CN103391178A - PUCCH resource mapping and configuration method, device, user equipment and base station - Google Patents

Abstract

The invention provides a PUCCH resource mapping and configuration method, device, user equipment and base station, wherein the configuration method comprises the steps that resource mapping rules for mapping a PUCCH are set through the base station, and the resource mapping rules comprise the steps that for incompatible downlink subframes configured in R10 / R11 frame structures, UCI resources of the downlink subframes in a current frame are firstly mapped, and then UCI resources of the downlink subframes in a former frame are mapped; or the UCI resources of the user equipment are mapped according to the frame structure of the former frame, and the frame structure of the former frame is the frame structure with the maximum number of PDSCHs, mapped into a current uplink subframe, in the former frame; the base station issues the resources mapping rules to the user equipment. Through the adoption of the technical scheme, conflicting with mapping positions of the traditional PUCCH is avoided.

Description

PUCCH resource mapping, collocation method and device, subscriber equipment, base station

Technical field

The present invention relates to the communications field, in particular to a kind of PUCCH resource mapping, collocation method and device, subscriber equipment, base station.

Background technology

Long Term Evolution (Long-Term Evolution, referred to as LTE) and advanced long-term evolution system (Long-Term Evolution Advance, referred to as LTE-Advance) existing standard in, the resource mapping of Physical Uplink Control Channel (Physical Uplink Control Channel, referred to as PUCCH) is determined by following 2 kinds of modes:

If this PUCCH is form 1/1a/1b, the index of the Physical Downlink Control Channel (Physical Downlink Control CHannel, referred to as PDCCH) dispatched according to corresponding PDSCH of its resource mapping position determines;

If this PUCCH is form 2/2a/2b, its resource mapping position is configured by high-level signaling;

In addition, in existing standard, its resource mapping of the PUCCH of form 2/2a/2b, in the outermost of bandwidth, is then the PUCCH of form 1/1a/1b.May there is one both and mix Physical Resource Block (Physical Resource Block, referred to as PRB), as shown in Figure 1 (wherein

Respectively the PRB quantity that takies of presentation format 2/2a/2b and mix the resource code channel that in PRB, form 1/1a/1b takies).

Yet R11(is the Release11 in 3GPP) and later version in, the mapping of PUCCH need to be upgraded, its reason is as follows:

The introducing of E-PDCCH, how PUCCH and E-PDCCH associates and and existing standard compatible;

TDD dynamic frame architectural characteristic, in LTE and LTE-A standard, the system-frame of TDD is comprised of ten subframes.3GPP supports altogether 7 kinds of frame structures, and is as shown in table 1.

Table 1:TDD system uplink/downlink frames structure

The frame structure that comes notifying user equipment (User Equipment, referred to as UE) current service cell to configure by system information SIB-1 in the 3GPP standard at present.Follow according to existing standard, the SIB information minimum change cycle is 640ms.At 3GPP RAN54(2011 December) in the military pre-research project of " the dynamically tdd frame structure " of inferior plenary session official approval, the frame structure of more dynamic distribution T DD system becomes possibility.The variable cycle that shortens the TDD system frame structure can take full advantage of the characteristic of TDD to support better the transmission of non-symmetrical service., although this characteristic does not enter the R11 version, still have and may continue to discuss in the R12 version.After introducing TDD dynamic frame structure, need research how to avoid conflicting mutually with the mapping position of traditional PUCCH.

Table 2 is that UCI 1/1a/1b in the Shi order Guan Xi – subframe n of the PDSCH that defines in existing standard and UCI 1/1a/1b is for the PDSCH of n-k subframe.The method (TS36.213) that concrete mapping mode adopts channel to select.

Table 2: the sequential relationship { k of descending PDSCH and UCI ₀, k ₁... k _M-1}

After introducing the dynamic frame structure in correlation technique in the later version of R11, how to avoid and the afoul problem of the mapping position of traditional PUCCH, effective solution is not yet proposed at present.

Summary of the invention

In correlation technique, introduce the dynamic frame structure in the later version of R11 after, there is no and effectively avoid and the mapping position of the traditional PUCCH technical problem such as conflict mutually, the invention provides a kind of PUCCH resource mapping, collocation method and device, subscriber equipment, base station, to solve the problems of the technologies described above at least.

according to an aspect of the present invention, a kind of physical uplink control channel resource mapping configuration method is provided, the method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, the method comprises: base station arranges the resource mapping rule that PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, shine upon again the UCI resource for descending sub frame in previous frame, perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink, base station issues described resource mapping rule to user equipment (UE).

Above-mentioned resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

The sub-frame of uplink of present frame comprises: sub-frame of uplink #7.

