CN107431558A - User equipment, the network equipment and uplink control information transmission method - Google Patents

Abstract

The embodiment of the present invention provides a kind of user equipment, the network equipment and uplink control information transmission method.The user equipment of the present invention includes：Mapping block is used for the default running time-frequency resource that UCI is mapped to uplink data channels, other running time-frequency resources that upstream data is mapped on the uplink data channels outside the resource for presetting running time-frequency resource and reference signal；Sending module is used to send UCI and upstream data on uplink data channels.The invention can ensure that the integrality of upstream data.

Description

User equipment, the network equipment and uplink control information transmission method Technical field

The present embodiments relate to the communication technology more particularly to a kind of user equipmenies, the network equipment and uplink control information transmission method.

Background technique

To improve communication system broadband and message transmission rate, to third generation partner program (3rd Generation Partnership Project, abbreviation 3GPP) long term evolution (Long Term Evolution, abbreviation LTE) the 8th edition (Release 8, abbreviation Rel-8), 9th edition (Release 9, abbreviation Rel-9) successively enhanced, it is proposed senior long term evolution (Long Term Evolution-Advanced, abbreviation LTE-A) the 10/11/12/13rd edition (Release 10/11/12/13, abbreviation Rel-10/11/12/13) and it is more advanced Version.The lte-a system improves system bandwidth and message transmission rate by carrier convergence (Component Aggregation, abbreviation CA) technology.

In lte-a system, the network equipment can make the uplink control channel of user equipment (User Equipment, abbreviation UE) and uplink data channels in subframe carry out frequency division multiplexing by configuring simultaneous interpretation.If the network equipment does not configure simultaneous interpretation and occurs needing simultaneous transmission uplink control channel and uplink data channels, the UE is transmitted ascending control information (Uplink Control Information, abbreviation UCI) multiplexing to uplink data channels of the uplink control channel.Partial information in the ascending control information can be mapped to the default running time-frequency resource of the uplink data channels by the UE before this, then the mapping that other running time-frequency resources outside running time-frequency resource carry out upstream data is preset according to this in the uplink data channels, another part information in the ascending control information punches the partial data on other running time-frequency resources of the uplink data channels again, to carry out the mapping of another part information.

In the lte-a system, the bit number for the ascending control information that CA technology makes the UE feed back to the base station is more, this makes mapping of the UE to another part information in the ascending control information, caused by punctured data it is more so that data degradation is serious.

Summary of the invention

The embodiment of the present invention provides a kind of user equipment, the network equipment and uplink control information transmission method, To solve the problems, such as that data degradation is serious.

In a first aspect, the embodiment of the present invention mentions a kind of UE, comprising:

Mapping block, for ascending control information UCI to be mapped to the default running time-frequency resource of uplink data channels；Upstream data is mapped into other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal；

Sending module, for sending the UCI and the upstream data on the uplink data channels.

According to first aspect, in the first mode in the cards of first aspect, if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The mapping block is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.

According to the first of first aspect or first aspect mode in the cards, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The mapping block is also used to the running time-frequency resource for starting one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.

According to any one in second of mode in the cards of first aspect to first aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The mapping block is also used to map to the channel indicating information running time-frequency resource that one end of frequency domain in the corresponding band of third symbol described in the subframe starts.

According to the third mode in the cards of first aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, The default running time-frequency resource further include: the first symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The mapping block, is also used to also map to the channel indicating information the first symbol described in the subframe and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.

According to the first mode in the cards of first aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

The mapping block is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the 4th symbol starts.

According to first aspect, in the 6th kind of mode in the cards of first aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

The mapping block, the time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels.

According to first aspect or the 6th kind of mode in the cards of first aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the corresponding band of the second time slot of the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels time-domain resource and the subframe；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

The mapping block, it is also used to the running time-frequency resource for starting the first end of frequency domain in time-domain resource and the corresponding band of second time slot that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts.

According to any one in the 7th of first aspect to first aspect the kind of mode in the cards, in the 8th kind of mode in the cards, the UCI is greater than default for CQI information in the descending carrier of the UE The corresponding ascending control information of the descending carrier of CQI value.

According to any one in the 8th of first aspect to first aspect the kind of mode in the cards, in the 9th kind of mode in the cards, the UE further include:

Determining module, for determining the default running time-frequency resource according to parameter preset before the UCI is mapped to the default running time-frequency resource of the uplink data channels by the mapping block；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

According to any one in the 9th of first aspect to first aspect the kind of mode in the cards, in the tenth kind of mode in the cards,

The determining module determines the default running time-frequency resource alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset greater than the corresponding first threshold of the parameter preset if being also used to the parameter preset；The second threshold is greater than the first threshold.

Second aspect, the embodiment of the present invention provide a kind of network equipment, comprising:

Processing module, for determining that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

Receiving module, for receiving ascending control information UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

According to second aspect, in the first mode in the cards of second aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The receiving module is also used to the running time-frequency resource reception HARQ feedback information that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.

According to the first of second aspect or second aspect mode in the cards, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The receiving module is also used to the running time-frequency resource reception RI information that one end of frequency domain in the corresponding band of the second symbol described in the subframe starts.

According to any one in second of mode in the cards of second aspect to second aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The receiving module is also used to the running time-frequency resource reception channel indicating information that one end of frequency domain in the corresponding band of the third symbol described in the subframe starts.

According to the third mode in the cards of second aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The receiving module is also used to the running time-frequency resource that the other end that the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts and receives the channel indicating information.

According to the first mode in the cards of second aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

The receiving module is also used to the running time-frequency resource that the other end that the 4th symbol corresponds to frequency domain in the band described in the subframe starts and receives the HARQ feedback information.

According to second aspect, in the 6th kind of mode in the cards of second aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

The receiving module is also used to described of frequency domain in the first end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe The time-domain resource that two ends start receives the HARQ feedback information.

According to second aspect, in the 6th kind of mode in the cards of second aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

The receiving module, it is also used to the time-domain resource reception channel indicating information and/or the RI information that the first end of frequency domain in the second end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.

According to any one in the 7th of second aspect to second aspect the kind of mode in the cards, in the 8th kind of mode in the cards, the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

The third aspect, the embodiment of the present invention provide a kind of user equipment (UE), comprising: processor and transmitter；

Wherein, the processor, for ascending control information UCI to be mapped to the default running time-frequency resource of uplink data channels；Upstream data is mapped into other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal；

The transmitter, for sending the UCI and the upstream data on the uplink data channels.

According to the third aspect, in the first mode in the cards of the third aspect, if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The processor is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.

According to the first of the third aspect or the third aspect mode in the cards, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The processor is also used to the running time-frequency resource for starting one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.

According to any one in second of mode in the cards of the third aspect to the third aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The processor is also used to map to the channel indicating information running time-frequency resource that one end of frequency domain in the corresponding band of third symbol described in the subframe starts.

According to the third mode in the cards of the third aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The processor, is also used to also map to the channel indicating information the first symbol described in the subframe and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.

According to the first mode in the cards of the third aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

The processor is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the 4th symbol starts.

According to the third aspect, in the 6th kind of mode in the cards of the third aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

The processor, the first end of frequency domain starts in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels running time-frequency resource and the subframe The time-domain resource that the second end of frequency domain starts in the corresponding band of second time slot.

According to the third aspect or the 6th kind of mode in the cards of the third aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

The processor, it is also used to the running time-frequency resource for starting the first end of frequency domain in time-domain resource and the corresponding band of second time slot that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts.

According to any one in the 7th of the third aspect to the third aspect the kind of mode in the cards, in the 8th kind of mode in the cards, the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.

According to any one in the 8th of the third aspect to the third aspect the kind of mode in the cards, in the 9th kind of mode in the cards, the processor, it is also used to before the default running time-frequency resource that the UCI is mapped to the uplink data channels, the default running time-frequency resource is determined according to parameter preset；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

According to the 9th of the third aspect the kind of mode in the cards, in the tenth kind of mode in the cards,

The processor determines the default running time-frequency resource alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset greater than the corresponding first threshold of the parameter preset if being also used to the parameter preset；The second threshold is greater than the first threshold.

Fourth aspect, the embodiment of the present invention provide a kind of network equipment, comprising: processor and receiver；

Wherein, the processor, for determining that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

The receiver, for receiving ascending control information UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

According to fourth aspect, in the first mode in the cards of fourth aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource includes: in the subframe of the uplink data channels place The running time-frequency resource that one end of frequency domain starts in the corresponding band of first symbol；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The receiver is also used to the running time-frequency resource reception HARQ feedback information that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.

According to the first of fourth aspect or fourth aspect mode in the cards, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The receiver is also used to the running time-frequency resource reception RI information that one end of frequency domain in the corresponding band of the second symbol described in the subframe starts.

According to any one in second of mode in the cards of fourth aspect to fourth aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The receiver is also used to the running time-frequency resource reception channel indicating information that one end of frequency domain in the corresponding band of the third symbol described in the subframe starts.

According to the third mode in the cards of fourth aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The receiver is also used to the running time-frequency resource that the other end that the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts and receives the channel indicating information.

According to the first mode in the cards of fourth aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol include between corresponding two symbols of DMRS except first symbol and Symbol except second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

The receiver is also used to the running time-frequency resource that the other end that the 4th symbol corresponds to frequency domain in the band described in the subframe starts and receives the HARQ feedback information.

According to fourth aspect, in the 6th kind of mode in the cards of fourth aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

The receiver, it is also used to the time-domain resource reception HARQ feedback information that the second end of frequency domain in the first end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.

According to fourth aspect or the 6th kind of mode in the cards of fourth aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

The receiver, it is also used to the time-domain resource reception channel indicating information and/or the RI information that the first end of frequency domain in the second end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.

According to any one in the 7th of fourth aspect to fourth aspect the kind of mode in the cards, in the 8th kind of mode in the cards, the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

5th aspect, the embodiment of the present invention provide a kind of uplink control information transmission method, comprising:

Ascending control information UCI is mapped to the default running time-frequency resource of uplink data channels by user equipment (UE)；

Upstream data is mapped to other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal by the UE；

The UE sends the UCI and the upstream data on the uplink data channels.

According to the 5th aspect, in the first mode in the cards of the 5th aspect, if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: subframe where the uplink data channels In one end of frequency domain starts in the corresponding band of the first symbol running time-frequency resource；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

The running time-frequency resource that the UE starts one end that the HARQ feedback information maps to frequency domain in the corresponding band of the first symbol described in the subframe.

According to the 5th aspect or the first mode in the cards of the 5th aspect, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

The running time-frequency resource that the UE starts one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.

According to any one in second of mode in the cards of the 5th aspect to the 5th aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

The running time-frequency resource that the UE starts one end that the channel indicating information maps to frequency domain in the corresponding band of third symbol described in the subframe.

According to the third mode in the cards of the 5th aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The method also includes:

The channel indicating information is also mapped to the first symbol described in the subframe to the UE and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.

According to the first mode in the cards of the 5th aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

The method also includes:

The running time-frequency resource that the UE also starts one end that the HARQ feedback information maps to frequency domain in the corresponding band of the 4th symbol.

According to the 5th aspect, in the 6th kind of mode in the cards of the 5th aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

The time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of subframe where the HARQ feedback information is mapped to the uplink data channels by the UE.

According to any one in the 6th kind of mode in the cards of the 5th aspect or the 5th aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

The running time-frequency resource that the UE starts the first end of frequency domain in the time-domain resource that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts and the corresponding band of second time slot.

According to any one in the 7th kind of mode in the cards of the 5th aspect to the 5th aspect, in the 8th kind of mode in the cards, the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.

According to any one in the 8th kind of mode in the cards of the 5th aspect to the 5th aspect, in the 9th kind of mode in the cards, the UE is mapped to UCI before the default running time-frequency resource of uplink data channels, the method also includes:

The UE determines the default running time-frequency resource according to parameter preset；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

According to the 9th kind of mode in the cards of the 5th aspect, in the tenth kind of mode in the cards, the UE determines that the default running time-frequency resource includes: according to parameter preset

If the parameter preset is greater than the corresponding first threshold of the parameter preset, alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset, the UE determines the default running time-frequency resource；The second threshold is greater than the first threshold.

