CN105191441A - Determination method and device for allocating priority for channel power - Google Patents

Abstract

Disclosed are a determination method and device for allocating priority for channel power, which relate to the technical field of communications, for solving the priority problem of a plurality of transmission channels when a user equipment sends uplink control information over at least one channel. The method comprises: judging whether a resource occupied by first UCI borne by a first PUSCH is greater than, or greater than or equal to, a first threshold, and whether a resource occupied by second UCI borne by a second PUSCH is less than, or less than or equal to, a second threshold; and if the resource occupied by the first UCI borne by the first PUSCH is greater than, or greater than or equal to, the first threshold, and the resource occupied by the second UCI borne by the second PUSCH is less than, or less than or equal to, the second threshold, determining that the priority of the first PUSCH is higher than the priority of the second PUSCH, wherein the first threshold and the second threshold are both greater than zero, and the transmission time of the first PUSCH and the transmission time of the second PUSCH are at least partially overlapped.

Description

Determination method and device for allocating priority for channel power

A kind of channel power distributes the determination method and apparatus technical field of priority

The determination method and apparatus of priority, and a kind of load UCI (Uplink control information, ascending control information are distributed the present invention relates to communication technical field, more particularly to a kind of channel power）The launching technique and equipment of channel.Background technology

In order to support physics downlink shared data channel (Physical Downlink Shared Channel, abbreviation PDSCH) adaptive coding and modulating and mixed automatic retransfer technology, user equipment（User Equipment, abbreviation UE) need by Physical Uplink Control Channel (Physical Uplink Control Channel, abbreviation PUCCH) and/or Physical Uplink Shared Channel（Physical uplink Shared Channel, abbreviation PUSCH) channel point is another ' J is to main website（Master E-UTRAN Node B, abbreviation MeNB) and slave station（Secondary E-UTRAN Node B, abbreviation SeNB) the one or more ascending control informations (Uplink control information, abbreviation UCI) of feedback.

Example, if user equipment sends the PUSCH channels for carrying UCI and the PUSCH channels for carrying business datum to base station simultaneously, because UCI is compared with business datum with higher importance, so the priority that carrying UCI PUSCH channel ratios carry the PUSCH channels of business datum is high, so, when the general power that multiple up channels are launched has exceeded the up maximum transmission power of user equipment, user equipment can preferentially distribute carrying UCI PUSCH transmission power.

If PUSCH also carries other information (such as upstream data UL-SCH), so that the PUSCH has more Physical Resource Block while UCI is carried（Physical Resource Block, abbreviation PRB) need transmitting.When the PRB of transmission number increase, user equipment can accordingly increase the transmission power of the PUSCH, to ensure the receptivity of base station side.So PUSCH may will need more transmission powers because of this more PRB number.Assuming that PUSCH PRB number increases to 3 times, then PUSCH Required transmission power increases to 3 times.Because the PUSCH channel prioritys for carrying UCI are higher, therefore the preferential distribution power of meeting is to the PUSCH for carrying UCI, further, because the PUSCH for carrying UCI carries substantial amounts of Physical Resource Block, so the PUSCH will take substantial amounts of power, the power of other channel occupancies will lack, and cause the unfairness of power distribution.

The content of the invention

Embodiments of the invention provide the determination method and apparatus that a kind of channel power distributes priority, and a kind of launching technique and equipment of carrying UCI channels, for solving the problem of carrying UCI priority of PUSCH channels is too high.To reach above-mentioned purpose, embodiments of the invention are adopted the following technical scheme that：In a first aspect, the embodiments of the invention provide a kind of user equipment, including：Judge module, for judging whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；First determining module, if the resource shared by the first UCI carried for the first PUSCH is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the priority of the 2nd PUSCH；Wherein, the-the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.In the first possible implementation of first aspect, the user equipment also includes：Receiving module, the second determining module；The receiving module, the channel configuration information for receiving main website transmission, the channel The information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the small district's groups of at least one where configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of first aspect, additionally provide second of possible implementation of first aspect, the receiving module, it is additionally operable to receive the resource allocation information that main website is sent, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module, for according to the resource allocation information, determining described

Resource shared by the-UCI of-PUSCH carryings.In any possible implementation of first two of first aspect or first aspect, additionally provide the third possible implementation of first aspect, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the-PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.In any possible implementation of first three of first aspect or first aspect, the 4th kind of possible implementation of first aspect is additionally provided, the receiving module is additionally operable to receive first thresholding that main website is sent by signaling.In first four kinds any possible implementations of first aspect or first aspect, the 5th kind of possible implementation of first aspect is additionally provided, the receiving module is additionally operable to receive second thresholding that main website is sent by signaling.

Second aspect, the embodiments of the invention provide a kind of base station, including：Sending module, for sending channel configuration information to user equipment, the channel configuration The information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, the PUSCH channel bearings ascending control information UCI is used in the small district's groups of at least one where determining the user equipment;The sending module, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero；The sending module, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module, for receiving the UCI being carried in the PUSCH that the user equipment is sent.

The third aspect, the embodiments of the invention provide a kind of user equipment, including：Judge module, judge whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero；First determining module, if the resource shared by the first UCI carried for the first PUSCH is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time of-PUSCH and the 2nd PUSCH transmission time are least partially overlapped. In the first possible implementation of the third aspect, the user equipment also includes：Receiving module, the second determining module；The receiving module, the information that whether Physical Uplink Control Channel PUCCH channels and PUSCH channels simultaneous transmission are configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that carrying the first UCI using the first P U S C H-channels at least one small district's groups where the user equipment.In the first possible implementation of the third aspect, additionally provide second of possible implementation of the third aspect, the receiving module, it is additionally operable to receive the first resource configuration information that main website is sent, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module, is additionally operable to according to the first resource configuration information, determines the resource shared by the first UCI of the first PUSCH carryings.In second of possible implementation of the third aspect, additionally provide the third possible implementation of the third aspect, the receiving module, it is additionally operable to receive the Secondary resource configuration information that the main website is sent, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module, if being additionally operable to resource of second determining module according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried to be less than or during less than or equal to the second thresholding, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.In any possible implementation of first three of the third aspect or the third aspect, additionally provide the 4th kind of possible implementation of the third aspect, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the-PUSCH channels, and/or channel condition information CSI, the 2nd UCI include described the The HARQ-ACK of second community group where two PUSCH channels, and/or CSI.In first four kinds any possible implementations of the third aspect or the third aspect, the 5th kind of possible implementation of the third aspect is additionally provided, the receiving module is additionally operable to receive first thresholding that the main website is sent by signaling.In first five any possible implementation of kind of the third aspect or the third aspect, the 6th kind of possible implementation of the third aspect is additionally provided, the receiving module is additionally operable to receive second thresholding that the main website is sent by signaling.

Fourth aspect, the embodiments of the invention provide a kind of base station, including：Sending module, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determines whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The sending module, is additionally operable to send the first thresholding to the user equipment, first thresholding is more than zero；The sending module, it be additionally operable to send first resource configuration information to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of UCI, UCI resources shared in the PUSCH are determined according to the first resource configuration information for the user equipment, judge whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.In the first possible implementation of fourth aspect, the sending module is also used In transmission Secondary resource configuration information to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, determine that UCI resources shared in the PUSCH are less than or during less than or equal to the second thresholding according to the first resource configuration information for the user equipment, UCI resources shared in the PUSCH are determined according to the Secondary resource configuration information.In the first possible implementation of fourth aspect or fourth aspect, second of possible implementation of fourth aspect is additionally provided, the transmitter is additionally operable to send second thresholding to the user equipment by signaling.

5th aspect, the embodiments of the invention provide a kind of user equipment, including：Judge module, for judging whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero；First determining module, if the resource shared by the first UCI carried for the PUSCH is more than or more than or equal to the thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.In the first possible implementation of the 5th aspect, the user equipment also includes：Receiving module, the second determining module；The information that whether PUCCH channels and PUSCH channels simultaneous transmission are configured in the receiving module, the channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using described in the PUSCH channel bearings first at least one small district's groups where the user equipment UCI.In the first possible implementation of the 5th aspect, additionally provide second of possible implementation of the 5th aspect, the receiving module, it is additionally operable to receive the resource allocation information that main website is sent, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module, is additionally operable to according to the resource allocation information, it is determined that described

Resource shared by the first UCI of PUSCH carryings.In any possible implementation of first two of the 5th aspect or the 5th aspect, additionally provide the third possible implementation of the 5th aspect, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the PUCCH channels, and/or CSI.In any possible implementation of first three of the 5th aspect or the 5th aspect, the 4th kind of possible implementation of the 5th aspect is additionally provided, the receiving module is additionally operable to receive the thresholding that the main website is sent by signaling.

6th aspect, the embodiments of the invention provide a kind of base station, including：Sending module, channel configuration information is sent to user equipment for main website, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings ascending control information UCI at least one small district's groups where the user equipment;The sending module, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero； The sending module, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.

7th aspect, the embodiments of the invention provide a kind of user equipment, including：First determining module, for according to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge module, for judging whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；First determining module, if being additionally operable to the resource shared by the UCI of the PUSCH carryings to be less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI.In the first possible implementation of the 7th aspect, the user equipment also includes：Receiving module, the second determining module；The receiving module, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of the 7th aspect or the 7th aspect, second of possible implementation of the 7th aspect is additionally provided, the receiving module is additionally operable to receive the first resource configuration information that the main website is sent.In any possible implementation of first two of the 7th aspect or the 7th aspect, the third possible implementation of the 7th aspect is additionally provided, the receiving module is additionally operable to receive the Secondary resource configuration information that the main website is sent.In any possible implementation of first three of the 7th aspect or the 7th aspect, additionally provide the 4th kind of possible implementation of the 7th aspect, the mixed automatic retransfer confirmation HARQ- ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.In first four kinds any possible implementations of the 7th aspect or the 7th aspect, the 5th kind of possible implementation of the 7th aspect is additionally provided, the receiving module is additionally operable to receive the thresholding that the main website is sent by signaling.

Eighth aspect, the embodiments of the invention provide a kind of base station, including：Sending module, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, for the user equipment according to the channel configuration information determine in the user equipment where at least one small district's groups in PUCCH channels and PUSCH channels simultaneous transmission whether be configured, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The sending module, is additionally operable to send first resource configuration information and Secondary resource configuration Information is to user equipment, for resource of the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；The sending module, it be additionally operable to send thresholding to the user equipment, judge whether the resource shared by the UCI carried according to the PUSCH of the first resource configuration information or Secondary resource configuration information determination is less than or less than or equal to the thresholding for the user equipment, the thresholding is more than zero；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.

9th aspect, the embodiments of the invention provide a kind of user equipment, including：Receiving module, the channel configuration information for receiving main website transmission, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；Determining module, if for indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.In the first possible implementation of the 9th aspect, the user equipment also includes：Sending module, the sending module is used to be sent in the ascending control information UCI carried on the PUCCH and/or PUSCH.In the first possible implementation of the 9th aspect or the 9th aspect, second of possible implementation of the 9th aspect is additionally provided, if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station. Tenth aspect, the embodiments of the invention provide a kind of base station, including:Sending module, for sending channel configuration information to the user equipment, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receiving module, for receiving the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.

Tenth on the one hand, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：User equipment judges whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, and whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the 2nd PUSCH priority；Wherein, the-the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.In the first possible implementation of the tenth one side, the user equipment judge-PUSCH carrying the first UCI shared by resource whether be more than or more than or equal to the first thresholding before, methods described also includes： User equipment receives Physical Uplink Control Channel in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment

The information whether PUCCH and PUSCH channels simultaneous transmission is configured；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of the tenth one side, additionally provide second of possible implementation of the tenth one side, the determination uses the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment, and methods described also includes：The resource allocation information that main website is sent is received, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of-UCI；According to the resource allocation information, the resource shared by the first UCI of the first PUSCH carryings is determined.The tenth on the one hand or in any possible implementation of first two of the tenth one side, additionally provide the third possible implementation of the tenth one side, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.The tenth on the one hand or in any possible implementation of first three of the tenth one side, additionally provide the 4th kind of possible implementation of the tenth one side, first thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, first thresholding is pre-set.On the one hand or in first four kinds any possible implementations of the tenth one side, the 5th kind of possible implementation of the tenth one side is additionally provided, second thresholding is institute the tenth State user equipment and receive what the signaling that the main website sends was obtained, or, second thresholding is pre-set.

12nd aspect, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings ascending control information UCI at least one small district's groups where the user equipment;Thresholding is sent to the user equipment, the thresholding is more than zero；Resource allocation information is sent to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receive the UCI being carried in the PUSCH that the user equipment is sent.

13rd aspect, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：User equipment judges whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, and first thresholding is used for the PUSCH channels that the user equipment determines the carrying UCI Priority, first thresholding be more than zero；If the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time and the transmission time of the 2nd PUSCH of the first PUSCH is least partially overlapped.The 13rd aspect the first possible implementation in, the user equipment judge-PUSCH carry the first UCI shared by resource whether be less than or less than or equal to the first thresholding before, methods described also includes：Receive the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of the 13rd aspect, additionally provide second of possible implementation of the 13rd aspect, the determination uses the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment, and methods described also includes：The first resource configuration information that main website is sent is received, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI；According to the first resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.In second of possible implementation of the 13rd aspect, the third possible implementation of the 13rd aspect is additionally provided, methods described also includes： The Secondary resource configuration information that main website is sent is received, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；If the user equipment determines described first according to the first resource configuration information

The resource shared by the first UCI that PUSCH is carried is less than or less than or equal to the second thresholding, according to the Secondary resource configuration information, determines the resource shared by the first UCI of the first PUSCH carryings.In any possible implementation of first three of the 13rd aspect or the 13rd aspect, additionally provide the 4th kind of possible implementation of the 13rd aspect, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.In first four kinds any possible implementations of the 13rd aspect or the 13rd aspect, additionally provide the 5th kind of possible implementation of the 13rd aspect, first thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, first thresholding is pre-set.In first five any possible implementation of kind of the 13rd aspect or the 13rd aspect, additionally provide the 6th kind of possible implementation of the 13rd aspect, second thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, second thresholding is pre-set.

Fourteenth aspect, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission； If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The-thresholding is sent to the user equipment, first thresholding is more than zero；First resource configuration information is sent to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the first resource configuration information for the user equipment, judge whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the PUSCH of UCI priority；Receive the UCI being carried on the PUSCH that the user equipment is sent.In the first possible implementation of fourteenth aspect, methods described also includes：Secondary resource configuration information is sent to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, determine that UCI resources shared in the PUSCH are less than or during less than or equal to the second thresholding according to the first resource configuration information for the user equipment, UCI resources shared in the PUSCH are determined according to the Secondary resource configuration information.In the first possible implementation of fourteenth aspect or fourteenth aspect, second of possible implementation of fourteenth aspect is additionally provided, second thresholding is that the main website is sent to the user equipment by signaling.