Above-mentioned frame structure obtains in the following manner: base station, by the frame structure of broadcast signaling dynamic-configuration present frame, uses special-purpose control signal indication UE to use the frame structure of SIB-1 frame structure or the indication of described broadcast signaling simultaneously.

according to another aspect of the invention, a kind of physical uplink control channel resource mapping method is provided, the method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, the method comprises: user equipment (UE) receives the resource mapping rule that ascending physical signal control channel PUCCH is shone upon come from base station, and according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, shine upon again the UCI resource for descending sub frame in previous frame, perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink.

Above-mentioned resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

Above-mentioned UE carries out resource mapping according to the index of the CCE index in PDCCH or the eCCE in EPDCCH to the UCI resource of each descending sub frame.

According to another aspect of the invention, a kind of physical uplink control channel resource mapping configuration method is provided, said method is applied to the PUCCH form 1/1a/1b of EPDCCH, the method comprises: base station arranges the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b; Base station issues described resource mapping rule to user equipment (UE).

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

according to another aspect of the invention, another kind of physical uplink control channel resource mapping method is provided, said method is applied to the PUCCH form 1/1a/1b of EPDCCH, the method comprises: user equipment (UE) receives the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon come from base station, and according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b; According to the described resource mapping rule that receives, described PUCCH being carried out resource mapping comprises: described UE starts PUCCH is carried out resource mapping from the initial position that sets in advance, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

The described resource code channel of configuration is corresponding with UE in residential quarter or residential quarter.

Before above-mentioned UE carries out resource mapping according to described resource mapping rule to described PUCCH, also comprise: the total capacity of determining PDCCH and E-PDCCH in the target downlink subframe surpasses the CCE number of the maximum PDCCH that R10 can support, wherein, PDSCH for the E-PDCCH scheduling of the CCE number that surpasses maximum PDCCH, according to described resource mapping rule, described PUCCH is carried out resource mapping, described target downlink subframe is and the dispatching downlink subframe of the PDSCH that the PUCCH form 1/1a/1b of EPDCCH is corresponding.

If in described target downlink subframe, the total capacity of PDCCH and E-PDCCH surpasses the CCE number of the maximum PDCCH that R10 can support, resource mapping is carried out to PUCCH in the PUCCH form 1/1a/1b of the EPDCCH physical resource position of reusing the UCI 1/1a/1b that R10 defines.

According to another aspect of the invention, a kind of physical uplink control channel resource mapping inking device is provided, be arranged in base station, the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that the appointment sub-frame of uplink of this application of installation in TDD dynamic frame structure scene feeds back, this device comprises:

First arranges module, be used for arranging the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink; The first sending module, be used for issuing described resource mapping rule to user equipment (UE).

Above-mentioned resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

according to another aspect of the invention, a kind of physical uplink control channel resource mapping device is provided, be arranged in user equipment (UE), said apparatus is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, this device comprises: the first receiver module, be used for to receive the resource mapping rule that ascending physical signal control channel PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: for R10/R11 frame structure configuration in incompatible descending sub frame: first shine upon the ascending control information UCI resource for descending sub frame in present frame, shine upon again the UCI resource for descending sub frame in previous frame, perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink, the first mapping block, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

Above-mentioned resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

According to another aspect of the invention, a kind of physical uplink control channel resource mapping inking device is provided, be arranged in base station, this application of installation is in the PUCCH of EPDCCH form 1/1a/1b, this device comprises: second arranges module, be used for arranging the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b; The second sending module, be used for issuing described resource mapping rule to user equipment (UE).

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

According to another aspect of the invention, a kind of physical uplink control channel resource mapping device is provided, be arranged in user equipment (UE), this application of installation is in the PUCCH of EPDCCH form 1/1a/1b, this device comprises: the second receiver module, be used for to receive the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b; The second mapping block, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b;

According to the described resource mapping rule that receives, described PUCCH being carried out resource mapping comprises: from the initial position that sets in advance, start PUCCH is carried out resource mapping, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

According to another aspect of the invention, provide a kind of subscriber equipment, having comprised: above-described physical uplink control channel resource mapping device.

In accordance with a further aspect of the present invention, provide a kind of base station, having comprised: above-described physical uplink control channel resource mapping inking device.

by the present invention, regular to the resource mapping that Physical Uplink Control Channel PUCCH shines upon, and for different scenes (the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back in TDD dynamic frame structure scene, and the PUCCH form 1/1a/1b of mapping EPDCCH) adopt the mode of different resource mapping rules, after having avoided introducing dynamic frame structure and EPDCCH, with the mapping position of the traditional PUCCH problem such as conflict mutually, and then reached under dynamic frame structure scene not can with the afoul effect of mapping position of traditional PUCCH.

