Methods, user equipment and base station for transmitting uplink control information

专利摘要:
The present invention discloses a method includes: sorting uplink control information UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of a user equipment; calculating the number of modulation symbols occupied by UCI of the user equipment according to a first carrier set; calculating the number of bits after channel coding of UCI of the user equipment according to the number of modulation symbols occupied by UCI of the user equipment; and performing channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, mapping the channel coded UCI of the X downlink carrier(s) to a physical channel, and transmitting the mapped UCI of the X downlink carrier(s) .
公开号:EP3681064A1
申请号:EP19205515.0
申请日:2011-04-06
公开日:2020-07-15
发明作者:Yan Cheng；Yongxia Lv；Xiaobo Chen
申请人:Huawei Technologies Co Ltd；
IPC主号:H04W72-00

专利说明:
[0001] This application claims priority to Chinese Patent Application No. 201010146531.3 , filed with the Chinese Patent Office on April 7, 2010 and entitled "METHOD, SYSTEM, USER EQUIPMENT AND BASE STATION FOR TRANSMITTING UPLINK CONTROL INFORMATION", which is incorporated herein by reference in its entirety. FIELD OF THE INVENTION
[0002] The present invention relates to the field of communications technologies, and in particular, to a method, a system, a user equipment and a base station for transmitting uplink control information. BACKGROUND OF THE INVENTION
[0003] The LTE-A (Long Term Evolution-Advanced, long term evolution-advanced) is a further evolved and enhanced system based on a 3GPP LTE (3rd Generation Partnership Project Long Term Evolution, 3rd generation partnership project long term evolution) system. In the LTE-A system, a CA (Carrier Aggregation, carrier aggregation) technology is introduced, which is also referred to as a frequency spectrum aggregation technology or bandwidth expansion technology. In a carrier aggregation scenario, frequency spectrums of two or more CCs (Component Carriers, component carriers) are aggregated to obtain larger transmission bandwidth.
[0004] When performing decoding, an eNB (Evolved NodeB, base station) needs to learn the total number of bits of the original information of UCI (Uplink Control Information, uplink control information) joint channel coding adopted by a UE, that is, to ensure that the eNB and UE have consistent understanding on the total number of bits of the original information of UCI joint coding of multiple downlink carriers, so as to perform correct decoding. However, the existing method for transmitting UCI causes that the eNB decodes the jointly coded UCI incorrectly. SUMMARY OF THE INVENTION
[0005] Embodiments of the present invention provide a method, a system, a user equipment and a base station for transmitting uplink control information, so as to avoid a problem that the eNB decodes the jointly coded UCI incorrectly.
[0006] In an aspect, a method for transmitting uplink control information is provided, including: sorting, by a user equipment, uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; calculating, by the user equipment, the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; calculating, by the user equipment, the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by the UCI of the user equipment; and performing, by the user equipment, the channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits generated by channel coding the UCI of the user equipment, mapping the channel coded UCI of the X downlink carrier(s) to a physical channel and transmitting the mapped UCI of the X downlink carrier(s) to a base station.
[0007] In an aspect, a method for transmitting uplink control information is provided, including: sorting, by a user equipment, uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and performing, by the user equipment, channel coding for the sorted UCI according to the number of bits generated by channel coding the UCI of the user equipment, mapping the channel coded UCI of the X downlink carrier(s) to a physical channel and transmitting the mapped UCI of the X downlink carrier(s) to a base station.
[0008] In an aspect, a method for transmitting uplink control information is provided, where the method includes: calculating the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; extracting transmitted UCI by the user equipment according to the number of modulation symbols occupied by the UCI, and calculating the number of bits generated by channel coding corresponding to the transmitted UCI; and performing channel decoding on the transmitted UCI according to the number of bits generated by channel coding corresponding to the transmitted UCI, and determining the transmitted UCI corresponding to each downlink carrier according to a preset sorting rule.
[0009] In an aspect, a user equipment is provided, including: a first uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols, configured to calculate the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding, configured to: after the first module for acquiring the number of modulation symbols obtains the number of modulation symbols occupied by the UCI of the user equipment, calculate the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by the UCI of the user equipment; a first coding and transmission module, configured to: after the first module for acquiring the number of bits after channel coding obtains the number of bits generated by channel coding the UCI of the user equipment, perform the channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits generated by channel coding the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to a base station.
[0010] In an aspect, a user equipment is provided, including: a second uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module, configured to: after the second uplink control information processing module sorts UCI of the X downlink carrier(s), perform channel coding for the UCI of the X downlink carrier(s) according to the preset number of bits generated by channel coding the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to a base station.
[0011] In an aspect, a base station is provided, including: a first module for acquiring the number of UCI modulation symbols, configured to calculate the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding, configured to: after the first module for acquiring the number of UCI modulation symbols obtains the number of modulation symbols occupied by UCI, extract UCI transmitted by the user equipment according to the number of modulation symbols occupied by the UCI, and calculate the number of bits generated by channel coding corresponding to the transmitted UCI; and a first UCI determination module, configured to: after the first module for acquiring the number of bits generated by UCI channel coding obtains the number of bits after channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits generated by channel coding corresponding to the transmitted UCI, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0012] In an aspect, a system for transmitting uplink control information is provided, including: a user equipment and a base station, wherethe user equipment comprises: a first uplink control information processing module, configured to sort UCI of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols, configured to calculate the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding, configured to: after the first module for acquiring the number of modulation symbols obtains the number of modulation symbols occupied by the UCI of the user equipment, calculate the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by theUCI of the user equipment; and a first coding and transmission module, configured to: after the first module for acquiring the number of bits after channel coding obtains the number of bitsgenerated by channel coding the UCI of the user equipment, perform channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to the base station; the base station comprises: a first module for acquiring the number of UCI modulation symbols, configured to calculate the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, the maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding, configured to: after the first module for acquiring the number of UCI modulation symbols obtains the number of modulation symbols occupied by the UCI, extract transmitted UCI by the user equipment according to the number of modulation symbols occupied by the UCI, and calculate the number of bits generated by channel coding corresponding to the transmitted UCI; and a first UCI determination module, configured to: after the first module for acquiring the number of bits generated by UCI channel coding obtains the number of bits after channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits after channel coding corresponding to the transmitted UCI, and determine the transmitted UCI corresponding to each downlink carrier according to a preset sorting rule.
[0013] A system for transmitting uplink control information, where the system includes: a user equipment and a base station, wherethe user equipment comprises: a second uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module, configured to: after the second uplink control information processing module sorts the UCI in the X downlink carrier(s), perform channel coding for the sorted UCI of the X downlink carrier(s) according to the preset number of bits after channel coding of UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to the base station; the base station comprises:a second UCI determination module, configured to perform detection on transmitted UCI by the user equipment according to the preset number of bits generated by channel coding corresponding to the UCI, and determine the UCI corresponding to each downlink carrier according to a preset sorting rule.
[0014] The user equipment performs channel coding on UCI of the user equipment according to the acquired number of bits after channel coding of UCI of the user equipment, and transmits UCI to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier. BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 is a flow chart of a method for transmitting uplink control information according to an embodiment of the present invention; FIG. 2 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 3 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 4 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 5 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 6 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 7 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 8 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 9 is a flow chart of another method for transmitting uplink control information according to an embodiment of the present invention; FIG. 10 is a schematic structural diagram of a user equipment according to an embodiment of the present invention; FIG. 11 is a schematic structural diagram of another user equipment according to an embodiment of the present invention; FIG. 12 is a schematic structural diagram of another base station according to an embodiment of the present invention; FIG. 13 is a schematic structural diagram of another base station according to an embodiment of the present invention; FIG. 14 is a schematic structural diagram of a system for transmitting uplink control information according to an embodiment of the present invention; and FIG. 15 is a schematic structural diagram of another system for transmitting uplink control information according to an embodiment of the present invention.DETAILED DESCRIPTION OF THE EMBODIMENTS
[0016] For better understanding of the objectives, technical solutions, and advantages of the present invention, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings.
[0017] In a carrier aggregation scenario, an eNB configures or reconfigures a schedulable carrier set, for example, a UE DL CC set (User Equipment Downlink Component Carrier Set, user equipment downlink component carrier set), for an LTE-A user equipment through semi-static RRC (Radio Resource Control, radio resource control) signaling. Meanwhile, in order to save power, a carrier activation (namely, turning on)/deactivation (namely, turning off) mechanism is introduced based on the semi-statically configured UE DL CC set. Except a downlink main carrier, other component carrier(s) may be activated or deactivated according to service requirements. If a current service rate of a UE (User Equipment, user equipment) increases, the eNB may activate one or several carriers that are not activated in the UE DL CC set to perform data transmission. If the current service rate of the UE decreases, the eNB may deactivate one or several carriers that are already activated except the main downlink carrier in the UE DL CC set. Activation/deactivation is completed through MAC (Medium Access Control, medium access control) layer signaling. Each piece of MAC layer carrier activation command/deactivation command may activate or deactivate one or more carriers except the main carrier in the UE DL CC set. After delivering the MAC layer signaling, the eNB may learn whether the activation command/deactivation command is transmitted successfully through ACK/NACK feedback. For the deactivation command, an implicit deactivation mechanism is further introduced for optimization, that is, an implicit deactivation timer is introduced. The timer is started at a certain reception, and if the timer times out, a corresponding carrier is deactivated.
[0018] Meanwhile, in an LTE-A system, in order to support technologies, such as dynamic scheduling, downlink MIMO (Multiple Input Multiple Output, multiple input multiple output) transmission and hybrid automatic retransmission, the UE needs to transmit UCI of a downlink carrier to the eNB through a PUCCH (Physical Uplink Control Channel, physical uplink control channel) and/or PUSCH (Physical Uplink Share Channel, physical uplink share channel), and the UE needs to transmit UCI of multiple downlink carriers to the eNB in the carrier aggregation scenario. In the LTE-A system, UCI that the UE needs to transmit usually includes CSI (Channel State Information, channel state information) and HARQ (Hybrid Automatic Repeat request, hybrid automatic repeat request) acknowledgment information (ACK (Acknowledgment, acknowledgment)/NACK (Negative Acknowledgement, negative acknowledgment)). CSI usually includes implicit channel state information, such as CQI (Channel Quality Information, channel quality information), RI (Rank Indication, rank indication), PMI (Precoding Matrix Indicator, precoding matrix indicator), and direct channel state information, such as a channel matrix or a channel covariance matrix.
[0019] Currently, in the carrier aggregation scenario, when ACK/NACK or CSI of multiple downlink carriers is transmitted on one PUCCH or one PUSCH, usually, the UE needs to perform joint channel coding on the ACK/NACK or CSI of the multiple downlink carriers. The eNB performs decoding according to the channel coding method adopted by the UE.