6th aspect, the embodiment of the present invention provide a kind of uplink control information transmission method, comprising:

The network equipment determines that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

The network equipment receives ascending control information UCI on the default running time-frequency resource of the uplink data channels；

The network equipment receives upstream data on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

According to the 6th aspect, in the first mode in the cards of the 6th aspect, if the UCI includes HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

The running time-frequency resource that one end of frequency domain starts in the corresponding band of the network equipment first symbol described in the subframe receives the HARQ feedback information.

According to the 6th aspect or the first mode in the cards of the 6th aspect, in second of mode in the cards, if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

The running time-frequency resource that one end of frequency domain starts in the corresponding band of the network equipment second symbol described in the subframe receives the RI information.

According to any one in second of mode in the cards of the 6th aspect to the 6th aspect, in the third mode in the cards, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

The running time-frequency resource that one end of frequency domain starts in the corresponding band of network equipment third symbol described in the subframe receives the channel indicating information.

According to the third mode in the cards of the 6th aspect, in the 4th kind of mode in the cards, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

The method also includes:

The running time-frequency resource that the network equipment other end that also the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts receives the channel indicating information.

According to the first mode in the cards of the 6th aspect, in the 5th kind of mode in the cards, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

It is corresponding, the method also includes:

The running time-frequency resource that the network equipment other end that also the 4th symbol corresponds to frequency domain in the band described in the subframe starts receives the HARQ feedback information.

According to the 6th aspect, in the 6th kind of mode in the cards of the 6th aspect, if the UCI packet Include HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

The network equipment time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of the subframe receives the HARQ feedback information.

According to the 6th aspect or the 6th kind of mode in the cards of the 6th aspect, in the 7th kind of mode in the cards, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

The network equipment time-domain resource that the first end of frequency domain starts in the second end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of the subframe receives the channel indicating information and/or the RI information.

According to any one in the 7th kind of mode in the cards of the 6th aspect to the 6th aspect, in the 8th kind of mode in the cards, the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

User equipment, the network equipment and uplink control information transmission method provided in an embodiment of the present invention, UCI is mapped to by mapping block after the default running time-frequency resource of uplink data channels, upstream data is mapped on the uplink data channels other running time-frequency resources outside resource shared by the default running time-frequency resource and reference signal, then the UCI and the upstream data are sent on the uplink data channels by sending module, upstream data be can avoid due to data degradation caused by being perforated, guarantee the integrality of upstream data.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, a brief description of the drawings needed to be used in the description of the embodiments or the prior art will be given below, apparently, drawings in the following description are some embodiments of the invention, for those of ordinary skill in the art, exist Not under the premise of making the creative labor property, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the UE of the embodiment of the present invention one；

Fig. 2 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in a kind of NCP situation uplink data channels；

Fig. 3 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of a kind of ECP in uplink data channels；

Fig. 4 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of another kind NCP in uplink data channels；

Fig. 5 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of another kind ECP in uplink data channels；

Fig. 6 be the embodiment of the present invention three a kind of NCP in the case of the time-frequency schematic diagram of the UCI is mapped in uplink data channels；

Fig. 7 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention three in the case of a kind of ECP in uplink data channels；

Fig. 8 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of a kind of NCP in uplink data channels；

Fig. 9 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of a kind of ECP in uplink data channels；

Figure 10 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of another kind NCP in uplink data channels；

Figure 11 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of another kind ECP in uplink data channels；

Figure 12 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention five in the case of NCP in uplink data channels；

Figure 13 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention six in the case of NCP in uplink data channels；

Figure 14 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention six in the case of ECP in uplink data channels；

Figure 15 is the structural schematic diagram for the UE that the embodiment of the present invention seven provides；

Figure 16 is the structural schematic diagram for the network equipment that the embodiment of the present invention eight provides；

Figure 17 is the structural schematic diagram for the UE that the embodiment of the present invention nine provides；

Figure 18 is the structural schematic diagram for the network equipment that the embodiment of the present invention ten provides；

Figure 19 is the flow chart of the uplink control information transmission method of the embodiment of the present invention 11；

Figure 20 is the flow chart of the uplink control information transmission method of the embodiment of the present invention 12.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, following will be combined with the drawings in the embodiments of the present invention, technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, shall fall within the protection scope of the present invention.

Each scheme of the embodiment of the present invention, which is applicable to Rel-8, Rel-9 based on LTE successively, to be enhanced in the Rel-10/11/12/13 of proposed LTE-A and the lte-a system of more advanced version technique, UE carries UCI by uplink data channels, to realize the multiplexing of ascending control information and data on uplink data channels when without configuration simultaneous interpretation.

Embodiment one

The embodiment of the present invention one provides a kind of UE.Fig. 1 is the structural schematic diagram of the UE of the embodiment of the present invention one.As shown in Figure 1, the UE 100 can include: mapping block 101 and sending module 102.

Wherein, mapping block 101 can be used for mapping to UCI the default running time-frequency resource of uplink data channels, and upstream data is mapped on the uplink data channels other running time-frequency resources outside resource shared by the default running time-frequency resource and reference signal.

Specifically, being divided into transfer resource according to time and frequency in LTE system.In the time domain, maximum time quantum is the radio frames of 10ms, is divided into the subframe of 10 1ms, and each subframe is divided into the time slot (slot) of two 0.5ms again.For adding conventional cyclic prefix (Normal Cyclic Prefix, abbreviation NCP) situation, a slot is made of 7 orthogonal frequency division multiplexing (Orthogonal Frequency Division Multiplexing, abbreviation OFDM) symbol；The case where for additional extension cyclic prefix (Extended Cyclic Prefix, abbreviation ECP), a slot is made of 6 OFDM symbols.On frequency domain, every 12 sub- carrier waves form the resource unit (Resource Element, abbreviation RE) of a 180kHz.

The minimum unit of running time-frequency resource is RE, it is by a subcarrier in frequency and one temporal The two-dimentional resource of OFDM symbol duration composition.1 resource block (Resource Block, abbreviation RB) is the resource block of 12 subcarriers on a slot frequency domain in time domain.For NCP, a RB includes 84 running time-frequency resource unit R E, and for ECP, a RB includes 72 running time-frequency resource unit R E.

1 RB to comprising two RB, by frequency 12 subcarriers and a temporal subframe form.For NCP, a RB is to comprising 168 running time-frequency resource unit R E, and for ECP, a RB is to including 144 running time-frequency resource unit R E.The schematic diagram that attached drawing of the present invention provides is 1 RB pairs or RB pairs N number of unless otherwise instructed.

Optionally, which can be the control information of transmission needed for the Physical Uplink Control Channel (Physical Uplink Control Channel, abbreviation PUCCH) in physical uplink channel.The UCI can for the UE to downlink measure acquisition channel information or downlink receive whether correctly feed back etc..The UCI is mapped to the default running time-frequency resource of the uplink data channels and is sent to the network equipment by the UE, may make the network equipment to be controlled according to the UCI the transmission of downlink, to guarantee the transmission of downlink data.

The uplink data channels can be the Physical Uplink Shared Channel (Physical Uplink Shared Channel, abbreviation PUSCH) in physical uplink channel.Wherein, which includes at least one the corresponding time-domain resource of resource unit (Resource Element, abbreviation RE) for the uplink data channels that the UE is determined according to parameter preset.

The UCI is mapped to the default running time-frequency resource of the uplink data channels, can be and insert the UCI in each RE of the default running time-frequency resource by mapping block 101.The time-frequency sequence that the mapping block 101 can be each RE according to the sequence of information bit each in the UCI and/or the default running time-frequency resource carries out the mapping of the UCI.The mapping block 101 is also possible to using other modes, such as not in any sequence, as long as the UCI is mapped in each RE for presetting running time-frequency resource.

Mapping block 101, which can be, inserts the upstream data in other running time-frequency resources outside resource shared by the default running time-frequency resource and reference signal on the uplink data channels in each RE.The time-frequency sequence that the mapping block 101 can be each RE of the sequence and/or other running time-frequency resources according to information bit each in the upstream data carries out the mapping of the upstream data.The mapping block 101 is also possible to using other modes, such as not in any sequence, as long as by the upstream data is mapped in each RE for presetting running time-frequency resource.

Wherein, which may include demodulated reference signal (Demodulation Reference Signal, abbreviation DMRS).The reference signal may include DMRS and monitoring reference signal (Sounding Reference Signal, abbreviation SRS) at least one.

Sending module 102 on the uplink data channels for sending the UCI and the upstream data.

The sending module 102, which can be, is sent to the network equipment for the UCI and the upstream data on the uplink data channels of up-link carrier.The up-link carrier can be at least one of at least two up-link carriers of the UE.At least two up-link carriers of the UE can include: a uplink main carrier (Primary Component Carrier, abbreviation PCC) and at least one upstream auxiliary carriers (Secondary Component Carrie, abbreviation SCC).

For example, if the UE is in the carrier aggregation scene of the lte-a system based on Rel-10, the up-link carrier number of the UE can be up to 5, that is to say, that the UE can have most 5 up-link carriers, wherein a up-link carrier is PCC, remaining is SCC.In this scene, which can send the UCI and the upstream data to the network equipment in the uplink data channels of the PCC, to realize the simultaneous interpretation of UCI and upstream data on the uplink data channels.

For example, if the UE is in the carrier aggregation scene of the lte-a system based on Rel-13, the up-link carrier number of the UE can be up to 32, that is to say, that the UE can have most 32 up-link carriers, wherein, one up-link carrier is PCC, remaining is SCC, or, part up-link carrier is PCC (CC of carrying PUCCH), remaining is SCC.In this scene, which can send the UCI and the upstream data to the network equipment in this of PCC and/or at least one SCC uplink data channels, to realize the simultaneous interpretation of UCI and upstream data on the uplink data channels.

The UE that the embodiment of the present invention one provides, UCI can be mapped to by mapping block after the default running time-frequency resource of uplink data channels, upstream data is mapped on the uplink data channels other running time-frequency resources outside resource shared by the default running time-frequency resource and reference signal, then the UCI and the upstream data are sent on the uplink data channels by sending module, upstream data be can avoid due to data degradation caused by being perforated, guarantee the integrality of upstream data.

Embodiment two

The present invention implements two and also provides a kind of UE.Optionally, in the method for the embodiment two, the mapping block 102, it can be used for by the way that other running time-frequency resources of the upstream data on the uplink data channels outside resource shared by the default running time-frequency resource and the reference signal are carried out rate-matched, which be mapped in other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal.

Optionally, which includes: mixed automatic retransfer (Hybrid Automatic Repeat reQuest, abbreviation HARQ) feedback information, order instruction (Rank Indicator, abbreviation RI) information and channel instruction At least one of information.Wherein, the channel indicating information includes: channel quality instruction (Channel Quality Indicator, abbreviation CQI) information, pre-coding matrix instruction (Precoding Matrix Indicator, abbreviation PMI) information, precoding type instruction (Precoding Type Indicator, abbreviation PTI) information at least one.

Wherein, the RI information and the channel indicating information are commonly referred to as channel state information (Channel State Information, abbreviation CSI).The HARQ feedback information may include ack/nack (Acknowledgement/Negative Acknowledgement, abbreviation A/N) information.

It may also include scheduling request (Scheduling Request, abbreviation SR) information in the UCI.

If including: HARQ feedback information in the UCI；The default running time-frequency resource can include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Mapping block 101 is also used to map to the HARQ feedback information running time-frequency resource that the corresponding one end with interior frequency domain of first symbol starts in the subframe.

Optionally, subframe where the uplink data channels is that the UE distributes resource corresponding subframe by the network equipment.For example, if it is FDD, base station sends scheduling grant order in N subframe, is designated as the resource that UE is assigned with N+4 subframe for dynamic dispatching；If it is TDD, base station sends scheduling grant order in N subframe, is designated as the resource that UE is assigned with N+k subframe, k=4, and 5,6,7, there is different values to different TDD proportion；Multiple subframes can then be occupied for TTI bundling or SPS scheduling.This with it is interior can be to protect the bandwidth outside bandwidth in system bandwidth.The one end with interior frequency domain can be the corresponding one end of most high frequency or lowest frequency with interior frequency domain.The frequency domain width of the default running time-frequency resource can be determining according to the bit size of the UCI.

The uplink data channels are carried in subframe, wherein each subframe can include: two slot.The symbolic number that each time slot includes is identical.If each time slot in the subframe may include 7 symbols in NCP.If each time slot in the subframe may include 6 symbols in ECP.