15th aspect, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：User equipment judges whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero； If the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to the thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.The 15th aspect the first possible implementation in, the user equipment judge PUSCH carry the first UCI shared by resource whether be more than or more than or equal to thresholding before, methods described also includes：Receive the information that whether PUCCH and PUSCH channels simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of the 15th aspect, additionally provide second of possible implementation of the 15th aspect, the determination uses-UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment, and methods described also includes：The resource allocation information that main website is sent is received, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of-UCI；According to the resource allocation information, the resource shared by the first UCI of the PUSCH carryings is determined.In any possible implementation of first two of the 15th aspect or the 15th aspect, additionally provide the third possible implementation of the 15th aspect, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information CSI, the 2nd UCI include described The HARQ-ACK of second community group where PUCCH channels, and/or CSI.In any possible implementation of first three of the 15th aspect or the 15th aspect, additionally provide the 4th kind of possible implementation of the 15th aspect, the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.

16th aspect, the embodiments of the invention provide a kind of determination method that channel power distributes priority, including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes where the user equipment that Physical Uplink Control Channel PUCCH and physics upload the information whether shared channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;Thresholding is sent to the user equipment, the thresholding is more than zero；Resource allocation information is sent to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receive the UCI being carried on the PUSCH that the user equipment is sent.

17th aspect, the embodiments of the invention provide a kind of launching technique of carrying UCI channels, including： User equipment determines Physical Uplink Shared Channel according to first resource configuration information

Resource shared by the ascending control information UCI of PUSCH carryings, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；If the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI.In the first possible implementation of the 17th aspect, the user equipment is determined before the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings, methods described also includes according to first resource configuration information：Receive the information that whether Physical Uplink Control Channel PUCCH and P U S C H-channels simultaneous transmissions are configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.In the first possible implementation of the 17th aspect or the 17th aspect, second of possible implementation of the 17th aspect is additionally provided, the first resource configuration information user equipment receives the main website transmission and obtained.In any possible implementation of first two of the 17th aspect or the 17th aspect, the third possible implementation of the 17th aspect is additionally provided, the Secondary resource configuration information user equipment receives the main website transmission and obtained. In any possible implementation of first three of the 17th aspect or the 17th aspect, additionally provide the 4th kind of possible implementation of the 17th aspect, the mixed automatic retransfer confirmation HARQ-ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.In first four kinds any possible implementations of the 17th aspect or the 17th aspect, additionally provide the 5th kind of possible implementation of the 17th aspect, the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.

18th aspect, the embodiments of the invention provide a kind of launching technique of carrying UCI channels, including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;First resource configuration information and Secondary resource configuration information are sent to user equipment, for resource of the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；Thresholding is sent to the user equipment, is judged for the user equipment according to described the

Whether the resource shared by the UCI for the PUSCH carryings that-resource allocation information or the Secondary resource configuration information are determined is less than or less than or equal to the thresholding, the thresholding More than zero；Receive the UCI being carried on the PUSCH that the user equipment is sent.

19th aspect, the embodiments of the invention provide a kind of launching technique of carrying UCI channels, including：User equipment receives the channel configuration information that main website is sent, and the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；If indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.In the first possible implementation of the 19th aspect, after Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions of the determination in the small district's groups where at least one described described user equipment, methods described also includes：It is sent in the ascending control information carried on the PUCCH and/or PUSCH

UCI.In the first possible implementation of the 19th aspect or the 19th aspect, second of possible implementation of the 19th aspect is additionally provided, if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.

20th aspect, the embodiments of the invention provide a kind of launching technique of carrying UCI channels, including：Main website sends channel configuration information to the user equipment, and the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use dual link skill Art, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receive the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.Using technical scheme provided in an embodiment of the present invention, the number of resource according to shared by the UCI carried on PUSCH channels, and comparison with the resource shared by the UCI that is carried on other PUSCH channels or with the UCI carried on PUCCH channels comparison, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.Using technical method provided in an embodiment of the present invention, the resource shared by the UCI that is carried on PUSCH is determined by using different resource allocation informations, to solve when the resource shared by the UCI of the PUSCH carryings determined according to first resource configuration information is smaller, can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission.Using technical scheme provided in an embodiment of the present invention, by using channel configuration information, configure the method that user equipment uses PUCCH and PUSCH simultaneous transmissions, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.The technical scheme of brief description of the drawings in order to illustrate the embodiments of the present invention more clearly, the required accompanying drawing used in embodiment or description of the prior art will be briefly described below, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.Fig. 1 is a kind of schematic diagram of a scenario provided in an embodiment of the present invention；The principle schematic that Fig. 2 launches for uplink single-carrier in the prior art；Fig. 3 is a kind of entity apparatus schematic diagram of user equipment provided in an embodiment of the present invention； Fig. 4 is a kind of entity apparatus schematic diagram of base station provided in an embodiment of the present invention；Fig. 5 is that the entity apparatus schematic diagram 6 of another user equipment provided in an embodiment of the present invention is the entity apparatus schematic diagram of another base station provided in an embodiment of the present invention；Fig. 7 is that the entity apparatus schematic diagram 8 of another user equipment provided in an embodiment of the present invention is the entity apparatus schematic diagram of another base station provided in an embodiment of the present invention；Fig. 9 is that the entity apparatus diagram 10 of another user equipment provided in an embodiment of the present invention is the entity apparatus schematic diagram of another base station provided in an embodiment of the present invention；Fig. 11 is that the entity apparatus diagram 12 of another user equipment provided in an embodiment of the present invention is the entity apparatus schematic diagram of another base station provided in an embodiment of the present invention；Figure 13 is a kind of schematic device of user equipment provided in an embodiment of the present invention；Figure 14 is the schematic device of another user equipment provided in an embodiment of the present invention；Fig. 15 is a kind of schematic device of base station provided in an embodiment of the present invention；Fig. 16 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 17 is the schematic device of another user equipment provided in an embodiment of the present invention；Fig. 18 is the schematic device of another base station provided in an embodiment of the present invention；Figure 19 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 20 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 21 is the schematic device of another base station provided in an embodiment of the present invention；Figure 22 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 23 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 24 is the schematic device of another base station provided in an embodiment of the present invention；Figure 25 is the schematic device of another user equipment provided in an embodiment of the present invention； Figure 26 is the schematic device of another user equipment provided in an embodiment of the present invention；Figure 27 is the schematic device of another base station provided in an embodiment of the present invention；Figure 28 distributes the determination method schematic diagram of priority for a kind of channel power provided in an embodiment of the present invention；

A kind of resource for PUSCH channels that Figure 29 provides for prior art uses schematic diagram；The resource for another PUSCH channels that Figure 30 provides for prior art uses schematic diagram；

The resource for another PUSCH channels that Fig. 31 provides for prior art uses schematic diagram；

The resource for another PUSCH channels that Figure 32 provides for prior art uses schematic diagram；

Figure 33 distributes the determination method schematic diagram of priority for another channel power provided in an embodiment of the present invention；

Figure 34 uses schematic diagram for the resource of another PUSCH channels provided in an embodiment of the present invention；Figure 35 distributes the determination method schematic diagram of priority for another channel power provided in an embodiment of the present invention；

Figure 36 is a kind of channel resource configuration method schematic diagram of carrying UCI channels transmitting provided in an embodiment of the present invention；

Figure 37 is a kind of launching technique schematic diagram of carrying UCI channels provided in an embodiment of the present invention.The technical scheme in the embodiment of the present invention is clearly and completely described below in conjunction with the accompanying drawing in the embodiment of the present invention for embodiment, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention. To facilitate understanding of the present embodiment of the invention, technical term related in description of the embodiment of the present invention is introduced at this first.

(1) dual link（Dual Connectivity, abbreviation DC) technology：Senior long term evolution (Long Term Evolution-Advanced, abbreviation LTE-A) is further evolution and the strengthening system of 3GPP LTE systems.In LTE-A systems, carrier aggregation technology in same base station is introduced for the peak data rate requirement of the forth generation communication technology in order to meet International Telecommunication Union（Carrier Aggregation, abbreviation CA).The carrier aggregation between base station, that is, dual link (Dual Connectivity, abbreviation DC) technology are further introduced again.In the scene using DC technologies, the backhaul transport between base station（Backhaul it is) nonideal, it is difficult to quick interactive control information, therefore user equipment（User Equipment, abbreviation UE) need by Physical Uplink Control Channel（Physical Uplink Control Channel, abbreviation PUCCH) and/or Physical Uplink Shared Channel（Physical uplink Shared Channel, abbreviation PUSCH) channel is respectively to main website（Master E-UTRAN Node B, abbreviation MeNB) and slave station（Secondary E-UTRAN Node B, abbreviation SeNB) the one or more ascending control informations (Uplink control information, abbreviation UCI) of feedback.Wherein, ascending control information includes：The channel condition information of down channel

(Channel State Information, abbreviation CSI), mixed automatic retransfer confirmation

(HARQ-ACK), dispatch request（Scheduling Request, abbreviation SR) etc., CSI information can include：Channel quality is indicated（Channel Quality Indicator, abbreviation CQI), order instruction（Rank indicator, abbreviation RI), pre-coding matrix instruction

(Precoding Matrix Indicator, abbreviation Ρ Μ Ι) etc., includes in HARQ-ACK information and confirms response (Acknowledgement, abbreviation ACK) information and deny response

(Negative Acknowledgement, abbreviation NACK) information.As shown in Fig. 1, under the scene of grand Microcell coupling, system information can be provided by being deployed in frequency fl macrocell, Radio Link is monitored and mobile management, to ensure the continuity of business, the multiple Microcells in the coverage of macrocell for being deployed in frequency f2 mainly provide the transmission of high data rate traffic, are non-ideal passback (Backhaul) between above-mentioned macrocell and Microcell. In DC systems, it is desirable to which UE can send PUCCH to main website and slave station, the UCI such as HARQ-ACK information, CQI/PMI/RI information or SR information are potentially included in the PUCCH channels.One or more carrier waves can be included in main website or slave station, the carrier wave set that the carrier wave set in main website is referred to as in MCG (Master Cell Group), slave station is referred to as SCG (Secondary Cell Group).

As shown in figure 1, main website is by signaling user equipment, the small district's groups and the cell component provisioned user equipment of slave station of main website, user equipment can use the cell of two small district's groups to be communicated.Can have in the small district's groups of main website in one or more carrier wave, the small district's groups of slave station can have one or more carrier wave.

(2) UCI is carried on PUSCH channels:As shown in Fig. 2, UCI in PUSCH channels, wherein, the data of CQI/PMI/RI and Uplink Shared Channel are multiplexed together after channel coding and rate-matched, are modulated into the symbols such as QPSK/16QAM/64QAM（Modulation symbol after encoding）, after the encoded modulation with QPSK of HARQ-ACK information, pass through punching（Puncturing mode)（The mode of the punching is de-redundancy bit）Take the modulation symbol after being encoded in PUSCH（That is the modulation symbol after the coding that HARQ-ACK takes no longer carries the data of CQI/PMI/RI and Uplink Shared Channel）, wherein 1 QPSK may map to 1 QPSK/16QAM/64QAM constellation point up, for example 16QAM/64QAM, some bits are set to constant value, so as to be merely representative of 2 bits of QPSK signals.Then discrete Fourier transform is passed through（Discrete Fourier Transform, abbreviation DFT) frequency domain is mapped to, then it is mapped to time domain transmitting by Inverse Fast Fourier Transforms (Inverse Fast Fourier Transform, abbreviation IFFT).

When multiplexing and punching, the number of the modulation symbol after coding of parameters of the UCI that user equipment is configured according to UCI number of bits and main website relative to PUSCH to determine UCI occupancy；Different UCI occupies the position of the modulation symbol after different codings, and the specific modulation symbol taken after how many codings calculates what is obtained for user equipment according to different UCI parameter.

(3) transmitting of up multiple channels

As shown in figure 1, main website is MeNB, MeNB launches and received the channel of the cell of small district's groups 1；Slave station is SeNB, and SeNB launches and received the letter of the cell of small district's groups 2 Road.

MeNB, which can launch, signals user equipment, and whether PUCCH and PUSCH launches and be configured for simultaneously in small district's groups 1.User equipment receives this configuration information, is configured for if PUCCH and PUSCH launches simultaneously, and user equipment can launch a PUCCH and one or more PUSCH simultaneously in small district's groups 1.In addition to a special circumstances, UCI always launches on PUCCH.Special circumstances are, existing HARQ-ACK, and when having CSI again, HARQ-ACK can launch on PUCCH, while CSI can launch on PUSCH.It is not configured if PUCCH and PUSCH launches simultaneously, user equipment can not launch PUCCH and PUSCH simultaneously in small district's groups 1.If there is PUCCH and PUSCH to transmit simultaneously, at this moment UCI is transmitted on PUSCH, and PUCCH does not launch.No matter PUCCH and PUSCH launches either with or without being configured, if only PUCCH channels transmitting, UCI is transmitted on PUCCH simultaneously；If only PUSCH channels are launched, no UCI will be transmitted, then launch PUSCH channels.

MeNB can equally launch signaling to user equipment, and PUCCH and PUSCH to small district's groups 2 are configured while launching.The configuration that PUCCH and PUSCH launches simultaneously in small district's groups 1, can be independent with the configurations launched of PUCCH and PUSCH in small district's groups 2 simultaneously, for example configured respectively by two configuration informations, two configuration informations are by MeNB by signaling to user equipment, and the PUCCH and PUSCH of two small district's groups are obtained by receiving signaling by UE while the configuration information launched.

In a small district's groups, when there is PUSCH, PUSCH can have one or more, but at most only one of which PUSCH carries UCI.Equally, in a small district's groups, at most there is a PUCCH channel.According to differences of the MeNB to the configuration of small district's groups 1 and small district's groups 2（Not considering that small district's groups 1 and small district's groups 2 sequentially change causes the situation of various combination）, the up launch channel of user equipment can include following several situations：

1 :PUCCH is included in one small district's groups, PUCCH is included in a small district's groups in addition;

2:PUSCH is included in one small district's groups, PUSCH is included in a small district's groups in addition;

3 :PUCCH is included in one small district's groups, PUSCH is included in a small district's groups in addition; 4:PUCCH is included in one small district's groups, PUCCH and PUSCH is included in a small district's groups in addition;

5 :PUCCH and PUSCH is included in one small district's groups, PUCCH and PUSCH is included in a small district's groups in addition;2,3,4 in above-mentioned 5 kinds of situations, under 5, when having PUSCH transmittings in one small district's groups, UCI may be carried on one of which PUSCH, and at this moment can have one or more not carry the PUSCH of UCI other cells simultaneously (can also not have）.For situation 1：When carrying out power distribution, the priority that two PUCCH of setting can be pre-defined is identical, or pre-defined setting carrying HARQ-ACK/SR priority of the PUCCH priority higher than carrying CQI/PMI/RI PUCCH, UE carries out the distribution of the power of up channel according to the priority of pre-defined channel.We consider situation 2,3,4,5 by emphasis.For situation 2:Assuming that have 2 PUSCH, the problem of there is priority processing when each PUSCH may carry HARQ-ACK power distribution；Or the problem of there is priority when each PUSCH may carry CQI/PMI/RI power distribution；Or a PUSCH carries HARQ-ACK, when another PUSCH carries CQI/PMI/RI power distribution the problem of priority；Or a PUSCH carries HARQ-ACK, the problem of foretelling priority when a PUSCH is loaded with HARQ-ACK and CQI/PMI/RI power distribution another sunset；Or the problem of priority of two PUSCH when all carrying HARQ-ACK and CQI/PMI/RI power distributions.Be also required to consider carrying UCI PUSCH, and do not carry UCI PUSCH priority ratio compared with the problem of.For situation 3：Only one of which PUSCH carries UCI in another small district's groups.