[0020] When performing decoding, the eNB needs to know the total number of original information bits of UCI (Uplink Control Information, uplink control information) joint channel coding adopted by a UE, that is, to ensure that the eNB and the UE have consistent understanding on the total number of original information bits of UCI joint coding of multiple downlink carriers, so as to perform correct decoding. However, the existing method for transmitting UCI causes that the eNB decodes the jointly coded UCI incorrectly.
[0021] Referring to FIG. 1, an embodiment of the present invention provides a method for transmitting uplink control information, which includes the following.
[0022] 101: A user equipment sorts uplink control information UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment at least includes two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment.
[0023] 102: The user equipment calculates, according to a first carrier set, the number of modulation symbols occupied by UCI of the user equipment, where the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment.
[0024] 103: The user equipment calculates the number of bits after channel coding of UCI of the user equipment according to the number of modulation symbols occupied by UCI of the user equipment.
[0025] 104: The user equipment performs channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, maps the s channel coded UCI of the X downlink carrier(s) to a physical channel and transmits the mapped UCI of the X downlink carrier(s) to a base station.
[0026] Further, when UCI of the user equipment is hybrid automatic repeat request HARQ acknowledgment information, the X downlink carrier(s) are all downlink carriers in the downlink activated carrier set.
[0027] Further, when UCI of the user equipment is channel state information CSI, the X downlink carrier(s) are determined according to CSI configuration configured by higher layers and whether aperiodic CSI is reported, and the X downlink carrier(s) belong to the downlink activated carrier set of the user equipment.
[0028] Further, the preset sorting rule includes one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers; performing sorting according to a decreasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers; performing sorting according to an activation sequence of the downlink carriers.
[0029] Further, when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to the increasing or decreasing order of the attributes of the downlink carriers.
[0030] Further, an attribute of a downlink carrier is a carrier index or a carrier frequency.
[0031] Further, when UCI of the user equipment is the channel state information CSI, the calculating, by the user equipment according to the first carrier set, the number of modulation symbols occupied by UCI of the user equipment is specifically:calculating, by the user equipment, the number of modulation symbols occupied by CSI of the user equipment, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0032] In the method for transmitting uplink control information according to the embodiment of the present invention, the user equipment performs channel coding on UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, and transmits UCI of the X downlink carrier(s) to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0033] Referring to FIG. 2, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0034] 201: A user equipment sorts uplink control information UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment.
[0035] 202: The user equipment performs channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, maps the channel coded UCI of the X downlink carrier(s) to a physical channel and transmits the mapped UCI of the X downlink carrier(s) to a base station.
[0036] Further, when UCI of the user equipment is hybrid automatic repeat request HARQ acknowledgment information, the X downlink carrier(s) are all downlink carriers in the downlink activated carrier set.
[0037] Further, the preset sorting rule is: performing sorting according to an activation sequence of the downlink carriers.
[0038] Further, when UCI of the X downlink carrier(s) and a scheduling request SR are reported on the same subframe, the preset sorting rule is: performing sorting according to a sequence of arranging the SR first, and then arranging UCI of each downlink carrier in the X downlink carrier(s) after the SR based on the activation sequence of the downlink carriers.
[0039] Further, when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to attributes of the downlink carriers.
[0040] Further, an attribute of a downlink carrier is a carrier index or a carrier frequency.
[0041] In the method for transmitting uplink control information according to the embodiment of the present invention, the user equipment performs channel coding on UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, and transmits UCI of the X downlink carrier(s) to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0042] Referring to FIG. 3, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0043] 301: Calculate the number of modulation symbols occupied by uplink control information UCI according to a first carrier set, where the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment at least includes two downlink component carriers.
[0044] 302: According to the number of modulation symbols occupied by UCI, extract UCI transmitted by the user equipment, and calculate the number of bits after channel coding corresponding to the transmitted UCI.
[0045] 303: Perform channel decoding on the transmitted UCI according to the number of bits after channel coding corresponding to the transmitted UCI, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0046] Further, when UCI of the user equipment is channel state information CSI, the calculating the number of modulation symbols occupied by UCI according to the first carrier set is specifically:calculating the number of modulation symbols occupied by CSI, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0047] Further, the preset sorting rule includes one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers;performing sorting according to a decreasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers;performing sorting according to an activation sequence of the downlink carriers.
[0048] Further, when the preset sorting rule is performing sorting according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink activated at the same time is sorted according to the increasing order or decreasing order of the attributes of the downlink carriers.
[0049] Further, an attribute of a downlink carrier is a carrier index or a carrier frequency.
[0050] In the method for transmitting uplink control information according to the embodiment of the present invention, a base station obtains, according to the first carrier set, the number of modulation symbols occupied by UCI, extracts, according to the number of modulation symbols occupied by UCI, UCI transmitted by the user equipment, and obtains the number of bits after channel coding corresponding to the transmitted UCI, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the base station and the user equipment on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the base station may determine UCI corresponding to each downlink carrier according to the preset sorting rule.
[0051] An embodiment of the present invention provides another method for transmitting uplink control information, which includes:according to the preset number of bits after channel coding corresponding to uplink control information UCI, performing detection on UCI transmitted by a user equipment, and according to a preset sorting rule, determining UCI corresponding to each downlink carrier.
[0052] Further, the preset sorting rule is performing sorting according to an activation sequence of downlink carriers; if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to an increasing or a decreasing order of attributes of the downlink carriers.
[0053] Further, when UCI of the user equipment and a scheduling request SR are reported on the same subframe, the determining UCI corresponding to each downlink carrier according to the preset sorting rule is specifically:determining the SR and UCI corresponding to each downlink carrier according to a sequence of arranging the SR first, and then arranging UCI of the X downlink carrier(s) after the SR based on an activation sequence of the downlink carriers, where X is a positive integer.
[0054] In the method for transmitting uplink control information according to the embodiment of the present invention, a base station performs detection on UCI transmitted by the user equipment according to the preset number of bits after channel coding corresponding to the uplink control information UCI, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the base station and the user equipment on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the base station may determine UCI corresponding to each downlink carrier according to the preset sorting rule.
[0055] For better understanding of the embodiment of the present invention, the method of the embodiment of the present invention being applied in a carrier aggregation scenario, where ACK/NACK of one or more downlink carriers is transmitted on a PUSCH, is taken as an example for further illustration.
[0056] Referring to FIG. 4, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0057] 401: A UE sorts ACK/NACK of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the UE, the downlink component carrier set of the user equipment at least includes two downlink component carriers, at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment, and the X downlink carrier(s) herein are all downlink carriers of a downlink carrier set of the UE.
[0058] The preset sorting rule may be performing sorting according to an activation sequence of the downlink carriers. Moreover, when multiple downlink carriers are activated at the same time, ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to attributes of the downlink carriers corresponding to ACK/NACK of the downlink carriers. An attribute of a downlink carrier may be a carrier index (Carrier Index/Carrier Identity) or a carrier frequency of the downlink carrier. Specifically, the ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to an increasing or a decreasing order of attributes of the downlink carriers.
[0059] Specifically, for each downlink carrier in the X downlink carriers, if the ACK/NACK is required to be fed back, and the ACK/NACK supports spatial bundling (spatial bundling), each downlink carrier corresponds to 1-bit ACK or NACK; if the ACK/NACK is required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit ACK or NACK. If the ACK/NACK is not required to be fed back, and the ACK/NACK supports spatial bundling, each downlink carrier corresponds to 1-bit NACK; if the ACK/NACK is not required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit NACK. The requiring the ACK/NACK to be fed back refers to that information of requiring the ACK/NACK to be fed back, such as data or PDCCH (Physical Downlink Control Channel, physical downlink control channel) signaling that indicates release of downlink SPS (Semi-Persistent Scheduling, semi-persistent scheduling) resources, is detected on the carrier.
[0060] The UE determines original information of the ACK/NACK of each downlink carrier in the X downlink carrier(s) according to the foregoing method, so that the total number of original information bits O^ACK in the X downlink carrier(s) is: O^ACK = X or O^ACK = 2X. X corresponds to a scenario where the ACK/NACK supports spatial bundling, and 2X corresponds to a scenario where the ACK/NACK does not support spatial bundling.
[0061] 402: The UE calculates the number of modulation symbols (coded symbols or modulation symbols) occupied by ACK/NACK of the UE, according to a first carrier set (CC set).
[0062] The first carrier set may be a downlink component carrier set of the user equipment (User Equipment Downlink Component Carrier Set), a maximum downlink carrier set supportable by the UE, or a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the UE. Specifically, the number of modulation symbols occupied by the ACK/NACK of the user equipment is calculated according to the first carrier set and by utilizing Formula (1).Qʹ = min ⌈ O ⋅ M sc PUSCH − initial ⋅ N symb PUSCH − initial ⋅ N layer ⋅ β offset PUSCH∑ r = 0 C − 1 K r ⌉ , 4 ⋅ M sc PUSCH
[0063] 403: The UE calculates the number of bits after channel coding of the ACK/NACK of the UE according to the number of modulation symbols occupied by the ACK/NACK of the UE.
[0064] Specifically, the number of bits after channel coding of the ACK/NACK of the UE is calculated according to the number of modulation symbols Q' occupied by the ACK/NACK of the UE obtained in step 402 and by utilizing Formula (2).Q = Q m ⋅ Qʹ
[0065] 404: The UE performs channel coding for the sorted ACK/NACK of the X downlink carrier(s) according to the number of bits after channel coding of the ACK/NACK of the UE, multiplexes the channel coded ACK/NACK of the X downlink carrier(s) on a PUSCH with data, and transmits the multiplexed ACK/NACK to an eNB.
[0066] For example, if the original information of the sorted ACK/NACK of the X downlink carrier(s) obtained in step 401 has 3 bits, and the number of bits after channel coding of the ACK/NACK of the UE obtained in step 403 is 20 bits, then in this step, when channel coding is performed on the sorted ACK/NACK of the X downlink carrier(s), the 3-bit ACK/NACK should be coded to be 20-bit. In addition, exemplarily, RM (Reed-Muller) coding is adopted in this embodiment of the present invention, and in actual applications, any other feasible channel coding manner may be adopted according to specific conditions, which is not specifically defined.
[0067] 405: The eNB calculates the number of modulation symbols occupied by the ACK/NACK, according to the first carrier set.
[0068] The first carrier set in this step is consistent with the first carrier set in step 402. If the first carrier set in step 402 is a downlink component carrier set of a user, the first carrier set in this step is also the downlink component carrier set of the user. The method for the eNB to calculate the number of modulation symbols occupied by the ACK/NACK according to the first carrier set is the same as that in step 402, which is not detailed herein again.
[0069] 406: According to the number of modulation symbols occupied by the ACK/NACK, the eNB extracts ACK/NACK transmitted by the UE, and calculates the number of bits after channel coding corresponding to the ACK/NACK transmitted by the UE.
[0070] Because the eNB adopts the same manner as that of the UE to obtain the number of bits after channel coding corresponding to the ACK/NACK transmitted by the UE, the number of bits after channel coding that is corresponding to the ACK/NACK transmitted by the UE and is obtained by the eNB is consistent with the number of bits after channel coding of the ACK/NACK of the UE obtained by the UE.