Due to corresponding two symbols of DMRS, the adjacent-symbol of corresponding two symbols of the DMRS then includes: the adjacent-symbol of any symbol in two symbols.

Fig. 2 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in a kind of NCP situation uplink data channels.As shown in Fig. 2, if in NCP, in the subframe can symbol 0-13,14 symbols.Wherein, symbol 0-6 is the symbol of the first time slot, and symbol 7-14 is the symbol of the second time slot.So, corresponding two symbols of the DMRS can be symbol 3 and symbol 10.Corresponding two symbols of the DMRS Number adjacent-symbol then include: symbol 2, symbol 4, symbol 9 and symbol 11.That is, if first symbol may include symbol 2, symbol 4, symbol 9 and symbol 11 in NCP.Mapping block 101 can start in the frequency domain broadband that the HARQ feedback information maps first symbol in the burst for example for the one end with interior frequency domain, RE number needed for the HARQ determined according to the bit of the HARQ feedback information, that is, what the carrier number of the HARQ feedback information on every symbol determined.It is only illustrated by one end of the lowest frequency with interior frequency domain as example in the Fig. 2.In the Fig. 2, which is indicated by A/N.

Fig. 3 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of a kind of ECP in uplink data channels.

As shown in figure 3, if in ECP, in the subframe can symbol 0-11,12 symbols.Wherein, symbol 0-5 is the symbol of the first time slot, and symbol 6-11 is the symbol of the second time slot.So, corresponding two symbols of the DMRS can be symbol 2 and symbol 8.The adjacent-symbol of corresponding two symbols of the DMRS then includes: symbol 1, symbol 3, symbol 7 and symbol 9.That is, if first symbol may include symbol 1, symbol 3, symbol 7 and symbol 9 in ECP.What the frequency domain broadband that the HARQ feedback information maps first symbol in the burst can for example start for the one end with interior frequency domain, RE number needed for the HARQ determined according to the bit of the HARQ feedback information, that is, what the carrier number of the HARQ feedback information on every symbol determined.It is only illustrated by one end of the lowest frequency with interior frequency domain as example in the Fig. 3.

If the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Mapping block 101 is also used to the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol into the subframe by the RI information MAP.

As shown in Fig. 2, if in NCP, symbol 3 and symbol 10 are corresponding two symbols of the DMRS.The symbol that symbol 3 is spaced a symbol includes symbol 1 and symbol 5, and the symbol that symbol 10 is spaced a symbol includes symbol 8 and symbol 12, and therefore, which includes: symbol 1, symbol 5, symbol 8, symbol 12.No. second frequency domain broadband for example can be what the one end with interior frequency domain start to the RI information MAP in the burst, according to RE number needed for the determining RI information of the bit of the RI information, that is to say, that the carrier number of the RI information on every symbol determines.It is only illustrated by one end of the lowest frequency with interior frequency domain as example in the Fig. 2.

As shown in figure 3, if in ECP, symbol 2 and symbol 8 are corresponding two symbols of the DMRS.The symbol that symbol 2 is spaced a symbol includes symbol 0 and symbol 4, and the symbol that symbol 8 is spaced a symbol includes symbol 6 and symbol 10, then, which includes: symbol 0, symbol 4, symbol 6, symbol 10.No. second frequency domain broadband for example can be what the one end with interior frequency domain start to the RI information MAP in the burst, according to RE number needed for the determining RI information of the bit of the RI information, that is to say, that the carrier number of the RI information on every symbol determines.The figure is only illustrated in 3 as example by one end of the lowest frequency with interior frequency domain.

If the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information.

The third symbol includes: other symbols except corresponding two symbols of the DMRS, first symbol and second outer symbol.First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Mapping block 101, it may also be used for the channel indicating information is mapped into the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol in the subframe starts.

As shown in Fig. 2, the second symbol includes symbol 1, symbol 5, symbol 8, symbol 12, and corresponding two symbols of the DMRS include symbol 3 and 10 if first symbol includes symbol 2, symbol 4, symbol 9 and symbol 11 in the subframe in NCP.If in the uplink data channels in the case of NCP including SRS, the corresponding symbol of the SRS is symbol 13, then the third symbol includes: symbol 0, symbol 6, symbol 7.If not including SRS in the uplink data channels in the case of NCP, then the third symbol includes: symbol 0, symbol 6, symbol 7, symbol 13.In the Fig. 2, which is indicated by CQI/PMI/PTI.To be illustrated in the uplink data channels in the case of NCP including SRS in the Fig. 2.

As shown in figure 3, the second symbol includes symbol 0, symbol 4, symbol 6, symbol 10, and corresponding two symbols of the DMRS include symbol 2 and 8 if first symbol includes symbol 1, symbol 3, symbol 7 and symbol 9 in the subframe in ECP.If in the case of ECP in the uplink data channels including SRS, the corresponding symbol of the SRS is symbol 11, then the third symbol includes: symbol 5.If in the uplink data channels not including SRS in the case of ECP, then the third symbol includes: symbol 5, symbol 11.In the Fig. 3, which is indicated by CQI/PMI/PTI.To be illustrated in uplink data channels in the case of ECP including SRS in the Fig. 3.

Be applicable in following any scene it should be noted that UCI is mapped to the default time-domain resource on Fig. 2 and uplink data channels shown in Fig. 3 by mapping block: the bit number that greater than 1 RB that the corresponding descending carrier number of the UCI is less than or equal to 8, the corresponding data resource of the UE greater than 5 is less than or equal to the HARQ feedback information in 3 RB, the UCI is greater than 11 bits less than or equal to the bit number of the CSI in 4 bits, the UCI greater than 2 bits and is greater than 22 bits less than or equal to the bit number of 22 bits, the UCI.

It should be noted that, if in the UCI only including HARQ feedback information, then the HARQ feedback information is mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of first symbol in the subframe starts by mapping block 101, after the running time-frequency resource that the corresponding one end with interior frequency domain of the first symbol as described in the Fig. 2 or Fig. 3 starts, the mapping of entire UCI is completed.If in the UCI only including RI information, the then running time-frequency resource that the corresponding one end with interior frequency domain of second symbol into the subframe starts by the RI information MAP of mapping block 101, if this is such as the running time-frequency resource that the corresponding one end with interior frequency domain of second symbol starts in Fig. 2 or Fig. 3, the mapping of entire UCI is completed.If in the UCI only including channel indicating information, then the channel indicating information is mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of third symbol in the subframe starts by mapping block 101, the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol as described in the Fig. 2 or Fig. 3 starts, entire UCI mapping are completed.

If in the UCI including HARQ feedback information and RI information, or, including HARQ feedback information and channel indicating information, or including HARQ feedback information and RI information and the channel indicating information, the mapping block 101 is in addition to mapping to the running time-frequency resource that the corresponding one end with interior frequency domain of first symbol in the subframe starts for the HARQ feedback information, the running time-frequency resource that also the RI information MAP is started to the corresponding one end with interior frequency domain of second symbol, or, the channel indicating information is mapped into the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol starts, or, the running time-frequency resource that the RI information MAP is started to the corresponding one end with interior frequency domain of second symbol, and by the channel indicating information map to the third symbol it is corresponding this with interior frequency domain one Hold the running time-frequency resource started.If in the UCI including RI information and channel indicating information, the channel indicating information is also mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol starts in addition to the running time-frequency resource for starting the RI information MAP to the corresponding one end with interior frequency domain of second symbol by the mapping block 101.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol and/or second symbol correspond to the running time-frequency resource that the other end with interior frequency domain starts in the subframe.

Mapping block 101 is also used to map to the channel indicating information running time-frequency resource that first symbol and/or the corresponding other end with interior frequency domain of second symbol start in the subframe.

Optionally, mapping block 101, which can be, to exceed the information bit for the maximum number bits that the corresponding resource unit number of the third symbol carries in the channel indicating information, map to the running time-frequency resource that first symbol and/or the corresponding other end with interior frequency domain of second symbol start in the subframe.

Fig. 4 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of another kind NCP in uplink data channels.As shown in figure 4, first symbol includes symbol 2, symbol 4, symbol 9 and symbol 11 in the subframe in NCP, the second symbol includes symbol 1, symbol 5, symbol 8, symbol 12.If the above-mentioned one end with interior frequency domain is one end of the lowest frequency with interior frequency domain, then the other end with interior frequency domain is one end of the most high frequency with interior frequency domain；If the above-mentioned one end with interior frequency domain is one end of the most high frequency with interior frequency domain, then the other end with interior frequency domain is one end of the lowest frequency with interior frequency domain.The Fig. 4 is one end of the lowest frequency with interior frequency domain with the one end with interior frequency domain, which is that one end of the most high frequency with interior frequency domain is illustrated.The channel indicating information is indicated by CQI/PMI/PTI in the Fig. 4.To be illustrated in uplink data channels in the case of NCP including SRS in the Fig. 4.

As shown in Figure 4, the mapping block 101 will exceed the information bit for the maximum number bits that the corresponding resource unit number of the third symbol carries in the channel indicating information, map to first symbol and/or second symbol in the subframe, that is symbol 2, symbol 4, symbol 9, symbol 11, and/or the running time-frequency resource that one end of the corresponding most high frequency with interior frequency domain of symbol 1, symbol 5, symbol 8, symbol 12 starts.

Fig. 5 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention two in the case of another kind ECP in uplink data channels.As shown in figure 5, first symbol includes symbol 1, symbol 3, symbol 7 and symbol 9 in the subframe in ECP, the second symbol includes symbol 0, symbol 4, symbol 6, symbol 10.If the above-mentioned one end with interior frequency domain is one end of the lowest frequency with interior frequency domain, then the other end with interior frequency domain is one end of the most high frequency with interior frequency domain；If the above-mentioned one end with interior frequency domain is one end of the most high frequency with interior frequency domain, then the other end with interior frequency domain is one end of the lowest frequency with interior frequency domain.The Fig. 5 is one end of the lowest frequency with interior frequency domain with the one end with interior frequency domain, which is that one end of the most high frequency with interior frequency domain is illustrated.The channel indicating information is indicated by CQI/PMI/PTI in the Fig. 5.To be illustrated in uplink data channels in the case of ECP including SRS in the Fig. 5.

As shown in figure 5, mapping block 101, corresponding by the third symbol is exceeded in the channel indicating information Resource unit number carry maximum number bits information bit, map to first symbol and/or second symbol in the subframe, that is symbol 1, symbol 3, symbol 7, symbol 9, and/or the running time-frequency resource that one end of the corresponding most high frequency with interior frequency domain of symbol 0, symbol 4, symbol 6, symbol 10 starts.

Be applicable in following any scene it should be noted that UCI is mapped to the default time-domain resource on Fig. 4 and uplink data channels shown in fig. 5 by mapping block: the bit number that the RB number that the corresponding descending carrier number of the UCI is less than or equal to 8, the corresponding data resource of the UE greater than 5 is less than or equal to the HARQ feedback information in the 3, UCI greater than 1 is greater than 4 bit number less than or equal to the CSI in 11 bits, the UCI and is greater than the bit number of 22 bits, the UCI greater than 22.

Mapping block carries out the channel indicating information in the UCI of UCI mapping according to the default time-domain resource on Fig. 4 and uplink data channels shown in fig. 5, that is the bit number of CQI/PMI/PTI is larger, the corresponding resource unit of third symbol in Fig. 2 and Fig. 3 has been unable to meet, that is, the corresponding all resource units of the third symbol have been mapped with the channel indicating information, and there are also remaining information bits in the channel indicating information.

The embodiment of the present invention two is by providing the mapping mode of a variety of different UCI, and to meet, UE and the network equipment are by the simultaneous interpretation of the progress uplink control channel on the uplink data channels under different scenes, and the practicality is more preferably.

Simultaneously, the UE provided due to the embodiment two, the channel indicating information of more bits can also be mapped, the total bit number of its ascending control information mapped is also more, therefore the scheme of the embodiment two can map and transmit the ascending control information of more bits, carry out mapping transmission to the ascending control information of more multi-carrier polymerizing.

Embodiment three

The embodiment of the present invention three also provides a kind of UE.

Optionally, on the basis of above-described embodiment two, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts.4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol.

Mapping block 101, it can be and the partial information in the HARQ feedback information is mapped into the corresponding all resource units of first symbol, and the other information of the HARQ feedback information is mapped into the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts.