HARQ-ACK is transmitted in PUSCH transmission without CQI/PMI/RI on PUSCH；Or CQI/PMI/RI is in PUSCH transmission, transmitted without HARQ-ACK on PUSCH；Or HARQ-ACK and CQI/PMI/RI are in PUSCH transmission, and PUCCH needs the problem of compare priority to consider.Wherein, PUCCH may carry HARQ-ACK/SR, it is also possible to do not carry HARQ-ACK/SR, and only carry CQI/PMI/RI.Simultaneously, it is also desirable to consider to carry UCI PUSCH, and do not carry UCI PUSCH Priority ratio compared with the problem of.For situation 4:There is PUSCH carrying CQI/PMI/RL to pre-define PUCCH highest priorities in another small district's groups, therefore can preferential distribution power.It is also required to consider this PUSCH and does not carry the issue of priority that UCI PUSCH compares.For situation 5:PUCCH priority can be pre-defined most higher, therefore can preferential distribution power, one PUSCH of one small district's groups may carry CQI/PMI/RI, and a PUSCH of another small district's groups may also carry CQI/PMI/RI, the problem of at this time needing to consider priority.Be also required to consider carrying UCI PUSCH, and do not carry UCI PUSCH priority ratio compared with the problem of.Above-mentioned situation 2,3,4,5, when there is carrying UCI PUSCH, there can be one or more PUSCH for not carrying UCI simultaneously.Therefore, situation 2,3,4,4,5 may also also need to consider carrying UCI PUSCH, and do not carry UCI PUSCH priority ratio compared with the problem of.

Embodiment one is the embodiments of the invention provide a kind of user equipment, as shown in figure 3, the user equipment 30 includes：Processor 301, memory 302, receiver 303, transmitter 304 are (optional）, bus system 305.Wherein, described each component of user equipment 30（Processor 301, memory 302, receiver 303, transmitter 304 are (optional））It is coupled by bus system 305, wherein bus system 305 can also include power bus, controlling bus and status signal bus in addition etc. in addition to including data/address bus.But for the sake of clear explanation, various buses are all designated as bus system 305 in Fig. 3;The memory 302 can include read-only storage and/or random access memory, and provide instruction and data to processor 301.The a part of of the memory 302 can also include nonvolatile RAM 302 (NVRAM).The memory 302 stores following element, can perform module either data structure or their subset, or their superset： Operational order：Including various operational orders, for realizing various operations.Operating system：Including various system programs, for realizing various basic businesses and handling hardware based task.The processor 301 is by calling the operational order that memory 302 is stored（The operational order is storable in operating system）, perform following operation：Judge whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the priority of the 2nd PUSCH；Wherein, the-the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.Optionally, the receiver 303, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；The processor 301, is additionally operable to determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiver 303 is additionally operable to receive the resource allocation information that main website is sent, and the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI；The processor 301 is additionally operable to, according to the resource allocation information, determine described first Resource shared by first UCI of PUSCH carryings.Optionally, the transmitter 304 is used to be sent in the first UCI carried on the first PUCCH, and the 2nd UCI carried on the 2nd PUCCH.Optionally, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.Optionally, the receiver 303 is additionally operable to receive first thresholding that the main website is sent by signaling.Optionally, the receiver 303 is additionally operable to receive second thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, judge whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, if the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carrying is less than or less than or equal to the second thresholding, described the is determined

- PUSCH priority is higher than the priority of the 2nd PUSCH, that is, by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment two is the embodiments of the invention provide a kind of base station, as shown in figure 4, the base station 40 includes：Transmitter 401 and receiver 402.The transmitter 401, for sending channel configuration information to user equipment, in the small district's groups of at least one where the channel configuration information includes the user equipment Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions whether by with The information put, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, the PUSCH channel bearings ascending control information UCI is used in the small district's groups of at least one where determining the user equipment;The transmitter 401 is additionally operable to send thresholding to the user equipment, and the thresholding is more than zero；The transmitter 401 is additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；The receiver 402, for receiving the UCI in the PUSCH that the user equipment is sent.It should be noted that the thresholding includes at least one threshold value.Example, when the small district's groups where at least one described described user equipment include：First community group and second community group, and in the user equipment according to the channel configuration information, it is determined that carrying the first UCI using the first PUSCH in the first community group, the 2nd UCI is carried using the 2nd PUSCH in the second community group, so described transmitter, which can send the first thresholding and be used for the user equipment, judges the resource shared by the first UCI that is carried in the first PUSCH channels and the relation of first thresholding, the transmitter, which can send the second thresholding and be used for the user equipment, judges the resource shared by the 2nd UCI that is carried in the 2nd PUSCH channels and the relation of second thresholding, certainly, first thresholding can be with equal with second thresholding, can also be unequal.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the excellent of the PUSCH channels First level, the problem of priority of solution carrying UCI PUSCH channels is too high.

Embodiment three is the embodiments of the invention provide a kind of user equipment, as shown in figure 5, the user equipment 50 includes：Processor 501, memory 502, receiver 503, transmitter 504, bus system 505.Wherein, described each component of user equipment 50（Processor 501, memory 502, receiver 503, transmitter 504) it is coupled by bus system 505, wherein bus system 505 can also include power bus, controlling bus and status signal bus in addition etc. in addition to including data/address bus.But for the sake of clear explanation, various buses are all designated as bus system 505 in Fig. 5;The memory 502 can include read-only storage and/or random access memory, and provide instruction and data to processor 501.The a part of of the memory 502 can also include nonvolatile RAM 502 (NVRAM).The memory 502 stores following element, can perform module either data structure or their subset, or their superset：

Operational order：Including various operational orders, for realizing various operations.Operating system：Including various system programs, for realizing various basic businesses and handling hardware based task.The processor 501 is by calling the operational order that memory 502 is stored（The operational order is storable in operating system）, perform following operation：Judge whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero；If the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.Optionally, the receiver 503, the channel configuration information for receiving main website transmission, The information that whether Physical Uplink Control Channel PUCCH channels and PUSCH channels simultaneous transmission are configured in the small district's groups of at least one where the channel configuration information includes the user equipment；The processor 501, is additionally operable to determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiver 503, is additionally operable to receive the first resource configuration information that main website is sent, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI；The processor 501, is additionally operable to according to the first resource configuration information, determines the resource shared by the first UCI of the first PUSCH carryings.Optionally, the receiver 503, is additionally operable to receive the Secondary resource configuration information that main website is sent, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；The processor 501, if being additionally operable to the resource according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried to be less than or less than or equal to the second thresholding, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.Optionally, second thresholding is less than or less than or equal to first thresholding.Optionally, the transmitter 504 is used to send the first UCI being carried on the first PUSCH, and the 2nd UCI being carried on the 2nd PUSCH.Optionally, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI. Optionally, the receiver 503 is additionally operable to receive first thresholding that the main website is sent by signaling.Optionally, the receiver 503 is additionally operable to receive second thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, by judging whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, if the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, that is, the number of resource according to shared by the UCI carried on PUSCH channels, determine the priority of PUSCH channels, the problem of priority of solution carrying UCI PUSCH channels is too high.

Example IV is the embodiments of the invention provide a kind of base station, as shown in fig. 6, the base station 60 includes：Transmitter 601, receiver 602;The transmitter 601, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determines whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The transmitter 601, is additionally operable to send the first thresholding to the user equipment, first thresholding is more than zero；The transmitter 601, it be additionally operable to send first resource configuration information to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of UCI, matches somebody with somebody confidence according to the first resource for the user equipment Breath determines UCI resources shared in the PUSCH, judges whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the PUSCH of UCI priority；The receiver 602, for receiving the UCI being carried in the PUSCH that the user equipment is sent.Optionally, the transmitter 601, it be additionally operable to send Secondary resource configuration information to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, determine that UCI resources shared in the PUSCH are less than or during less than or equal to the second thresholding according to the first resource configuration information for the user equipment, UCI resources shared in the PUSCH are determined according to the Secondary resource configuration information.Optionally, second thresholding is less than or less than or equal to first thresholding.Optionally, the transmitter 601 is additionally operable to send second thresholding to the user equipment by signaling.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment five is the embodiments of the invention provide a kind of user equipment, as shown in fig. 7, the user equipment 70 includes：Processor 701, memory 702, receiver 703, transmitter 704, bus system 705.Wherein, described each component of user equipment 70（Processor 701, memory 702, receiver 703, transmitter 704) it is coupled by bus system 705, wherein bus system 705 can also include power bus, controlling bus and status signal bus in addition etc. in addition to including data/address bus.But for the sake of clear explanation, various buses are all designated as bus system 705 in Fig. 7; The memory 702 can include read-only storage and/or random access memory, and provide instruction and data to processor 701.The a part of of the memory 702 can also include nonvolatile RAM 702 (NVRAM).The memory 702 stores following element, can perform module either data structure or their subset, or their superset：

Operational order：Including various operational orders, for realizing various operations.Operating system：Including various system programs, for realizing various basic businesses and handling hardware based task.The processor 701 is by calling the operational order that memory 702 is stored（The operational order is storable in operating system）, perform following operation：Judge whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero；If the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.Optionally, the receiver 703 is used for the information that whether PUCCH channels and PUSCH channels simultaneous transmission are configured in the channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；The processor 701, is additionally operable to determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiver 703 is additionally operable to receive the resource allocation information that main website is sent, and the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI； The processor 701 is additionally operable to according to the resource allocation information, determines the resource shared by the first UCI of the PUSCH carryings.Optionally, the transmitter 704 is used to send the first UCI being carried on the PUSCH, and the 2nd UCI being carried on the PUCCH.Optionally, the mixed automatic retransfer confirmation H ARQ- ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information C SI, the HARQ-ACK of second community group where 2nd UCI includes the PUCCH channels, and/or CSI.Optionally, the receiver 703 is additionally operable to receive the thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, by judging whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, if the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, namely institute, the number of resource according to shared by the UCI of PUSCH channel carriers, determine the priority of PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment six is the embodiments of the invention provide a kind of base station, as shown in figure 8, the base station 80 includes：Transmitter 801, receiver 802.Wherein, the transmitter 801, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings ascending control information UCI at least one small district's groups where the user equipment; The transmitter 801, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero；The transmitter 801, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, and judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；The receiver 802, for receiving the UCI in the PUSCH that the user equipment is sent.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment seven is the embodiments of the invention provide a kind of user equipment, as shown in figure 9, the user equipment 90 includes：Processor 901, memory 902, receiver 903, transmitter 904, bus system 905.Wherein, described each component of user equipment 90（Processor 901, memory 902, receiver 903, transmitter 904) it is coupled by bus system 905, wherein bus system 905 can also include power bus, controlling bus and status signal bus in addition etc. in addition to including data/address bus.But for the sake of clear explanation, various buses are all designated as bus system 905 in fig .9;

The memory 902 can include read-only storage and/or random access memory, and provide instruction and data to processor 901.The a part of of the memory 902 can also include nonvolatile RAM 902 (NVRAM).The memory 902 stores following element, can perform module either data structure or their subset, or their superset： Operational order：Including various operational orders, for realizing various operations.Operating system：Including various system programs, for realizing various basic businesses and handling hardware based task.The processor 901 is by calling the operational order that memory 902 is stored（The operational order is storable in operating system）, perform following operation：According to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；If the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI.Optionally, the receiver 903 is additionally operable to receive the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；The processor 901 is additionally operable to determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiver 903 is additionally operable to receive the first resource configuration information that the main website is sent.Optionally, the receiver 903 is additionally operable to receive the Secondary resource configuration information that the main website is sent.Optionally, the transmitter 904 is used to send the UCI information in the PUSCH determined according to the Secondary resource configuration information or the first resource configuration information. Optionally, the mixed automatic retransfer confirmation HARQ-ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.Optionally, the receiver 903 is additionally operable to receive the thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, user equipment determines the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings according to first resource configuration information；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding；If the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, that is, the resource shared by the UCI that is carried on PUSCH is determined by using different resource allocation informations, to solve when the resource shared by the UCI of the PUSCH carryings determined according to first resource configuration information is smaller, can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission.

Embodiment eight is the embodiments of the invention provide a kind of base station, as shown in Figure 10, and the base station 100 includes：Transmitter 1001, receiver 1002;Wherein, the transmitter 1001, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, for the user equipment according to the channel configuration information determine in the user equipment where at least one small district's groups in PUCCH channels and PUSCH channels simultaneous transmission whether be configured, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment；The transmitter 1001, it is additionally operable to send first resource configuration information and Secondary resource configuration information to user equipment, for the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried Resource, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；The transmitter 1001, it be additionally operable to send thresholding to the user equipment, judge whether the resource shared by the UCI carried according to the PUSCH of the first resource configuration information or Secondary resource configuration information determination is less than or less than or equal to the thresholding for the user equipment, the thresholding is more than zero；The receiver 1002, for receiving the UCI information of the user equipment in the first resource configuration information or the PUSCH of Secondary resource configuration information determination.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding, first resource with confidence, and Secondary resource configuration information is to user equipment, so that user equipment determines resource shared by the UCI that is carried on PUSCH by using different resource allocation informations, to solve when the resource shared by the UCI of the PUSCH carryings determined according to first resource configuration information is smaller, can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission.