[0071] 407: The eNB performs channel decoding on the transmitted ACK/NACK according to the number of bits after channel coding corresponding to the ACK/NACK transmitted by the UE, and determines ACK/NACK corresponding to each downlink carrier according to a preset sorting rule.
[0072] Specifically, the channel decoding may be performed on the transmitted ACK/NACK by adopting a decoding method corresponding to the channel coding adopted in step 404; alternatively, the decoding may be performed by adopting any other feasible manner, which is not specifically defined. Moreover, the preset sorting rule in this step is consistent with the preset sorting rule in step 401. If the preset sorting rule in step 401 is sorting the ACK/NACK of multiple downlink carriers according to the activation sequence of the downlink carriers, the preset sorting rule in this step is also determining ACK/NACK corresponding to each downlink carrier according to the activation sequence of the downlink carriers.
[0073] It should be noted that, in this embodiment, when the eNB needs to deactivate downlink carriers, the eNB deactivates a downlink carrier included in a downlink activated carrier set according to a sequence that a carrier activated later is deactivated earlier (for example, when the ACK/NACK of the X downlink carrier(s) is sorted according to a sequence of arranging a downlink carrier activated earlier in the front, and arranging a downlink carrier activated later in the back, the eNB starts deactivation from the last downlink carrier in the downlink activated carrier set). Then, the UE repeats steps 401 to 404 to transmit the ACK/NACK of the X downlink carrier(s) according to the updated downlink activated carrier set.
[0074] It should be noted that, when ACK/NACK of the X downlink carrier(s) is sorted according to the sequence of arranging the downlink carrier activated earlier in the front, and arranging the downlink carrier activated later in the back, the ACK/NACK of a latest activated downlink carrier is arranged in the last place. The latest activated downlink carrier during a fuzzy period is usually NACK, and according to the characteristic of RM coding, the NACK arranged in the last place does not contribute to the coded bits of ACK/NACK. Therefore, even if the eNB performs decoding assuming that the number of HARQ-ACK bits transmitted by the UE is more or less than the number of HARQ-ACK bits that actually needs to be transmitted by the UE, correctness of the ACK/NACK that actually needs to be transmitted can still be ensured. For example, the downlink activated carrier set has three downlink carriers, where the last downlink carrier is a latest activated downlink carrier, and each downlink carrier supports ACK/NACK spatial bundling. Then, the total number of bits of the ACK/NACK jointly coded according to RM coding is 3. It is assumed that the first two downlink carriers both need to transmit ACK, and the last downlink carrier transmits NACK because it is just activated and has no scheduling data. Then, three bits transmitted on the PUSCH are 110, and according to the characteristic of RM coding, the bits of 110 after coding are consistent with the bits of 11 after coding. Therefore, even if the eNB does not learn that the UE has successfully detected an activation command of a downlink carrier 3 and has updated the total number of bits of the jointly coded ACK/NACK, and still decodes the transmitted ACK/NACK according to 2 bits, it is still ensured that the first 2 bits are decoded correctly.
[0075] In the method for transmitting uplink control information according to the embodiment of the present invention, the UE performs channel coding on the ACK/NACK of the X downlink carrier(s) according to the obtained number of bits after channel coding of the ACK/NACK of the UE, and transmits the ACK/NACK of the X downlink carrier(s) to the eNB, thereby solving the problem that the eNB decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers. Moreover, the UE sorts the ACK/NACK of the multiple downlink carriers according to the preset sorting rule, so that the eNB may determine ACK/NACK corresponding to each downlink carrier. The UE sorts the ACK/NACK of each carrier according to an activation sequence of the downlink carriers, and the eNB deactivates a downlink carrier included in the downlink activated carrier set according to a sequence that the carrier activated later is deactivated earlier, so as to ensure that even if the eNB and the UE have inconsistent understanding on the total number of information bits of the jointly coded ACK/NACK, the ACK/NACK that truly needs to be transmitted is decoded correctly, thereby solving the problem that the eNB decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of the ACK/NACK joint coding of multiple downlink carriers. By use of the characteristic of the RM coding, the UE sorts the ACK/NACK of the X downlink carrier(s) according to a sequence of arranging the downlink carrier activated earlier in the front and arranging the downlink carrier activated later in the back, and always starts carrier deactivation from the last one in the activated carrier set, so as to ensure that even if the eNB and UE have inconsistent understanding on the total number of information bits of the jointly coded ACK/NACK, the ACK/NACK that truly needs to be transmitted is decoded correctly, thereby solving the problem that the base station decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers. The UE calculates the number of modulation symbols occupied by the ACK/NACK of the UE according to the first carrier set, so that physical resources occupied by the ACK/NACK on the PUSCH do not change along with the downlink activated carrier set, thereby ensuring that data multiplexed with the ACK/NACK on the PUSCH is decoded correctly, and reducing the influence on data transmission performance, which, moreover, is equivalent to allocating more physical resources to the ACK/NACK to be transmitted and improving transmission performance of ACK/NACK.
[0076] For better understanding of the embodiment of the present invention, the method of the embodiment of the present invention being applied in a carrier aggregation scenario, where CSI of one or more downlink carriers is transmitted on a PUSCH, is taken as an example for further illustration.
[0077] Referring to FIG. 5, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following steps.
[0078] 501: A UE sorts CSI of each carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) exemplarily belong to a downlink activated carrier set of a UE, the X downlink carrier(s) may be determined according to the downlink activated carrier set of the UE, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0079] The preset sorting rule may be performing sorting according to an activation sequence of downlink carriers, and when multiple downlink carriers are activated at the same time, CSI of the multiple downlink carriers activated at the same time may be sorted according to attributes of the downlink carriers. An attribute of a downlink carrier may be a carrier index or a carrier frequency. Specifically, CSI of the multiple downlink carriers activated at the same time may be sorted according to an increasing or a decreasing order of attributes of the downlink carriers. Alternatively, the preset sorting rule may be performing sorting according to an increasing or a decreasing order of attributes of downlink carriers corresponding to CSI, and an attribute of a downlink carrier may be a carrier index or a carrier frequency of the downlink carrier.
[0080] Specifically, the UE may determine original information of CSI of the X downlink carrier(s) in the downlink carrier set according to the downlink activated carrier set. Or, exemplarily, the UE may further determine whether CSI of each downlink carrier needs to be reported, according to the downlink activated carrier set, CSI configuration configured by higher layers and whether aperiodic CSI needs to be reported. If CSI needs to be reported, a corresponding reporting mode is further determined, thereby determining original information of CSI of the X downlink carrier(s) in the downlink carrier set and specific downlink carriers. For example, it is assumed that an updated downlink activated carrier set includes three downlink carriers, namely, CC1, CC2, and CC3 (it is assumed that CC3 is a latest activated downlink carrier). According to CSI configuration configured by higher layers, at this time, the CC1 and CC3 need to report CSI, and according to their respective upper-layer parameter configuration, the CC1 needs to report O 1 CSI
[0081] 502: The UE calculates the number of modulation symbols occupied by CSI of the UE according to a first carrier set.
[0082] The first carrier set may be a downlink component carrier set of a user, a maximum downlink carrier set supportable by the UE, or a smaller one of the downlink component carrier set of the user and the maximum downlink carrier set supportable by the UE. Specifically, the UE may calculate the number of modulation symbols occupied by CSI of the UE, according to the first carrier set. Or, exemplarily, the UE may calculate the number of modulation symbols occupied by CSI of the UE, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI needs to be reported, and by utilizing Formula (3).Qʹ = min ⌈O + L ⋅ M sc PUSCH − initial ⋅ N symb PUSCH − initial ⋅ N layer ⋅ β offset PUSCH ∑ r = 0 C − 1 K r ⌉ , M sc PUSCH ⋅ N symb PUSCH ⋅ N layer −Q RI Q m
[0083] 503: The UE calculates the number of bits after channel coding of CSI of the UE according to the number of modulation symbols occupied by CSI of the UE.
[0084] Specifically, the number of bits after channel coding of CSI of the UE is calculated according to the number of modulation symbols Q' occupied by CSI of the UE obtained in step 502 and by utilizing Formula (4).Q = Q m ⋅ Qʹ
[0085] 504: The UE performs channel coding for the sorted CSI of the X downlink carrier(s) according to the number of bits after channel coding of CSI of the UE, multiplexes the channel coded CSI of the X downlink carrier(s) and data on the PUSCH, and transmits the multiplexed to an eNB.
[0086] Specifically, exemplarily, in the embodiment of the present invention, if the number O^CSI of original information bits of CSI of the X downlink carrier(s) is smaller than or equal to 11 bits, RM coding is adopted, and if greater than 11 bits, convolutional coding is adopted. Any other feasible coding method may be set according to actual application conditions, which is not specifically defined.
[0087] 505: The eNB calculates the number of modulation symbols occupied by CSI, according to a first carrier set.
[0088] The first carrier set in this step is consistent with the first carrier set in step 502. If the first carrier set in step 502 is the downlink component carrier set of the user, and the first carrier set in this step is also the downlink component carrier set of the user. The method for the eNB to calculate the number of modulation symbols occupied by CSI according to the first carrier set is the same as that in step 502, which is not detailed herein again.
[0089] 506: According to the number of modulation symbols occupied by CSI, the eNB extracts CSI transmitted by the UE, and calculates the number of bits after channel coding corresponding to CSI transmitted by the UE.
[0090] Because the eNB adopts the same manner as that of the UE to obtain the number of bits after channel coding corresponding to CSI transmitted by the UE, the number of bits after channel coding that is corresponding to CSI transmitted by the UE and is obtained by the eNB is consistent with the number of bits after channel coding of CSI of the UE obtained by the UE.
[0091] 507: The eNB performs channel decoding on the transmitted CSI according to the number of bits after channel coding corresponding to CSI transmitted by the UE, and determines CSI corresponding to each downlink carrier according to a preset sorting rule.
[0092] Specifically, the channel decoding method may be blind detection. The blind detection method refers to that: after receiving the transmitted CSI information, the eNB may perform blind decoding on CSI according to possible changes of the activated carrier set before or after carrier activation/deactivation, that is, determine multiple activated carrier sets according to possible changes of the activated carrier set before or after carrier activation/deactivation, calculate the number of original information bits of joint coding according to each of the determined activated carrier sets and based on the method in step 501, then perform channel decoding in combination with the calculated number of bits of CSI after joint channel coding, and determine the decoding that is with correct CRC check or a maximum likelihood function as the output of decoding output. Alternatively, any other feasible method may be adopted for decoding, which is not specifically defined.
[0093] Moreover, the preset sorting rule in this step is consistent with the preset sorting rule in step 501. If the preset sorting rule in step 501 is sorting CSI of multiple downlink carriers according to the activation sequence of the downlink carriers, the preset sorting rule in this step is also determining CSI corresponding to each downlink carrier according to the activation sequence of the downlink carriers, and CSI corresponding to each downlink carrier is determined according to this sequence.
