { one in 1,1A, 1B, 1C, 1D}.

Embodiment 5

Embodiment 5 illustrates the structured flowchart of the processing means in a base station, as shown in Figure 5. In accompanying drawing 5, base station processing means 300 is mainly made up of sending module 301 and receiver module 302, Wherein receiver module 302 is optional module.

Sending module 301 is used for sending the first information, and receiver module 302 is for receiving the 3rd signaling. Whether the transmission block that the 3rd signaling instruction first information is corresponding is correctly received.

In embodiment 5, for transmitting the running time-frequency resource of the first information and for transmitting the second information Running time-frequency resource is the most overlapping, and the RE that the first information and the second information take respectively and uses It is orthogonal in the RE of MBSFN RS.The transmission channel that the first information is corresponding is DL-SCH, second Transmission channel corresponding to information is MCH.

As the sub-embodiment 1 of embodiment 5, sending module 301 is additionally operable to send the second information.

As the sub-embodiment 2 of embodiment 5, sending module 301 is additionally operable to send the first signaling, the The transmission in physical layer channel of the one signaling scheduling first information.

As the sub-embodiment 3 of embodiment 5, the fractional bandwidth of the target carrier that the first information takies, Second information occupies whole bandwidth of target carrier.Described target carrier is for transmission the first letter Breath and the carrier wave of the second information.

One of ordinary skill in the art will appreciate that all or part of step in said method is permissible Instructing related hardware by program to complete, described program can be stored in computer-readable storage medium In matter, such as read only memory, hard disk or CD etc..Optionally, above-described embodiment whole or Part steps can also use one or more integrated circuit to realize.Accordingly, above-mentioned enforcement Each modular unit in example, can use example, in hardware to realize, it is also possible to by software function module Form realizes, and the application is not limited to the combination of the software and hardware of any particular form.In the present invention UE include but not limited to the Wireless Telecom Equipments such as mobile phone, panel computer, notebook, card of surfing Internet. Base station in the present invention includes but not limited to macrocell base stations, microcell base station, Home eNodeB, in Continue the Wireless Telecom Equipments such as base station.

The above, only presently preferred embodiments of the present invention, it is not intended to limit the present invention's Protection domain.All within the spirit and principles in the present invention, any amendment made, equivalent, Improve, should be included within the scope of the present invention.

Claims (12)

1. support the method in the UE of multi-user's superposition, wherein, comprise the steps:

-step A. receives the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First letter The transmission channel that breath is corresponding is DL-SCH.

Method the most according to claim 1, it is characterised in that described step A also include as Lower step:

-step A0. receives the second information, deducts the second information from the wireless signal received Interference.

Wherein, for transmitting the running time-frequency resource of the first information and providing for transmitting the time-frequency of the second information Source is the most overlapping, RE that the second information takies and be just for the RE of MBSFN RS Handing over, transmission channel corresponding to the second information is MCH.

Method the most according to claim 1, it is characterised in that described step A also include as Lower step A1:

-step A1. receives the first signaling, the transmission of the first signaling scheduling first information.

Method the most according to claim 1, it is characterised in that described step A also include as Lower step:

-step A2. receives the second signaling, and the second signaling indicates the first sub-frame set.

Wherein, the transmission subframe of the first information belongs to the first sub-frame set.

Method the most according to claim 1, it is characterised in that also comprise the steps:

-step B. sends the 3rd signaling.Whether the 3rd signaling instruction transmission block corresponding to the first information It is correctly received.

6. support the method in the base station of multi-user's superposition, wherein, comprise the steps:

-step A. sends the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First letter The transmission channel that breath is corresponding is DL-SCH.

Method the most according to claim 6, it is characterised in that described step A also include as Lower step:

-step A0. sends the second information.

Wherein, for transmitting the running time-frequency resource of the first information and providing for transmitting the time-frequency of the second information Source is the most overlapping, RE that the second information takies and be just for the RE of MBSFN RS Handing over, transmission channel corresponding to the second information is MCH.

Method the most according to claim 6, it is characterised in that described step A also include as Lower step A1:

-step A1. sends the first signaling, the transmission of the first signaling scheduling first information.

Method the most according to claim 6, it is characterised in that described step A also include as Lower step:

-step A2. sends the second signaling, and the second signaling indicates the first sub-frame set.

Wherein, the transmission subframe of the first information belongs to the first sub-frame set.

Method the most according to claim 6, it is characterised in that also comprise the steps:

-step B. receives the 3rd signaling.Whether the 3rd signaling instruction transmission block corresponding to the first information It is correctly received.

11. 1 kinds of subscriber equipmenies supporting multi-user's superposition, wherein, including such as lower module:

First module: be used for receiving the first information

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First Transmission channel corresponding to information is DL-SCH.

12. 1 kinds of base station equipments supporting multi-user's superposition, wherein, including such as lower module:

First module: be used for sending the first information.

Wherein, the first information takies RE and be orthogonal for the RE of MBSFN RS.First letter The transmission channel that breath is corresponding is DL-SCH.