Embodiment nine is the embodiments of the invention provide a kind of user equipment, as shown in Figure 11, and the user equipment 110 includes：Processor 1101, memory 1102, receiver 1103, transmitter 1104, bus system 1105.Wherein, described each component of user equipment 110（Processor 1101, memory 1102, receiver 1103, transmitter 1104) it is coupled by bus system 1105, wherein bus system 1105 can also include power bus, controlling bus and status signal bus in addition etc. in addition to including data/address bus.But for the sake of clear explanation, various buses are all designated as bus system 1105 in Figure 11;The memory 1102 can include read-only storage and/or random access memory, and provide instruction and data to processor 1101.A part for the memory 1102 may be used also With including nonvolatile RAM 1 102 (NVRAM).The memory 1 102 stores following element, can perform module either data structure or their subset, or their superset：

Operational order：Including various operational orders, for realizing various operations.Operating system：Including various system programs, for realizing various basic businesses and handling hardware based task.The receiver 1 103, the channel configuration information for receiving main website transmission, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；The processor 1 101, if for indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.Optionally, the user equipment also includes：Transmitter 1 104, the transmitter is used to send the UCI being carried on the PUCCH and/or PUSCH.Optionally, if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.The embodiments of the invention provide a kind of user equipment, by receiving the channel configuration information that main website is sent, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where at least one described user equipment, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.

Embodiment ten is the embodiments of the invention provide a kind of base station, and as shown in figure 12, the base station includes：Transmitter 1201 and receiver 1202; Wherein, the transmitter 1201, for sending channel configuration information to the user equipment, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.The receiver 1202, for receiving the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.The embodiments of the invention provide a kind of base station, by sending channel configuration information to the user equipment so that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmission of the user equipment in the small district's groups according to where determining at least one described described user equipment the channel configuration information, receive the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.

Embodiment 11 is the embodiments of the invention provide a kind of user equipment, as shown in Figure 13, and the user equipment 130 includes：Judge module 1301, for judging whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；First determining module 1302, if the resource shared by the first UCI carried for the first PUSCH is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of-PUSCH is higher than the priority of the 2nd PUSCH；Wherein, the-thresholding determines to hold with second thresholding for the user equipment The priority of the PUSCH channels of the UCI is carried, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.Optionally, as shown in figure 14, the user equipment also includes：Receiving module 1303, the second determining module 1304.Wherein, the receiving module 1303, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module 1304, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiving module 1303, is additionally operable to receive the resource allocation information that main website is sent, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module 1304, is additionally operable to according to the resource allocation information, determines the resource shared by the first UCI of the first PUSCH carryings.Optionally, the mixed automatic retransfer confirmation HARQ- ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.Optionally, the receiving module 1303 is additionally operable to receive first thresholding that main website is sent by signaling.Optionally, the receiving module 1303 is additionally operable to receive second thresholding that main website is sent by signaling. Optionally, the user equipment 130 also includes：Sending module 1305, the sending module 1305 is additionally operable to be sent in the first UCI of the first PUSCH carryings, and the 2nd UCI carried in the 2nd PUSCH.The embodiments of the invention provide a kind of user equipment, by judging whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determine that the priority of the first PUSCH is higher than the 2nd PUSCH, that is, the number of the resource shared by the UCI that judges to carry on PUSCH channels passed through, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment 12 is the embodiments of the invention provide a kind of base station, as shown in Figure 15, and the base station 150 includes：Sending module 1501, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, the PUSCH channel bearings ascending control information UCI is used at least one small district's groups where determining the user equipment;The sending module 1501, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero；The sending module 1501, is additionally operable to send resource allocation information to the user equipment, it is corresponding for determining that the UCI is accounted for that the resource allocation information includes the UCI The parameter of resource, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module 1502, for receiving the UCI in the PUSCH that the user equipment is sent.It should be noted that the thresholding includes at least one threshold value.Example, when the small district's groups where at least one described described user equipment include：First community group and second community group, and in the user equipment according to the channel configuration information, it is determined that carrying the first UCI using the first PUSCH in the first community group, the 2nd UCI is carried using the 2nd PUSCH in the second community group, so described transmitter, which can send the first thresholding and be used for the user equipment, judges the resource shared by the first UCI that is carried in the first PUSCH channels and the relation of first thresholding, the transmitter, which can send the second thresholding and be used for the user equipment, judges the resource shared by the 2nd UCI that is carried in the 2nd PUSCH channels and the relation of second thresholding, certainly, first thresholding can be with equal with second thresholding, can also be unequal.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, the problem of priority of solution carrying UCI PUSCH channels is too high.

Embodiment 13 is the embodiments of the invention provide a kind of user equipment, and as shown in figure 16, the user equipment 160 includes：Judge module 1601, judge whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero； First determining module 1602, if the resource shared by the first UCI carried for the first PUSCH is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.Optionally, as shown in figure 17, the user equipment 160 also includes：Receiving module 1603, the second determining module 1604;The receiving module 1603, the information that whether Physical Uplink Control Channel PUCCH channels and PUSCH channels simultaneous transmission are configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module 1604, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiving module 1603, is additionally operable to receive the first resource configuration information that main website is sent, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module 1604, for according to the first resource configuration information, determining the resource shared by the first UCI that the first PUSCH is carried.Optionally, the receiving module 1603, is additionally operable to receive the Secondary resource configuration information that main website is sent, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module 1604, if being additionally operable to resource of second determining module 1604 according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried to be less than or during less than or equal to the second thresholding, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined. Optionally, second thresholding is less than or less than or equal to first thresholding.Optionally, the user equipment 160 also includes：Sending module 1605, the sending module 1605 is used to send the first UCI being carried on the first PUSCH, and the 2nd UCI being carried on the 2nd PUSCH.Optionally, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.Optionally, the receiving module 1603 is additionally operable to receive first thresholding that the main website is sent by signaling.Optionally, the receiving module 1603 is additionally operable to receive second thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, by judging whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, if the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, that is, the number of resource according to shared by the UCI carried on PUSCH channels, determine the priority of PUSCH channels, the problem of priority of solution carrying UCI PUSCH channels is too high.

Embodiment 14 is the embodiments of the invention provide a kind of base station, as shown in Figure 18, and the base station 180 includes：Sending module 1801, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, is determined at least one where the user equipment for the user equipment Whether PUCCH channels and PUSCH channels simultaneous transmission in small district's groups are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The sending module 1801, is additionally operable to send the first thresholding to the user equipment, first thresholding is more than zero；The sending module 1801, it be additionally operable to send first resource configuration information to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of UCI, UCI resources shared in the PUSCH are determined according to the first resource configuration information for the user equipment, and judge whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the PUSCH of UCI priority；Receiving module 1802, for receiving the UCI being carried on the PUSCH that the user equipment is sent.Optionally, the sending module 1801, it be additionally operable to send Secondary resource configuration information to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, if being less than for resource of the user equipment according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried or during less than or equal to the second thresholding, UCI resources shared in the PUSCH are determined according to the Secondary resource configuration information.Optionally, second thresholding is less than or less than first thresholding.Optionally, the sending module 1801 is additionally operable to send user equipment described in second thresholding by signaling.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of. Embodiment 15 is the embodiments of the invention provide a kind of user equipment, and as shown in figure 19, the user equipment 190 includes：Judge module 1901, for judging whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero；First determining module 1902, if the resource shared by the first UCI carried for the PUSCH is more than or more than or equal to thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.Optionally, as shown in figure 20, the user equipment 190 also includes：Receiving module 1903, the second determining module 1904;The information that whether PUCCH channels and PUSCH channels simultaneous transmission are configured in the receiving module 1903, the channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module 1904, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiving module 1903, is additionally operable to receive the resource allocation information that main website is sent, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module 1904, is additionally operable to according to the resource allocation information, determines the resource shared by the first UCI of the PUSCH carryings.Optionally, the user equipment 190 also includes：Sending module 1905, the hair Send module 1905 be used for send be carried on the first UCI on the PUSCH, and the 2nd UCI being carried on the PUCCH.Optionally, the mixed automatic retransfer confirmation H ARQ- ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information C SI, the HARQ-ACK of second community group where 2nd UCI includes the PUCCH channels, and/or CSI.Optionally, the receiving module 1903 is additionally operable to receive the thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, by judging whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, if the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, namely institute, the number of resource according to shared by the UCI of PUSCH channel carriers, determine the priority of PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment 16 is the embodiments of the invention provide a kind of base station, as shown in Figure 21, and the base station 210 includes：Sending module 2101, channel configuration information is sent to user equipment for main website, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings ascending control information UCI at least one small district's groups where the user equipment;The sending module 2101, is additionally operable to send thresholding to the user equipment, described Thresholding is more than zero；The sending module 2101, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, and judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module 2102, for receiving the UCI being carried on the PUSCH that the user equipment is sent.The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding and resource allocation information to user equipment, so that user equipment by the resource shared by the UCI that judges to carry on PUSCH channels number, determine the priority of the PUSCH channels, solve solve carrying UCI PUSCH channels priority it is too high the problem of.

Embodiment 17 is the embodiments of the invention provide a kind of user equipment, and as shown in figure 22, the user equipment 220 includes：First determining module 2201, for according to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge module 2202, for judging whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；First determining module 2201, if being additionally operable to the resource shared by the UCI of the PUSCH carryings to be less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI. Optionally, as shown in figure 23, the user equipment also includes：Receiving module 2203, the second determining module 2204;The receiving module 2203, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module 2204, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.Optionally, the receiving module 2203 is additionally operable to receive the first resource configuration information that the main website is sent.Optionally, the receiving module 2203 is additionally operable to receive the Secondary resource configuration information that the main website is sent.Optionally, the user equipment 220 also includes：Sending module 2205, the sending module 2205 is used to send the UCI being carried on the PUSCH.Optionally, the mixed automatic retransfer confirmation HARQ-ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.Optionally, the receiving module 2202 is additionally operable to receive the thresholding that the main website is sent by signaling.The embodiments of the invention provide a kind of user equipment, user equipment determines the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings according to first resource configuration information；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding；If the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, that is, the resource shared by the UCI that is carried on PUSCH is determined by using different resource allocation informations, to solve to work as Can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission when the resource shared by UCI carried according to the PUSCH that first resource configuration information is determined is smaller.

Embodiment 18 is the embodiments of the invention provide a kind of base station, as shown in Figure 24, and the base station 240 includes：Sending module 2401, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, for the user equipment according to the channel configuration information determine in the user equipment where at least one small district's groups in PUCCH channels and PUSCH channels simultaneous transmission whether be configured, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment；The sending module 2401, it be additionally operable to send first resource configuration information and Secondary resource configuration information to user equipment, for resource of the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；The sending module 2401, it be additionally operable to send thresholding to the user equipment, judge whether the resource shared by the UCI carried according to the PUSCH of the first resource configuration information or Secondary resource configuration information determination is less than or less than or equal to the thresholding for the user equipment, the thresholding is more than zero；Receiving module 2402, for receiving the UCI being carried on the PUSCH that the user equipment is sent. The embodiments of the invention provide a kind of base station, by sending channel configuration information, thresholding, first resource with confidence, and Secondary resource configuration information is to user equipment, so that user equipment determines resource shared by the UCI that is carried on PUSCH by using different resource allocation informations, to solve when the resource shared by the UCI of the PUSCH carryings determined according to first resource configuration information is smaller, can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission.

Embodiment 19 is the embodiments of the invention provide a kind of user equipment, as shown in Figure 25, and the user equipment 250 includes：Receiving module 2501, the channel configuration information for receiving main website transmission, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；Determining module 2502, if for indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.Optionally, as shown in figure 26, the user equipment 250 also includes：Sending module 2503, the sending module is with 2503 in being sent in the ascending control information UCI that is carried on the PUCCH and/or PUSCH.Optionally, if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.The embodiments of the invention provide a kind of transmission UCI user equipment, by receiving the channel configuration information that main website is sent, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where at least one described user equipment, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.

Embodiment 20 is the embodiments of the invention provide a kind of base station, as shown in Figure 27, and the base station 270 includes：Sending module 2701, for sending channel configuration information to the user equipment, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receiving module 2702, for receiving the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.The embodiments of the invention provide a kind of base station, by sending channel configuration information to the user equipment, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receive the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.

Embodiment 21 is in DC scenes, when user equipment has multiple up channels to launch, and when carrying UCI PUSCH comprising at least one, in distribution power, may occur the PUSCH channels for carrying UCI priority it is too high the problem of, cause to distribute the PUSCH channels of more power to carrying UCI.There is having its source in for the problem, when carrying UCI and other business datums on PUSCH, because other business datums are transmitted together with UCI, be also imparted with high priority, but in fact, other other business datums should not be obtained such as This high priority.But in the compatible system of LTE or LTE, due to it is up be single carrier transmitting, it is difficult to UCI and other business datums be separated on same PUSCH, the different power distributions of progress.Particularly, in the case that the PUSCH channels at least two carrying UCI that user equipment is launched are to carry out independent scheduling by two base stations, above-mentioned situation is even more serious.Because being non-ideal passback under DC scenes, between base station, it is difficult to carry out the coordination of dynamic dispatching to avoid distributing PUSCH channel of the excessive power to carrying a large number of services data.Example, if UCI 1 is carried on PUSCH 1, PUSCH 1 also carries other information, such as Uplink Shared Channel data, UCI2 is carried on PUSCH2, other information, such as Uplink Shared Channel data are also carried on PUSCH 2, while the resource ratio that the other information carried on the PUSCH 1 takes is far longer than the ratio for the resource that the other information carried on the PUSCH 2 takes.If the PUSCH 1 and the PUSCH 2 have the UCI information of same type, the PUSCH 1 is identical with the priority of PUSCH 2 so in distribution power, when the general power required for the PUSCH 1 and PUSCH 2 is more than the total transmission power of user equipment, the power that equal proportion compresses PUSCH 1 and PUSCH 2 will be carried out, it can so cause the power of PUSCH 2 distribution just less, and substantial amounts of power is used for transmitting the other information on PUSCH 1 so that the receptivity of the UCI on PUSCH 2 declines.For above-mentioned scene, when carrying UCI on PUSCH channels, user equipment according to the resource of the UCI occupancy carried on the PUSCH how much, determine the priority of the PUSCH.Specifically, the embodiments of the invention provide a kind of determination method that channel power distributes priority, as shown in figure 28, methods described includes：

2801st, user equipment judges whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, and whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding.

Wherein, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped. If the 2802, the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the priority of the 2nd PUSCH.

That is, if the resource shared by the first UCI of-PUSCH carryings is more than or more than or equal to the first thresholding, mean that the number that the resource that the first UCI or other information lower than the first UCI priority take may be tied up on the first PUSCH is less, relative, resource shared by 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, mean that the number that the resource that the 2nd UCI or the information lower than the 2nd UCI priority take may be tied up on the 2nd PUSCH is more.The-the thresholding and second thresholding are used to control upstream data and/or other information lower than the UCI priority to tie up the resource of the UCI.Wherein, first UCI includes the mixed automatic retransfer confirmation HARQ-ACK of the first community group where the first PUSCH channels, and/or channel condition information CSI, 2nd UCI includes the HARQ-ACK of the second community group where the 2nd PUSCH channels, and/or CSI.Wherein, HARQ-ACK can only refer to ACK, and ACK and NACK is set up simultaneously without referring to, and the HARQ-ACK descriptions in present specification elsewhere are also similar, repeat no more.