[0094] In the method for transmitting uplink control information according to the embodiment of the present invention, the UE performs channel coding on CSI of the X downlink carrier(s) according to the obtained number of bits after channel coding of CSI of the UE, and transmits CSI of the X downlink carrier(s) to the eNB, thereby solving the problem that the eNB decodes the jointly coded CSI incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of CSI joint coding of multiple downlink carriers. Moreover, the UE sorts CSI of multiple downlink carriers according to the preset sorting rule, so that the eNB may determine CSI corresponding to each downlink carrier. Through blind detection, the eNB may further solve the problem that the eNB decodes the jointly coded CSI incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of CSI joint coding of the multiple downlink carriers. The UE calculates the number of modulation symbols occupied by CSI of the UE according to the first carrier set, so that physical resources occupied by CSI on the PUSCH do not change along with the downlink activated carrier set, thereby ensuring that data multiplexed with CSI on the PUSCH is decoded normally, and reducing the influence on data transmission performance, which, moreover, is equivalent to allocating more physical resources to CSI to be transmitted and improving transmission performance of CSI.
[0095] It should be noted that, modification may be made to step 401 or 501 and step 402 or 502 based on the embodiment shown in FIG. 4 or embodiment shown in FIG. 5, so as to solve the problem that the eNB incorrectly decodes UCI after joint channel coding due to inconsistent understanding, resulted from reconfiguration of the downlink component carrier set of the user through RRC signaling, of the UE and eNB on the number of original information bits of UCI joint channel coding of multiple downlink carriers. The modified step 401 or 501 is specifically as follows:
[0096] When a UE detects reconfiguration RRC signaling of the DL CC set, the UE updates a downlink activated carrier set; the UE sorts UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to the downlink activated carrier set updated by the UE, and the X downlink carrier(s) herein are all downlink carriers in the downlink carrier set updated by the UE.
[0097] The modified step 402 or 502 is specifically as follows:The UE calculates the number of modulation symbols occupied by UCI of the UE according to a first carrier set, where the first carrier set is a maximum downlink carrier set supportable by the UE, or a smaller one of the maximum downlink carrier set supportable by the UE and a maximum downlink carrier set currently supportable by the eNB.
[0098] Other processes are similar to that in Embodiment 5 or 6, which are not detailed herein again.
[0099] In the method for transmitting uplink control information according to the embodiment of the present invention, the UE performs channel coding on UCI of the X downlink carrier(s) according to the obtained number of bits after channel coding of UCI of the UE, and transmits UCI of the X downlink carrier(s) to the eNB, thereby solving the problem that the eNB decodes the jointly coded UCI incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the UE sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the eNB may determine UCI corresponding to each downlink carrier. Through a specific sorting sequence of UCI or blind detection, the eNB may further solve the problem that the eNB decodes the jointly coded UCI incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of UCI joint coding of the multiple downlink carriers. The UE calculates the number of modulation symbols occupied by UCI of the UE according to the first carrier set, so that physical resources occupied by UCI on the PUSCH do not change along with the downlink activated carrier set, thereby ensuring that data multiplexed with UCI on the PUSCH is decoded correctly, and reducing the influence on data transmission performance, which, moreover, is equivalent to allocating more physical resources to UCI to be transmitted and improving transmission performance of UCI. After the UE detects the reconfiguration RCC signaling of the DL CC set, the UE updates the downlink activated carrier set, and performs transmission similar to that of the embodiment shown in FIG. 4 or FIG. 5 based on the updated downlink activated carrier set. The maximum downlink carrier set supportable by the UE, or a smaller one of the maximum downlink carrier set supportable by the UE and the maximum downlink carrier set currently supportable by the eNB is adopted as the first carrier set, thereby solving the problem that the eNB incorrectly decodes UCI after joint channel coding due to inconsistent understanding, which is resulted from reconfiguration of the downlink component carrier set of the user through RRC signaling, of the UE and the eNB on the number of original information bits of UCI joint channel coding of multiple downlink carriers.
[0100] For better understanding of the embodiment of the present invention, the method of the embodiment of the present invention being applied in a carrier aggregation scenario, where ACK/NACK of one or more downlink carriers is transmitted on a PUCCH through multiplexing (Multiplexing), is taken as an example for further illustration.
[0101] Referring to FIG. 6, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0102] 601: A UE sorts ACK/NACK of each carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink activated carrier set of the UE, and the X downlink carrier(s) are all downlink carriers in a downlink carrier set of the UE.
[0103] The preset sorting rule may be performing sorting according to an activation sequence of downlink carriers, and when multiple downlink carriers are activated at the same time, the ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to attributes of the downlink carriers corresponding to ACK/NACK of the downlink carriers. An attribute of a downlink carrier may be a carrier index or a carrier frequency of the downlink carrier. Specifically, the ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to an increasing or a decreasing order of attributes of the downlink carriers.
[0104] Specifically, for each downlink carrier in the X downlink carrier(s), if the ACK/NACK is required to be fed back, and the ACK/NACK supports spatial bundling, each downlink carrier corresponds to 1-bit ACK or NACK; if the ACK/NACK is required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit ACK or NACK. If the ACK/NACK is not required to be fed back, and the ACK/NACK supports spatial bundling, each downlink carrier corresponds to 1-bit NACK; if the ACK/NACK is not required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit NACK. The requiring the ACK/NACK to be fed back refers to that information of requiring the ACK/NACK to be fed back, such as data or PDCCH signaling indicating release of downlink SPS resources, is detected on the carrier.
[0105] The UE determines original information of the ACK/NACK of each downlink carrier in the X downlink carrier(s) according to the foregoing method, so that the total number of original information bits O^ACK in the X downlink carrier(s) is: O^ACK = X or O^ACK = 2X. X corresponds to a scenario where the ACK/NACK supports spatial bundling, and 2X corresponds to a scenario where the ACK/NACK does not support spatial bundling.
[0106] 602: The UE performs channel coding for the sorted ACK/NACK of the X downlink carrier(s) according to the preset number of bits after channel coding of ACK/NACK of the UE, maps the channel coded ACK/NACK of the X downlink carrier(s) to a PUCCH channel, and transmits the mapped ACK/NACK of the X downlink carrier(s) to an eNB.
[0107] The preset number of bits after channel coding of the ACK/NACK of the UE is a positive integer, which, for example, may be 20. In addition, in this embodiment of the present invention, exemplarily, RM coding is adopted for channel coding, and in actual applications, any other feasible channel coding manner may be adopted according to specific conditions, which is not specifically defined.
[0108] 603: The eNB performs detection on the transmitted ACK/NACK through PUCCH detection, and determines ACK/NACK corresponding to each downlink carrier according to a preset sorting rule.
[0109] The preset sorting rule in this step is consistent with the preset sorting rule in step 601. Moreover, specifically, a channel decoding method during the process of detecting the transmitted ACK/NACK by the eNB may be: performing channel decoding on the transmitted ACK/NACK by adopting a method corresponding to that of the coding in step 602 and according to the preset number of bits after channel coding; or performing decoding through a blind decoding method, where the blind decoding method refers to that: after receiving the transmitted ACK/NACK information, the eNB may perform blind decoding on the ACK/NACK according to possible changes of the downlink activated carrier set before or after carrier activation/deactivation, that is, determine multiple downlink activated carrier sets according to possible changes of the downlink activated carrier set before or after carrier activation/deactivation, perform channel decoding according to each of the determined downlink activated carrier sets and in combination with the preset number of bits after channel coding, and determine the decoding that is with a maximum likelihood function as the output of decoding.
[0110] It should be noted that, if the eNB does not adopt the blind decoding to decode the transmitted ACK/NACK, when the eNB needs to deactivate a downlink carrier, the eNB deactivates a carrier included in the downlink activated carrier set, according to a sequence that a carrier activated later is deactivated earlier. Then, according to the updated downlink activated carrier set, the UE repeats steps 601 and 602 to transmit the ACK/NACK of the X downlink carrier(s) .
[0111] It should be noted that, when the ACK/NACK of the X downlink carrier(s)is sorted according to the sequence of arranging a downlink carrier activated earlier in the front, and arranging a downlink carrier activated later in the back, the ACK/NACK of the latest activated downlink carrier is arranged in the last place. The latest activated downlink carrier during a fuzzy period is usually NACK, and according to the characteristic of RM coding, the NACK arranged in the last place does not contribute to the coded bits of ACK/NACK. Therefore, even if the eNB performs decoding based on less or more bits, correctness of the ACK/NACK that truly needs to be transmitted can still be ensured. For example, the downlink activated carrier set has three downlink carriers, where the last downlink carrier is the latest activated downlink carrier, and each downlink carrier supports ACK/NACK spatial bundling. Then, the total number of bits of the ACK/NACK jointly coded according to RM coding is 3. It is assumed that the first two downlink carriers both need to transmit ACK, and the last downlink carrier transmits NACK because it is just activated and has no scheduling data. Then, three bits transmitted on the PUSCH are 110, and according to the characteristic of RM coding, the bits of 110 after coding are consistent with the bits of 11 after coding. Therefore, even if the eNB does not learn that the UE has successfully detected an activation command of a downlink carrier 3 and has updated the total number of bits of the jointly coded ACK/NACK, and still decodes the transmitted ACK/NACK based on 2 bits, it is still ensured that the first 2 bits are decoded correctly.
[0112] In the method for transmitting uplink control information according to the embodiment of the present invention, the UE performs channel coding on the ACK/NACK of the X downlink carrier(s) according to the preset number of bits after channel coding of ACK/NACK of the UE, and transmits the ACK/NACK of the X downlink carrier(s) to the eNB, thereby solving the problem that the eNB decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers. Moreover, the UE sorts the ACK/NACK of multiple downlink carriers according to the preset sorting rule, so that the eNB may determine ACK/NACK corresponding to each downlink carrier. Further, when the eNB does not adopt blind decoding, the UE sorts the ACK/NACK of each carrier by utilizing the characteristic of RM coding and according to an activation sequence of the downlink carriers, and the eNB deactivates a downlink carrier included in the downlink activated carrier set according to the sequence that a carrier activated later is deactivated earlier, thereby ensuring the correct decoding of the ACK/BACK that truly needs to be transmitted even if the eNB and UE have inconsistent understanding on the total number of information bits of the jointly coded ACK/NACK, and solving the problem that the eNB decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers. If the eNB adopts the blind detection, the sequence of deactivating the carriers does not need to be confined, and the problem that the eNB decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers can be further solved.
[0113] When the UE has uplink data required to be sent but has no uplink resources, the UE sends an SR (Scheduling Request, scheduling request) to the eNB to request resource allocation. In the carrier aggregation scenario, a specific uplink carrier of the UE is semi-statically configured to send the SR and ACK/NACK. When the SR and the ACK/NACK of the X downlink carrier(s) are reported on the same uplink frame at the same time, the SR and the ACK/NACK of the X downlink carrier(s) may undergo joint channel coding before being transmitted. Based on the foregoing scenario, referring to FIG. 7, an embodiment of the present invention provides another method for transmitting uplink control information, where the method includes the following.