Description of drawings

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and illustrative examples of the present invention and explanation thereof are used for explaining the present invention, do not form improper restriction of the present invention.In the accompanying drawings:

Fig. 1 is the PUCCH mapping scheme schematic diagram according to correlation technique;

Fig. 2 is the flow chart according to the physical uplink control channel resource mapping configuration method of the embodiment of the present invention 1;

Fig. 3 is the structured flowchart according to the physical uplink control channel resource mapping inking device of the embodiment of the present invention 1;

Fig. 4 is the flow chart according to the physical uplink control channel resource mapping method of the embodiment of the present invention 1;

Fig. 5 is the structured flowchart according to the physical uplink control channel resource mapping device of the embodiment of the present invention 1;

Fig. 6 is the UCI resource mapping scene schematic diagram according to the embodiment of the present invention 2;

Fig. 7 is the flow chart according to the physical uplink control channel resource mapping configuration method of the embodiment of the present invention 3;

Fig. 8 is the structured flowchart according to the physical uplink control channel resource mapping inking device of the embodiment of the present invention 3;

Fig. 9 is the flow chart according to the physical uplink control channel resource mapping method of the embodiment of the present invention 3;

Figure 10 is the structured flowchart according to the physical uplink control channel resource mapping device of the embodiment of the present invention 3;

Figure 11 is the schematic diagram according to the physical uplink control channel resource mapping scheme of the embodiment of the present invention 4;

Figure 12 is the structured flowchart according to embodiment of the present invention base station;

Figure 13 is the structured flowchart according to the subscriber equipment of the embodiment of the present invention.

Embodiment

Hereinafter with reference to accompanying drawing, also describe in conjunction with the embodiments the present invention in detail.Need to prove, in the situation that do not conflict, embodiment and the feature in embodiment in the application can make up mutually.

Describe with the resource mapping scheme under different scenes in following examples.Wherein, embodiment 1 and embodiment 2 are applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, and embodiment 3 and embodiment 4 are applied to the PUCCH form 1/1a/1b of EPDCCH.

Below describe in detail.

Embodiment 1

In this embodiment, the frame structure of dynamic-configuration UE in the following way: base station, by the frame structure of broadcast signaling dynamic-configuration present frame, uses special-purpose control signal indication UE to use the frame structure of SIB-1 frame structure or the indication of described broadcast signaling simultaneously.The frame structure that R12UE is assigned with can be different from the current actual frame structure that adopts of eNB.

Fig. 2 is the flow chart according to the physical uplink control channel resource mapping configuration method of the embodiment of the present invention 1.The method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back.As shown in Figure 2, the method comprises:

Step S202, base station arranges the resource mapping rule that PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

Step S204, base station issues described resource mapping rule to UE.

, by above-mentioned processing procedure,, owing to adopting first definition rule according to R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure; Secondly, for with R10/R11 frame structure configuration in incompatible descending sub frame: first shine upon the UCI resource for descending sub frame in present frame, shine upon again the UCI resource for descending sub frame in previous frame, perhaps, no matter UE has distributed any frame structure at previous frame, all according to the maximum frame structure of the previous frame PDSCH quantity in current sub-frame of uplink, shine upon the resource mapping rule of the UCI resource of described UE, therefore, after fundamentally having avoided introducing dynamic frame structure, the PUCCH conflict that R12UE produces because not knowing actual frame structure.

Above-mentioned resource mapping rule can also comprise:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

The sub-frame of uplink of present frame comprises: sub-frame of uplink #7.

A kind of physical uplink control channel resource mapping inking device also is provided in the present embodiment, be arranged in base station, this application of installation specifies sub-frame of uplink to feed back in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure, be used for realizing above-described embodiment and preferred implementation, carried out repeating no more of explanation, below to relating to module in this system, described.As used below, the combination of software and/or the hardware of predetermined function can be realized in term " module ".Although the described assembling system of following examples is preferably realized with software, hardware, perhaps the realization of the combination of software and hardware also may and be conceived.Fig. 3 is the structured flowchart according to the physical uplink control channel resource mapping inking device of the embodiment of the present invention 1.As shown in Figure 3, this device comprises:

First arranges module 30, be connected to the first sending module 32, be used for arranging the resource mapping rule that PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

The first sending module 32, be used for issuing described resource mapping rule to UE.

Above-mentioned resource mapping rule can also comprise:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

Fig. 4 is the flow chart according to the physical uplink control channel resource mapping method of the embodiment of the present invention 1.The method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, and as shown in Figure 4, the method comprises:

Step S402, UE receives the resource mapping rule that PUCCH is shone upon come from base station, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

Step S404, UE carries out resource mapping according to the described resource mapping rule that receives to described PUCCH.