Wherein, the other information can be the information bit of the maximum number bits carried in the HARQ feedback information beyond the corresponding all resource units of the symbol in the HARQ feedback information.

Fig. 6 be the embodiment of the present invention three a kind of NCP in the case of the time-frequency schematic diagram of the UCI is mapped in uplink data channels.As shown in fig. 6, if corresponding two symbols of the DMRS are symbol 3 and symbol 10 in NCP in uplink data channels.The adjacent-symbol of corresponding two symbols of the DMRS, that is, first symbol includes symbol 2, symbol 4, symbol 9 and symbol 11.The symbol of the DMRS one symbol of corresponding two mark spaces, that is, second symbol includes: symbol 1, symbol 5, symbol 8 and symbol 12.Symbol in the subframe among corresponding two symbols of the DMRS includes: symbol 4, symbol 5, symbol 6, symbol 7, symbol 8, symbol 9, wherein the symbol 4, symbol 9 are first symbol, and symbol 5 and symbol 8 are second symbol.4th symbol then includes: symbol 6 and symbol 7.

That is, the mapping block 101 can by symbol 2 of the partial information bit map in the HARQ feedback information into first symbol, symbol 4, symbol 9 and symbol 11 all resource units, the running time-frequency resource that corresponding one end with interior frequency domain of symbol 6 and symbol 7 that another part information bit of the HARQ feedback information maps in the 4th symbol is started.If the above-mentioned one end with interior frequency domain is one end of the lowest frequency with interior frequency domain, then the other end with interior frequency domain is one end of the most high frequency with interior frequency domain；If the above-mentioned one end with interior frequency domain is one end of the most high frequency with interior frequency domain, then the other end with interior frequency domain is one end of the lowest frequency with interior frequency domain.The Fig. 6 is one end of the lowest frequency with interior frequency domain with the one end with interior frequency domain, which is that one end of the most high frequency with interior frequency domain is illustrated.The HARQ feedback information is indicated by A/N in the Fig. 6.To be illustrated in uplink data channels in the case of NCP including SRS in the Fig. 6.

Fig. 7 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention three in the case of a kind of ECP in uplink data channels.As shown in fig. 7, if corresponding two symbols of the DMRS are symbol 2 and symbol 8 in ECP in uplink data channels.The adjacent-symbol of corresponding two symbols of the DMRS, that is, first symbol includes symbol 1, symbol 3, symbol 7 and symbol 9.The symbol of two mark spaces corresponding with DMRS, one symbol, i.e. second symbol include: symbol 0, symbol 4, symbol 6, symbol 10.Symbol in the subframe among corresponding two symbols of the DMRS includes: symbol 3, symbol 4, symbol 5, symbol 6, symbol 7, wherein the symbol 3, symbol 7 are the first symbol, and symbol 4 and symbol 6 are the second symbol.4th symbol then includes: symbol 5.

That is, the mapping block 101 can by symbol 1 of the partial information bit map in the HARQ feedback information into first symbol, symbol 3, symbol 7 and symbol 9 all resource units, by this The running time-frequency resource that the corresponding one end with interior frequency domain of the symbol 5 that another part information bit of HARQ feedback information maps in the 4th symbol starts.If the above-mentioned one end with interior frequency domain is one end of the lowest frequency with interior frequency domain, then the other end with interior frequency domain is one end of the most high frequency with interior frequency domain；If the above-mentioned one end with interior frequency domain is one end of the most high frequency with interior frequency domain, then the other end with interior frequency domain is one end of the lowest frequency with interior frequency domain.The Fig. 7 is one end of the lowest frequency with interior frequency domain with the one end with interior frequency domain, which is that one end of the most high frequency with interior frequency domain is illustrated, which, which passes through A/N, indicates.To be illustrated in uplink data channels in the case of ECP including SRS in the Fig. 7.

The running time-frequency resource that the mapping block that the embodiment three provides maps UCI on the uplink data channels of Fig. 6 and Fig. 7 is applicable in following any scene: the bit number that the RB number that the corresponding descending carrier number of the UCI is less than or equal to 32, the corresponding data resource of the UE greater than 8 is less than or equal to the HARQ feedback information in the 3, UCI greater than 1 is greater than 11 bit number less than or equal to the CSI in the 11, UCI and is greater than the bit number of the 22, UCI greater than 22.

The bit number of mapping block HARQ feedback information according to included by the UCI that the default running time-frequency resource on Fig. 6 and uplink data channels shown in Fig. 7 carries out UCI mapping, it is greater than, mapping block is according to fig. 2 in above-described embodiment two, Fig. 3, default running time-frequency resource on Fig. 4 and above-mentioned data channel shown in fig. 5 carries out the bit number of the HARQ feedback information included by the UCI of UCI mapping, and mapping block carries out the RB number of the data resource of the UE of UCI mapping according to the default running time-frequency resource on Fig. 6 and uplink data channels shown in Fig. 7, it is less than or equal to, mapping block is according to fig. 2 in above-described embodiment two, Fig. 3, the RB number of the data resource for the UE that default running time-frequency resource on Fig. 4 and above-mentioned data channel shown in fig. 5 is mapped.

The embodiment of the present invention three also provides the mapping mode of a variety of different UCI, and to meet, UE and the network equipment are by the simultaneous interpretation of the progress uplink control channel on the uplink data channels under different scenes, and the practicality is more preferably.

Simultaneously, the UE provided due to the embodiment three, the HARQ feedback information of more bits can also be mapped, the total bit number of its ascending control information mapped is also more, therefore the scheme of the embodiment three can map and transmit the ascending control information of more bits, carry out mapping transmission to the ascending control information of more multi-carrier polymerizing.

Example IV

The embodiment of the present invention four also provides a kind of UE.

Optionally, if in the UCI including HARQ feedback information, the default running time-frequency resource can include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 5th symbol in subframe where the uplink data channels；Wherein, the 4th symbol includes: the symbol being located among corresponding two symbols of DMRS in the subframe.

Mapping block 101 is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the 5th symbol in the subframe starts.

Fig. 8 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of a kind of NCP in uplink data channels.As shown in figure 8, corresponding two symbols of the DMRS can be symbol 3 and symbol 10 in the subframe in NCP in uplink data channels.Symbol among corresponding two symbols of the DMRS includes: symbol 4, symbol 5, symbol 6, symbol 7, symbol 8 and symbol 9.That is, if the 5th symbol may include symbol 4, symbol 5, symbol 6, symbol 7, symbol 8 and symbol 9 in NCP.What the frequency domain broadband that the HARQ feedback information maps the 5th symbol in the burst can for example start for the one end with interior frequency domain, RE number needed for the HARQ determined according to the bit of the HARQ feedback information, that is, what the carrier number of the HARQ feedback information on every symbol determined.It is only illustrated by one end of the lowest frequency with interior frequency domain as example in the Fig. 8.The HARQ feedback information is indicated by A/N in the Fig. 8.

Fig. 9 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of a kind of ECP in uplink data channels.As shown in figure 9, corresponding two symbols of the DMRS can be symbol 2 and symbol 8 in the subframe in ECP.Symbol among corresponding two symbols of the DMRS includes: symbol 3, symbol 4, symbol 5, symbol 6, symbol 7.That is, if the 5th symbol may include symbol 3, symbol 4, symbol 5, symbol 6, symbol 7 in ECP.Mapping block 101 can start in the frequency domain broadband that the HARQ feedback information maps the 5th symbol in the burst for example for the one end with interior frequency domain, RE number needed for the HARQ determined according to the bit of the HARQ feedback information, that is, what the carrier number of the HARQ feedback information on every symbol determined.It is only illustrated by one end of the lowest frequency with interior frequency domain as example in the Fig. 9.The HARQ feedback information is indicated by A/N in the Fig. 9.

If the UCI includes RI information, which may include the running time-frequency resource that the corresponding one end with interior frequency domain of the 6th symbol starts in subframe where the uplink data channels；6th symbol includes: the adjacent two symbols of the minimum symbol in two symbols corresponding less than the DMRS, and, the adjacent two symbols of the maximum symbol in two symbols corresponding greater than the DMRS.

Mapping block 101 is also used to corresponding band of the 6th symbol in the sub subframe of the RI information MAP The running time-frequency resource that one end of interior frequency domain starts.

As shown in figure 8, corresponding two symbols of the DMRS can be symbol 3 and symbol 10 in the subframe.It is less than the minimum symbol of corresponding two symbols of the DMRS in the subframe, i.e. the adjacent two symbols of symbol 3 include symbol 1 and symbol 2, and the maximum symbol of two symbols corresponding greater than the DMRS, i.e. the adjacent two symbols of symbol 10 include symbol 11 and symbol 12.6th symbol may include symbol 1, symbol 2, symbol 11 and symbol 12.The mapping block 101 can start in the frequency domain broadband of the RI information MAP the 6th symbol in the burst for example for the one end with interior frequency domain, what RE number needed for the RI determined according to the bit of the RI information determined.

As shown in figure 9, corresponding two symbols of the DMRS can be symbol 2 and symbol 8 in the subframe.It is less than the minimum symbol of corresponding two symbols of the DMRS in the subframe, i.e. the adjacent two symbols of symbol 2 include symbol 0 and symbol 1, and the maximum symbol of two symbols corresponding greater than the DMRS, i.e. the adjacent two symbols of symbol 8 include symbol 9 and symbol 10.6th symbol can include: symbol 0, symbol 1, symbol 9 and symbol 10.Mapping block 101 can start in the frequency domain broadband of the RI information MAP the 6th symbol in the burst for example for the one end with interior frequency domain, what RE number needed for the RI determined according to the bit of the RI information determined.

If the UCI includes channel indicating information, which may include the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol starts in subframe where the uplink data channels；7th symbol includes: other symbols except corresponding two symbols of the DMRS, the 5th symbol and the 6th outer symbol.

Mapping block 101 is also used to map to the channel indicating information running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol in the subframe starts.

As shown in Figure 8,5th symbol includes symbol 4, symbol 5, symbol 6, symbol 7, symbol 8 and symbol 9,6th symbol may include symbol 1, symbol 2, symbol 11 and symbol 12, if without SRS, the 7th symbol in the subframe in the case of NCP where uplink data channels can include: symbol 0 and symbol 13.If there is SRS in the subframe in the case of NCP where uplink data channels, the 7th symbol may include symbol 0.The channel indicating information is indicated by CQI/PMI/PTI in the Fig. 8.

As shown in figure 9, the 5th symbol includes symbol 3, symbol 4, symbol 5, symbol 6, symbol 7, the 6th symbol can include: symbol 0, symbol 1, symbol 9 and symbol 10.If without SRS in the subframe in the case of ECP where uplink data channels, the 7th symbol may include symbol 11.The channel indicating information is indicated by CQI/PMI/PTI in the Fig. 9.

It should be noted that if only including HARQ feedback information in the UCI, then mapping block 101 will The HARQ feedback information maps to the running time-frequency resource that the corresponding one end with interior frequency domain of the 5th symbol in the subframe starts, after the running time-frequency resource that the corresponding one end with interior frequency domain of the 5th symbol as described in the Fig. 8 or Fig. 9 starts, the mapping of entire UCI is completed.If in the UCI only including RI information, the then running time-frequency resource that the corresponding one end with interior frequency domain of the 6th symbol into the subframe starts by the RI information MAP of mapping block 101, if this is such as the running time-frequency resource that the corresponding one end with interior frequency domain of the 6th symbol starts in Fig. 8 or Fig. 9, the mapping of entire UCI is completed.If in the UCI only including channel indicating information, then the channel indicating information is mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol in the subframe starts by mapping block 101, the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol as described in the Fig. 8 or Fig. 9 starts, entire UCI mapping are completed.

If in the UCI including HARQ feedback information and RI information, or, including HARQ feedback information and channel indicating information, or including HARQ feedback information and RI information and the channel indicating information, the mapping block 101 is in addition to mapping to the running time-frequency resource that the corresponding one end with interior frequency domain of the 5th symbol in the subframe starts for the HARQ feedback information, the running time-frequency resource that also the RI information MAP is started to the corresponding one end with interior frequency domain of the 6th symbol, or, the channel indicating information is mapped into the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol starts, or, the running time-frequency resource that the RI information MAP is started to the corresponding one end with interior frequency domain of the 6th symbol, and by the channel indicating information map to the 7th symbol it is corresponding this with interior frequency domain one Hold the running time-frequency resource started.If in the UCI including RI information and channel indicating information, the channel indicating information is also mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol starts in addition to the running time-frequency resource for starting the RI information MAP to the corresponding one end with interior frequency domain of the 6th symbol by the mapping block 101.