[0114] 701: A UE sorts an SR and ACK/NACK of X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink activated carrier set of the UE, and the X downlink carrier(s) herein are all downlink carriers in a downlink carrier set of the UE.
[0115] The preset sorting rule in the embodiment of the present invention is: performing sorting according to a sequence of arranging the SR first, and then arranging the ACK/NACK of each downlink carrier in the X downlink carrier(s) after the SR based on an activation sequence of the downlink carriers. Moreover, when multiple downlink carriers are activated at the same time, ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to attributes of the downlink carriers corresponding to ACK/NACK of the downlink carriers. An attribute of a downlink carrier may be a carrier index or a carrier frequency of the downlink carrier. Specifically, the ACK/NACK of the multiple downlink carriers activated at the same time may be sorted according to an increasing or a decreasing order of the attributes of the downlink carriers.
[0116] Specifically, for each downlink carrier in the X downlink carrier(s), if ACK/NACK is required to be fed back, and the ACK/NACK supports spatial bundling, each downlink carrier corresponds to 1-bit ACK or NACK; if the ACK/NACK is required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit ACK or NACK. If the ACK/NACK is not required to be fed back, and the ACK/NACK supports spatial bundling, each downlink carrier corresponds to 1-bit NACK; if the ACK/NACK is not required to be fed back, and the ACK/NACK does not support spatial bundling, each downlink carrier corresponds to 2-bit NACK. The requiring the ACK/NACK to be fed back refers to that information of requiring the ACK/NACK to be fed back, such as data or PDCCH signaling indicating release of downlink SPS resources, is detected on the carrier.
[0117] The UE determines original information of the ACK/NACK of each downlink carrier in the X downlink carrier(s) according to the foregoing method, so that the total number of original information bits O^ACK in the X downlink carrier(s) is: O^ACK = X or O^ACK = 2X. X corresponds to a scenario where the ACK/NACK supports spatial bundling, and 2X corresponds to a scenario where the ACK/NACK does not support spatial bundling. The total number of original information bits of joint coding is obtained according to the total number of original information bits in the X downlink carrier(s) and original information of the SR.
[0118] 702: The UE performs channel coding for the sorted SR and ACK/NACK of the X downlink carrier(s) according to the preset number of bits after channel coding of ACK/NACK of the UE, maps the channel coded SR and ACK/NACK to a PUCCH channel, and transmits mapped the SR and ACK/NACK to an eNB.
[0119] Step 702 is similar to step 602, which is not detailed herein again.
[0120] 703: The eNB performs detection on the transmitted SR and ACK/NACK through PUCCH detection, and determines the SR and ACK/NACK that is corresponding to each downlink carrier.
[0121] Step 703 is similar to step 603, which is not detailed herein again.
[0122] With the method for transmitting uplink control information according to the embodiment of the present invention, not only the problem similar to that of the embodiment shown in FIG. 6 is solved, but also correct transmission of the SR is ensured.
[0123] Referring to FIG. 8, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0124] 801: A UE receives carrier activation command/deactivation command, and determines whether to activate a carrier and/or deactivate a carrier; for an activated carrier, adds the newly activated carrier to an original downlink activated carrier set and performs 802; and for a deactivated carrier, performs 807.
[0125] 802: The UE sorts ACK/NACK of each carrier in X downlink carrier(s) according to a preset sorting rule.
[0126] Step 802 is similar to step 401, which is not detailed herein again.
[0127] 803: The UE calculates, according to a first carrier set, the number of modulation symbols occupied by ACK/NACK of the UE; and the UE calculates the number of bits after channel coding of the ACK/NACK of the UE according to the number of modulation symbols occupied by the ACK/NACK of the UE.
[0128] Step 803 is similar to step 402 and step 403, which is not detailed herein again.
[0129] 804: The UE performs channel coding for the sorted ACK/NACK of the X downlink carrier(s) according to the number of bits after channel coding of the ACK/NACK of the UE, multiplexes the channel coded ACK/NACK of the X downlink carrier(s) with data on a PUSCH, and transmits the multiplexed ACK/NACK of the X downlink carrier(s) to an eNB.
[0130] Step 804 is similar to step 404, which is not detailed herein again.
[0131] 805: The eNB calculates, according to the first carrier set, the number of modulation symbols occupied by the ACK/NACK; and the eNB extracts, according to the number of modulation symbols occupied by the ACK/NACK, ACK/NACK transmitted by the UE, and calculates the number of bits after channel coding corresponding to the ACK/NACK transmitted by the UE.
[0132] Step 805 is similar to step 405 and step 406, which is not detailed herein again.
[0133] 806: The eNB performs channel decoding on the transmitted ACK/NACK according to the number of bits after channel coding corresponding to the ACK/NACK transmitted by the UE, and determines ACK/NACK corresponding to each downlink carrier according to a preset sorting rule.
[0134] Step 806 is similar to step 407, which is not detailed herein again.
[0135] 807: The UE determines whether at least one carrier implicit deactivation timer times out; if at least one carrier implicit deactivation timer times out, performs 808; otherwise, performs 802.
[0136] 808: The UE updates the downlink activated carrier set to be the downlink activated carrier set that has undergone deactivation, and performs 802.
[0137] In the method for transmitting uplink control information according to the embodiment of the present invention, for the case of carrier activation, by utilizing the characteristic of RM coding, the UE sorts the ACK/NACK of each carrier according to the activation sequence of the carriers, and always starts carrier deactivation from the last one in the activated carrier set, so as to ensure that even if the base station and the UE have inconsistent understanding on the total number of information bits of the jointly coded ACK/NACK, the ACK/NACK that truly needs to be transmitted is also correctly decoded, thereby solving the problem that the base station decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers. Meanwhile, the UE calculates, according to the first carrier set, the number of modulation symbols occupied by the ACK/NACK of the X downlink carrier(s), so that physical resources occupied by the ACK/NACK on the PUSCH do not change along with the downlink activated carrier set, so as to ensure that the data multiplexed with the ACK/NACK on the PUSCH is decoded correctly, and the influence on data transmission performance is reduced, which, moreover, is equivalent to allocating more physical resources to the ACK/NACK to be transmitted and improving transmission performance of the ACK/NACK. For the case of carrier deactivation, in combination with the implicit mechanism of carrier deactivation, the problem that the base station decodes the jointly coded ACK/NACK incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of ACK/NACK joint coding of multiple downlink carriers is solved.
[0138] Referring to FIG. 9, an embodiment of the present invention provides another method for transmitting uplink control information, which includes the following.
[0139] 901: AUE receives carrier activation/deactivation command in a downlink subframe n; the UE uses a downlink activated carrier set before reception of the carrier activation command/deactivation command as a current downlink activated carrier set; the UE sorts UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to the current downlink activated carrier set of the UE.
[0140] Specifically, when UCI is ACK/NACK, the X downlink carrier(s) are all downlink carriers in the downlink carrier set of the UE; when UCI is CSI, the X downlink carrier(s) may be determined according to the downlink activated carrier set of the UE, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0141] The process that the UE sorts UCI of each downlink carrier in the X downlink carrier(s) according to the preset sorting rule is similar to step 401 when UCI is ACK/NACK, and is similar to step 501 when UCI is CSI, which is not described in detail herein again.
[0142] 902: The UE transmits UCI of the X downlink carrier(s) to an eNB, and the eNB processes the received UCI of the X downlink carrier(s).
[0143] Specifically, when UCI is ACK/NACK, step 902 may be implemented by adopting the method of steps 402 to 407 or steps 602 and 603. When UCI is CSI, step 902 may be implemented by adopting the method of steps 502 to 507.
[0144] It should be noted that, when the UE adopts the method similar to step 402 or 502 to calculate the number of modulation symbols occupied by UCI of the UE in this step, the first carrier set may further be the downlink activated carrier set before the carrier activation command/deactivation command is sent on the downlink subframe n; when the eNB adopts the method similar to step 405 or 505 to calculate the number of modulation symbols occupied by UCI in this step, the first carrier set may further be the downlink activated carrier set before the eNB sends the carrier activation/deactivation command in the downlink subframe n.
[0145] 903: Starting from a first effective uplink subframe n+k, the UE uses the updated downlink activated carrier set (that is, the downlink activated carrier set updated after the UE receives the carrier activation/deactivation command in the downlink subframe n) as a current downlink activated carrier set, and the UE sorts UCI of each downlink carrier in the X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to the current downlink activated carrier set of the UE. k indicates the number of delayed subframes, and k is a positive integer.
[0146] The first effective uplink subframe n+k refers to a first uplink subframe which needs to report UCI and which the UE encounters after k subframes since the subframe n on which the UE receives the carrier activation command/deactivation command. A specific value of k may be selected according to an actual situation, for example, k is greater than or equal to 5.
[0147] Specifically, when UCI is ACK/NACK, the X downlink carrier(s) are all downlink carriers in the downlink carrier set of the UE; when UCI is CSI, the X downlink carrier(s) may be determined according to the downlink activated carrier set of the UE, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0148] The process that the UE sorts UCI of each downlink carrier in the X downlink carrier(s) according to the preset sorting rule is similar to step 401 when UCI is ACK/NACK, and is similar to step 501 when UCI is CSI, which is not described in detail herein again.
[0149] It should be noted that, in this step, starting from the first effective uplink subframe n+k, the UE uses the updated downlink activated carrier set (that is, the downlink activated carrier set updated after the UE receives the carrier activation/deactivation command in the downlink subframe n) as the current downlink activated carrier set, until the update needs to be performed again according to new carrier activation command/deactivation command.
[0150] 904: The UE transmits UCI of the X downlink carrier(s) to an eNB, and the eNB processes the received UCI of the X downlink carrier(s).
[0151] Specifically, when UCI is ACK/NACK, step 904 may be implemented by adopting the method of steps 401 to 407 or steps 601 to 603. When UCI is CSI, step 904 may be implemented by adopting the method of steps 501 to 507.
[0152] In the method for transmitting uplink control information according to the embodiment of the present invention, when the UE reports UCI, by delaying effective time of the carrier activation command/deactivation command, the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the UE and eNB on the total number of original information bits of UCI joint coding of multiple downlink carriers is solved.
[0153] Referring to FIG. 10, an embodiment of the present invention provides anther user equipment, where the user equipment includes: a first uplink control information processing module 1001, configured to sort UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment at least includes two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols 1002, configured to calculate the number of modulation symbols occupied by UCI of the user equipment according to a first carrier set, where the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding 1003, configured to: after the first module for acquiring the number of modulation symbols 1002 obtains the number of modulation symbols occupied by UCI of the user equipment, calculate the number of bits after channel coding of UCI of the user equipment according to the number of modulation symbols occupied by UCI of the user equipment; and a first coding and transmission module 1004, configured to: after the first module for acquiring the number of bits after channel coding 1003 obtains the number of bits after channel coding of UCI of the user equipment, perform channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, map the sorted UCI of the X downlink carrier(s) to a physical channel and transmit the sorted UCI of the X downlink carrier(s) to an eNB.
