The present invention relates to the field of communications technologies, and in particular, to a method for feeding back uplink control information in a downlink multiple input multiple output (MIMO, Multiple Input Multiple Output) mode and a user equipment.
In MIMO mode, two power amplifiers (PA, Power Amplifier) of a base station are generally of a same specification. If it is expected that two PAs on a base station side both have appropriate work efficiency, it needs to be ensured that power of input signals that are input into the two PAs is balanced. However, in the MIMO mode and in a case in which multiple user equipments (UE, User Equipment) coexist in high speed downlink packet access (HSDPA, High Speed Downlink Packet Access), as shown in
As shown in
In the case of a MIMO single stream, before being multiplied by the unitary matrix, the two input signals are correlated, and therefore it cannot be ensured that the power of the two input signals is definitely equal after the two input signals are multiplied by the unitary matrix. Therefore, a single stream precoding matrix may be restricted, that is, a precoding matrix that is used to generate the two signals multiplied by the unitary matrix is selected, to ensure that only a specific precoding matrix is selected from multiple available precoding matrices, so that after being multiplied by the unitary matrix, the two input signals in use are equal in power, and then the PAs can achieve higher work efficiency. This method of restricting a single stream precoding vector is referred to as precoding weight set restriction (Precoding Weight Set Restriction). For example, the original number of available precoding matrices is 4; however, in a single stream precoding weight set restriction scenario, only two precoding matrices in them are available, because power of the two input signals that is obtained by multiplying the other two matrices by the two input signals is not always equal.
In downlink MIMO, a UE estimates a downlink channel, and feeds back a precoding control indicator (PCI, Precoding Control Indicator) and a channel quality indicator (CQI, Channel Quality Indicator) to a base station through an uplink high speed dedicated physical control channel (HS-DPCCH, HighSpeed-Dedicated Physical Control Channel), where the PCI and the CQI that are fed back to the base station by the UE include selection information of a MIMO single stream and that of MIMO dual streams. The base station determines, with reference to a condition of the base station and according to the PCI and the CQI that are fed back by the UE, whether to schedule the downlink MIMO dual streams or to schedule the downlink MIMO single stream at a next moment.
In an example in which the number of available precoding matrices is 4, when feeding back the PCI and the CQI, the UE performs joint encoding on the PCI and the CQI. First, a 2-bit PCI (PCI0 and PCI1) is obtained by mapping, and then an 8-bit type A (Type A) CQI (CQI0, CQI1, . . . , and CQI7) is obtained by mapping or a 5-bit type B (Type B) CQI (CQI0, CQI1, . . . , and CQI4) is obtained by mapping, and then joint encoding is performed on the two bits obtained by mapping for the PCI and on the eight bits obtained by mapping for the Type A CQI, to obtain a joint encoding result, or joint encoding is performed on the two bits obtained by mapping for the PCI and on the five bits obtained by mapping for the Type B CQI, to obtain a joint encoding result.
When applied in the precoding weight set restriction scenario, the foregoing feedback process is poor in performance, because in the precoding weight set restriction scenario, the number of precoding matrices is further restricted, and if an existing PCI feedback mechanism is still used, PCI feedback is wasted. Therefore, there is not yet a related solution about how a UE feeds back a PCI and a CQI to a base station based on an encoding mode of precoding weight set restriction.
Embodiments of the present invention provide a method for feeding back uplink control information in a downlink MIMO mode and a user equipment, which are used to implement that a UE feeds back control information to a base station, are applicable to a precoding weight set restriction application scenario, and reduce transmit power of the UE while ensuring HS-DPCCH receive performance of the base station.
According to one aspect, an embodiment of the present invention provides a method for feeding back uplink control information in a downlink MIMO mode, including:
generating, by a user equipment UE, 1-bit precoding control indicator PCI information, where the PCI information is used to indicate a precoding matrix selected by the UE from two available precoding matrices in a precoding codebook;
generating, by the UE, channel quality indicator CQI information, where the CQI information is 8-bit type A CQI information or 5-bit type B CQI information;
performing, by the UE, joint encoding on the PCI information and the CQI information, to obtain a joint encoding result; and
feeding back, by the UE, the joint encoding result to a base station through an uplink high speed dedicated physical control channel HS-DPCCH.