In the present embodiment, above-mentioned resource mapping rule can also comprise:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

Above-mentioned UE carries out resource mapping according to described resource mapping rule to the UCI resource of each descending sub frame according to the index of the CCE index in PDCCH or the eCCE in EPDCCH.

In the present embodiment, also provide the resource mapping apparatus of a kind of PUCCH, be used for realizing embodiment illustrated in fig. 4.This device is arranged in UE, be applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, Fig. 5 is the structured flowchart according to the physical uplink control channel resource mapping device of the embodiment of the present invention 1.As shown in Figure 5, this device comprises:

The first receiver module 50, be connected to the first mapping block 52, be used for to receive the resource mapping rule that ascending physical signal control channel PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: for R10/R11 frame structure configuration in incompatible descending sub frame: first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

The first mapping block 52, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

As mentioned above, above-mentioned resource mapping rule can also comprise:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

, in order to understand better above-described embodiment 1 and preferred implementation thereof, below in conjunction with embodiment 2 and relevant drawings, illustrate.

Embodiment 2

In this embodiment, the resource mapping scheme for PUCCH for convenience, is defined as follows:

The PUCCH form 1/1a/1b:PUCCH form 1d for " traditional PD CCH in the incompatible descending sub frame of R10 " that certain sub-frame of uplink in TDD dynamic frame structure scene feeds back; The PUCCH form 1/1a/1b:PUCCH form 1e for " EPDCCH in the incompatible descending sub frame of R10 " that certain sub-frame of uplink in TDD dynamic frame structure scene feeds back.

The present embodiment is for the UCI mapping scheme of dynamic tdd frame structure allocation scenarios (supposition R12 or later release have been supported this scene).

In order to understand better the present embodiment, below first to TDD service adaptation interference management (Interference Management Traffic Adaptation, referred to as IMTA) in the UCI mapping problem that can run into describe: the mode that the UCI 1/1a/1b of existing standard adopts channel to select is shone upon, namely for each frame structure, a sub-frame of uplink is carrying UCI corresponding to one or more descending sub frame PDSCH.The index of the PDCCH of each configuration PDSCH has determined the position of UCI 1/1a/1b.Dynamically in handoff scenario,, because R11 is different to the deciphering of frame structure with R12, cause the mapping relations difference of the descending sub frame of sub-frame of uplink carrying, therefore be easy to occur the UCI conflict.

For R12UE, for example UE 1, may be configured to carry out frame structure according to the configuration of SIB-1 and understand (namely can solution read actual frame structure).Suppose that SIB-1 is frame structure 0; UE1 is the previous frame of present frame at frame n-1() observe the SIB-1 configuration, at frame n(, be present frame) configured dynamically frame structure 2 and taken subframe #0; In actual transmissions, frame n-1 is frame structure 1, and frame n is frame structure 2.As shown in Figure 6, at the subframe #7 of frame n, to feed back the UCI of 3 descending sub frames:

The subframe #1 of frame n: for fear of the conflict in top problem 1, this UCI should reserve out according to R10 standard (the EPDCCH part is according to the R11 standard) fully;

Subframe #9 in frame n-1: suppose that this subframe is taken by UE 2 ~ N;

The subframe #0 of frame n: this subframe is taken by UE1;

Below further minute 2 kinds of situation discussion:

(1) UE1 knows that the practical structures of frame n-1 is frame structure 1, concrete scheme can be to configure dynamically the frame structure of present frame reality by broadcast signaling, and the UE that uses simultaneously the specific control signal notice of UE R12 observes the frame structure of SIB-1 or the frame structure of dynamic broadcast signaling indication.Although make like this UE1 observe the SIB-1 frame structure at frame n-1, UE2 can perceive actual frame structure, can avoid for frame n-1 when the subframe #7 of frame n feedback UCI in the position of UCI of subframe #9.

Yet there is following problem in this allocation plan: the dynamic broadcast signaling has increased UE blind Detecting number of times; Need to increase larger signaling consumption for the robustness that guarantees broadcast signaling simultaneously.

(2) UE2 does not know the practical structures of frame n-1, thinks that it is frame structure 0.Another possibility is that UE1 does not perceive actual frame structure at the n-1 frame, and it does not recognize the descending sub frame #9 in frame n-1, so may clash.

Based on such scheme, the present embodiment proposes a kind of UCI mapping scheme of robust, and namely UE1 does not perceive in the situation of actual frame structure of frame n-1 and can avoid the conflict of UCI yet, and concrete scheme is as follows:

Definition rule according to R10/R11, the UCI allocation of space of corresponding R10 PDCCH and R11 EPDCCH is given: the UE of R10/R11, and the R12UE(that has distributed compatible R10/R11PDSCH is that descending sub frame that in the present frame structure, sub-frame of uplink is corresponding is the subset of corresponding descending sub frame in the frame structure of SIB-1 notice, for example the present frame structure is that 1, SIB-1 frame structure is 2).