[0154] Further, the first uplink control information processing module 1001 is specifically configured to: when UCI of the user equipment is hybrid automatic repeat request HARQ acknowledgment information, sort UCI of all downlink carriers in the downlink activated carrier set according to the preset sorting rule.
[0155] Further, the first uplink control information processing module 1001 is specifically configured to: when UCI of the user equipment is channel state information CSI, sort, according to the preset sorting rule, UCI of each downlink carrier in the X downlink carrier(s) that are determined according to CSI configuration configured by higher layers and whether aperiodic CSI is reported, where the X downlink carrier(s) belong to the downlink activated carrier set of the user equipment.
[0156] Further, the first uplink control information processing module 1001 includes one of the following units: a first sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an increasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; a second sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to a decreasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; a third sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an activation sequence of the downlink carriers.
[0157] Further, the third sorting unit is specifically configured to: when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, sort UCI of the multiple downlink carriers activated at the same time, according to the increasing or decreasing order of the attributes of the downlink carriers, where the attribute of the downlink carrier is a carrier index or a carrier frequency.
[0158] Further, the first module for acquiring the number of modulation symbols 1002 includes:a unit for calculating the number of modulation symbols, configured to: when UCI is channel state information CSI, calculate the number of modulation symbols occupied by CSI of the user equipment, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0159] In the user equipment according to the embodiment of the present invention, the user equipment performs channel coding on UCI of the X downlink carrier(s) according to the acquired number of bits after channel coding of UCI of the user equipment, and transmits UCI of the X downlink carrier(s) to a base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of the multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0160] Referring to FIG. 11, an embodiment of the present invention provides anther user equipment, where the user equipment includes: a second uplink control information processing module 1101, configured to sort UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module 1102, configured to: after the second uplink control information processing module sorts UCI of each downlink carrier in the X downlink carrier(s), perform channel coding for the sorted UCI of the X downlink carrier(s) according to the preset number of bits after channel coding of the of the user equipment, map the sorted UCI of the X downlink carrier(s) to a physical channel and transmit the sorted UCI of the X downlink carrier(s) to a base station.
[0161] Further, when UCI of the user equipment is hybrid automatic repeat request HARQ acknowledgment information, the X downlink carrier(s) are all downlink carriers in the downlink activated carrier set of the user equipment.
[0162] Further, the second uplink control information processing module 1101 includes:a fourth sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an activation sequence of the downlink carriers.
[0163] Further, the fourth sorting unit is specifically configured to: when UCI of the X downlink carrier(s) and a scheduling request SR are reported on the same subframe, first arrange the SR, and then arrange UCI of each downlink carrier in the X downlink carrier(s) after the SR according to an activation sequence of the downlink carriers.
[0164] Further, when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to attributes of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency.
[0165] In the user equipment according to the embodiment of the present invention, the user equipment performs channel coding on original information of UCI of the X downlink carrier(s) according to the total original information of UCI of the X downlink carrier(s), determined based on the downlink activated carrier set, and the preset number of original information bits after channel coding of UCI of the X downlink carrier(s), and transmits the original information of UCI of the X downlink carrier(s) to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0166] Referring to FIG. 12, an embodiment of the present invention provides another base station, where the base station includes: a first module for acquiring the number of UCI modulation symbols 1201, configured to calculate, according to a first carrier set, the number of modulation symbols occupied by uplink control information UCI, where the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment at least includes two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding 1202, configured to: after the first module for acquiring the number of UCI modulation symbols 1201 obtains the number of modulation symbols occupied by UCI, extract, according to the number of modulation symbols occupied by UCI, UCI transmitted by the UE, and calculate the number of bits after channel coding corresponding to the transmitted UCI; and a first UCI determination module 1203, configured to: after the first module for acquiring the number of bits after UCI channel coding 1202 obtains the number of bits after channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits after channel coding corresponding to the transmitted UCI, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0167] Further, the first module for acquiring the number of UCI modulation symbols 1201 includes:a first CSI modulation symbol number acquisition unit, configured to: when UCI is channel state information CSI, calculate the number of modulation symbols occupied by CSI, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0168] Further, the preset sorting rule includes one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; performing sorting according to a decreasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; performing sorting according to an activation sequence of the downlink carriers.
[0169] Further, when the preset sorting rule is performing sorting according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to the increasing or decreasing order of the attributes of the downlink carriers, where the attribute of the downlink carrier is a carrier index or a carrier frequency.
[0170] In the base station according to the embodiment of the present invention, the base station obtains, according to the first carrier set, the number of modulation symbols occupied by UCI, extracts, according to the number of modulation symbols occupied by UCI, UCI transmitted by the user equipment, and obtains the number of bits after channel coding corresponding to the transmitted UCI, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the base station and the user equipment on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the base station may determine UCI corresponding to each downlink carrier according to the preset sorting rule.
[0171] Referring to FIG. 13, an embodiment of the present invention provides another base station, where the base station includes:a second UCI determination module 1301, configured to, according to the preset number of bits after channel coding corresponding to uplink control information UCI, perform detection on UCI transmitted by a UE, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0172] Further, when the preset sorting rule is performing sorting according to an activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to an increasing or a decreasing order of attributes of the downlink carriers.
[0173] Further, the second UCI determination module 1301 includes:a second UCI determination module 1301a, configured to: when UCI and a scheduling request SR are reported on the same subframe, determine the SR and UCI corresponding to each downlink carrier according to a sequence of arranging the SR first, and then arranging UCI of X downlink carrier(s) after the SR based on an activation sequence of the downlink carriers.
[0174] In the base station according to the embodiment of the present invention, the base station performs detection on UCI transmitted by the user equipment, according to the preset number of bits after channel coding corresponding to the uplink control information UCI, thereby solving the problem that eNB decodes the jointly coded UCI incorrectly due to inconsistent understanding of the base station and the user equipment on the total number of original information bits of UCI joint coding of multiple downlink carriers. UCI corresponding to each downlink carrier may be determined according to the preset sorting rule.
[0175] Referring to FIG. 14, an embodiment of the present invention provides a system for transmitting uplink control information, where the system includes a user equipment 1401 and a base station 1402.
[0176] The user equipment 1401 includes: a first uplink control information processing module 1401a, configured to sort UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment at least includes two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols 1401b, configured to, according to a first carrier set, calculate the number of modulation symbols occupied by UCI of the user equipment, where the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding 1401c, configured to: after the first module for acquiring the number of modulation symbols 1002 obtains the number of modulation symbols occupied by UCI of the user equipment, calculate the number of bits after channel coding of UCI of the user equipment according to the number of modulation symbols occupied by UCI of the user equipment; and a first coding and transmission module 1401d, configured to: after the first module for acquiring the number of bits after channel coding 1003 obtains the number of bits after channel coding of UCI of the user equipment, perform channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of UCI of the user equipment, map the sorted UCI of the X downlink carrier(s) to a physical channel and transmit the sorted UCI of the X downlink carrier(s) to the base station 1402.
[0177] The base station 1402 includes: a first module for acquiring the number of UCI modulation symbols 1402a, configured to, according to a first carrier set, calculate the number of modulation symbols occupied by uplink control information UCI, where the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, the maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment at least includes two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding 1402b, configured to: after the first module for acquiring the number of UCI modulation symbols 1201 obtains the number of modulation symbols occupied by UCI, extract, according to the number of modulation symbols occupied by UCI, UCI transmitted by the UE, and calculate the number of bits after channel coding corresponding to the transmitted UCI; and a first UCI determination module 1402c, configured to: after the first module for acquiring the number of bits after UCI channel coding 1202 obtains the number of bits after channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits after channel coding corresponding to the transmitted UCI, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0178] Further, the first uplink control information processing module is specifically configured to: when UCI of the user equipment is hybrid automatic repeat request HARQ acknowledgment information, sort UCI of all downlink carriers in the downlink activated carrier set according to the preset sorting rule.
[0179] Further, the first uplink control information processing module is specifically configured to: when UCI of the user equipment is channel state information CSI, sort, according to the preset sorting rule, UCI of each downlink carrier in the X downlink carrier(s) that are determined based on CSI configuration configured by higher layers and whether aperiodic CSI is reported, where the X downlink carrier(s) belong to the downlink activated carrier set of the user equipment.
[0180] Further, the first uplink control information processing module 1401a includes one of the following units: a first sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an increasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; a second sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to a decreasing order of attributes of downlink carriers corresponding to UCI of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency; a third sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an activation sequence of the downlink carriers.
[0181] Further, the third sorting unit is specifically configured to: when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, sort UCI of the multiple downlink carriers activated at the same time, according to the increasing or decreasing order of the attributes of the downlink carriers, where the attribute of the downlink carrier is a carrier index or a carrier frequency.
[0182] Further, the first module for acquiring the number of modulation symbols 1401b includes:a unit for calculating the number of modulation symbols, configured to: when UCI is channel state information CSI, calculate the number of modulation symbols occupied by CSI of the user equipment, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0183] Further, the first carrier set may be the downlink component carrier set of the user equipment, the maximum downlink carrier set supportable by the user equipment, or a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment.
[0184] Further, the first module for acquiring the number of UCI modulation symbols 1402a includes:a first CSI modulation symbol number acquisition unit, configured to: when UCI is channel state information CSI, calculate the number of modulation symbols occupied by CSI, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported.
[0185] In the system for transmitting uplink control information according to the embodiment of the present invention, the user equipment performs channel coding on UCI of the user equipment according to the acquired number of bits after channel coding of UCI of the user equipment, and transmits UCI to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0186] Referring to FIG. 15, an embodiment of the present invention provides another system for transmitting uplink control information, where the system includes a user equipment 1501 and a base station 1502.
[0187] The user equipment 1501 includes: a second uplink control information processing module 1501a, configured to sort UCI of each downlink carrier in X downlink carrier(s) according to a preset sorting rule, where X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module 1501b, configured to: after the second uplink control information processing module 1501a sorts UCI of each downlink carrier in the X downlink carrier(s), perform channel coding for the sorted UCI of the X downlink carrier(s) according to the preset number of bits after channel coding of UCI of the user equipment, map the sorted UCI of the X downlink carrier(s) to a physical channel and transmit the sorted UCI of the X downlink carrier(s) to a base station 1502.
[0188] The base station 1502 includes:a second UCI determination module 1502a, configured to, according to the preset number of bits after channel coding corresponding to uplink control information UCI, perform detection on UCI transmitted by the user equipment 1501, and determine UCI corresponding to each downlink carrier according to a preset sorting rule.
[0189] Further, the second uplink control information processing module 1501a includes:a fourth sorting unit, configured to sort UCI of each downlink carrier in the X downlink carrier(s) according to an activation sequence of the downlink carriers.