According to another aspect, an embodiment of the present invention provides a user equipment, including:
a first generating unit, configured to generate 1-bit precoding control indicator PCI information, where the PCI information is used to indicate a precoding matrix selected by the UE from two available precoding matrices in a precoding codebook;
a second generating unit, configured to generate channel quality indicator CQI information, where the CQI information is 8-bit type A CQI information or 5-bit type B CQI information;
an encoding unit, configured to perform joint encoding on the PCI information and the CQI information, to obtain a joint encoding result; and
a feedback unit, configured to feed back the joint encoding result to a base station through an uplink high speed dedicated physical control channel HS-DPCCH.
It can be seen from the foregoing technical solutions that, the embodiments of the present invention have the following advantages:
In the embodiments of the present invention, a UE generates 1-bit PCI information, where the PCI information indicates a precoding matrix selected by the UE from two available precoding matrices. In a case in which precoding weight set restriction is considered, selection of the precoding vector in the precoding matrices is restricted; therefore, according to the embodiments of the present invention, it can be implemented that the UE feeds back control information to a base station based on an encoding mode of precoding weight set restriction, only if 1-bit PCI information is generated. Therefore, transmit power of the UE is reduced while ensuring HS-DPCCH receive performance of the base station.
To describe technical solutions in embodiments of the present invention more clearly, the following briefly introduces accompanying drawings required for describing the embodiments. Apparently, the accompanying drawings in the following description show merely some embodiments of the present invention, and a person skilled in the art may still derive other drawings from these accompanying drawings.
Embodiments of the present invention provide a method for feeding back uplink control information in a downlink MIMO mode and a user equipment, which are used to implement that a UE feeds back control information to a base station, are applicable to a precoding weight set restriction application scenario, and reduce transmit power of the UE while ensuring HS-DPCCH receive performance of the base station.
To make the invention objectives, features, and advantages of the present invention clearer and more comprehensible, the following clearly describes the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Apparently, the embodiments described in the following are merely a part rather than all of the embodiments of the present invention. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention shall fall within the protection scope of the present invention.
A method for feeding back uplink control information in a downlink MIMO mode according to an embodiment of the present invention is shown in
201: A user equipment generates 1-bit precoding control indicator PCI information.
The PCI information is used to indicate a precoding matrix selected by the UE from two available precoding matrices in a precoding codebook.
In this embodiment of the present invention, the PCI information generated by the user equipment (UE, User Equipment) occupies one bit, and the UE may obtain a 1-bit precoding control indicator (PCI, Precoding Control Indicator) by means of binary mapping (Binary Mapping). The PCI information obtained by mapping in this embodiment of the present invention occupies one bit. In a case in which precoding weight set restriction is considered, selection of the precoding vector in the precoding matrices is restricted; therefore, in this embodiment of the present invention, it can be implemented that the UE feeds back control information to a base station based on an encoding mode of precoding weight set restriction, only if the PCI information generated by the user equipment occupies one bit. Therefore, receive performance of the base station is improved.
It should be noted that, in this embodiment of the present invention, step 201 may specifically include that: when the UE uses a single stream, the two available precoding matrices meet the following relationship: modulus values of two elements in a first vector that is obtained by multiplying a preset unitary matrix by each precoding matrix in the two available precoding matrices are equal; and when the UE uses dual streams, the two available precoding matrices meet the following relationship: the two available precoding matrices are both unitary matrices, or are both matrices that are obtained by multiplying unitary matrices by a same number.
Step 201 includes the following two implementation manners:
A1. When the UE uses a single stream, the precoding codebook specifically refers to a single stream precoding codebook, and the UE selects a precoding matrix from two available precoding matrices in the single stream precoding codebook, and maps the precoding matrix to obtain the 1-bit PCI information.
A2. When the UE uses dual streams, the precoding codebook specifically refers to a dual stream precoding codebook, and the UE selects a precoding matrix from two available precoding matrices in the dual stream precoding codebook, and maps the precoding matrix to obtain the 1-bit PCI information.
It should be noted that, the foregoing implementation manners are two implementation manners that are differentiated according to whether a single stream or dual streams need to be used by the UE in feedback to the base station; the single stream precoding codebook includes multiple precoding matrices, from which the UE may select a precoding matrix, and then obtain the generated 1-bit PCI information by performing mapping; and the dual stream precoding codebook includes multiple precoding matrices, from which the UE may select a precoding matrix, and then obtain the generated 1-bit PCI information by performing mapping.