With the incompatible descending sub frame of R10/R11PDSCH, the UCI channel selection principle of sub-frame of uplink #7 is: first shine upon the UCI for CCE in the present frame descending sub frame, shine upon again the UCI for CCE in the previous frame descending sub frame: following as an example of Fig. 6 example explanation how to carry out the mapping of UCI 1d/1e, in subframe #7 in the n frame, at first according to the PCFICH value of subframe #1 in the n frame and EPDCCH capacity, reserve respectively UCI 1/1a/1b(UCI space 1 for subframe #1) and UCI 1c(UCI space 2) thereby conflict with R10/R11UE avoided.Then in the UCI 1d(UCI space 3 of the back in UCI space 1 (more close band center direction) mapping for the subframe #0 in the n frame and subframe #3), then in the UCI 1e(UCI space 4 of the back in UCI space 2 (more close band center direction) mapping for the subframe #0 in the n frame and subframe #3).

Perhaps, with the incompatible descending sub frame of R10/R11PDSCH, the UCI channel selection principle of sub-frame of uplink #7 is: no matter what frame structure R12UE has distributed at previous frame, it all will reserve the UCI resource for previous frame subframe 9:

How explanation carries out the mapping of UCI 1d/1e as an example of Fig. 6 example, in subframe #7 in the n frame, at first according to the PCFICH value of subframe #1 in the n frame and EPDCCH capacity, reserve respectively UCI 1/1a/1b(UCI space 1 for subframe #1) and UCI 1c(UCI space 2) thereby conflict with R10/R11UE avoided.Then in the back in UCI space 1 (more close band center direction) according to predefined method (for example block interleaving etc.) the mapping UCI for the subframe #9 in the subframe #0 in the n frame and subframe #3 and frame n-1.The benefit of the method is to reuse existing UCI mapping scheme as far as possible, yet has brought certain UCI overhead losses.

Embodiment 3

Fig. 7 is the flow chart according to the physical uplink control channel resource mapping configuration method of the embodiment of the present invention 3.The method is applied to the PUCCH form 1/1a/1b of EPDCCH, and as shown in Figure 7, the method comprises:

Step S702, base station arranges the resource mapping rule that PUCCH is shone upon, and wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI 1/1a/1b;

Step S704, base station issues described resource mapping rule to UE.

By above-mentioned processing procedure, because the resource mapping rule according to will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH being inserted into the position between UCI2/2a/2b and UCI1/1a/1b is shone upon PUCCH, therefore, after can avoiding equally introducing the dynamic frame structure, with the mapping position of traditional PUCCH, conflict mutually.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

A kind of physical uplink control channel resource mapping inking device also is provided in the present embodiment, this device is arranged in base station, be applied to the PUCCH form 1/1a/1b of EPDCCH, be used for realizing above-described embodiment and preferred implementation, carried out repeating no more of explanation, below to relating to module in this system, described.As used below, the combination of software and/or the hardware of predetermined function can be realized in term " module ".Although the described system of following examples preferably realizes with software, hardware, perhaps the realization of the combination of software and hardware also may and be conceived.Fig. 8 is the structured flowchart according to the physical uplink control channel resource mapping inking device of the embodiment of the present invention 3.As shown in Figure 8, this device comprises:

Second arranges module 80, be connected to the second sending module 82, be used for arranging the resource mapping rule that PUCCH is shone upon, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

The second sending module 82, be used for issuing described resource mapping rule to UE.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

Based on above-mentioned allocation plan, the present embodiment also provides a kind of physical uplink control channel resource mapping method, and the method is applied to the PUCCH form 1/1a/1b of EPDCCH, and as shown in Figure 9, the method comprises:

Step S902, UE receives the resource mapping rule that PUCCH is shone upon come from base station, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

Step S904, UE carries out resource mapping according to the described resource mapping rule that receives to described PUCCH.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b;

UE carries out resource mapping according to the described resource mapping rule that receives to described PUCCH and comprises: described UE starts PUCCH is carried out resource mapping from the initial position that sets in advance, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

The described resource code channel of configuration is corresponding with UE in residential quarter or residential quarter.

State before UE carries out resource mapping according to the described resource mapping rule that receives to described PUCCH, can also comprise: the total capacity of determining PDCCH and E-PDCCH in the target downlink subframe surpasses the CCE number of the maximum PDCCH that R10 can support, wherein, PDSCH for the E-PDCCH scheduling of the CCE number that surpasses maximum PDCCH, according to described resource mapping rule, described PUCCH is carried out resource mapping, described target downlink subframe is and the dispatching downlink subframe of the PDSCH that the PUCCH form 1/1a/1b of EPDCCH is corresponding.If in described target downlink subframe, the total capacity of PDCCH and E-PDCCH surpasses the CCE number of the maximum PDCCH that R10 can support, resource mapping is carried out to PUCCH in the PUCCH form 1/1a/1b of the EPDCCH physical resource position of reusing the UCI 1/1a/1b that R10 defines.