Optionally, if the required resource unit number of the channel indicating information is greater than the corresponding resource unit number of the 6th symbol；The default running time-frequency resource may also include the running time-frequency resource that the 5th symbol and/or the corresponding other end with interior frequency domain of the 6th symbol start in the subframe.

Mapping block 101 is also used to also map to the channel indicating information running time-frequency resource that the 5th symbol and/or the corresponding other end with interior frequency domain of the 6th symbol start in the subframe.

Mapping block 101, which can be, to exceed the information bit for the maximum number bits that the corresponding resource unit of the 7th symbol carries in the channel indicating information, map to the running time-frequency resource that the 5th symbol other end with interior frequency domain corresponding with the 6th symbol starts.

In Fig. 8, which can be one end of the most high frequency with interior frequency domain.Partial information in channel indicating information can be mapped to all resources of the 7th symbol by the mapping block 101 Unit, by remaining information in the channel indicating information, the information bit of the maximum number bits namely carried beyond the corresponding resource unit of the 7th symbol symbol, 5th symbol and/or the 6th symbol in mapping, that is symbol 4, symbol 5, symbol 6, symbol 7, symbol 8, symbol 9, and/or the running time-frequency resource that symbol 1, symbol 2, symbol 11 and the corresponding most high frequency with interior frequency domain of symbol 12 start.

In Fig. 9, which can be one end of the most high frequency with interior frequency domain.Partial information in channel indicating information can be mapped to all resource units of the 7th symbol by the UE, by remaining information in the channel indicating information, the information bit of the maximum number bits namely carried beyond the corresponding resource unit of the 7th symbol symbol, 5th symbol and/or the 6th symbol in mapping, that is symbol 3, symbol 4, symbol 5, symbol 6, symbol 7, and/or the running time-frequency resource that symbol 0, symbol 1, symbol 9 and the corresponding most high frequency with interior frequency domain of symbol 10 start.

Alternatively, above-mentioned 5th symbol can also include be located among corresponding two symbols of DMRS in the subframe, and, with successively adjacent two symbols of each symbol in two symbols.

Mapping block 101 is also used to map to the HARQ feedback information running time-frequency resource that the corresponding one end with interior frequency domain of the 5th symbol in the subframe starts；Wherein, the 5th symbol includes: and is located among corresponding two symbols of DMRS in the subframe, and, with successively adjacent two symbols of each symbol in two symbols.

Figure 10 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of another kind NCP in uplink data channels.As shown in Figure 10, in NCP, corresponding two symbols of the DMRS can be symbol 3 and symbol 10 in the subframe.Symbol among corresponding two symbols of the DMRS includes: symbol 4, symbol 5, symbol 6, symbol 7, symbol 8 and symbol 9, wherein, successively adjacent two symbols are that successively adjacent two symbols are symbol 8 and symbol 9 to symbol 10 in symbol 4 and symbol 5, with two symbols with symbol 3 in two symbols.That is, the 5th symbol may include symbol 4, symbol 5, symbol 8 and symbol 9.

Figure 11 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention four in the case of another kind ECP in uplink data channels.As shown in figure 11, in ECP, corresponding two symbols of the DMRS can be symbol 2 and symbol 8 in the subframe.Symbol among corresponding two symbols of the DMRS includes: symbol 3, symbol 4, symbol 5, symbol 6, symbol 7, wherein, successively adjacent two symbols are that successively adjacent two symbols are symbol 6 and symbol 7 to symbol 8 in symbol 3 and symbol 4, with two symbols with symbol 2 in two symbols.That is, the 5th symbol may include symbol 3, symbol 4, symbol 6 and symbol 7.

Optionally, if the UCI includes: RI information, which may also include that the running time-frequency resource that the corresponding one end with interior frequency domain of the 6th symbol starts in the subframe of uplink data channels place；6th symbol includes: the adjacent two symbols of the minimum symbol in two symbols corresponding less than the DMRS, and, the adjacent two symbols of the maximum symbol in two symbols corresponding greater than the DMRS.

Mapping block 101 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of the 6th symbol starts into the subframe by the RI information MAP.

As shown in Figure 10, corresponding two symbols of the DMRS are symbol 3 and symbol 10 in the subframe.It is less than the minimum symbol of corresponding two symbols of the DMRS in the subframe, i.e. the adjacent two symbols of symbol 3 are symbol 1 and symbol 2, and the maximum symbol of two symbols corresponding greater than the DMRS, i.e. the adjacent two symbols of symbol 10 include symbol 11 and symbol 12.6th symbol may include symbol 1, symbol 2, symbol 11 and symbol 12.

As shown in figure 11, corresponding two symbols of the DMRS can be symbol 2 and symbol 8 in the subframe.It is less than the minimum symbol of corresponding two symbols of the DMRS in the subframe, i.e. the adjacent two symbols of symbol 2 include symbol 0 and symbol 1, and the maximum symbol of two symbols corresponding greater than the DMRS, i.e. the adjacent two symbols of symbol 8 include symbol 9 and symbol 10.6th symbol can include: symbol 0, symbol 1, symbol 9 and symbol 10.

Optionally, if the UCI includes channel indicating information, which may also include that the running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol starts in the subframe of uplink data channels place；7th symbol includes: other symbols except corresponding two symbols of the DMRS, the 5th symbol and the 6th outer symbol.

Mapping block 101 is also used to map to the channel indicating information running time-frequency resource that the corresponding one end with interior frequency domain of the 7th symbol in the subframe starts.

As shown in Figure 10,5th symbol includes symbol 4, symbol 5, symbol 8 and symbol 9,6th symbol includes symbol 1, symbol 2, symbol 11 and symbol 12, if the 7th symbol includes: symbol 0 and symbol 13 without SRS in the subframe in the case of NCP where uplink data channels.If there is SRS in the subframe in the case of NCP where uplink data channels, the 7th symbol may include symbol 0.The channel indicating information is indicated by CQI/PMI/PTI in the Figure 10.

As shown in figure 11, the 5th symbol includes symbol 3, symbol 4, symbol 6, symbol 7, the 6th symbol can include: symbol 0, symbol 1, symbol 9 and symbol 10.If without SRS in the subframe in the case of ECP where uplink data channels, the 7th symbol may include symbol 11.The channel in the Figure 11 Indicate that information is indicated by CQI/PMI/PTI.

Optionally, if the required resource unit number of the channel indicating information is greater than the corresponding resource unit number of the 6th symbol；The default running time-frequency resource may also include that the running time-frequency resource that the 5th symbol other end with interior frequency domain corresponding with the 6th symbol starts in the subframe.

Mapping block 101 is also used to also mapping to the channel indicating information into the running time-frequency resource that the 5th symbol other end with interior frequency domain corresponding with the 6th symbol starts in the subframe.

The UE, which can be, to exceed the information bit for the maximum number bits that the corresponding resource unit of the 7th symbol carries in the channel indicating information, map to the running time-frequency resource that the 5th symbol other end with interior frequency domain corresponding with the 6th symbol starts.

Optionally, if resource unit number needed for the HARQ feedback information, is greater than, the corresponding resource unit number of the 5th symbol；The default running time-frequency resource further includes the running time-frequency resource that the corresponding one end with interior frequency domain of the 8th symbol starts.8th symbol includes: the symbol of two mark spaces corresponding with DMRS, one symbol.

Mapping block 101 is also used to map to the HARQ feedback information running time-frequency resource that the corresponding one end with interior frequency domain of the 8th symbol starts.

As shown in Figure 10, the symbol of two mark spaces corresponding with the DMRS, one symbol may include symbol 6 and symbol 7 in the subframe.

Mapping block 101, which can be, to exceed the information bit for the maximum number bits that the corresponding resource unit of the 5th symbol carries in the HARQ feedback information, map to the running time-frequency resource that the corresponding one end with interior frequency domain of the 8th symbol in the subframe starts.

As shown in Figure 10, the UE will also be in the HARQ feedback information, information bit beyond the maximum number bits that the symbol 4, symbol 5, symbol 8 and the corresponding resource unit of symbol 9 carry, maps to symbol 6 and running time-frequency resource that the corresponding one end with interior frequency domain of symbol 7 starts.

As shown in figure 11, for the UE also by the HARQ feedback information, the information bit beyond the maximum number bits that the symbol 3, symbol 4, symbol 6 and the corresponding resource unit of symbol 7 carry maps to the running time-frequency resource that the corresponding one end with interior frequency domain of symbol 5 starts.

The running time-frequency resource that UCI is mapped on the uplink data channels of mapping block Fig. 8, Fig. 9, Figure 10 and Figure 11 that the example IV provides is applicable in following any scene: the bit number that the RB number that the corresponding descending carrier number of the UCI is less than or equal to 32, the corresponding data resource of the UE greater than 8 is less than or equal to the HARQ feedback information in the 3, UCI greater than 1 is greater than 22 bits should less than or equal in the 64, UCI The bit number that the bit number of CSI is greater than the 22, UCI is greater than 22.

The mapping block of the UE of the example IV is according to Fig. 8, Fig. 9, the bit number for the HARQ feedback information that the UCI of default running time-frequency resource progress UCI mapping on Figure 10 and uplink data channels illustrated in fig. 11 includes, it is greater than, Fig. 2 in above-described embodiment two, Fig. 3, the bit number for the HARQ feedback information that the UCI of default running time-frequency resource progress UCI mapping on Fig. 4 and above-mentioned data channel shown in fig. 5 includes, and according to Fig. 8, Fig. 8, the default running time-frequency resource of uplink data channels shown in Figure 10 and Figure 11 carries out the RB number of the data resource of the UE of UCI mapping, it is less than or equal to, Fig. 2 in above-described embodiment two, Fig. 3, the RB of the data resource of the UE of the progress UCI mapping of Fig. 4 and the default running time-frequency resource on above-mentioned data channel shown in fig. 5 Number.

The embodiment of the present invention four also provides the mapping mode of a variety of different UCI, and to meet, UE and the network equipment are by the simultaneous interpretation of the progress uplink control channel on the uplink data channels under different scenes, and the practicality is more preferably.

Simultaneously, the UE provided due to the example IV, the channel indicating information and HARQ feedback information of more bits can also be mapped, the total bit number of its ascending control information mapped is also more, therefore the scheme of the example IV can map and transmit the ascending control information of more bits, carry out mapping transmission to the ascending control information of more multi-carrier polymerizing.

Embodiment five

The embodiment of the present invention five also provides a kind of UE.Optionally, the default running time-frequency resource may include in the corresponding subframe of the uplink data channels at least two RB to corresponding running time-frequency resource.

A subframe may include two time slots in the corresponding subframe of the uplink data channels.The each RB of at least two RB centering is to including two RB, wherein each RB is the RB of 12 subcarriers on a time slot frequency domain of a subframe.In the case of NCP, each time slot includes 7 symbols, and a RB is to may include 168 resource units.Corresponding, in the case of ECP, each time slot includes 6 symbols, and a RB is to may include 144 resource units.

Mapping block 101 can be used for mapping to the UCI on the uplink data channels at least two RB pairs of the corresponding running time-frequency resource of all resource units.

Optionally, if the UCI includes HARQ feedback information, at least two RB is to including the first RB pairs in the default running time-frequency resource.First RB is to including at least one RN pairs.

Mapping block 101 can be used for mapping to the HARQ feedback information the first RB to corresponding running time-frequency resource.

First RB is to may include RB pairs of any frequency domain position on the uplink data channels.The HARQ feedback information includes A/N information, and the first RB is to being represented by A/N RB couple.First RB is to the intermediate frequency domain position for example on the uplink data channels.Figure 12 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention five in the case of NCP in uplink data channels.As shown in figure 12, the first RB is to for example may include one RB pairs.

Optionally, if the UCI includes RI information and/or channel indicating information, at least two RB is to including the 2nd RB pairs in the default running time-frequency resource.2nd RB is to including at least one RN pairs.First RB pairs from the 2nd RB pairs frequency domain position it is different.