Example, the small district's groups that the first community group is serviced by main website, the small district's groups that the second community group is serviced by slave station, or, the small district's groups that the first community group is serviced by slave station, the small district's groups that the second community group is serviced by main website.

Optionally, the first thresholding user equipment is acquired by signaling, or, first thresholding is pre-set.Optionally, the second thresholding user equipment is acquired by signaling, or, second thresholding is pre-set.

Optionally, first thresholding is more than or more than or equal to second thresholding.Wherein, first thresholding and second thresholding can determine thresholding according to the engineering experience of the network optimization.For example, the parameter estimation algorithm such as least square method.

For the method described in step 2801-2802, it can be replaced：If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, And the resource shared by the 2nd UCI of the 2nd PUSCH carryings is more than or more than or equal to the second thresholding, determines that the priority of the first PUSCH is equal to the priority of the 2nd PUSCH, and more than the priority for the PUSCH for not carrying UCI.

For judging whether the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding in the user equipment described in step 2801, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is more than or more than or equal to the judgment condition in the second thresholding, judge to carry the priority of the PUSCH channels of the UCI for the resource service condition according to the PUSCH channels for carrying the UCI, for the judgment condition described in step 2801, it can be replaced by following any judgment condition, the judgment condition can be：A, the user equipment judge whether the resource shared by the UCI of the PUSCH carryings is more than or more than or equal to thresholding（Judgment condition as in step 101, at this, explanation is only and being compared in following interchangeable b-f）.B, the user equipment judge whether the resource shared by the information lower than UCI priority of the PUSCH carryings is less than or less than or equal to thresholding.

C, the user equipment judge whether resource and the ratio of the PUSCH total resources carried shared by the UCI of the PUSCH carryings are more than or more than thresholding.D, the user equipment judge whether resource and the ratio of the PUSCH total resources carried shared by the information lower than UCI priority of PUSCH carryings are less than or less than or equal to thresholding.

E, the user equipment judge whether the ratio of resource and the resource shared by the information lower than UCI priority shared by the UCI of the PUSCH carryings is more than or more than or equal to thresholding.

F, the user equipment judge whether the ratio of resource and the resource shared by the UCI shared by the information lower than UCI priority of the PUSCH carryings is less than or less than or equal to thresholding.

It should be noted that priority of the thresholding described in above-mentioned a, b, c, d, e, f for the user equipment determination carrying UCI PUSCH channels, a, Thresholding described in b, c, d, e, f may be different, it is also possible to identical；According to the difference of judgment condition, it is necessary to carry out appropriate adjustment to subsequent step, to determine the priority for being used to transmit the PUSCH channels of the UCI.Assuming that it is the resource that the UCI that the PUSCH is carried takes to define X, y is the resource that the information lower than UCI priority that the PUSCH is carried takes, z is total resource, then above-mentioned, b, c, d, e, f judgment condition can be reduced to respectively：- or κ χ x>^ Κ , y y<^ Kn_y ^^ yy≤^ Kn_y^ / Y>Or,^y/ <^ ^ or V^^ ,/^x/y ^{> h}^-or^x/≥ Wherein, thresholding is represented, subscript represents different judgment conditions.Wherein, above-mentioned judgment condition b, d, f make use of the priority of information, the priority of information can be pre-defined, or signaled by main website to the user equipment, for example, the priority that can pre-define the UCI is more than the priority of upstream data, or, main website is by signaling to the user equipment, further to be divided to the UCI priority, the 11 81 ((^ of 5- eight>€(51/^11/1 1>Upstream data（The priority of the HARQ-ACK is higher than the priority of the CQI, and the priority of the CQI is higher than the priority of upstream data）.Example, if the UCI is HARQ-ACK, the information lower than UCI priority includes CQI/PMI/RI and upstream data.

Further, before step 2801, methods described also includes：

2800a, user equipment receives the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment.

Whether 2800b, the PUCCH channels and PUSCH channels simultaneous transmission determined at least one small district's groups where the user equipment are configured.

If 2800c, PUCCH channel and PUSCH channel simultaneous transmissions are not configured, It is determined that using described first at least one small district's groups where the user equipment

- UCI described in PUSCH channel bearings.It should be noted that, for how to determine the method in the 2nd UCI described in the 2nd PUSCH channel bearings, it may be referred to determine the method in the first UCI described in the first PUSCH channel bearings in step 2800a-2800c, that is, for determining in the first UCI described in the first PUSCH channel bearings, and determine to be configured respectively in the 2nd UCI described in the 2nd PUSCH channel bearings；It is of course also possible to determine in the first UCI described in the first PUSCH channel bearings simultaneously, and determine in the 2nd UCI described in the 2nd PUSCH channel bearings.

Further, after the step 2800c, methods described also includes：

2803rd, the resource allocation information that main website is sent is received, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI.

2804th, according to the resource allocation information, the resource shared by the first UCI of the first PUSCH carryings is determined.Wherein, for how to determine the resource shared by the 2nd UCI of the 2nd PUSCH carryings, the method that may be referred to determine the resource shared by the first UCI of the first PUSCH carryings in step 2803-2804, that is, the user equipment needs to receive the corresponding resource allocation informations of the first UCI and the corresponding resource allocation informations of the 2nd UCI that the main website is sent respectively.Certainly, the main website that the user equipment is received, which sends resource allocation information, can include the corresponding parameters of the first UCI, and the corresponding parameters of the 2nd UCI simultaneously.

Wherein, the resource shared by the UCI of the PUSCH carryings can use the modulation symbol after coding（Coded modulation symbols) number be indicated, can also be indicated with the bit number after coding, be certainly not limited to this.Example, the resource shared by the UCI of the PUSCH carryings is determined using resource allocation information, parameter that can be according to the number of bits of the UCI and the UCI of configuration relative to PUSCH, determines the number of the modulation symbol after the coding that the UCI takes.With judgment condition^{x > /}^ or exemplified by, when the first PUSCH only one of which transmission blocks, and the first UCI be HARQ-ACK when, the resource allocation information jPUSCH

Including parameter, the number β of the modulation symbol after the coding that the HARQ-ACK takes can be counted by following formula

PUSCH— initial

Wherein,⁰The number of HARQ- ACK bits is represented, M SC represent that hybrid automatic repeat-request (Hybrid Automatic Repeat Request, abbreviation HARQ) passes ^ IT

PUSCH -initial

In initial transmission PUSCH subcarrier numbers,^bRepresent single-carrier frequency division multiple access (Single-carrier Frequency-Division Multiple Access, abbreviation nPUSCH

SC-FDMA) symbol numbers, P.^etFor for determining the money required for HARQ-ACK

, an offset in Λ PUSCH sources, its value uses corpse equipment by signaling by main website to described,^MSc represents the number of all subcarriers of PUSCH, ^ " it is code block r number of bits, a total of C code block, C is integer.Similar, also there is similar formula to determine the number nPUSCH for the resource that the RI takes for RI

Amount, wherein correspond to the RI is an offset of the resource required for determining the RI, its value is by main website by signaling to the user equipment；Also there is similar formula to determine the quantity for the resource that the CQI/PMI takes for CQI/PMI, nPUSCH also has one to be used for determining the offset that the resource of the CQI/PMI is used, and its value is by main website by signaling to the user equipment.Example, 4 modulation symbols for setting after coding are carried on SC-FDMA symbols by DFT and IFFT, and the UCI is HARQ-ACK：.As shown in figure 29, time shaft is the SC-FDMA symbols of a subframe, and from left to right number consecutively is 0 to 13, and black portions are uplink reference signals（The reference signal is demodulated reference signal,

Demodulation D eferenc e Signal, abbreviation DMRS, are the reference signals that user equipment is sent in PUSCH or PDCCH, the reference signal being demodulated when receiving upstream data/control information for base station）, left oblique line portion is HARQ-ACK, and remaining white portion is upstream data.By Figure 29 it can be seen that a subframe there are two reference signals, there are 12 SC-FDMA that can transmit data symbols.Assuming that a pane shown in Figure 29 has the modulation symbol after 12 codings, then the total number of the modulation symbol after encoding is The number of modulation symbol after the coding that 12*3*12=432, HARQ-ACK takes is 4*12=48.

And example, 4 modulation symbols for setting after coding are carried on SC-FDMA symbols by DFT and IFFT, and the UCI is CQI.As shown in Figure 30, time shaft is the SC-FDMA symbols of a subframe, and from left to right number consecutively is 0 to 13, and black portions are uplink reference signals DMRS, and oblique stroke part is CQI, and remaining white portion is upstream data.By Figure 30 it can be seen that a subframe there are two reference signals, there are 12 SC-OFDM that can transmit data symbols.Assuming that a pane shown in Figure 30 has the modulation symbol after 12 codings, then the total number of modulation symbol after encoding be 12*3*12=432, CQI occupancy coding after the number of modulation symbol be 12*12=144.

And example, if modulation symbols of the only RI after PUSCH channels, coding is carried on SC-FDMA symbols by DFT and IFFT.As shown in figure 31, time shaft is the SC-FDMA symbols of a subframe, and from left to right number consecutively is 0 to 13, and black portions are uplink reference signals DMRS, and right oblique line portion is RI, and remaining white portion is upstream data.By Figure 31 it can be seen that a subframe there are two reference signals, there are 12 SC-OFDM that can transmit data symbols.Assuming that a pane shown in Figure 31 has the modulation symbol after 12 codings, then the total number of modulation symbol after encoding be that the number of the modulation symbol after the coding of 12*3*12=432, RI occupancy is 4*12=48.And example, it is assumed that HARQ-ACK：, the modulation symbol of CQI and RI after PUSCH channels, coding is carried on SC-FDMA symbols by DFT and IFFT.As shown in Figure 32, time shaft is the SC-FDMA symbols of a subframe, from left to right number consecutively is 0 to 13, black portions are uplink reference signals DMRS, left oblique line portion is HARQ-ACK, oblique stroke part is CQI, and right oblique line portion is RI, and remaining white portion is upstream data.By Figure 32 it can be seen that a subframe there are two reference signals, there are 12 SC-OFDM that can transmit data symbols.Assuming that a pane shown in Figure 32 has the modulation symbol after 12 codings, a total of 12*3*12=432 of modulation symbol after then encoding, modulation symbol number after the coding that HARQ-ACK takes is 12*4=48, the number of modulation symbol be that the number of modulation symbol after the coding of 12*12=144, RI occupancy is 4*12=48 after the coding that CQI takes.Assuming that HARQ-ACK>CQI>RI>The number of modulation symbol after J # data, the then coding that the information lower than HARQ-ACK priority takes is 12*3*12-48=384, than RI priority Modulation symbol after the coding that low information takes（That is upstream data）Total number for modulation symbol after coding subtracts HARQ-ACK：, modulation symbol after CQI and coding shared by RI number, then the number of the modulation symbol after the coding that the information lower than RI priority takes is 12*3 * 12- 12*4-4* 12- 12* 12=192.

Further, the priority of above-mentioned determination channel is used for power distribution, the preferential channel distribution power for giving high priority, the remaining power channel distribution power low to priority again；When the priority of multiple channels is identical, more than the maximum transmission power of user equipment during channel distribution power to these multiple equal priorities, then power distribution is carried out to multiple priority identical channels by the way of equal proportion compression.Power distribution without the channel of compression can be determined according to the Poewr control method defined in LTE system protocol specification.In the present embodiment, when first thresholding and second thresholding are more than or during more than or equal to zero, when the priority of the first PUSCH channels is higher than the priority of the 2nd PUSCH channels, user equipment preferentially preferentially carries out power distribution to the first PUSCH, then carries out power distribution to the power of the 2nd PUSCH.Specifically, the resource shared by the first UCI carried due to the first PUSCH is more than or more than or equal to the first thresholding, mean that the number that the resource that the first UCI or other information lower than the first UCI priority take may be tied up on the first PUSCH is less, less transmission power can only be taken, serious influence is not resulted in, so can have relatively higher priority, it should preferential distribution power；Relative, resource shared by 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, mean that the number that the resource that the 2nd UCI or the information lower than the 2nd UCI priority take may be tied up on the 2nd PUSCH is more, more transmission power will be taken, serious influence can be caused, so should have than relatively low priority, it should distribution power later；Upstream data or other control information can be controlled to tie up the influence degree of UCI transmission power by first thresholding and second thresholding.Assuming that cell c0 includes the-PUSCH channels, cell c l include the 2nd PUSCH channels, then preferential distribution power gives the first PUSCH channels, remaining power is allocated by the PUSCH channels of other remaining cells according to equal proportion, now without the transmitting of PUCCH channels, then following formula are met： Σ · Pp_USCH,c ( ― Wherein,_rac(0 is cell_cSubframe i on according to Power Control formula determine user equipment PUSCH channels power, may be referred to the formula of the Power Control of association's specification of LTE system,^PPUSCH it is linear (_lineaR) value,^pW does not include the linear of cell cO（_lineaR) value is the linear of the standby peak power output PCMAX of user（ ii_{ne ar}) value) it is not include cell_cO's

Etc. specific power compressibility factor, and 0≤')≤1 assume that cell cO includes the first PUSCH channels, cell c l include the 2nd PUSCH channels, and when higher than the priority of other PUSCH channels, preferentially distribute the power of the first PUSCH channels and the 2nd PUSCH channels, remaining power is proportionally allocated by other PUSCH channels, now without the transmitting of PUCCH channels, then meets following formula： V )

Wherein, ^/_SCW is cell_cSubframe i on according to Power Control formula determine user equipment PUSCH Channel specifications Power Control formula,^ΡΡ ΗΛ¹、 ^PPUSCHA¹) linear values, A W are the linear values of the peak power output of user equipment, be the ^^W not comprising cell cO and c l etc. specific power compressibility factor, and 0≤4')≤1 or more generally, above-mentioned formula is represented by： Wherein, Ρ_Ρ^ Pp linear values, P represents to carry the mark of the cell corresponding to UCI PUSCH channel prioritys height.If cell cO includes the first PUSCH channels, cell c l include the 2nd PUSCH channels, and the first PUSCH channels and the 2nd PUSCH channels are needed The total power wanted exceedes the maximum transmission power of user equipment, then to described the-

PUSCH and the 2nd PUSCH carries out equal proportion power compression, that is, meets following formula Wherein, PUSCH, co) PpUSCH, co) HxiQSiT values, PUSCH, cA^l ) ¹" PUSCH, cA) linear values, AM^O is the peak power output ^ of user equipment_lineaR values,^W(0 the specific power compressibility factor such as is, and ο≤')≤ι.If up launch channel in also include PUCCH channels, the priority that PUCCH can be defined is higher than PUSCH, PUCCH is determined by the cell in set H, the corresponding PUSCH of cell in set P has secondary high priority, the PUSCH for the secondary high priority that can be determined using the threshold judgement method proposed in the embodiment of the present invention, therefore preferential distribution power is to PUCCH, power is inadequate, level specific pressure contracting then is carried out to the PUSCH of secondary high priority power, that is, meets following formula：

Σ AuCCH (0

Wherein, ^PPU_SCH }) linear values,^PPUCCH people ι,^P _PUCCH linear values, P_PUCCHThe uplink transmission power determined according to Power Control formula of cell c subframe i PUCCH channels, may be referred to the protocol specification of LTE system, is the li of the peak power output ware of user equipment_nearValue) the specific power compressibility factor such as it is, and 0≤_W()≤1, H represents that comprising the cell corresponding to PUCCH channels P represents to carry the mark of the cell corresponding to UCI PUSCH channel prioritys height.Further, if in the case that the PUSCH power for distributing to time high priority is enough, the PUSCH of preferential distribution time high priority carries out equal proportion power compression to remaining other low priorities PUSCH channels, that is, meets following formula：

Σ ^uSCH (0-^CMAX (0 _ Σ ^UCCH (0 _ Σ ^USCH (0 c^P wherein, PPUSCH people¹) ^ PpuscH ¹, linear values,^PPUCCH ^PPUCCH people¹, linear values, P cells c subframe i PUCCH channels according to Power Control formula The uplink transmission power of determination, may be referred to the protocol specification of LTE system, be the li of the peak power output ^ wares of user equipment_nearValue) the specific power compressibility factor such as it is, and 0≤')≤1, H represents that comprising the cell corresponding to PUCCH channels P represents to carry the mark of the cell corresponding to UCI PUSCH channel prioritys height.