The present embodiment also provides a kind of physical uplink control channel resource mapping device, is arranged in UE, and this application of installation is in the PUCCH of EPDCCH form 1/1a/1b, and as shown in figure 10, this device comprises:

The second receiver module 1002, be connected to the second mapping block 1004, be used for to receive the resource mapping rule that PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

The second mapping block 1004, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b;

Above-mentioned the second mapping block 1004, also be used for starting PUCCH is carried out resource mapping from the initial position that sets in advance, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

Embodiment 4

, in order to understand better above-described embodiment 3, below in conjunction with specific embodiment, describe in detail.The technical problem that at first the present embodiment will be solved describes:, for fear of the conflict of the PUCCH with traditional, be that PUCCH form 1c is mapped to PUCCH form 1/1a/1b back more intuitively.Yet potential problem is arranged like this: (1) PUCCH conflict in order to get along well traditional, need to reserve resource according to the UCI 1/1a/1b capacity of maximum possible, some resource wherein may not can be used, and causes the wasting of resources, when especially system bandwidth is narrow; (2 in addition, if TDD dynamic frame structure is supported, even the notified actual frame structure of UE is different from the indication of SIB-1, this UE also needs to detect in the frame structure of all SIB-1 indications the PCFICH in descending sub frame so that it knows the capacity of maximum UCI 1/1a/1b.Be unfavorable for like this saving power consumption.In the present embodiment, in order to narrate conveniently, the existing work to give a definition: the PUCCH form 1/1a/1b for EPDCCH is defined as PUCCH form 1c.

Embodiment 4

UCI 1c is inserted into the position between UCI2/2a/2b and UCI1/1a/1b, and specific implementation can realize by reusing existing three parameters:

Define constant, the PRB quantity that expression UCI 2/2a/2b takies

, for R11 and later UE, represent in the PRB of UCI 1c and UCI2/2a/2b mixing the resource code channel that UCI 1c takies.R10 and UE in the past still understand in the PRB that this parameter is UCI 1/1a/1b and UCI2/2a/2b mixing, the resource code channel that UCI 1/1a/1b takies.

Define constant, the index offset amount of expression UCI 1/1a/1b.But in the time of concrete assignment, comprise the capacity of UCI1c.

As shown in figure 11, suitable by arranging

Numerical value (0 ~ 2047) is moved UCI 1/1a/1b the position of more close band center, inserts UCI 1c between UCI 1/1a/1b and UCI 2/2a/2b.UCI 1c from

The position that indicates starts mapping, can be mapped to index at most

The position of sign.In addition, in similar UCI 1/1a/1b

The side-play amount of the UCI 1c index of a high-rise configuration can be set

Control the original position of UCI 1c.

This scheme needs UE to know that in system, the capacity of E-PDCCH is the index of the eCCE of its distribution, if the E-PDCCH of the final definition of R11 does not support this demand (for example UE only knows part E-PDCCH capacity), and variable that can above-mentioned proposition

Can be that UE is specific.

In top scheme, UCI 1c is placed on the space that is totally independent of UCI 1/1a/1b,, as a candidate scheme, can make (or completely) of UCI 1c part to reuse UCI 1/1a/1b space.Following description:

If A1. in the target downlink subframe, the total capacity of PDCCH and E-PDCCH surpasses the CCE number (of the maximum PDCCH that R10 can support _CCE, 3 ~ 4 OFDM symbols), UCI 1c reuse R10 definition UCI 1/1a/1b physical resource Wei Zhi – wherein the eCCE index calculation of E-PDCCH be n _ECCE=N _CCE+ k, wherein N _CCEBe the CCE number in the target downlink subframe, k is the numbering of eCCE in E-PDCCH.

If A2. in the target downlink subframe, the total capacity of PDCCH and E-PDCCH surpasses the CCE number (of the maximum PDCCH that R10 can support _CCE, 3 ~ 4 OFDM symbols), for the PDSCH of the E-PDCCH of overage scheduling, at first upgrading the CCE index is n ' _ECCE=n _ECCE- _CCE, then carry out the operation of top step a.

In top step a, the mapping of UCI 1c can be reused existing block interleaving scheme.