For step A1, if the UE uses a single stream, two precoding vectors in a single stream precoding codebook meet the following relationship: a first vector is obtained by multiplying a preset unitary matrix by each precoding matrix in the two available precoding matrices, where the modulus values of the two elements in the first vector are equal.
For example, the single stream precoding codebook is
where when w1 and w2 take different values, different precoding matrices can be obtained. Assuming that the preset unitary matrix is B, where B may take a value as follows:
w1 and w2 in the single stream precoding codebook
may take values as follows:
and a value of w2 is one of the following four cases:
That is, the single stream precoding codebook is
and in the single stream precoding codebook, there are two available precoding matrices
meeting the following condition: modulus values of two elements in the first vector that is obtained by multiplying the unitary matrix B by a precoding matrix are equal, where because
it can be seen that a modulus value of
is equal to a modulus value of
In the case in which the UE uses a single stream, the two available precoding matrices in the single stream precoding codebook specifically are:
If the precoding vector selected by the UE is
the PCI information is represented by 0, or if the precoding vector selected by the UE is
the PCI information is represented by 1; or if the precoding vector selected by the UE is
the PCI information is represented by 1, or if the precoding vector selected by the UE is
the PCI information is represented by 0. In this case, w1 and w2 may take values as follows:
In an actual application, specifically, w2 being mapped to 0 may be represented by
and w2 being mapped to 1 may be represented by
or w2 being mapped to 1 may be represented by
and w2 being mapped to 0 may be represented by
That is, a mapping manner of w2 when the UE uses a single stream may be shown in the following Table 1:
It should be noted that, in the case in which the UE uses a single stream, when precoding weight set restriction is considered, to ensure that power of input signals that are input by the UE into two power amplifiers (PA, Power Amplifier) of the base station by using a primary antenna and a secondary antenna respectively is balanced, it is required that power obtained by multiplying the two available precoding matrices selected by the UE from single stream precoding matrices by the unitary matrix is equal. It is assumed that the two available precoding matrices selected from multiple precoding matrices in the single stream precoding codebook are
and the preset unitary matrix is B, where w1 is a preset fixed value, and
that is, w2 takes only two values, and needs to be represented by only one bit. Then, the power obtained by multiplying the unitary matrix by precoding vectors obtained when w2 takes two different values is equal. However, value assignment to w1 and w2 herein is merely a feasible manner, and is not intended to limit the present invention. Certainly, according to the implementation manners of the present invention, other values may also be assigned to the unitary matrix and the precoding matrices, which is not limited herein.
For step A2, if the UE uses dual streams, the two available precoding matrices in the dual stream precoding codebook meet the following condition: the two available precoding matrices in the dual stream precoding codebook are both unitary matrices, or are both matrices that are obtained by multiplying unitary matrices by a same number.
For example, the dual stream precoding codebook is
where when w3, w4, w5, and w6 take different values, different precoding matrices can be obtained, w5 and w3 are equal and are both a preset fixed value, w6=−w4, and the two available precoding matrices in the dual stream precoding codebook that are obtained when w4 takes different values meet the following relationship: the two available precoding matrices are both unitary matrices, or the two available precoding matrices are both matrices that are obtained by multiplying unitary matrices by a same number.
It should be noted that, in the case in which the UE uses dual streams, the four precoding matrices (where the precoding matrices are unitary matrices or are obtained by multiplying unitary matrices by one value) all can meet the following condition: power of input signals that enter PAs is equal after the input signals are multiplied by a matrix B. The four precoding matrices in the case of a single stream are reduced to two available precoding matrices, because for one matrix B, only two in four vectors in the single stream precoding codebook can ensure that power of input signals that enter the PAs is equal after the input signals are multiplied by B, where the single stream precoding codebook is dedicated to the single stream. In the case of dual streams, the four precoding matrices all can meet the following condition: the power of the input signals that enter the PAs is equal after the input signals are multiplied by the matrix B. In this embodiment of the present invention, the four precoding matrices of the dual streams may be reduced to two, because either of two matrices such as
may be selected for feedback, for example, the former one is selected for feedback. If it is expected that the latter one is selected, a result that needs to be fed back can be obtained by feeding back the former matrix and exchanging PCIs of the two streams.