Mapping block 101 is also used to the channel indicating information and/or the RI information MAP to the 2nd RB of at least two RB centering to corresponding running time-frequency resource；Wherein, the 2nd RB is to including at least one RB pairs；First RB pairs from the 2nd RB pairs frequency domain position it is different.

The channel indicating information and/or the RI information can be collectively referred to as CSI, and therefore, the 2nd RB is to can be described as CSI RB couple.2nd RB is to may include RB pairs of any frequency domain position on the uplink data channels.2nd RB to the intermediate frequency domain position for example on the uplink data channels, and from this one RB pairs frequency domain position it is different.As shown in figure 12, the 2nd RB centering, the first RB pairs of frequency domain position can be greater than the 2nd RB pairs of frequency domain position.If including SRS in uplink data channels in the case of NCP, then the SRS can correspond to the running time-frequency resource of symbol 13.

It should be noted that can also be that the time-domain resource of the uplink data channels in ECP is mapped, details are not described herein in the method for the embodiment of the present invention five.

The default running time-frequency resource on the uplink data channels based on Figure 12 that the embodiment five provides carries out the scheme of UCI mapping suitable for following any scene: the bit number that the RB number that the corresponding descending carrier number of the UCI is less than or equal to 32, the corresponding data resource of the UE greater than 8 can be greater than the HARQ feedback information in the 3, UCI is greater than bit number of the bit number greater than the 22, UCI that 64 are less than or equal to the CSI in the 128, UCI and is greater than 22.

The UE that the embodiment five provides, by providing the mapping mode of a variety of different UCI, the transmission of ascending control information when the corresponding descending carrier number of the UCI is 32 can be supported to meet UE and the network equipment under different scenes by carrying out the simultaneous interpretation of uplink control channel, highest on the uplink data channels.

Embodiment six

The embodiment of the present invention six also provides a kind of UE.

Optionally, if the UCI includes HARQ feedback information, the default running time-frequency resource can include: the running time-frequency resource that corresponding second end with interior frequency domain of the second time slot of the first end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels running time-frequency resource, the subframe starts.

Mapping block 101, the time-domain resource that running time-frequency resource second end with interior frequency domain corresponding with the second time slot of the subframe that the first end of frequency domain starts in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels starts.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that time-domain resource first end with interior frequency domain corresponding with the second time slot of the subframe that corresponding second end with interior frequency domain of the first time slot of subframe where the uplink data channels starts starts.Wherein, which includes: CQI information, PMI information, at least one in PTI information.

Mapping block 101 is also used to the running time-frequency resource for starting time-domain resource first end with interior frequency domain corresponding with second time slot that the channel indicating information and/or the RI information MAP to corresponding second end with interior frequency domain of first time slot start.

The first end with interior frequency domain can be either end in the lowest frequency with interior frequency domain or most high frequency.If the first end with interior frequency domain is one end of the lowest frequency with interior frequency domain, then the second end with interior frequency domain is one end of the most high frequency with interior frequency domain.If the one end with interior frequency domain is one end of the most high frequency with interior frequency domain, then the second end with interior frequency domain is one end of the lowest frequency with interior frequency domain.

Figure 13 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention six in the case of NCP in uplink data channels.As shown in figure 13, in the case of NCP, which may include 0-13, and 14 symbols, wherein symbol 0- symbol 6 can be the first time slot of the subframe, and symbol 7- symbol 13 can be the second time slot of the subframe.In the Figure 13, which for example can be one end of the most high frequency with interior frequency domain, which for example can be one end of the lowest frequency with interior frequency domain.It is illustrated for including SRS in the subframe where uplink data channels in the case of NCP in the Figure 13.The HARQ feedback information is expressed as A/N in the Figure 13, and the channel indicating information and the RI information are expressed as CQI/PMI/PTI/RI.

Figure 14 is the time-frequency schematic diagram for mapping the UCI in the embodiment of the present invention six in the case of ECP in uplink data channels.As shown in figure 14, the corresponding subframe of uplink data channels may include 0-11 in the case of ECP, and 12 symbols, wherein symbol 0- symbol 5 can be the first time slot of the subframe, and symbol 6- symbol 11 can be the second time slot of the subframe.In the Figure 14, which for example can be this with interior frequency domain Most high frequency one end, the second end with interior frequency domain for example can be the lowest frequency with interior frequency domain one end.In the Figure 14 by uplink data channels in the case of ECP correspond in subframe include SRS for be illustrated.The HARQ feedback information is expressed as A/N in Figure 14, and the channel indicating information and the RI information are expressed as CQI/PMI/PTI/RI.

The scheme that the default running time-frequency resource on the uplink data channels based on Figure 13 and 14 that the embodiment six provides carries out UCI mapping is applicable in following any scene: the corresponding descending carrier number of the UCI is greater than the bit number that 8 are greater than the 22, UCI less than or equal to the bit number that the RB number of 32, the corresponding data resource of the UE can be greater than the CSI in the 128, UCI greater than the bit number of the 3, HARQ feedback information and is greater than 22.

In the scheme of above-described embodiment, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.

Specifically, network determines the higher descending carrier of channel quality according to the UCI, and be scheduled to the UE according to the preferable descending carrier of the channel quality after the UCI for receiving UE transmission.The probability that the descending carrier poor for channel quality is scheduled by the network equipment is smaller, therefore the UE can to the network equipment send UCI when, the corresponding control information of the preferably multiple descending carriers of the channel quality is only sent, so that reduces the UCI reports expense.

The UE that the embodiment six provides, it can be by providing the mapping mode of a variety of different UCI, the transmission of ascending control information when the corresponding descending carrier number of the UCI is 32 can be supported to meet UE and the network equipment under different scenes by carrying out the simultaneous interpretation of uplink control channel, highest on the uplink data channels.

Embodiment seven

The embodiment of the present invention seven also provides a kind of UE.Figure 15 is the structural schematic diagram for the UE that the embodiment of the present invention seven provides.As shown in figure 15, which may also include that determining module 1501.

The UCI is mapped to before the default running time-frequency resource of the uplink data channels for mapping block 101, determines the default running time-frequency resource according to parameter preset by the determining module 1501；Wherein, which comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

Optionally, determining module 1501 are also used to for parameter preset first threshold corresponding with the parameter preset being compared, if the parameter preset is greater than the corresponding first threshold of the parameter preset, determine the default running time-frequency resource.

Specifically, the determining module 1501, it can also be and be successively compared the parameter preset multiple first thresholds corresponding with the parameter preset, the corresponding parameter section of the parameter preset for being greater than either threshold in multiple first threshold is obtained, the default running time-frequency resource is then determined according to the corresponding parameter section of the parameter preset.

Determining module 1501 can also be and be compared parameter preset second threshold corresponding with the parameter preset, if the parameter preset is less than or equal to the corresponding second threshold of the parameter preset, determine the default running time-frequency resource.

Specifically, the determining module 1501, it can also be and be successively compared the parameter preset multiple second thresholds corresponding with the parameter preset, the corresponding parameter section of the parameter preset for being less than or equal to either threshold in multiple second threshold is obtained, the default running time-frequency resource is then determined according to the corresponding parameter section of the parameter preset.The determining default running time-frequency resource of different parameters difference can be different.

For example, if the parameter preset includes the bit number of the UCI, then the corresponding first threshold of the parameter preset, can be the first bit threshold, the corresponding second threshold of the parameter preset can be the second bit threshold.Second bit threshold can be greater than first bit threshold.If the UCI only includes one of HARQ feedback information, RI information and channel indicating information information, the bit number of the UCI is a kind of bit number of information, if the UCI includes at least two information in HARQ feedback information, RI information and channel indicating information, the bit number of the UCI can be the sum of the bit number of at least two information.

If the parameter preset includes the corresponding descending carrier number of the UCI, then the corresponding first threshold of the parameter preset, can be first carrier threshold value, the corresponding second threshold of the parameter preset can be the second bit carrier wave threshold value.The second carrier wave threshold value can be greater than the first carrier threshold value.

If the parameter preset includes the corresponding data resource size of the UE, then the corresponding first threshold of the parameter preset, can be first resource threshold value, the corresponding second threshold of the parameter preset can be Secondary resource carrier wave threshold value.The Secondary resource threshold value can be greater than the first resource threshold value.

The UE that the embodiment of the present invention seven provides can determine default running time-frequency resource according to parameter preset, then be mapped, the resource of the UE may make to be utilized effectively before mapping block maps UCI.

Embodiment eight

The embodiment of the present invention eight also provides a kind of network equipment.Figure 16 is the structural schematic diagram for the network equipment that the embodiment of the present invention eight provides.As shown in figure 16, which may include processing module 1601 and receiving module 1602.

Wherein, processing module 1601, for determining the first running time-frequency resource of uplink data channels, this first Running time-frequency resource includes resource shared by default running time-frequency resource and reference signal.

Receiving module 1602, for receiving UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

Optionally, if the UCI includes HARQ feedback information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Receiving module 1602 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of first symbol in the burst starts and receives the HARQ feedback information.

Optionally, if the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Receiving module 1602 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of second symbol in the burst starts and receives the RI information.

Optionally, if the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Receiving module 1602 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol in the burst starts and receives the channel indicating information.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol in the subframe.

Receiving module 1602 is also used to first symbol in the subframe and corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol receive the channel indicating information.

Optionally, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes two mark spaces one symbol corresponding with the DMRS Number symbol.

Receiving module 1602 is also used to the running time-frequency resource that the 4th symbol corresponds to that the other end with interior frequency domain starts in the burst and receives the HARQ feedback information.

Optionally, if the UCI includes HARQ feedback information, the default running time-frequency resource include: first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the running time-frequency resource that starts of the corresponding second end with interior frequency domain of the second time slot.

Receiving module 1602 is also used to the time-domain resource that running time-frequency resource second end with interior frequency domain corresponding with the second time slot of the subframe that the first end of the frequency domain in the corresponding band of the first time slot of the subframe starts starts and receives the HARQ feedback information.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that time-domain resource first end with interior frequency domain corresponding with second time slot that corresponding second end with interior frequency domain of the first time slot of subframe where the uplink data channels starts starts；Wherein, which includes: CQI information, PMI information, at least one in PTI information.

Receiving module 1602, it is also used to the time-domain resource that running time-frequency resource first end with interior frequency domain corresponding with the second time slot of the subframe that the second end of the frequency domain in the corresponding band of the first time slot of the subframe starts starts and receives the channel indicating information and/or the RI information.

Optionally, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

The network equipment that the embodiment of the present invention eight provides, UCI is received on the default running time-frequency resource of the uplink data channels since receiving module can be passed through, upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource, upstream data be can avoid due to data degradation caused by being perforated, guarantee the integrality of upstream data.

Embodiment nine

The embodiment of the present invention nine also provides a kind of UE.Figure 17 is the structural schematic diagram for the UE that the embodiment of the present invention nine provides.As shown in figure 17,1700 UE can include: processor 1701 and transmitter 1702.

Wherein, processor 1701, for UCI to be mapped to the default running time-frequency resource of uplink data channels；Upstream data is mapped on the uplink data channels other running time-frequency resources outside resource shared by the default running time-frequency resource and reference signal.

Transmitter 1702, for sending the UCI and the upstream data on the uplink data channels.

Optionally, if the UCI includes: HARQ feedback information, which includes: on this The running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where row data channel；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Processor 1701 is also used to map to the HARQ feedback information running time-frequency resource that the corresponding one end with interior frequency domain of first symbol starts in the subframe.

Optionally, if the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Processor 1701 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of second symbol starts into the subframe by the RI information MAP.

Optionally, if the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Processor 1701 is also used to map to the channel indicating information running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol starts in the subframe.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol and/or second symbol correspond to the running time-frequency resource that the other end with interior frequency domain starts in the subframe.

Processor 1701 is also used to also map to the channel indicating information first symbol and/or second symbol in the subframe and corresponds to the running time-frequency resource that the other end with interior frequency domain starts.

Optionally, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol.

Processor 1701 is also used to map to the HARQ feedback information running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts.

Optionally, if the UCI includes HARQ feedback information, which includes: the uplink The time-domain resource that corresponding second end with interior frequency domain of the second time slot of the first end of frequency domain starts in the corresponding band of the first time slot of subframe where data channel running time-frequency resource, the subframe starts.