In addition, in a preferred embodiment of the invention, also provide a kind of base station, as shown in figure 12, this base station can comprise: Fig. 3 and/or embodiment illustrated in fig. 8 in physical uplink control channel resource mapping inking device.

base station in the present embodiment, utilize first in the physical uplink control channel resource mapping inking device in embodiment illustrated in fig. 3 that module 30 is set above-mentioned resource mapping rule is set, then by the first sending module 32, above-mentioned resource mapping rule is handed down to UE, like this, can realize the negotiation of resource mapping rule between base station and UE, thereby make base station and UE utilize above-mentioned resource mapping rule to carry out resource mapping to PUCCH, thereby avoided to specify in TDD dynamic frame structure scene that sub-frame of uplink feeds back for the configuration of R10/R11 frame structure in the PUCCH form 1/1a/1b of incompatible descending sub frame conflict mutually with traditional PUCCH mapping position while carrying out resource mapping.

With above-mentioned similar, utilize second in the physical uplink control channel resource mapping device in embodiment illustrated in fig. 8 that module 80 is set above-mentioned resource mapping rule is set, then by the second sending module 82, above-mentioned resource mapping rule is handed down to UE, like this, can realize the negotiation of resource mapping rule between base station and UE, thereby make base station and UE utilize above-mentioned resource mapping rule to carry out resource mapping to PUCCH, thereby conflict mutually with traditional PUCCH mapping position while having avoided PUCCH form 1/1a/1b to EPDCCH to carry out resource mapping.

In another preferred embodiment of the present invention, a kind of UE also is provided, as shown in figure 13, this device comprises: Fig. 5 and/or embodiment illustrated in fig. 10 in the physical uplink control channel resource mapping device.

UE in the present embodiment, utilize the first receiver module 50 in the physical uplink control channel resource mapping device in embodiment illustrated in fig. 5, the above-mentioned resource mapping rule that reception is issued by base station, then according to this resource mapping rule, PUCCH is carried out resource mapping by the first mapping block 52, thereby avoided in to TDD dynamic frame structure scene specifying sub-frame of uplink feeds back for the configuration of R10/R11 frame structure in the PUCCH form 1/1a/1b of incompatible descending sub frame while carrying out resource mapping, conflict mutually with traditional PUCCH mapping position.

with top similar, UE in the present embodiment, can also utilize the second receiver module 1002 in the physical uplink control channel resource mapping device in embodiment illustrated in fig. 10, the above-mentioned resource mapping rule that reception is issued by base station, then according to this resource mapping rule, PUCCH is carried out resource mapping by the second mapping block 1004, thereby avoided in to TDD dynamic frame structure scene specifying sub-frame of uplink feeds back for the configuration of R10/R11 frame structure in the PUCCH form 1/1a/1b of incompatible descending sub frame while carrying out resource mapping, conflict mutually with traditional PUCCH mapping position.

obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in storage device and be carried out by calculation element, and in some cases, can carry out step shown or that describe with the order that is different from herein, perhaps they are made into respectively each integrated circuit modules, perhaps a plurality of modules in them or step being made into the single integrated circuit module realizes.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (24)

1. physical uplink control channel resource mapping configuration method, it is characterized in that, described method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, and the method comprises:

Base station arranges the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

Described base station issues described resource mapping rule to user equipment (UE).

2. method according to claim 1, is characterized in that, described resource mapping rule also comprises:

, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

3. method according to claim 1, is characterized in that, the sub-frame of uplink of present frame comprises: sub-frame of uplink #7.

4. the described method of according to claim 1 to 3 any one, it is characterized in that, described frame structure obtains in the following manner: described base station, by the frame structure of broadcast signaling dynamic-configuration present frame, uses special-purpose control signal indication UE to use the frame structure of SIB-1 frame structure or the indication of described broadcast signaling simultaneously.

5. physical uplink control channel resource mapping method, it is characterized in that, described method is applied in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that specifies sub-frame of uplink to feed back, and the method comprises:

User equipment (UE) receives the resource mapping rule that ascending physical signal control channel PUCCH is shone upon come from base station, and according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink.

6. method according to claim 5, is characterized in that, described resource mapping rule also comprises:

, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

7. method according to claim 5, is characterized in that, described UE carries out resource mapping according to described resource mapping rule to the UCI resource of each descending sub frame according to the index of the CCE index in PDCCH or the eCCE in EPDCCH.

8. a physical uplink control channel resource mapping configuration method, is characterized in that, described method is applied to the PUCCH form 1/1a/1b of EPDCCH, and the method comprises:

Base station arranges the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

Described base station issues described resource mapping rule to user equipment (UE).

9. method according to claim 8, is characterized in that, will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b, comprising:

Index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, and wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

10. a physical uplink control channel resource mapping method, is characterized in that, described method is applied to the PUCCH form 1/1a/1b of EPDCCH, and the method comprises:

User equipment (UE) receives the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon come from base station, and according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b.