The power of the input signals that are input by the UE into the two power amplifiers of the base station by using the primary antenna and the secondary antenna respectively is balanced, and the two precoding matrices that are obtained by the UE from the dual stream precoding codebook meet the following condition: they are both unitary matrices, or are both matrices that are obtained by multiplying unitary matrices by a same number, that is, the two available precoding matrices in the dual stream precoding codebook are
where w5 and w3 are equal and are both a preset fixed value, w6=−w4, w4 takes only two values and only needs to be represented by only one bit, and a relationship that the two available precoding matrices
meet is as follows: either of the two matrices can be obtained by exchanging two columns of elements of the other matrix; that is, when the two available precoding matrices are to be fed back, it does not need to feed back both
and only one of them needs to be fed back, and when the other is required, the other may be obtained by exchanging the two columns of elements. In this case, w3 and w5 may take values as follows:
and a value of w4 may be any one of the following four cases: a first case:
a second case:
a third case:
and a fourth case:
That is, the dual stream precoding codebook is:
in the dual stream precoding codebook meet the following condition: the two precoding matrices are both unitary matrices or are both matrices that are obtained by multiplying unitary matrices by a same number. It can be seen that, in
one of the precoding matrices can be obtained by exchanging two columns of elements of the other precoding matrix; similarly, in
one of the precoding matrices can be obtained by exchanging two columns of elements of the other precoding matrix.
When the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1; or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0.
When the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1; or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0.
When the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1; or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0.
When the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1; or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0.
It should be noted that, value assignment to w4 and w4 herein is merely a feasible manner, and is not intended to limit the present invention. Certainly, according to the implementation manners of the present invention, other values may also be assigned to the unitary matrix and the precoding matrices, which is not limited herein.
As one of the implementation manners, a mapping manner of w4 in the case of dual streams may be shown in the following Table 2:
202: The UE generates channel quality indicator CQI information.
The CQI information is 8-bit type A CQI information or 5-bit type B CQI information.
In this embodiment of the present invention, channel quality indicator (CQI, Channel Quality Indicator) information generated by the UE is classified into two types: type A and type B, where CQI information of the type A occupies eight bits, and CQI information of the type B occupies five bits. For details about how to generate the CQI information, refer to implementation manners of the prior art, and details are not described herein again.
It should be noted that, in this embodiment of the present invention, for step 201 and step 202, step 201 may be performed before step 202; step 202 may be performed before step 201; or steps 201 and 202 may be performed at the same time. How to perform the steps may be determined with reference to an actual application scenario, and the embodiment herein is merely for description and poses no limitation.
203: The UE performs joint encoding on the PCI information and the CQI information, to obtain a joint encoding result.
In this embodiment of the present invention, after the UE generates the PCI information and the CQI information, the UE performs joint encoding on the PCI information and the CQI information, to obtain a joint encoding result. Specifically, after generating the 1-bit PCI information and the 8-bit type A CQI information, the UE may perform concatenation (Concatenation) on the PCI information and the type A CQI information and then perform joint encoding, to obtain a joint encoding result, where the joint encoding refers to concatenating the PCI and the CQI to obtain a new sequence, and then performing encoding to obtain a joint encoding result, to implement feedback to the base station.
It should be noted that, there may be multiple implementation manners for the UE to perform joint encoding; and in an actual application, when the CQI information is the 8-bit type A CQI information, the performing, by the UE, joint encoding on the PCI information and the CQI information, to obtain a joint encoding result may specifically include:
concatenating, by the UE, the PCI information and the CQI information to form a 9-bit sequence an, that is, concatenating, by the UE, the 1-bit PCI information and the 8-bit type A CQI information to form the 9-bit sequence an, where n=0, . . . , 8; and
calculating, by the UE, an ith joint encoding result bi in the following manner:
where Mi,S
It should be noted that, an is a sequence that is obtained by concatenating the 1-bit PCI information and the 8-bit type A CQI information, and has a total of nine bits; and Mi,S
0
1
2
3
4
5
6
7
8
9
10
For example, when i is 3 and Sn is 3, Mi,S
In addition, a maximum value of n is a sum of the number of bits occupied by the PCI information and the number of bits occupied by the type A CQI information, that is, the PCI occupies one bit, and the CQI occupies eight bits; and therefore a value of n ranges from 0 to 8.