[0190] Further, the second uplink control information processing module 1501a includes:a fifth sorting unit, configured to: when UCI of the X downlink carrier(s) and a scheduling request SR are reported on the same subframe, first arrange the SR, and then arrange UCI of each downlink carrier in the X downlink carrier(s) after the SR according to an activation sequence of the downlink carriers.
[0191] Further, when UCI of each downlink carrier in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, UCI of the multiple downlink carriers activated at the same time is sorted according to attributes of the downlink carriers, where an attribute of a downlink carrier is a carrier index or a carrier frequency.
[0192] Further, the second UCI determination module 1502a comprises:a second UCI determination unit, configured to: when UCI and a scheduling request SR are reported on the same subframe, determine the SR and UCI corresponding to each downlink carrier according to a sequence of arranging the SR first, and then arranging UCI of the X downlink carrier(s) after the SR based on an activation sequence of the downlink carriers.
[0193] In the system for transmitting uplink control information according to the embodiment of the present invention, the user equipment performs channel coding on original information of UCI of the X downlink carrier(s) through the total original information of UCI of the X downlink carrier(s) determined according to the downlink activated carrier set and through the preset number of bits after channel coding of UCI of the X downlink carrier(s), and transmits the original information of UCI of the X downlink carrier(s) to the base station, thereby solving the problem that the base station decodes the jointly coded UCI incorrectly due to inconsistent understanding of the user equipment and base station on the total number of original information bits of UCI joint coding of multiple downlink carriers. Moreover, the user equipment sorts UCI of multiple downlink carriers according to the preset sorting rule, so that the base station may determine UCI corresponding to each downlink carrier.
[0194] All or part of the content in the technical solutions provided in the foregoing embodiments may be implemented by software programs, and the software programs are stored in readable storage media, such as a computer hard disk, a CD-ROM, or a floppy disk.
[0195] The foregoing describes only exemplary embodiments of the present invention and is not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the idea and principle of the present invention shall fall within the protection scope of the present invention.
[0196] Further embodiments of the present invention are provided in the following. It should be noted that the numbering used in the following section does not necessarily need to comply with the numbering used in the previous sections. Embodiment 1. A method for transmitting uplink control information, comprising: sorting, by a user equipment, uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; calculating, by the user equipment, the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; calculating, by the user equipment, the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by the UCI of the user equipment; and performing, by the user equipment, the channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits generated by channel coding the UCI of the user equipment, mapping the channel coded UCI of the X downlink carrier(s) to a physical channel and transmitting the mapped UCI of the X downlink carrier(s) to a base station. Embodiment 2. The method according to embodiment 1, wherein when the UCI of the user equipment is hybrid automatic repeat request, HARQ, acknowledgment information, the X downlink carrier(s) are all downlink carriers in the downlink activated carrier set. Embodiment 3. The method according to embodiment 1, wherein when the UCI of the user equipment is channel state information, CSI, the X downlink carrier(s) are determined according to the CSI configuration configured by higher layers and whether aperiodic CSI is reported, and the X downlink carrier(s) belong to the downlink activated carrier set of the user equipment. Embodiment 4. The method according to embodiment 1, wherein the preset sorting rule comprises one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to the UCI; performing sorting according to a decreasing order of attributes of downlink carriers corresponding to the UCI; performing sorting according to an activation sequence of the UCI . Embodiment 5. The method according to embodiment 4, wherein when the UCI is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers of the X downlink carrier(s) are activated at the same time, the UCI of the multiple downlink carriers activated at the same time is sorted according to the increasing or decreasing order of the attributes of the downlink carriers. Embodiment 6. The method according to embodiment 4 or 5, wherein the attributes of the downlink carriers are carrier indexes or carrier frequencies. Embodiment 7. The method according to embodiment 1, wherein when the UCI of the user equipment is channel state information,CSI, the calculating, by the user equipment, the number of modulation symbols occupied by the UCI of the user equipment according to the first carrier set specifically comprises:calculating, by the user equipment, the number of modulation symbols occupied by the CSI of the user equipment, according to the first carrier set, CSI configuration configured by higher layers and whether aperiodic CSI is reported. Embodiment 8. A method for transmitting uplink control information, comprising: sorting, by a user equipment, uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and performing, by the user equipment, channel coding for the sorted UCI according to the number of bits generated by channel coding the UCI of the user equipment, mapping the channel coded UCI of the X downlink carrier(s) to a physical channel and transmitting the mapped UCI of the X downlink carrier(s) to a base station. Embodiment 9. The method according to embodiment 8, wherein the preset sorting rule is: performing sorting according to an activation sequence of the downlink carriers. Embodiment 10. The method according to embodiment 8, wherein when the UCI of the X downlink carrier(s) and a scheduling request, SR, are reported on the same subframe, the preset sorting rule is: first arranging the SR, and then arranging the UCI after the SR according to an activation sequence of the downlink carriers. Embodiment 11. The method according to embodiment 9 or 10, wherein when the UCI is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers of the X downlink carrier(s) are activated at the same time, the UCI of the multiple downlink carriers activated at the same time is sorted according to attributes of the downlink. Embodiment 12. The method according to embodiment 11, wherein the attributes of the downlink carrier(s) are carrier indexes or carrier frequencies. Embodiment 13. A method for transmitting uplink control information, comprising: calculating the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; extracting UCI transmitted by the user equipment according to the number of modulation symbols occupied by the UCI, and calculating the number of bits generated by channel coding corresponding to the transmitted UCI; and performing channel decoding on the transmitted UCI according to the number of bits generated by channel coding corresponding to the transmitted UCI, and determining UCI corresponding to each downlink carrier according to a preset sorting rule. Embodiment 14. The method according to embodiment 13, wherein when the UCI of the user equipment is channel state information, CSI, the calculating the number of modulation symbols occupied by the UCI according to the first carrier set is specifically:calculating the number of modulation symbols occupied by the CSI, according to the first carrier set, the CSI configuration configured by higher layers and whether aperiodic the CSI is reported. Embodiment 15. The method according to embodiment 13, wherein the preset sorting rule comprises one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to the UCI; performing sorting according to a decreasing order of attributes of downlink carriers corresponding to the UCI; performing sorting according to an activation sequence of the UCI. Embodiment 16. The method according to embodiment 15, wherein when the preset sorting rule is performing sorting according to the activation sequence of the downlink carriers, if multiple downlink carriers of the X downlink carrier(s) are activated at the same time, the UCI of the multiple downlink carriers activated at the same time is sorted according to the increasing or decreasing order of the attributes of the downlink carriers. Embodiment 17. The method for transmitting uplink control information according to embodiment 15 or 16, wherein the attributes of the downlink carriers are carrier indexes or carrier frequencies. Embodiment 18. A user equipment, comprising: a first uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols, configured to calculate the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding, configured to: after the first module for acquiring the number of modulation symbols obtains the number of modulation symbols occupied by the UCI of the user equipment, calculate the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by the UCI of the user equipment; a first coding and transmission module, configured to: after the first module for acquiring the number of bits after channel coding obtains the number of bits generated by channel coding the UCI of the user equipment, perform the channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits generated by channel coding the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to a base station. Embodiment 19. The user equipment according to embodiment 18, whereinthe first uplink control information processing module is specifically configured to: when the UCI of the user equipment is hybrid automatic repeat request, HARQ, acknowledgment information, sort the UCI of all downlink carriers in the downlink activated carrier set according to the preset sorting rule. Embodiment 20. The user equipment according to embodiment 18, whereinthe first uplink control information processing module is specifically configured to: when the UCI of the user equipment is channel state information, CSI, sort, according to the preset sorting rule, the UCI in the X downlink carrier(s) that are determined based on the CSI configuration configured by higher layers and whether aperiodic the CSI is reported, wherein the X downlink carrier(s) belong to the downlink activated carrier set of the user equipment. Embodiment 21. The user equipment according to embodiment 18, wherein the first uplink control information processing module comprises one of the following units: a first sorting module, configured to sort UCI of the X downlink carrier(s) according to an increasing order of attributes of downlink carriers corresponding to the UCI of the downlink carriers, wherein the attributes of the downlink carriers are carrier indexes or carrier frequencies; a second sorting unit, configured to sort the UCI in the X downlink carrier(s) according to a decreasing order of attributes of downlink carriers corresponding to the UCI of the downlink carriers, wherein the attributes of the downlink carriers are carrier indexes or carrier frequencies; a third sorting unit, configured to sort the UCI in the X downlink carrier(s) according to an activation sequence of the downlink carriers. Embodiment 22. The user equipment according to embodiment 21, whereinthe third sorting unit is specifically configured to: when the UCI in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers of the X downlink carrier(s) are activated at the same time, sort the UCI of the multiple downlink carriers activated at the same time according to the increasing order of the attributes of the downlink carriers or decreasing order of the attributes of the downlink carriers, wherein the attributes of the downlink carriers are carrier indexes or a carrier frequencies. Embodiment 23. The user equipment according to embodiment 18, wherein the first module for acquiring the number of modulation symbols comprises:a unit for calculating the number of modulation symbols, configured to: when the UCI is channel state information, CSI, calculate the number of modulation symbols occupied by the CSI of the user equipment, according to the first carrier set, the CSI configuration configured by higher layers and whether aperiodic CSI is reported. Embodiment 24. A user equipment, comprising: a second uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module, configured to: after the second uplink control information processing module sorts UCI of the X downlink carrier(s), perform channel coding for the UCI of the X downlink carrier(s) according to the preset number of bits generated by channel coding the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to a base station. Embodiment 25. The user equipment according to embodiment 24, wherein the second uplink control information processing module comprises:a fourth sorting unit, configured to sort UCI of the X downlink carrier(s) according to an activation sequence of the downlink carriers. Embodiment 26. The user equipment according to embodiment 24, wherein the second uplink control information processing module comprises:a fifth sorting unit, configured to: when the UCI of the X downlink carrier(s) and a scheduling request SR are reported on the same subframe, first arrange the SR, and then arrange the UCI in the X downlink carrier(s) after the SR according to an activation sequence of the downlink carriers. Embodiment 27. The user equipment according to embodiment 25 or 26, wherein when the UCI in the X downlink carrier(s) is sorted according to the activation sequence of the downlink carriers, if multiple downlink carriers of X downlink carrier(s)are activated at the same time, the UCI of the multiple downlink carriers activated at the same time is sorted according to attributes of the downlink carriers, and the attributes of the downlink carriers are carrier indexes or carrier frequencies. Embodiment 28. Abase station, comprising: a first module for acquiring the number of UCI modulation symbols, configured to calculate the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: a downlink component carrier set of a user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding, configured to: after the first module for acquiring the number of UCI modulation symbols obtains the number of modulation symbols occupied by UCI, extract UCI transmitted by the user equipment according to the number of modulation