Example, assuming that-CQI is transmitted on the first PUSCH, 2nd CQI is transmitted on the 2nd PUSCH, if user equipment judges that the resource shared by the first CQI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd CQI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, it is determined that the priority of the first PUSCH is higher than the 2nd PUSCH.So, in distribution power, power distribution is carried out according to power distribution method described above.Further, it is assumed that the first CQI is transmitted on the first PUSCH, the 2nd CQI is transmitted on the 2nd PUSCH, if user equipment judges not including the first upstream data on the first PUSCH（UL-SCH data）, and comprising the second upstream data on the 2nd PUSCH（UL-SCH data）, it is determined that the priority of the first PUSCH is higher than the 2nd PUSCH.So, in distribution power, power distribution is carried out according to power distribution method described above.

And example, assuming that the first HARQ-ACK is transmitted on the first PUSCH, 2nd HARQ-ACK is transmitted on the 2nd PUSCH, if user equipment judges that the number of resources that information lower than HARQ-ACK priority on the first PUSCH takes is less than or less than or equal to first thresholding, the number of resources that the information lower than HARQ-ACK priority takes on 2nd PUSCH is more than or more than or equal to second thresholding, it is determined that the priority of the first PUSCH is higher than the 2nd PUSCH.So, in distribution power, power distribution is carried out according to power distribution method described above.First thresholding of first thresholding from second thresholding and described in when UCI is CQI and second thresholding described in when UCI is HARQ-ACK can be independent different thresholdings.The embodiments of the invention provide a kind of determination method that channel power distributes priority, by judging whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, the 2nd PUSCH is held Whether the resource shared by the 2nd UCI carried is less than or less than or equal to the second thresholding, if the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determine that the priority of the first PUSCH is higher than the priority of the 2nd PUSCH, that is, the number of the resource shared by the UCI that judges to carry on PUSCH channels passed through, determine the priority of the PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of, and then power distribution is carried out according to the priority of carrying UCI PUSCH channels.

Embodiment 22 is in DC scenes, when user equipment has multiple up channels to launch, and when carrying UCI PUSCH comprising at least one, in distribution power, may occur the PUSCH channels for carrying UCI priority it is too high the problem of, cause to distribute the PUSCH channels of more power to carrying UCI.There is having its source in for the problem, when carrying UCI and other business datums on PUSCH, because other business datums are transmitted together with UCI, high priority has been also imparted with, but in fact, other other business datums should not obtain so high priority.But in the compatible system of LTE or LTE, due to it is up be single carrier transmitting, it is difficult to UCI and other business datums be separated on same PUSCH, the different power distributions of progress.Particularly, in the case that the PUSCH channels at least two carrying UCI that user equipment is launched are to carry out independent scheduling by two base stations, above-mentioned situation is even more serious.Because being non-ideal passback under DC scenes, between base station, it is difficult to carry out the coordination of dynamic dispatching to avoid distributing PUSCH channel of the excessive power to carrying a large number of services data.Example, if UCI is carried on PUSCH 1, and also carries blunt many other information on PUSCH 1, and PUSCH 2 is without UCI.Due to carrying UCI on PUSCH 1, then user equipment is when carrying out power distribution, PUSCH 1 channel of the preferential distribution power to carrying UCI.If the general power that PUSCH 1 and PUSCH 2 needs exceedes the maximum transmission power of user equipment, then substantial amounts of power is preferentially allocated to PUSCH 1, the power 4 that PUSCH 2 is distributed is blunt few, causes the blunt difference of PUSCH2 performances.For above-mentioned scene, when carrying UCI on PUSCH channels, user equipment root How much is the resource taken according to the UCI that is carried on the PUSCH, determines the priority of the PUSCH.Specifically, the embodiments of the invention provide a kind of determination method that channel power distributes priority, as shown in figure 33, methods described includes：

3301st, user equipment judges whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero.Wherein, first thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, first thresholding is pre-set.Example, first thresholding can be determined according to the engineering experience of the network optimization.For example, the parameter estimation algorithm such as least square method.

If the 3302, the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that-the PUSCH is identical with the 2nd PUSCH priority, the transmission time and the transmission time of the 2nd PUSCH of the first PUSCH is least partially overlapped.That is, whether the resource shared by the first UCI of the carrying on the first PUSCH is less than or less than or equal to the first thresholding, mean that the number that the resource that the first UCI or other information lower than the first UCI priority take may be tied up on the first PUSCH is more, first thresholding is used for the ratio for the resource for controlling upstream data and/or other information lower than the UCI priority to tie up the UCI.Wherein, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.Example, the small district's groups that first community group where the first PUSCH channels is serviced by main website, the small district's groups that second community group where 2nd PUSCH channels is serviced by slave station, or, the small district's groups that second community group where the small district's groups that first community group where the first PUSCH channels is serviced by slave station, the 2nd PUSCH channels is serviced by main website. Optionally, in the method described in step 3301-3302, could alternatively be：First UCI is transmitted on the PUSCH, 2nd PUSCH does not carry the 2nd UCI, so described user equipment judges whether the number for the resource that the low information of the UCI priority of ratio the first of the first PUSCH carryings takes is more than or more than or equal to the first thresholding, if the number for the resource that the low information of the first UCI priority described in the ratio of the first PUSCH carryings takes is more than or more than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that-the PUSCH is identical with the 2nd PUSCH priority.Optionally, for the method described in step 3301-3302, Ke Yiwei：User equipment judges whether the resource shared by the first ascending control information U C I of the first Physical Uplink Shared Channel P U S C H carryings is more than or more than or equal to the first thresholding；If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the 2nd PUSCH does not carry the 2nd UCI, determines that the priority of the first PUSCH is more than the priority of the 2nd PUSCH.Further, before step 3301, methods described also includes：

3300a, receives the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment.

Whether 3300b, the PUCCH channels and PUSCH channels simultaneous transmission determined at least one small district's groups where the user equipment are configured.

If 3300c, PUCCH channel and PUSCH channel simultaneous transmissions are not configured, it is determined that using-UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.

Further, after step 3300c, methods described also includes：

3303rd, the first resource configuration information that main website is sent is received, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI.

3304th, according to the first resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined. Wherein, the resource shared by the UCI of the PUSCH carryings can be indicated with the number of the modulation symbol after coding, and the bit number after can also encoding is indicated, and is certainly not limited to this.It should be noted that, first resource configuration information described in the embodiment of the present invention is identical with the resource allocation information described in embodiment one, specifically determine that the resource shared by the first UCI that the first PUSCH is carried may be referred to embodiment 21, will not be repeated here.

Optionally, when resource of the user equipment according to shared by the first resource configuration information determines the first UCI that-PUSCH is carried is less than or less than or equal to the second thresholding, second thresholding is less than or less than or equal to first thresholding, and methods described also includes：

3305th, the Secondary resource configuration information that main website is sent is received, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI.

3306th, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.Wherein, second thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, second thresholding is pre-set.Example, second thresholding can be determined according to the engineering experience of the network optimization.For example, the parameter estimation algorithm such as least square method.Specifically, the reason for introducing the Secondary resource configuration information is：When using first resource configuration information obtain the first PUSCH it is identical with the 2nd PUSCH priority when, user equipment need simultaneously to the first PUSCH and the 2nd PUSCH progress power distribution.If the power needed for the first PUSCH and the 2nd PUSCH exceedes the maximum transmission power of user equipment, therefore need the specific power compression such as to do, PUSCH channels for including UCI, may can not ensure that UCI obtains enough transmission powers.In order to avoid underpower workable for UCI in this case, Secondary resource configuration information is introduced so that UCI occupies more resources, it is ensured that in the case where there is power compression, UCI performance is also relatively good. Example, as shown in figure 34, time shaft is the SC-FDMA symbols of a subframe, from left to right number consecutively is 0 to 13, black portions are uplink reference signals DMRS, left oblique line portion is HARQ-ACK, and remaining white portion is upstream data, such as data of up UL-SCH channels.It can be seen that by comparing Figure 34 and Figure 29, the resource that HARQ-ACK takes in Figure 34 is compared the resource that HARQ-ACK takes in Figure 29 and increased, the Secondary resource configuration information is compared to the first resource configuration information, more resources can be distributed to UCI, so as to UCI transmission.

Further, the priority of above-mentioned determination channel is used for power distribution, the preferential channel distribution power for giving high priority, the remaining power channel distribution power low to priority again；When the priority of multiple channels is identical, more than the maximum transmission power of user equipment during channel distribution power to these multiple equal priorities, then power distribution is carried out to multiple priority identical channels by the way of equal proportion compression.In embodiments of the present invention, the first PUSCH channels are identical with the 2nd PUSCH channel prioritys, then then the preferential distribution power of user equipment carries out equal proportion power compression to the first PUSCH and the 2nd PUSCH to the PUSCH channels of other remaining low priorities.Specifically, resource shared by the first UCI of-PUSCH carryings is less than or less than or equal to the first thresholding, mean that the number for the resource that information or other information lower than the first UCI priority that the first UCI may be tied up on the first PUSCH take is more, more transmission power will be taken, serious influence can be caused, so should have than relatively low priority, it should distribution power later；And the 2nd PUSCH does not carry the 2nd UCI, so described 2nd PUSCH priority is also than relatively low, and then determine that the first PUSCH is identical with the 2nd PUSCH priority, so as to prevent the upstream data power of the first PUSCH from having tied up the power of the upstream data of the 2nd PUSCH.If up launch channel in also include PUCCH channels, the priority that PUCCH can be defined is higher than PUSCH, PUCCH is determined by the cell in set H, the corresponding PUSCH of cell in PUSCH in set P has secondary high priority, therefore preferential distribution power is to PUCCH, reallocate PUSCH of the power to time high priority, when power is inadequate Level specific pressure contracting then is carried out to the PUSCH of secondary high priority power, that is, meets following formula

Σ) (0≤((0 wherein, PPUSCH by 0-Σ υ θ Ο Η^p _Pu_SLinear values,^ppucc_H }、 Linear values, are the ii of the peak power output ware of user equipment_nearValue, etc. specific power compressibility factor, and 0≤')≤1, H represents that comprising the cell corresponding to PUCCH channels P represents to carry the mark of the cell corresponding to UCI PUSCH channels.Further, if in the case that the PUSCH power for distributing to time high priority is enough, the PUSCH of preferential distribution time high priority carries out equal proportion power compression to remaining other low priorities PUSCH channels（Such as the first PUSCH and the 2nd PUSCH in the present embodiment), then meeting following formula：

, ( , , ,

Σ ^ uSCH (0-^CMA (0 _ Σ ^PUCCH (0 _ Σ ^PUSCH (0 wherein, ^PPU_SCH }) linear values,^PPUCCH ^P _PUCCH linear values, ^ O are the ii of the peak power output ^ wares of user equipment_nearValue, the specific power compressibility factor such as is, and^0≤W('')^≤1, H represents that comprising the cell corresponding to PUCCH channels P represents to carry the mark of the cell corresponding to UCI PUSCH channel prioritys height.Embodiments of the invention provide a kind of determination method that channel power distributes priority, by judging whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, if the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, that is, the number of resource according to shared by the UCI carried on PUSCH channels, determine the priority of PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of, and then power distribution is carried out according to the priority of carrying UCI PUSCH channels. Embodiment 23 is under DC scenes, when user equipment has multiple up channels to launch, and when carrying UCI PUSCH comprising at least one, in distribution power, may occur the PUSCH channels for carrying UCI priority it is too high the problem of, cause to distribute the PUSCH channels of more power to carrying UCI.There is having its source in for the problem, when carrying UCI and other business datums on PUSCH, because other business datums are transmitted together with UCI, high priority has been also imparted with, but in fact, other other business datums should not obtain so high priority.But in the compatible system of LTE or LTE, due to it is up be single carrier transmitting, it is difficult to UCI and other business datums be separated on same PUSCH, the different power distributions of progress.Particularly, in the case that the PUSCH channels at least two carrying UCI that user equipment is launched are to carry out independent scheduling by two base stations, above-mentioned situation is even more serious.Because being non-ideal passback under DC scenes, between base station, it is difficult to carry out the coordination of dynamic dispatching to avoid distributing PUSCH channel of the excessive power to carrying a large number of services data.Example, by taking the ACK in UCI as an example, if UCI 1 is carried on PUSCH by UE, and upstream data is also carried on PUSCH（Or other information）, UCI2 is carried on PUCCH, and PUCCH and does not carry upstream data（Or other information）, because PUSCH and PUCCH carries UCI, then PUSCH and PUCCH possess identical priority.But, upstream data is also carried on PUSCH（Or other information）, with more Physical Resource Block（Physical Resource Block, abbreviation PRB) need to send, it is therefore desirable to more transmission powers.If the transmission power sum that PUSCH and PUCCH needs exceedes UE maximum transmission power, need to carry out equal proportion reduction transmission power（Power Scaling), to avoid PUSCH and PUCCH transmission power sum more than UE maximum transmission power.Because the transmission power required for PUSCH is more, so after equal proportion reduction transmission power, PUSCH still occupies most of power, so that carrying UCI2 PUCCH transmission power can not just be guaranteed, so as to influence UCI2 transmission performance.There is the upstream data having its source on PUSCH of the problem（Or other information）Due to being transmitted together with UCI, high priority, but in fact, upstream data have been also imparted with（Or other information）So high priority should not be obtained. For above-mentioned scene, when carrying UCI on PUSCH channels, user equipment according to the resource of the UCI occupancy carried on the PUSCH how much, determine the priority of the PUSCH.Specifically, the embodiments of the invention provide a kind of determination method that channel power distributes priority, as shown in figure 35, methods described includes：

3501st, user equipment judges whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero.Optionally, the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.Example, the thresholding can be determined according to the engineering experience of the network optimization.For example, the parameter estimation algorithm such as least square method.