In an actual application, when the CQI information is the 5-bit type B CQI information, the performing, by the UE, joint encoding on the PCI information and the CQI information, to obtain a joint encoding result may specifically include:
concatenating, by the UE, the PCI information and the CQI information to form a 6-bit sequence an, that is, concatenating, by the UE, the 1-bit PCI information and the 5-bit type B CQI information to form the 6-bit sequence an, where n=0, . . . , 5; and
calculating, by the UE, an ith joint encoding result ci in the following manner:
where Mi,T
It should be noted that, Mi,T
In addition, a maximum value of n is a sum of the number of bits occupied by the PCI information and the number of bits occupied by the CQI information, that is, the PCI information occupies one bit, and the CQI information occupies five bits; and therefore the value of n ranges from 0 to 5.
To more clearly describe an implementation procedure of step 201 to step 203 according to this embodiment of the present invention, refer to
where n=0, . . . , 8. Alternatively, the UE concatenates the 1-bit PCI information and the 5-bit type B CQI information to form the 6-bit sequence an, and the UE perform joint encoding on the PCI information and the type B CQI information, to obtain a second joint encoding result
where n=0, . . . , 5.
204: The UE feeds back the joint encoding result to a base station through an HS-DPCCH.
In this embodiment of the present invention, after the UE obtains the joint encoding result, the UE feeds back the joint encoding result to the base station through the HS-DPCCH. In this embodiment of the present invention, the PCI information used when the UE performs joint encoding only needs to occupy one bit, a problem that the number of bits of the PCI in the case of precoding weight set restriction is reduced is considered. Therefore, when receiving the joint encoding result according to the method provided by this embodiment of the present invention, the base station can achieve desirable receive performance.
In this embodiment of the present invention, a UE generates 1-bit PCI information, where the PCI information indicates a precoding matrix selected by the UE from two available precoding matrices. In a case in which precoding weight set restriction is considered, selection of the precoding vector in the precoding matrices is restricted; therefore, according to this embodiment of the present invention, it can be implemented by generating 1-bit PCI information that the UE feeds back control information to a base station based on an encoding mode of precoding weight set restriction. Therefore, transmit power of the UE is reduced while ensuring HS-DPCCH receive performance of the base station.
To more clearly describe a problem that receive performance of a base station can be improved in an embodiment of the present invention, relative to the prior art in which a case of precoding weight set restriction is not considered, the following uses one actual application example for a detailed description. An example in which a UE generates 5-bit type B CQI information is used. The UE generates 1-bit PCI information. Therefore, in this embodiment of the present invention, an encoding result that is obtained by the UE by performing joint encoding occupies six bits (an encoding mode provided by this embodiment of the present invention is referred to as (20,6) encoding), but in a same condition, an encoding result that is obtained by performing joint encoding according to an encoding mode (PCI information occupies two bits) of the prior art occupies seven bits (joint encoding performed according to the encoding mode of the prior art is referred to as (20,7) encoding), and it is assumed that a base station serving as a receive end knows two precoding matrices of a PCI that is possibly sent. As shown in
where T0=0,T1=1, T2=3,T3=4,T4=5, T5=10 It can be seen from
As shown in
where T0=0,T1=1,T2=3,T3=4,T4=5,T5=10 It can be seen from
The foregoing embodiments introduce a method for feeding back uplink control information in a downlink MIMO mode according to an embodiment of the present invention, and the following introduces a user equipment according to an embodiment of the present invention. As shown in
a first generating unit 601, configured to generate 1-bit precoding control indicator PCI information, where the PCI information is used to indicate a precoding matrix selected by the UE from two available precoding matrices in a precoding codebook;
a second generating unit 602, configured to generate channel quality indicator CQI information, where the CQI information is 8-bit type A CQI information or 5-bit type B CQI information;
an encoding unit 603, configured to perform joint encoding on the PCI information and the CQI information, to obtain a joint encoding result; and
a feedback unit 604, configured to feedback the joint encoding result to a base station through an uplink high speed dedicated physical control channel HS-DPCCH.