Processor 1701, the time-domain resource that running time-frequency resource second end with interior frequency domain corresponding with the second time slot of the subframe that the first end of frequency domain starts in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels starts.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that time-domain resource first end with interior frequency domain corresponding with second time slot that corresponding second end with interior frequency domain of the first time slot of subframe where the uplink data channels starts starts；Wherein, which includes: CQI information, PMI information, at least one in PTI information.

Processor 1701 is also used to the running time-frequency resource for starting time-domain resource first end with interior frequency domain corresponding with second time slot that the channel indicating information and/or the RI information MAP to corresponding second end with interior frequency domain of first time slot start.

Optionally, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.

Optionally, processor 1701 are also used to before the UCI to be mapped to the default running time-frequency resource of the uplink data channels, determine the default running time-frequency resource according to parameter preset；Wherein, which comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

Optionally, processor 1701, alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset, determine that the default running time-frequency resource, the second threshold are greater than the first threshold if being also used to the parameter preset greater than the corresponding first threshold of the parameter preset.

The UE of the embodiment of the present invention nine, it is mapped to after the default running time-frequency resource of uplink data channels since processor can be passed through by UCI, upstream data is mapped into other running time-frequency resources on the uplink data channels outside the default running time-frequency resource, then the UCI and the upstream data are sent on the uplink data channels by transmitter, it avoids upstream data due to data degradation caused by being perforated, guarantees the integrality of upstream data.

Embodiment ten

The embodiment of the present invention ten also provides a kind of network equipment.Figure 18 is the structural schematic diagram for the network equipment that the embodiment of the present invention ten provides.As shown in figure 18, network equipment 1800, comprising: processor 1801 and receiver 1802.

Wherein, processor 1801, for determining that the first running time-frequency resource of uplink data channels, the first running time-frequency resource include resource shared by default running time-frequency resource and reference signal.

Receiver 1802, for receiving UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

Optionally, if the UCI includes HARQ feedback information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Receiver 1802 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of first symbol in the burst starts and receives the HARQ feedback information.

Optionally, if the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Receiver 1802 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of second symbol in the burst starts and receives the RI information.

Optionally, if the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol.

Receiver 1802 is also used to the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol in the burst starts and receives the channel indicating information.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol in the subframe.

Receiver 1802 is also used to first symbol in the burst and corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol receive the channel indicating information.

Optionally, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts；4th symbol includes between corresponding two symbols of DMRS except first symbol and the Symbol except two symbols；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol.

Receiver 1802 is also used to the running time-frequency resource that the 4th symbol corresponds to that the other end with interior frequency domain starts in the burst and receives the HARQ feedback information.

Optionally, if the UCI includes HARQ feedback information, the default running time-frequency resource include: first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the running time-frequency resource that starts of the corresponding second end with interior frequency domain of the second time slot.

Receiver 1802 is also used to the time-domain resource that running time-frequency resource second end with interior frequency domain corresponding with the second time slot of the subframe that the first end of the frequency domain in the corresponding band of the first time slot of the subframe starts starts and receives the HARQ feedback information.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that time-domain resource first end with interior frequency domain corresponding with second time slot that corresponding second end with interior frequency domain of the first time slot of subframe where the uplink data channels starts starts；Wherein, which includes: CQI information, PMI information, at least one in PTI information.

Receiver 1802, it is also used to the time-domain resource that running time-frequency resource first end with interior frequency domain corresponding with the second time slot of the subframe that the second end of the frequency domain in the corresponding band of the first time slot of the subframe starts starts and receives the channel indicating information and/or the RI information.

Optionally, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

The network equipment of the embodiment of the present invention ten, UCI is received on the default running time-frequency resource of the uplink data channels since receiver can be passed through, upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource, upstream data be can avoid due to data degradation caused by being perforated, guarantee the integrality of upstream data.

Embodiment 11

The embodiment of the present invention 11 provides a kind of uplink control information transmission method.This method can be executed by the UE any in above-described embodiment one to embodiment seven and embodiment nine.Figure 19 is the flow chart of the uplink control information transmission method of the embodiment of the present invention 11.As shown in figure 19, this method can include:

UCI is mapped to the default running time-frequency resource of uplink data channels by S1901, UE.

Upstream data is mapped on the uplink data channels other running time-frequency resources preset outside resource shared by running time-frequency resource and reference signal by S1902, the UE.

S1903, the UE send the UCI and the upstream data on the uplink data channels.

Optionally, if the UCI includes: HARQ feedback information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Corresponding, the UCI is mapped to the default running time-frequency resource of uplink data channels by the UE in above-mentioned S1901, may include:

The HARQ feedback information is mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of first symbol in the subframe starts by the UE.

Optionally, if the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE in above-mentioned S1901, may include:

The UE running time-frequency resource that the corresponding one end with interior frequency domain of second symbol into the subframe starts by the RI information MAP.

Optionally, if the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE in above-mentioned S1901, it may include:

The channel indicating information is mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol in the subframe starts by the UE.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol and/or second symbol correspond to the running time-frequency resource that the other end with interior frequency domain starts in the subframe.

This method further include:

The channel indicating information is also mapped to first symbol and/or second symbol in the subframe by the UE The running time-frequency resource that the corresponding other end with interior frequency domain starts.

Optionally, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol.

This method further include:

The HARQ feedback information is also mapped to the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts by the UE.

Optionally, if the UCI includes HARQ feedback information, the default running time-frequency resource include: first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the time-domain resource that starts of the corresponding second end with interior frequency domain of the second time slot.

UCI is mapped to the default running time-frequency resource of uplink data channels by the UE in above-mentioned S1901, may include:

The time-domain resource that running time-frequency resource second end with interior frequency domain corresponding with the second time slot of the subframe that the first end of frequency domain starts in the corresponding band of the first time slot of subframe where the HARQ feedback information is mapped to the uplink data channels by the UE starts.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource band corresponding with second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information.UCI is mapped to the default running time-frequency resource of uplink data channels by UE in above-mentioned S1901, may include:

The running time-frequency resource that the UE starts time-domain resource first end with interior frequency domain corresponding with second time slot that the channel indicating information and/or the RI information MAP to corresponding second end with interior frequency domain of first time slot start.

Optionally, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.

Optionally, the UE maps to UCI before the default running time-frequency resource of uplink data channels in S1901, the method also includes:

The UE determines the default running time-frequency resource according to parameter preset；Wherein, which includes following It is at least one: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.

Optionally, which determines that the default running time-frequency resource may include: according to parameter preset

If the parameter preset is greater than the corresponding first threshold of the parameter preset, alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset, which determines the default running time-frequency resource；The second threshold is greater than the first threshold.

The uplink control information transmission method that the embodiment of the present invention 11 provides can be executed by the UE any in above-described embodiment one to embodiment seven and embodiment nine, and its advantages are similar to the above embodiments, and details are not described herein.

Embodiment 12

The embodiment of the present invention 12 also provides a kind of uplink control information transmission method.This method can be executed by the network equipment any in above-described embodiment eight or embodiment ten.Figure 20 is the flow chart of the uplink control information transmission method of the embodiment of the present invention 12.As shown in figure 20, this method can include:

S2001, the network equipment determine the first running time-frequency resource of uplink data channels, which includes resource shared by default running time-frequency resource and reference signal.

S2002, the network equipment receive UCI on the default running time-frequency resource of the uplink data channels.

S2003, the network equipment receive upstream data on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.

Optionally, if the UCI includes HARQ feedback information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, which includes the adjacent-symbol of corresponding two symbols of DMRS in the subframe.

Optionally, the network equipment receives UCI on the default running time-frequency resource of uplink data channels in above-mentioned S2002, it may include:

The network equipment running time-frequency resource that the corresponding one end with interior frequency domain of first symbol starts in the burst receives the HARQ feedback information.

Optionally, if the UCI includes RI information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, which includes the symbol of two mark spaces corresponding with DMRS, one symbol.

The network equipment receives UCI on the default running time-frequency resource of uplink data channels in S2002, it may include:

The network equipment running time-frequency resource that the corresponding one end with interior frequency domain of second symbol starts in the burst receives the RI information.

Optionally, if the UCI includes channel indicating information, which includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, which includes: CQI information, PMI information, at least one in PTI information；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of the DMRS in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol.

The network equipment receives UCI on the default running time-frequency resource of uplink data channels in S2002, it may include:

The network equipment running time-frequency resource that the corresponding one end with interior frequency domain of the third symbol starts in the burst receives the channel indicating information.

Optionally, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: first symbol corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol in the subframe.

Optionally, this method further include:

Also first symbol corresponds to the running time-frequency resource that the other end with interior frequency domain starts with second symbol and receives the channel indicating information network equipment in the burst.

Optionally, if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that the corresponding one end with interior frequency domain of the 4th symbol starts；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol.

It is corresponding, this method further include:

The network equipment running time-frequency resource that also the 4th symbol corresponds to that the other end with interior frequency domain starts in the burst receives the HARQ feedback information.

Optionally, if the UCI includes HARQ feedback information, the default running time-frequency resource include: first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the running time-frequency resource that starts of the corresponding second end with interior frequency domain of the second time slot.

The network equipment receives UCI on the default running time-frequency resource of uplink data channels in above-mentioned S2002, May include:

The time-domain resource that the network equipment running time-frequency resource that the first end of frequency domain starts in the corresponding band of the first time slot of subframe second end with interior frequency domain corresponding with the second time slot of the subframe starts receives the HARQ feedback information.

Optionally, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that time-domain resource first end with interior frequency domain corresponding with second time slot that corresponding second end with interior frequency domain of the first time slot of subframe where the uplink data channels starts starts；Wherein, which includes: CQI information, PMI information, at least one in PTI information；

The network equipment receives UCI on the default running time-frequency resource of uplink data channels in S2002, may include:

The time-domain resource that the network equipment running time-frequency resource that the second end of frequency domain starts in the corresponding band of the first time slot of subframe first end with interior frequency domain corresponding with the second time slot of the subframe starts receives the channel indicating information and/or the RI information.

Optionally, which is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.

The uplink control information transmission method that the embodiment of the present invention 12 provides can be executed by the network equipment any in above-described embodiment eight or embodiment ten, and its advantages are similar to the above embodiments, and details are not described herein.

Those of ordinary skill in the art will appreciate that: realizing all or part of the steps of above method embodiment, this can be accomplished by hardware associated with program instructions, program above-mentioned can be stored in a computer readable storage medium, the program when being executed, executes step including the steps of the foregoing method embodiments；And storage medium above-mentioned includes: the various media that can store program code such as ROM, RAM, magnetic or disk.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations；Although present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments, or equivalent substitution of some or all of the technical features；And these are modified or replaceed, the range for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (60)

1. A kind of user equipment (UE) characterized by comprising

   Mapping block, for ascending control information UCI to be mapped to the default running time-frequency resource of uplink data channels；Upstream data is mapped into other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal；

   Sending module, for sending the UCI and the upstream data on the uplink data channels.
2. UE according to claim 1, which is characterized in that if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

   The mapping block is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.
3. UE according to claim 1 or 2, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

   The mapping block is also used to the running time-frequency resource for starting one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.
4. UE according to any one of claim 1-3, which is characterized in that if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

   The mapping block is also used to map to the channel indicating information running time-frequency resource that one end of frequency domain in the corresponding band of third symbol described in the subframe starts.
5. UE according to claim 4, which is characterized in that if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: First symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

   The mapping block, is also used to also map to the channel indicating information the first symbol described in the subframe and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.
6. UE according to claim 2, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

   The mapping block is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the 4th symbol starts.
7. UE according to claim 1, it is characterized in that, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

   The mapping block, the time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels.
8. UE according to claim 1 or claim 7, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the corresponding band of the second time slot of the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels time-domain resource and the subframe；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

   The mapping block, it is also used to the running time-frequency resource for starting the first end of frequency domain in time-domain resource and the corresponding band of second time slot that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts.
9. UE according to claim 1 to 8, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.
10. UE according to claim 1 to 9, which is characterized in that the UE is also wrapped It includes:

    Determining module, for determining the default running time-frequency resource according to parameter preset before the UCI is mapped to the default running time-frequency resource of the uplink data channels by the mapping block；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.
11. UE according to claim 10, which is characterized in that