11. method according to claim 10, is characterized in that,

Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI 1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

According to the described resource mapping rule that receives, described PUCCH being carried out resource mapping comprises: described UE starts PUCCH is carried out resource mapping from the initial position that sets in advance, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

12. method according to claim 11, is characterized in that, the described resource code channel of configuration is corresponding with UE in residential quarter or residential quarter.

13. method according to claim 10, is characterized in that, described UE also comprises before according to the described resource mapping rule that receives, described PUCCH being carried out resource mapping:

The total capacity of determining PDCCH and E-PDCCH in the target downlink subframe surpasses the CCE number of the maximum PDCCH that R10 can support, wherein, PDSCH for the E-PDCCH scheduling of the CCE number that surpasses maximum PDCCH, according to described resource mapping rule, described PUCCH is carried out resource mapping, described target downlink subframe is and the dispatching downlink subframe of the PDSCH that the PUCCH form 1/1a/1b of EPDCCH is corresponding.

14. method according to claim 13, it is characterized in that, also comprise: if in described target downlink subframe, the total capacity of PDCCH and E-PDCCH surpasses the CCE number of the maximum PDCCH that R10 can support, resource mapping is carried out to PUCCH in the PUCCH form 1/1a/1b of the EPDCCH physical resource position of reusing the UCI 1/1a/1b that R10 defines.

15. physical uplink control channel resource mapping inking device, be arranged in base station, it is characterized in that, the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure that the appointment sub-frame of uplink of described application of installation in TDD dynamic frame structure scene feeds back, this device comprises:

First arranges module, be used for arranging the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: for incompatible descending sub frame in configuring with the R10/R11 frame structure, first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

The first sending module, be used for issuing described resource mapping rule to user equipment (UE).

16. device according to claim 15, is characterized in that, described resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

17. physical uplink control channel resource mapping device, be arranged in user equipment (UE), it is characterized in that, described application of installation specifies sub-frame of uplink to feed back in TDD dynamic frame structure scene the PUCCH form 1/1a/1b for descending sub frame incompatible in configuring with the R10/R11 frame structure, this device comprises:

The first receiver module, be used for to receive the resource mapping rule that ascending physical signal control channel PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: for R10/R11 frame structure configuration in incompatible descending sub frame: first shine upon the ascending control information UCI resource for descending sub frame in present frame, then shine upon the UCI resource for descending sub frame in previous frame; Perhaps, shine upon the UCI resource of described UE according to the frame structure of previous frame, wherein, the frame structure of described previous frame is the maximum frame structure of previous frame PDSCH quantity that is mapped in current sub-frame of uplink;

The first mapping block, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

18. device according to claim 17, is characterized in that, described resource mapping rule also comprises:, according to the definition rule of R10/R11, reserve the ascending control information UCI resource for descending sub frame compatible in configuring with the R10/R11 frame structure.

19. a physical uplink control channel resource mapping inking device, be arranged in base station, it is characterized in that, described application of installation is in the PUCCH of EPDCCH form 1/1a/1b, and this device comprises:

Second arranges module, be used for arranging the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

The second sending module, be used for issuing described resource mapping rule to user equipment (UE).

20. device according to claim 19, it is characterized in that, will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b.

21. a physical uplink control channel resource mapping device, be arranged in user equipment (UE), it is characterized in that, described application of installation is in the PUCCH of EPDCCH form 1/1a/1b, and this device comprises:

The second receiver module, be used for to receive the resource mapping rule that Physical Uplink Control Channel PUCCH is shone upon that comes from base station, wherein, described resource mapping rule comprises: will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b;

The second mapping block, be used for, according to the described resource mapping rule that receives, described PUCCH is carried out resource mapping.

22. device according to claim 21, it is characterized in that, will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI2/2a/2b and UCI1/1a/1b, comprise: index offset amount and UCI 2/2a/2b by pre-configured UCI1/1a/1b are arranged on UCI 1/1a/1b near the band center position, wherein, described index offset amount comprises: the capacity of the PUCCH form 1/1a/1b of EPDCCH; Will the UCI resource corresponding with the PUCCH form 1/1a/1b of EPDCCH be inserted into the position between UCI 2/2a/2b and UCI1/1a/1b;

Described the second mapping block, also be used for starting PUCCH is carried out resource mapping from the initial position that sets in advance, wherein, described initial position is in the PRB that mixes of the PUCCH form 1/1a/1b of EPDCCH and UCI2/2a/2b, the resource code channel that the PUCCH form 1/1a/1b of configuration EPDCCH takies.

23. a subscriber equipment, is characterized in that, comprising: the described device of any one in claim 17,18,21 and 22.

24. a base station, is characterized in that, comprising: the described device of any one in claim 15,16,19 and 20.

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