If the 3502, the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to the thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.Wherein, first UCI includes the mixed automatic retransfer confirmation HARQ-ACK of small district's groups where the PUSCH channels, and/or channel condition information CSI, the 2nd UCI include the HARQ-ACK of small district's groups where the PUCCH channels, and/or CSI.

Wherein, the small district's groups that station is serviced based on small district's groups where carrying the PUSCH channels of the first UCI, the small district's groups that small district's groups where carrying the PUCCH channels of the 2nd UCI are serviced by slave station, or, the small district's groups that small district's groups where carrying the PUSCH channels of the first UCI are serviced by slave station, the small district's groups that station is serviced based on small district's groups where carrying the PUCCH channels of the 2nd UCI.Optionally, for the method described in step 3501-3502, it can be replaced：If the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to the thresholding, and the 2nd PUSCH does not carry UCI, determines that the first UCI of carrying PUSCH priority is more than the priority of the 2nd PUSCH.Further, before step 3501, methods described also includes：

3500a, receives the channel configuration information that main website is sent, the channel configuration information bag The information that whether PUCCH and PUSCH channels simultaneous transmission is configured in the small district's groups of at least one where including the user equipment.

Whether 3500b, the PUCCH channels and PUSCH channels simultaneous transmission determined at least one small district's groups where the user equipment are configured.

If 3500c, PUCCH channel and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.Further, methods described also includes：

3503rd, the resource allocation information that main website is sent is received, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of the first UCI.

3504th, according to the resource allocation information, the resource shared by the first UCI of the PUSCH carryings is determined.Wherein, the resource shared by the UCI of the PUSCH carryings can use the modulation symbol after coding（Coded modulation symbols) number be indicated, the bit number after can also encoding is indicated, and is certainly not limited to this.It should be noted that, first resource configuration information described in the embodiment of the present invention is identical with the resource allocation information described in embodiment one, specifically determine that the resource shared by the first UCI that the first PUSCH is carried may be referred to embodiment 21, will not be repeated here.

Further, the priority of above-mentioned determination channel is used for power distribution, the preferential channel distribution power for giving high priority, the remaining power channel distribution power low to priority again；When the priority of multiple channels is identical, more than the maximum transmission power of user equipment during channel distribution power to these multiple equal priorities, then power distribution is carried out to multiple priority identical channels by the way of equal proportion compression.In embodiments of the present invention, the PUSCH channels are identical with the priority of the PUCCH channels, then the preferential distribution power of user equipment is to the PUSCH channels and the PUCCH channels, then to ratios such as the PUSCH channels progress of other remaining low priorities Example power compression.Specifically, if the resource shared by the-UCI of the carrying on the PUSCH is more than or more than or equal to thresholding, mean that the data that the resource shared by the information or other information lower than the first UCI priority of the first UCI may be tied up on PUSCH are less, less transmission power can only be taken, serious influence is not resulted in, so can have relatively higher priority, it should preferential distribution power.And the PUCCH is used for transmitting the 2nd UCI, thereon also without upstream data, its priority is also that comparison is high, therefore the PUSCH and PUCCH has identical priority, or all it is higher than the priority of other channels, it thereby may be ensured that the first UCI in the PUSCH can obtain enough transmission powers.It is identical with the priority that cell c l include the PUSCH channels including the PUCCH channels that an ancient weapon made of bamboo sets cell c0, or all it is higher than the priority of other channels, then preferentially distribute the power of the PUCCH channels and the PUSCH channels, remaining power is allocated by the PUSCH channels of other remaining cells according to equal proportion, then meets following formula： V)

In, ^PUccH.co y) ^ PpuccH, cO V>^ lines life (linear M straight) ^ PpuscH, d V) linear (linear) value, be linear (linear) value of the peak power output ^ wares of user equipment,^w(' ') be do not include cell c 1 other cells etc. specific power compressibility factor, and 0≤/)≤1 further, if total power that the PUSCH channels need with the PUCCH channels exceedes the maximum transmission power of user equipment, equal proportion power compression then is carried out to the first PUSCH channels and the PUCCH channels, following formula need to be met：

^( · PpUCCH,cO ('·) + ^WI }) PpUSCH, cl (0≤4 wherein, co) PpUCCH, co) HxiQ SiT values, c (0

Linear values, Α Μ ^ Ο are the peak power output ^ of user equipment_lineaR values, the specific power compressibility factor such as are, and ο≤)≤ι Embodiments of the invention provide a kind of determination method that channel power distributes priority, by judging whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, if the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, namely institute, the number of resource according to shared by the UCI of PUSCH channel bearings, determine the priority of PUSCH channels, solve carrying UCI PUSCH channels priority it is too high the problem of, and then power distribution is carried out according to the priority of carrying UCI PUSCH channels.

Embodiment 24 is the embodiments of the invention provide a kind of launching technique of carrying UCI channels, and as shown in Figure 36, methods described includes：

3601st, user equipment is according to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI.

Wherein, the first resource configuration information user equipment receives the main website transmission and obtained.First resource configuration information described in the embodiment of the present invention is identical with the resource allocation information described in embodiment one, specifically determines that the resource shared by the first UCI that the first PUSCH is carried may be referred to embodiment 21, will not be repeated here.

3602nd, judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero.Wherein, the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.Example, the thresholding can be determined according to the engineering experience of the network optimization.For example, the parameter estimation algorithm such as least square method.

If the 3603, the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes described UCI pairs The second parameter for being used to determine the resource that the UCI takes answered.Wherein, the Secondary resource configuration information user equipment receives the main website transmission and obtained.Further, the user equipment transmitting carrying UCI PUSCH.Further, before step 3601, methods described also includes：

3600a, receives the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment.

Whether 3600b, the PUCCH channels and PUSCH channels simultaneous transmission determined at least one small district's groups where the user equipment are configured.

If 3600c, PUCCH channel and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.That is, user equipment receives the first resource configuration information and the Secondary resource configuration information that main website is sent, resource first according to shared by the first resource configuration information determines the UCI that the PUSCH is carried, and judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, if the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, UCI resources shared in the PUSCH is distributed according to the Secondary resource configuration information.The reason for introducing the Secondary resource configuration information is when the resource shared by the UCI of PUSCH carryings is smaller, more power are distributed for the UCI, so that UCI occupies more resources, it is ensured that in the case where there is underpower, UCI performance is also relatively good.Embodiments of the invention provide a kind of launching technique of carrying UCI channels, and user equipment determines the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings according to first resource configuration information；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding；If the resource shared by the UCI of PUSCH carrying is less than or less than or equal to the thresholding, the resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, also It is to say, the resource shared by the UCI that is carried on PUSCH is determined by using different resource allocation informations, to solve when the resource shared by the UCI of the PUSCH carryings determined according to first resource configuration information is smaller, can be that UCI distributes more resources according to Secondary resource configuration information, to ensure UCI transmission.

Embodiment 25 is the embodiments of the invention provide a kind of launching technique of carrying UCI channels, and as shown in Figure 37, methods described includes：

3701st, main website sends channel configuration information to user equipment, and accordingly, the user equipment receives the channel configuration information that the main website is sent.Wherein, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology.

If the 3702, the main website indicates that the user equipment uses doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.Wherein, if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.Optionally, after step 3702, methods described also includes：

3703rd, user equipment is sent in the UCI carried on the PUCCH and/or PUSCH to the main website, and accordingly, the main website receives the UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.If first carrier group is main website carrier wave set, when second carrier wave set is slave station carrier wave set, pass through the method described in step 3701 and step 3702, " whether using doubly-linked connection technology " and " being configured with simultaneous transmission PUCCH and PUSCH channel " are connected, if using doubly-linked connection technology, in any carrier wave set of main website carrier wave set and slave station carrier wave set PUCCH and PUSCH simultaneous transmissions are also configured, so ensure that the ascending control information in any one carrier wave set is always transmitted on PUCCH, or transmitted on PUCCH and PUSCH, so as to occur the problem of PUCCH and PUSCH has equal priority, and then it ensure that the transimission power and transmission performance of the UCI in main website and slave station.Using the above method, actually pressure UCI-be scheduled on PUCCH and transmit, or transmitted on PUCCH and PUSCH, so require user equipment that in each ability with simultaneous transmission PUCCH and PUSCH in carrier wave set, there is higher requirement to the up emissivities of user equipment.

In the present embodiment, because PUCCH priority is higher than PUSCH priority, therefore user equipment, in distribution power, preferential distribution power gives PUCCH channels, and power of then reallocating gives PUSCH channels.The embodiments of the invention provide a kind of launching technique of carrying UCI channels, channel configuration information is sent to user equipment by main website, accordingly, the user equipment receives the channel configuration information that the main website is sent；If the main website indicates that the user equipment uses doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment, to ensure UCI in PUCCH channels, or transmitted on PUCCH and PUSCH, avoid PUCCH and PUSCH that there is identical issue of priority, to ensure UCI transmission.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be realized by another way.For example, device embodiment described above is only schematical, for example, the division of the unit, it is only a kind of division of logic function, there can be other dividing mode when actually realizing, such as multiple units or component can combine or be desirably integrated into another system, or some features can be ignored, or do not perform.Another, it, by some interfaces, the INDIRECT COUPLING or communication connection of device or unit, can be electrical, machinery or other forms that shown or discussed coupling or direct-coupling or communication connection each other, which can be,.The unit illustrated as separating component can be or may not be physically separate, and the part shown as unit can be or may not be physical location, i.e., A place can be located at, or can also be distributed on multiple NEs.Some or all of unit therein can be selected to realize the purpose of this embodiment scheme according to the actual needs.In addition, each functional unit in each of the invention embodiment can be integrated in a processing unit or the independent physics of unit includes, can also two or more units it is integrated in a unit.Above-mentioned integrated unit can both be realized in the form of hardware, it would however also be possible to employ hardware adds the form of SFU software functional unit to realize.

The above-mentioned integrated unit realized in the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are to cause a computer equipment（Can be personal computer, server, or network equipment etc.）Perform the part steps of each embodiment methods described of the invention.And foregoing storage medium includes：U disks, mobile hard disk, read-only storage (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), magnetic disc or CD etc. are various can be with the medium of store program codes.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although the present invention is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that：It can still modify to the technical scheme described in foregoing embodiments, or carry out equivalent substitution to which part technical characteristic；And these modifications or replacement, the essence of appropriate technical solution is departed from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (52)

1. Claims

   1st, a kind of user equipment, it is characterised in that including：Judge module, for judging whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；First determining module, if the resource shared by the first UCI carried for the first PUSCH is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the priority of the 2nd PUSCH；Wherein, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, first thresholding is all higher than zero with second thresholding, and the transmission time of the first PUSCH and the transmission time of the 2nd PUSCH are least partially overlapped.

   2nd, user equipment according to claim 1, it is characterised in that the user equipment also includes：Receiving module, the second determining module；The receiving module, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.

   3rd, user equipment according to claim 2, it is characterized in that, the receiving module, is additionally operable to receive the resource allocation information that main website is sent, it is corresponding for determining the first U C I occupancy that the resource allocation information includes the first U C I The parameter of resource；Second determining module, for according to the resource allocation information, determining described

   Resource shared by first UCI of-PUSCH carryings.

   4th, the user equipment according to any one of claim 1-3, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.

   5th, the user equipment according to any one of claim 1-4, it is characterised in that the receiving module is additionally operable to receive first thresholding that main website is sent by signaling.

   6th, the user equipment according to any one of claim 1-5, it is characterised in that the receiving module is additionally operable to receive second thresholding that main website is sent by signaling.

   7th, a kind of base station, it is characterised in that including：Sending module, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, the PUSCH channel bearings ascending control information UCI is used at least one small district's groups where determining the user equipment;The sending module, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero；The sending module, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying is described The priority of the UCI PUSCH channels；Receiving module, for receiving the UCI being carried in the PUSCH that the user equipment is sent.

   8th, a kind of user equipment, it is characterised in that including：Judge module, judge whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel P U S C H carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero；First determining module, if the resource shared by the first UCI carried for the first PUSCH is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time of-PUSCH and the 2nd PUSCH transmission time are least partially overlapped.

   9th, user equipment according to claim 8, it is characterised in that the user equipment also includes：Receiving module, the second determining module；The receiving module, the information that whether Physical Uplink Control Channel PUCCH channels and PUSCH channels simultaneous transmission are configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.

   10th, user equipment according to claim 9, it is characterized in that, the receiving module, it is additionally operable to receive the first resource configuration information that main website is sent, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI； Second determining module, is additionally operable to according to the first resource configuration information, determines the resource shared by the first UCI of the first PUSCH carryings.

   11, user equipment according to claim 10, it is characterized in that, the receiving module, it is additionally operable to receive the Secondary resource configuration information that the main website is sent, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；Second determining module, if being additionally operable to resource of second determining module according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried to be less than or during less than or equal to the second thresholding, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.

   12nd, the user equipment according to any one of claim 8- 11, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.

   13rd, the user equipment according to any one of claim 8- 12, it is characterised in that the receiving module is additionally operable to receive first thresholding that the main website is sent by signaling.

   14th, the user equipment according to any one of claim 11-13, it is characterised in that the receiving module is additionally operable to receive second thresholding that the main website is sent by signaling.

   15th, a kind of base station, it is characterised in that including：Sending module, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, determines whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment; The sending module, is additionally operable to send the first thresholding to the user equipment, first thresholding is more than zero；The sending module, it be additionally operable to send first resource configuration information to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of UCI, UCI resources shared in the PUSCH are determined according to the first resource configuration information for the user equipment, judge whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.

   16, base station according to claim 15, it is characterized in that, the sending module, it be additionally operable to send Secondary resource configuration information to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, if determining that UCI resources shared in the PUSCH are less than or during less than or equal to the second thresholding according to the first resource configuration information for the user equipment, UCI resources shared in the PUSCH are determined according to the Secondary resource configuration information.

   17th, the base station according to claim 15 or 16, it is characterised in that the transmitter is additionally operable to send second thresholding to the user equipment by signaling.