    The determining module determines the default running time-frequency resource alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset greater than the corresponding first threshold of the parameter preset if being also used to the parameter preset；The second threshold is greater than the first threshold.
12. A kind of network equipment characterized by comprising

    Processing module, for determining that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

    Receiving module, for receiving ascending control information UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.
13. The network equipment according to claim 12, which is characterized in that if the UCI includes HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

    The receiving module is also used to the running time-frequency resource reception HARQ feedback information that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.
14. The network equipment according to claim 12 or 13, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The receiving module is also used to the running time-frequency resource reception RI information that one end of frequency domain in the corresponding band of the second symbol described in the subframe starts.
15. The network equipment described in any one of 2-14 according to claim 1, it is characterized in that, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel refers to Show information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The receiving module is also used to the running time-frequency resource reception channel indicating information that one end of frequency domain in the corresponding band of the third symbol described in the subframe starts.
16. The network equipment according to claim 15, it is characterized in that, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

    The receiving module is also used to the running time-frequency resource that the other end that the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts and receives the channel indicating information.
17. The network equipment according to claim 13, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

    The receiving module is also used to the running time-frequency resource that the other end that the 4th symbol corresponds to frequency domain in the band described in the subframe starts and receives the HARQ feedback information.
18. The network equipment according to claim 12, it is characterized in that, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

    The receiving module, it is also used to the time-domain resource reception HARQ feedback information that the second end of frequency domain in the first end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.
19. The network equipment described in 2 or 18 according to claim 1, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the time-domain resource that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels, and The running time-frequency resource that the first end of frequency domain starts in the corresponding band of second time slot；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

    The receiving module, it is also used to the time-domain resource reception channel indicating information and/or the RI information that the first end of frequency domain in the second end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.
20. The network equipment described in any one of 2-19 according to claim 1, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.
21. A kind of user equipment (UE) characterized by comprising processor and transmitter；

    Wherein, the processor, for ascending control information UCI to be mapped to the default running time-frequency resource of uplink data channels；Upstream data is mapped into other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal；

    The transmitter, for sending the UCI and the upstream data on the uplink data channels.
22. UE according to claim 21, which is characterized in that if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

    The processor is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.
23. The UE according to claim 21 or 22, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The processor is also used to the running time-frequency resource for starting one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.
24. The UE according to any one of claim 21-23, it is characterized in that, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes except corresponding two symbols of DMRS, the first symbol Number and the second outer symbol other symbols；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The processor is also used to map to the channel indicating information running time-frequency resource that one end of frequency domain in the corresponding band of third symbol described in the subframe starts.
25. UE according to claim 24, it is characterized in that, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

    The processor, is also used to also map to the channel indicating information the first symbol described in the subframe and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.
26. UE according to claim 22, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

    The processor is also used to map to the HARQ feedback information running time-frequency resource that one end of frequency domain in the corresponding band of the 4th symbol starts.
27. UE according to claim 21, it is characterized in that, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

    The processor, the time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of subframe where being also used to map to the HARQ feedback information uplink data channels.
28. The UE according to claim 21 or 27, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

    The processor, it is also used to the running time-frequency resource for starting the first end of frequency domain in time-domain resource and the corresponding band of second time slot that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts.
29. The UE according to any one of claim 21-28, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.
30. The UE according to any one of claim 21-29, which is characterized in that

    The processor, is also used to before the default running time-frequency resource that the UCI is mapped to the uplink data channels, determines the default running time-frequency resource according to parameter preset；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.
31. UE according to claim 30, which is characterized in that

    The processor determines the default running time-frequency resource alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset greater than the corresponding first threshold of the parameter preset if being also used to the parameter preset；The second threshold is greater than the first threshold.
32. A kind of network equipment characterized by comprising receiver and processor；

    Wherein, the processor, for determining that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

    The receiver, for receiving ascending control information UCI on the default running time-frequency resource of the uplink data channels；Upstream data is received on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.
33. The network equipment according to claim 32, which is characterized in that if the UCI includes HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

    The receiver is also used to the running time-frequency resource reception HARQ feedback information that one end of frequency domain in the corresponding band of the first symbol described in the subframe starts.
34. The network equipment according to claim 32 or 33, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes and DMRS The symbol of one symbol of corresponding two mark spaces；

    The receiver is also used to the running time-frequency resource reception RI information that one end of frequency domain in the corresponding band of the second symbol described in the subframe starts.
35. The network equipment according to any one of claim 32-34, it is characterized in that, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The receiver is also used to the running time-frequency resource reception channel indicating information that one end of frequency domain in the corresponding band of the third symbol described in the subframe starts.
36. The network equipment according to claim 35, it is characterized in that, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

    The receiver is also used to the running time-frequency resource that the other end that the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts and receives the channel indicating information.
37. The network equipment according to claim 33, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

    The receiver is also used to the running time-frequency resource that the other end that the 4th symbol corresponds to frequency domain in the band described in the subframe starts and receives the HARQ feedback information.
38. The network equipment according to claim 32, it is characterized in that, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

    The receiver, it is also used to the time-domain resource reception HARQ feedback information that the second end of frequency domain in the first end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.
39. The network equipment according to claim 32 or 38, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

    The receiver, it is also used to the time-domain resource reception channel indicating information and/or the RI information that the first end of frequency domain in the second end running time-frequency resource started of the frequency domain in the corresponding band of the first time slot of the subframe and the corresponding band of the second time slot of the subframe starts.
40. The network equipment according to any one of claim 32-39, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.
41. A kind of uplink control information transmission method characterized by comprising

    Ascending control information UCI is mapped to the default running time-frequency resource of uplink data channels by user equipment (UE)；

    Upstream data is mapped to other running time-frequency resources on the uplink data channels outside resource shared by the default running time-frequency resource and reference signal by the UE；

    The UE sends the UCI and the upstream data on the uplink data channels.
42. According to the method for claim 41, which is characterized in that if the UCI includes: HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

    The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

    The running time-frequency resource that the UE starts one end that the HARQ feedback information maps to frequency domain in the corresponding band of the first symbol described in the subframe.
43. The method according to claim 41 or 42, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

    The running time-frequency resource that the UE starts one end of frequency domain in the corresponding band of the second symbol described in the RI information MAP to the subframe.
44. The method according to any one of claim 41-43, it is characterized in that, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

    The running time-frequency resource that the UE starts one end that the channel indicating information maps to frequency domain in the corresponding band of third symbol described in the subframe.
45. According to the method for claim 44, it is characterized in that, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and/or second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

    The method also includes:

    The channel indicating information is also mapped to the first symbol described in the subframe to the UE and/or second symbol corresponds to the running time-frequency resource that the other end of frequency domain in the band starts.
46. According to the method for claim 42, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

    The method also includes:

    The running time-frequency resource that the UE also starts one end that the HARQ feedback information maps to frequency domain in the corresponding band of the 4th symbol.
47. According to the method for claim 41, which is characterized in that if the UCI includes HARQ Feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the time-domain resource that starts of second end；

    UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

    The time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of subframe where the HARQ feedback information is mapped to the uplink data channels by the UE.
48. The method according to claim 41 or 47, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

    UCI is mapped to the default running time-frequency resource of uplink data channels by the UE, comprising:

    The running time-frequency resource that the UE starts the first end of frequency domain in the time-domain resource that the second end of frequency domain in the channel indicating information and/or the RI information MAP to the corresponding band of first time slot starts and the corresponding band of second time slot.
49. The method according to any one of claim 41-48, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of the UE.
50. The method according to any one of claim 41-49, which is characterized in that the UE maps to UCI before the default running time-frequency resource of uplink data channels, the method also includes:

    The UE determines the default running time-frequency resource according to parameter preset；Wherein, the parameter preset comprises at least one of the following: the corresponding descending carrier number of the bit number of the UCI, the UCI, the corresponding data resource size of the UE.
51. According to the method for claim 50, which is characterized in that the UE determines that the default running time-frequency resource includes: according to parameter preset

    If the parameter preset is greater than the corresponding first threshold of the parameter preset, alternatively, the parameter preset is less than or equal to the corresponding second threshold of the parameter preset, the UE determines the default running time-frequency resource；The second threshold is greater than the first threshold.
52. A kind of uplink control information transmission method characterized by comprising

    The network equipment determines that the first running time-frequency resource of uplink data channels, first running time-frequency resource include resource shared by default running time-frequency resource and reference signal；

    The network equipment receives ascending control information UCI on the default running time-frequency resource of the uplink data channels；

    The network equipment receives upstream data on other running time-frequency resources on the uplink data channels outside first running time-frequency resource.
53. Method according to claim 52, which is characterized in that if the UCI includes HARQ feedback information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the first symbol in subframe where the uplink data channels；Wherein, first symbol includes the adjacent-symbol of corresponding two symbols of demodulated reference signal DMRS in the subframe；

    The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

    The running time-frequency resource that one end of frequency domain starts in the corresponding band of the network equipment first symbol described in the subframe receives the HARQ feedback information.
54. The method according to claim 52 or 53, which is characterized in that if the UCI includes RI information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the second symbol in subframe where the uplink data channels；Wherein, second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

    The running time-frequency resource that one end of frequency domain starts in the corresponding band of the network equipment second symbol described in the subframe receives the RI information.
55. The method according to any one of claim 52-54, it is characterized in that, if the UCI includes channel indicating information, the default running time-frequency resource includes: the running time-frequency resource that one end of frequency domain starts in the corresponding band of third symbol in subframe where the uplink data channels；Wherein, the channel indicating information include: channel quality indicator CQI information, pre-coding matrix instruction PMI information, precoding type instruction PTI information at least one；The third symbol includes other symbols except corresponding two symbols of DMRS, the first symbol and the second outer symbol；First symbol includes the adjacent-symbol of corresponding two symbols of DMRS described in the subframe；Second symbol includes the symbol of two mark spaces corresponding with DMRS, one symbol；

    The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

    One end of frequency domain is opened in the corresponding band of network equipment third symbol described in the subframe The running time-frequency resource of beginning receives the channel indicating information.
56. Method according to claim 55, it is characterized in that, if resource unit number needed for the channel indicating information is greater than the corresponding resource unit number of the third symbol, the default running time-frequency resource further include: the first symbol described in the subframe and second symbol correspond to the running time-frequency resource that the other end of frequency domain in the band starts；

    The method also includes:

    The running time-frequency resource that the network equipment other end that also the first symbol described in the subframe and second symbol correspond to frequency domain in the band starts receives the channel indicating information.
57. Method according to claim 53, which is characterized in that if resource unit number needed for the HARQ feedback information is greater than the corresponding resource unit number of first symbol；The default running time-frequency resource further include: the running time-frequency resource that one end of frequency domain starts in the corresponding band of the 4th symbol；4th symbol includes the symbol between corresponding two symbols of DMRS in addition to first symbol and the second symbol；Second symbol includes the symbol of two mark spaces corresponding with the DMRS, one symbol；

    The method also includes:

    The running time-frequency resource that the network equipment other end that also the 4th symbol corresponds to frequency domain in the band described in the subframe starts receives the HARQ feedback information.
58. Method according to claim 52, it is characterized in that, if the UCI includes HARQ feedback information, the default running time-frequency resource include: the first end of frequency domain in the corresponding band of the first time slot of subframe where the uplink data channels start running time-frequency resource, the subframe the corresponding band of the second time slot in frequency domain the running time-frequency resource that starts of second end；

    The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

    The network equipment time-domain resource that the second end of frequency domain starts in the first end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of the subframe receives the HARQ feedback information.
59. The method according to claim 52 or 58, it is characterized in that, if the UCI includes RI information and/or channel indicating information, the default running time-frequency resource further include: the running time-frequency resource that the first end of frequency domain starts in the time-domain resource and the corresponding band of second time slot that the second end of frequency domain starts in the corresponding band of the first time slot of subframe where the uplink data channels；Wherein, the channel indicating information includes: CQI information, PMI information, at least one in PTI information；

    The network equipment receives UCI on the default running time-frequency resource of uplink data channels, comprising:

    The network equipment time-domain resource that the first end of frequency domain starts in the second end running time-frequency resource started of frequency domain and the corresponding band of the second time slot of the subframe in the corresponding band of the first time slot of the subframe receives the channel indicating information and/or the RI information.
60. The method according to any one of claim 52-59, which is characterized in that the UCI is the corresponding ascending control information of descending carrier that CQI information is greater than default CQI value in the descending carrier of UE.