It should be noted that, for the first generating unit 601 provided by this embodiment of the present invention, a feasible manner is that, when the UE uses a single stream, the first generating unit 601 is specifically configured to generate the PCI information in a condition that the two available precoding matrices meet the following relationship:
modulus values of two elements in a first vector that is obtained by multiplying a preset unitary matrix by each precoding matrix in the two available precoding matrices are equal.
Specifically, if the precoding vector selected by the UE is
the PCI information is represented by 0, or if the precoding vector selected by the UE is
the PCI information is represented by 1; or
if the precoding vector selected by the UE is
the PCI information is represented by 1, or if the precoding vector selected by the UE is
the PCI information is represented by 0.
It should be noted that, for the first generating unit 601 provided by this embodiment of the present invention, another feasible manner is that, when the UE uses dual streams, the first generating unit is specifically configured to generate the PCI information in a condition that the two available precoding matrices meet the following relationship:
the two available precoding matrices are both unitary matrices, or are both matrices that are obtained by multiplying unitary matrices by a same number.
Specifically when the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1, or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0;
when the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1, or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0;
when the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1, or
if the precoding matrix selected by the UE is
the PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0;
when the two available precoding matrices are
if the precoding matrix selected by the UE is
the PCI information is represented by 0, or if the precoding matrix selected by the UE is
the PCI information is represented by 1, or
if the precoding matrix selected by the UE is the
PCI information is represented by 1, or if the precoding matrix selected by the UE is
the PCI information is represented by 0.
It should be noted that, for the encoding unit 603, a feasible manner is that, when the CQI information is the 8-bit type A CQI information, the encoding unit 603 is specifically configured to concatenate the PCI information and the CQI information to form a 9-bit sequence an, where n=0, . . . , 8, and calculate an ith joint encoding result bi in the following manner:
where Mi,S
Alternatively, when the CQI information is the 5-bit type B CQI information, the encoding unit 603 is specifically configured to concatenate the PCI information and the CQI information to form a 6-bit sequence an, where n=0, . . . , 5, and calculate an ith joint encoding result ci in the following manner:
where Mi,T
It should be noted that content such as information exchange between the modules/units of the apparatus and execution processes thereof is based on the same idea with the method embodiments of the present invention, and produces the same technical effects as the method embodiments of the present invention. For the specific content, refer to the description in the method embodiment of the present invention shown in
In this embodiment of the present invention, a first generating unit generates 1-bit PCI information, where the PCI information indicates a precoding matrix selected by a UE from two available precoding matrices. In a case in which precoding weight set restriction is considered, selection of the precoding vector in the precoding matrices is restricted; therefore, according to this embodiment of the present invention, it can be implemented by generating 1-bit PCI information that the UE feeds back control information to a base station based on an encoding mode of precoding weight set restriction. Therefore, receive performance of the base station is improved, and transmit power of the UE is reduced while ensuring HS-DPCCH receive performance of the base station.
In addition, an embodiment of the present invention further provides another user equipment. Referring to
the transceiver 702 is configured to feedback the joint encoding result to a base station through an uplink high speed dedicated physical control channel HS-DPCCH.
For functions executed by the processor 701 and the transceiver 702 and specific forms of the generated information, refer to the foregoing method embodiments, and details are not described herein again.
It should be noted that, the processor 701 provided by this embodiment of the present invention may be specifically implemented by using a logic integrated circuit.
A person of ordinary skill in the art may understand that all or a part of the steps of the methods in this embodiments may be implemented by a program instructing related hardware. The program may be stored in a computer readable storage medium. The storage medium may be a read-only memory, a magnetic disk, an optical disc, or the like.
The foregoing describes in detail a method for feeding back uplink control information in a downlink MIMO mode and a user equipment that are provided by the present invention. A person of ordinary skill in the art may make variations to the specific implementation manners and application range according to the idea of the embodiments of the present invention. In conclusion, content of this specification shall not be construed as a limitation on the present invention.
Number | Date | Country | Kind |
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201210263949.1 | Jul 2012 | CN | national |
This application is a continuation of International Application No. PCT/CN2013/074693, filed on Apr. 25, 2013, which claims priority to Chinese Patent Application No. 201210263949.1, filed on Jul. 27, 2012, both of which are hereby incorporated by reference in their entireties.
Number | Date | Country | |
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Parent | PCT/CN2013/074693 | Apr 2013 | US |
Child | 14549323 | US |