   18th, a kind of user equipment, it is characterised in that including：Judge module, for judging whether the resource shared by the first ascending control information U C I of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero；First determining module, if the resource shared by the first UCI carried for the PUSCH is more than or more than or equal to the thresholding, it is described and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determines that the PUSCH is identical with the priority of the PUCCH PUSCH transmission time and the transmission time of the PUCCH are least partially overlapped.

   19th, user equipment according to claim 18, it is characterised in that the user equipment also includes：Receiving module, the second determining module；The information that whether PUCCH channels and PUSCH channels simultaneous transmission are configured in the receiving module, the channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.

   20th, user equipment according to claim 19, it is characterized in that, the receiving module, is additionally operable to receive the resource allocation information that main website is sent, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first U C I take of the first U C I；Second determining module, is additionally operable to according to the resource allocation information, determines the resource shared by the first UCI of the PUSCH carryings.

   21st, the user equipment according to claim any one of 18-20, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the PUCCH channels, and/or CSI.

   22nd, the user equipment according to claim any one of 18-21, it is characterised in that the receiving module is additionally operable to receive the thresholding that the main website is sent by signaling.

   23rd, a kind of base station, it is characterised in that including：Sending module, sends channel configuration information to user equipment, physical uplink is controlled in the small district's groups of at least one where the channel configuration information includes the user equipment for main website The information whether channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured, determine whether PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured for the user equipment, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings ascending control information UCI at least one small district's groups where the user equipment;The sending module, is additionally operable to send thresholding to the user equipment, the thresholding is more than zero；The sending module, it be additionally operable to send resource allocation information to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.

   24th, a kind of user equipment, it is characterised in that including：First determining module, for according to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge module, for judging whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；First determining module, if being additionally operable to the resource shared by the UCI of the PUSCH carryings to be less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI.

   25th, user equipment according to claim 24, it is characterised in that the user Equipment also includes：Receiving module, the second determining module；The receiving module, the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in channel configuration information for receiving main website transmission, the small district's groups of at least one where the channel configuration information includes the user equipment；Whether second determining module, PUCCH channels and PUSCH channels simultaneous transmission for determining at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.

   26th, the user equipment according to claim 24 or 25, it is characterised in that the receiving module is additionally operable to receive the first resource configuration information that the main website is sent.

   27th, the user equipment according to claim any one of 24-26, it is characterised in that the receiving module is additionally operable to receive the Secondary resource configuration information that the main website is sent.

   28th, the user equipment according to claim any one of 24-27, it is characterised in that the mixed automatic retransfer confirmation HARQ-ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.

   29th, the user equipment according to claim any one of 24-28, it is characterised in that the receiving module is additionally operable to receive the thresholding that the main website is sent by signaling.

   30th, a kind of base station, it is characterised in that including：Sending module, for sending channel configuration information to user equipment, the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the channel configuration information includes the user equipment, for the user equipment according to the channel configuration information determine in the user equipment where at least one small district's groups in PUCCH channels and PUSCH channels simultaneous transmission whether be configured, if PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The sending module, is additionally operable to send first resource configuration information and Secondary resource configuration Information is to user equipment, for resource of the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；The sending module, it be additionally operable to send thresholding to the user equipment, judge whether the resource shared by the UCI carried according to the PUSCH of the first resource configuration information or Secondary resource configuration information determination is less than or less than or equal to the thresholding for the user equipment, the thresholding is more than zero；Receiving module, for receiving the UCI being carried on the PUSCH that the user equipment is sent.

   31, a kind of user equipment, it is characterised in that including：Receiving module, the channel configuration information for receiving main website transmission, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；Determining module, if for indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.

   32nd, the user equipment according to claim 31, it is characterised in that the user equipment also includes：Sending module, the sending module is used to be sent in the ascending control information UCI carried on the PUCCH and/or PUSCH.

   33rd, the user equipment according to claim 31 or 32, it is characterised in that if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.

   34th, a kind of base station, it is characterised in that including：Sending module, for sending channel configuration information to the user equipment, the channel Configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receiving module, for receiving the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.

   35th, a kind of channel power distributes the determination method of priority, it is characterised in that including：User equipment judges whether the resource shared by the first ascending control information UCI of the first ascending physical signal shared channel PUSCH carryings is more than or more than or equal to the first thresholding, and whether the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding；If the resource shared by the first UCI of the first PUSCH carryings is more than or more than or equal to the first thresholding, and the resource shared by the 2nd UCI of the 2nd PUSCH carryings is less than or less than or equal to the second thresholding, determines that the priority of the first PUSCH is higher than the 2nd PUSCH priority；Wherein, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels with second thresholding, and first thresholding is all higher than zero with second thresholding.

   36th, method according to claim 35, it is characterised in that the user equipment judge the first PUSCH carrying the first UCI shared by resource whether be more than or more than or equal to the first thresholding before, methods described also includes：User equipment receives the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that being held at least one small district's groups where the user equipment using the first PUSCH channels Carry the first UCI.

   37th, method according to claim 36, it is characterised in that the determination uses the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment, methods described also includes：The resource allocation information that main website is sent is received, the resource allocation information includes the corresponding parameters for being used to determine the resource that the first UCI takes of-UCI；According to the resource allocation information, the resource shared by the first UCI of the first PUSCH carryings is determined.

   38th, the method according to claim any one of 35-37, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.

   39th, the method according to claim any one of 35-38, it is characterised in that first thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, first thresholding is pre-set.

   40th, the method according to claim any one of 35-39, it is characterised in that second thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, second thresholding is pre-set.

   41st, a kind of channel power distributes the determination method of priority, it is characterised in that including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the PUSCH channel bearings upload control at least one small district's groups where the user equipment Information UCI;Thresholding is sent to the user equipment, the thresholding is more than zero；Resource allocation information is sent to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether the resource shared by the UCI carried in the PUSCH channels is more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI；Receive the UCI being carried in the PUSCH that the user equipment is sent.

   42nd, a kind of channel power distributes the determination method of priority, it is characterised in that including：User equipment judges whether the resource shared by the first ascending control information UCI of the first Physical Uplink Shared Channel PUSCH carryings is less than or less than or equal to the first thresholding, first thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and first thresholding is more than zero；If the resource shared by the first UCI of the first PUSCH carryings is less than or less than or equal to the first thresholding, and the 2nd PUSCH do not carry the 2nd UCI, determine that the first PUSCH is identical with the 2nd PUSCH priority, the transmission time and the transmission time of the 2nd PUSCH of the first PUSCH is least partially overlapped.

   43rd, method according to claim 42, it is characterised in that the user equipment judge the first PUSCH carrying the first UCI shared by resource whether be less than or less than or equal to the first thresholding before, methods described also includes：Receive the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured； If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment.

   44th, method according to claim 43, it is characterised in that the determination uses the first UCI described in the first PUSCH channel bearings at least one small district's groups where the user equipment, methods described also includes：The first resource configuration information that main website is sent is received, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the first UCI takes of the first UCI；According to the first resource configuration information, the resource shared by the-UCI of the first PUSCH carryings is determined.

   45th, method according to claim 44, it is characterised in that methods described also includes：The Secondary resource configuration information that main website is sent is received, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the first UCI takes of the first UCI；If resource of the user equipment according to shared by the first resource configuration information determines the first UCI that the first PUSCH is carried is less than or less than or equal to the second thresholding, according to the Secondary resource configuration information, the resource shared by the first UCI of the first PUSCH carryings is determined.

   46th, the method according to claim any one of 42-45, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the first PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the 2nd PUSCH channels, and/or CSI.

   47th, the method according to claim any one of 42-46, it is characterised in that first thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, First thresholding is pre-set.

   48th, the method according to claim any one of 42-47, it is characterised in that second thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, second thresholding is pre-set.

   49th, a kind of channel power distributes the determination method of priority, it is characterised in that including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;The first thresholding is sent to the user equipment, the-thresholding is more than zero；First resource configuration information is sent to the user equipment, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, U C I resources shared in the PUSCH are determined according to the first resource configuration information for the user equipment, judge whether UCI resources shared in the PUSCH are less than or less than or equal to first thresholding, it is determined that carrying the PUSCH of UCI priority；Receive the UCI being carried on the PUSCH that the user equipment is sent.

   50th, method according to claim 49, it is characterised in that methods described also includes：Secondary resource configuration information is sent to the user equipment, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI, determine that U C I resources shared in the PUSCH are less than or during less than or equal to the second thresholding according to the first resource configuration information for the user equipment, according to described second Resource allocation information determines UCI resources shared in the PUSCH.

   51st, the method according to claim 49 or 50, it is characterised in that second thresholding is that the main website is sent to the user equipment by signaling.

   52nd, a kind of channel power distributes the determination method of priority, it is characterised in that including：User equipment judges whether the resource shared by the first ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is more than or more than or equal to thresholding, the thresholding is used for the priority that the user equipment determines the carrying UCI PUSCH channels, and the thresholding is more than zero；If the resource shared by the first UCI of the PUSCH carryings is more than or more than or equal to the thresholding, and Physical Uplink Control Channel PUCCH carries the 2nd UCI, determine that the PUSCH is identical with the priority of the PUCCH, the transmission time of the PUSCH and the PUCCH transmission time are least partially overlapped.

   53rd, method according to claim 52, it is characterised in that the user equipment judge PUSCH carrying the first UCI shared by resource whether be more than or more than or equal to thresholding before, methods described also includes：Receive the information that whether PUCCH and PUSCH channels simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.

   54th, method according to claim 53, it is characterised in that the determination uses the first UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment, methods described also includes： The resource allocation information that main website is sent is received, the resource allocation information includes described the

   The corresponding parameters for being used to determine the resource that the first UCI takes of-UCI；According to the resource allocation information, the resource shared by the first UCI of the PUSCH carryings is determined.

   55th, the method according to claim any one of 52-54, it is characterized in that, the mixed automatic retransfer confirmation HARQ-ACK of first community group where first UCI includes the PUSCH channels, and/or channel condition information CSI, the HARQ-ACK of second community group where 2nd UCI includes the PUCCH channels, and/or CSI.

   56th, the method according to claim any one of 52-55, it is characterised in that the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.

   57th, a kind of channel power distributes the determination method of priority, it is characterised in that including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes where the user equipment that Physical Uplink Control Channel PUCCH and physics upload the information whether shared channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;Thresholding is sent to the user equipment, the thresholding is more than zero；Resource allocation information is sent to the user equipment, the resource allocation information includes the corresponding parameters for being used to determine the resource that the UCI takes of the UCI, UCI resources shared in the PUSCH are determined according to the resource allocation information for the user equipment, judge whether UCI resources shared in the PUSCH are more than or more than or equal to the thresholding, it is determined that carrying the priority of the PUSCH channels of the UCI； Receive the UCI being carried on the PUSCH that the user equipment is sent.

   58th, a kind of launching technique of carrying UCI channels, it is characterised in that including：User equipment is according to first resource configuration information, the resource shared by the ascending control information UCI of Physical Uplink Shared Channel PUSCH carryings is determined, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI；Judge whether the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to thresholding, the thresholding is more than zero；If the resource shared by the UCI of the PUSCH carryings is less than or less than or equal to the thresholding, resource according to shared by Secondary resource configuration information determines the UCI that is carried in the PUSCH, the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI.

   59th, method according to claim 58, it is characterized in that, the user equipment is determined before the resource shared by the ascending control information UCI of Physical Uplink Shared Channel P U S C H carryings, methods described also includes according to first resource configuration information：Receive the information that whether Physical Uplink Control Channel PUCCH and PUSCH channel simultaneous transmission is configured in the channel configuration information that main website is sent, the small district's groups of at least one where the channel configuration information includes the user equipment；It is determined that whether the PUCCH channels and PUSCH channels simultaneous transmission at least one small district's groups where the user equipment are configured；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using UCI described in the PUSCH channel bearings at least one small district's groups where the user equipment.

   60th, the method according to claim 58 or 59, it is characterised in that the first resource configuration information user equipment receives the main website transmission and obtained.

   61st, the method according to claim any one of 58-60, it is characterised in that institute The Secondary resource configuration information user equipment reception main website transmission is stated to obtain.

   62nd, the method according to claim any one of 58-61, it is characterised in that the mixed automatic retransfer confirmation HARQ-ACK of the UCI small district's groups where the PUSCH channels, and/or channel condition information CSI.

   63rd, the method according to claim any one of 58-62, it is characterised in that the thresholding is that the signaling that the user equipment reception main website is sent is obtained, or, the thresholding is pre-set.

   64th, a kind of launching technique of carrying UCI channels, it is characterised in that including：Main website sends channel configuration information to user equipment, whether the channel configuration information includes the information that whether Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions are configured in the small district's groups of at least one where the user equipment, be configured for PUCCH channel of the user equipment at least one small district's groups according to where determining in the user equipment channel configuration information and PUSCH channels simultaneous transmission；If PUCCH channels and PUSCH channel simultaneous transmissions are not configured, it is determined that using PUSCH channel bearing ascending control informations UCI at least one small district's groups where the user equipment;First resource configuration information and Secondary resource configuration information are sent to user equipment, for resource of the user equipment according to shared by the first resource configuration information or the Secondary resource configuration information determine the UCI that the PUSCH is carried, the first resource configuration information includes corresponding the first parameters for being used to determine the resource that the UCI takes of the UCI, and the Secondary resource configuration information includes corresponding the second parameters for being used to determine the resource that the UCI takes of the UCI；Thresholding is sent to the user equipment, judge whether the resource shared by the UCI carried according to the PUSCH of the first resource configuration information or Secondary resource configuration information determination is less than or less than or equal to the thresholding for the user equipment, the thresholding is more than zero；Receive the UCI being carried on the PUSCH that the user equipment is sent. 65th, a kind of launching technique of carrying UCI channels, it is characterised in that including:User equipment receives the channel configuration information that main website is sent, and the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology；If indicating to use doubly-linked connection technology, it is determined that Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment.

   66th, method according to claim 65, it is characterized in that, after Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions of the determination in the small district's groups where at least one described described user equipment, methods described also includes：It is sent in the ascending control information carried on the PUCCH and/or PUSCH

   UCI。

   67th, the method according to claim 64 or 65, it is characterised in that if the small district's groups where at least one described described user equipment include：First community group and second community group；The first community group is main website cell group, and the second community group is the small district's groups of slave station.

   68th, a kind of launching technique of carrying UCI channels, it is characterised in that including：Main website sends channel configuration information to the user equipment, the channel configuration information is used to indicate whether the user equipment uses doubly-linked connection technology, if indicating to use doubly-linked connection technology, the user equipment determines Physical Uplink Control Channel PUCCH and Physical Uplink Shared Channel PUSCH simultaneous transmissions in the small district's groups where the user equipment；Receive the ascending control information UCI carried on the PUCCH and/or the PUSCH that the user equipment is sent.