symbols occupied by the UCI, and calculate the number of bits generated by channel coding corresponding to the transmitted UCI; and a first UCI determination module, configured to: after the first module for acquiring the number of bits after UCI channel coding obtains the number of bits generated by channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits generated by channel coding corresponding to the transmitted UCI, and determine UCI corresponding to each downlink carrier according to a preset sorting rule. Embodiment 29. The base station according to embodiment 28, wherein the first module for acquiring the number of UCI modulation symbols comprises:a first CSI modulation symbol number acquisition unit, configured to: when the UCI is channel state information, CSI, calculate the number of modulation symbols occupied by the CSI, according to the first carrier set, the CSI configuration configured by higher layers and whether aperiodic the CSI is reported. Embodiment 30. The base station according to embodiment 28, wherein the preset sorting rule comprises one of the following rules: performing sorting according to an increasing order of attributes of downlink carriers corresponding to the UCI of the downlink carriers, wherein the attributes of the downlink carriers are carrier indexes or carrier frequencies;performing sorting according to a decreasing order of attributes of downlink carriers corresponding to the UCI of the downlink carriers, wherein the attributes of the downlink carrier(s) are carrier indexes or carrier frequencies;performing sorting according to an activation sequence of the downlink carriers. Embodiment 31. The base station according to embodiment 30, wherein when the preset sorting rule is performing sorting according to the activation sequence of the downlink carriers, if multiple downlink carriers are activated at the same time, the UCI of the multiple downlink carriers activated at the same time is sorted according to the increasing or decreasing order of the attributes of the downlink carriers, and the attributes of the downlink carriers are carrier indexes or carrier frequencies. Embodiment 32. A system for transmitting uplink control information, comprising: a user equipment and a base station, whereinthe user equipment comprises: a first uplink control information processing module, configured to sort UCI of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, the X downlink carrier(s) belong to a downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carrier(s) belongs to a downlink activated carrier set of the user equipment; a first module for acquiring the number of modulation symbols, configured to calculate the number of modulation symbols occupied by the UCI of the user equipment according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, a maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment; a first module for acquiring the number of bits after channel coding, configured to: after the first module for acquiring the number of modulation symbols obtains the number of modulation symbols occupied by the UCI of the user equipment, calculate the number of bits generated by channel coding the UCI of the user equipment according to the number of modulation symbols occupied by theUCI of the user equipment; and a first coding and transmission module, configured to: after the first module for acquiring the number of bits after channel coding obtains the number of bitsgenerated by channel coding the UCI of the user equipment, perform channel coding for the sorted UCI of the X downlink carrier(s) according to the number of bits after channel coding of the UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to the base station; the base station comprises: a first module for acquiring the number of UCI modulation symbols, configured to calculate the number of modulation symbols occupied by uplink control information, UCI, according to a first carrier set, wherein the first carrier set is one of the following sets: the downlink component carrier set of the user equipment, the maximum downlink carrier set supportable by the user equipment, and a smaller one of the downlink component carrier set of the user equipment and the maximum downlink carrier set supportable by the user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers; a first module for acquiring the number of bits after UCI channel coding, configured to: after the first module for acquiring the number of UCI modulation symbols obtains the number of modulation symbols occupied by the UCI, extract transmitted UCI by the user equipment according to the number of modulation symbols occupied by the UCI, and calculate the number of bits generated by channel coding corresponding to the transmitted UCI; and a first UCI determination module, configured to: after the first module for acquiring the number of bits generated by UCI channel coding obtains the number of bits after channel coding corresponding to the transmitted UCI, perform channel decoding on the transmitted UCI according to the number of bits after channel coding corresponding to the transmitted UCI, and determine the transmitted UCI corresponding to each downlink carrier according to a preset sorting rule. Embodiment 33. A system for transmitting uplink control information, comprising: a user equipment and a base station, whereinthe user equipment comprises: a second uplink control information processing module, configured to sort uplink control information, UCI, of X downlink carrier(s) according to a preset sorting rule, wherein X is a positive integer, and the X downlink carrier(s) belong to a downlink activated carrier set of the user equipment; and a second coding and transmission module, configured to: after the second uplink control information processing module sorts the UCI in the X downlink carrier(s), perform channel coding for the sorted UCI of the X downlink carrier(s) according to the preset number of bits after channel coding of UCI of the user equipment, map the channel coded UCI of the X downlink carrier(s) to a physical channel and transmit the mapped UCI of the X downlink carrier(s) to the base station; the base station comprises:a second UCI determination module, configured to perform detection on transmitted UCI by the user equipment according to the preset number of bits generated by channel coding corresponding to the UCI, and determine the UCI corresponding to each downlink carrier according to a preset sorting rule.

权利要求:
Claims (8)
[0001] A method for transmitting uplink control information, comprising:
sorting (401), by a user equipment, acknowledgment/negative acknowledgement, ACK/NACK, of X downlink carriers according to carrier index of each of the X downlink carriers;
wherein X is a positive integer, the X downlink carriers belong to a downlink component carrier set of the user equipment, the X downlink carriers are all downlink carriers of the downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carriers belongs to a downlink activated carrier set of the user equipment, wherein the downlink activated carrier set of the user equipment is a sub-set of the downlink component carrier set of the user equipment;
calculating (402), by the user equipment, the number of modulation symbols occupied by the ACK/NACK according to the downlink component carrier set of the user equipment;
calculating (403), by the user equipment, the number of bits for channel coding the ACK/NACK according to the number of modulation symbols occupied by the ACK/NACK; and
performing (404), by the user equipment, the channel coding for the sorted ACKs/NACKs of the X downlink carriers according to the number of bits for channel coding the ACK/NACK, mapping the channel coded ACK/NACK of the X downlink carriers to a physical channel and transmitting the mapped ACK/NACK of the X downlink carriers to a base station.
[0002] The method according to claim 1, sorting (401), by the user equipment, the ACK/NACK of the X downlink carriers according to the carrier index of each of the X downlink carriers comprises:sorting, by the user equipment, the ACK/NACK of the X downlink carriers according to an increasing order of carrier indexes of downlink carriers corresponding to the ACK/NACK of the downlink carriers.
[0003] A method for receiving uplink control information, comprising:
calculating (405) the number of modulation symbols occupied by acknowledgment/negative acknowledgement, ACK/NACK , according to a downlink component carrier set of a user equipment, and the downlink component carrier set of the user equipment comprises at least two downlink component carriers;
extracting (406) ACK/NACK transmitted by the user equipment according to the number of modulation symbols occupied by the ACK/NACK, and calculating the number of bits for channel coding corresponding to the transmitted ACK/NACK; and
performing (407) channel decoding on the transmitted ACK/NACK according to the number of bits for channel coding corresponding to the transmitted ACK/NACK, and determining ACK/NACK corresponding to each downlink carrier according to carrier index of each of X downlink carriers;
wherein X is a positive integer, the X downlink carriers belong to the downlink component carrier set of the user equipment, the X downlink carriers are all downlink carriers of the downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carriers belongs to a downlink activated carrier set of the user equipment, wherein the downlink activated carrier set of the user equipment is a sub-set of the downlink component carrier set of the user equipment.
[0004] The method according to claim 3, wherein determining ACK/NACK corresponding to each downlink carrier according to carrier index of each of X downlink carriers comprises:determining ACK/NACK corresponding to each downlink carrier according to according to an increasing order of the carrier index of each of the X downlink carriers.
[0005] A user equipment, comprising:
a first uplink control information processing module (1001), configured to sort acknowledgment/negative acknowledgement, ACK/NACK, of X downlink carriers according to carrier index of each of the X downlink carriers, wherein X is a positive integer, the X downlink carriers belong to a downlink component carrier set of the user equipment, the X downlink carriers are all downlink carriers of the downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carriers belongs to a downlink activated carrier set of the user equipment, wherein the downlink activated carrier set of the user equipment is a sub-set of the downlink component carrier set of the user equipment;
a first module for acquiring the number of modulation symbols (1002), configured to calculate the number of modulation symbols occupied by the ACK/NACK according to the downlink component carrier set of the user equipment;
a first module for acquiring the number of bits after channel coding (1003), configured to: after the first module for acquiring the number of modulation symbols (1002) obtains the number of modulation symbols occupied by the ACK/NACK, calculate the number of bits for channel coding the ACK/NACK according to the number of modulation symbols occupied by the ACK/NACK;
a first coding and transmission module (1004), configured to: after the first module for acquiring the number of bits after channel coding (1003) obtains the number of bits for channel coding the ACK/NACK, perform the channel coding for the sorted ACKs/NACKs of the X downlink carriers according to the number of bits for channel coding the ACK/NACK, map the channel coded ACK/NACK of the X downlink carriers to a physical channel and transmit the mapped ACK/NACK of the X downlink carriers to a base station.
[0006] The user equipment according to claim 5, wherein the first uplink control information processing module (1001) comprises:a first sorting module, configured to sort ACK/NACK of the X downlink carriers according to an increasing order of carrier indexes of downlink carriers corresponding to the ACK/NACK of the downlink carriers.
[0007] Abase station, comprising:
a first module for acquiring the number of acknowledgment/negative acknowledgement, ACK/NACK , modulation symbols (1201), configured to calculate the number of modulation symbols occupied by ACK/NACK according to a downlink component carrier set of a user equipment and the downlink component carrier set of the user equipment comprises at least two downlink component carriers;
a first module for acquiring the number of bits after ACK/NACK channel coding (1202), configured to: after the first module for acquiring the number of ACK/NACK modulation symbols (1201) obtains the number of modulation symbols occupied by ACK/NACK, extract ACK/NACK transmitted by the user equipment according to the number of modulation symbols occupied by the ACK/NACK, and calculate the number of bits for channel coding corresponding to the transmitted ACK/NACK; and
a first UCI determination module (1203), configured to: after the first module for acquiring the number of bits after ACK/NACK channel coding (1202) obtains the number of bits for channel coding corresponding to the transmitted ACK/NACK, perform channel decoding on the transmitted ACK/NACK according to the number of bits for channel coding corresponding to the transmitted ACK/NACK, and determine ACK/NACK corresponding to each downlink carrier according to carrier index of each of X downlink carriers;
wherein X is a positive integer, the X downlink carriers belong to the downlink component carrier set of the user equipment, the X downlink carriers are all downlink carriers of the downlink component carrier set of the user equipment, the downlink component carrier set of the user equipment comprises at least two downlink component carriers, and at least one downlink carrier in the X downlink carriers belongs to a downlink activated carrier set of the user equipment, wherein the downlink activated carrier set of the user equipment is a sub-set of the downlink component carrier set of the user equipment.
[0008] The base station according to claim 7, wherein a first UCI determination module (1203) specifically comprises:determining ACK/NACK corresponding to each downlink carrier according to according to an increasing order of the carrier index of each of the X downlink carriers.

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WO2011124129A1|2011-10-13|

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US20130028192A1|2013-01-31|

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BR112012025370A2|2016-06-28|

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EP2547023B1|2019-12-04|

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JP2013527658A|2013-06-27|

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CN102255696B|2016-03-30|

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