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`62103101
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`Title of Invention:
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`Codebook Subset Restriction Signaling
`
`First Named Inventor/Applicant Name:
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`Sebastian Faxer
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`Customer Number:
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`24112
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`Justin J. Leonard/Kristi Dunshee
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`Justin J. Leonard
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`Mattias
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`Frenne
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`Uppsala
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`Simon
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`George
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`Jongren
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`Sundbyberg
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`Niklas
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`Title of Invention
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`Codebook Subset Restriction Signaling
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`4015-9080 I P45698-US1
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`Date (YYYY-MM-DD)
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`2015-01-14
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`CODEBOOK SUBSET RESTRICTION SIGNALING
`
`Client Docket No. P45698-US1
`Attorney Docket No. 4015-9080
`
`BACKGROUND
`
`[0001]
`
`The use of multiple antennas at the transmitter and/or the receiver of a wireless
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`communication system can significantly boost the capacity and coverage of a wireless
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`communication system. Such MIMO systems can exploit the spatial dimension of the
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`communication channel. For example, several information-carrying signals can be sent in
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`parallel using the transmit antennas and still be separated by signal processing at the receiver.
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`By adapting the transmission to the current channel conditions, significant additional gains can
`
`be achieved. One form of adaptation is to dynamically, from one TTI to another, adjust the
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`number of simultaneously transmitted information streams carrying signals to what the channel
`
`can support. This is commonly referred to as (transmission) rank adaptation. Precoding is
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`another form of adaptation where the phases and amplitudes of the aforementioned signals are
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`adjusted to better fit the current channel properties. The signals form a vector-valued signal and
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`the adjustment can be thought of as multiplication by a precoder matrix. A common approach is
`
`to select the precoder matrix from a finite and indexed set, a so-called codebook. Such
`
`codebook-based precoding is an integral part of the L TE standard, as well as in many other
`
`wireless communication standards.
`
`[0002]
`
`Codebook based precoding can be regarded as a form of channel quantization. A
`
`typical approach (c.f. L TE and MIMO HSDPA) is to let the receiver recommend a suitable
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`precoder matrix to the transmitter by signaling the precoder matrix indicator (PMI) over a
`
`feedback link. To limit signaling overhead, it is generally important to keep the codebook size as
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`small as possible if the feedback link has a limited capacity. This however needs to be balanced
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`against the performance impact since with a larger codebook it is possible to better match the
`
`current channel conditions.
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`[0003]
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`For example, in the L TE downlink, the UE reports the PMI to the eNodeB either
`
`periodically on PUCCH or aperiodic on the PUSCH. The former is a rather narrow bit pipe
`
`where CSI feedback is reported in a semi-statically configured and periodic fashion. On the
`
`other hand, reporting on PUSCH is dynamically triggered as part of the uplink grant. Thus, the
`
`eNodeB can schedule CSI transmissions in a dynamic fashion. In contrast to the PUCCH where
`
`the number of physical bits is currently limited to 20, the reports on PUSCH can be considerably
`
`larger. Thus, for feedback on PUCCH a small codebook size is desirable to keep the signaling
`
`overhead down. However, for feedback on PUSCH a larger codebook size is desirable to
`
`increase performance, since the capacity on the feedback channel is not as limited in this case.
`
`[0004]
`
`The desired size of the codebook may also depend on the transmission scheme
`
`used. For example, a codebook used in MU-MIMO operation could benefit more from having a
`
`larger number of elements than a codebook used in SU-MIMO operation. In the former case, a
`
`large spatial resolution is important to allow for sufficient UE separation.
`
`[0005]
`
`A convenient way to support different codebook sizes is to use a large codebook with
`
`many elements by default and apply codebook subset restriction in the scenarios where a
`
`smaller codebook is beneficial. With codebook subset restriction, a subset of the precoders in
`
`the codebook is restricted so that the UE has a smaller set of possible precoders to choose
`
`from. This effectively reduces the size of the codebook implying that the search for the best PMI
`
`can be done on the smaller unrestricted set of precoders, thereby also reducing the UE
`
`computational requirements for this particular search. Typically, the eNodeB would signal the
`
`codebook subset restriction to the UE by means of a bitmap in an a dedicated message part of
`
`the Antennalnfo information element (see the RRC specification, TS 36.331 ), one bit for each
`
`precoder in the codebook, where a 1 would indicate that the precoder is restricted (meaning that
`
`the UE is not allowed to choose and report said precoder). Thus, for a codebook with N
`
`elements, a bitmap of length N would be used to signal the codebook subset restriction. This
`
`allows for full flexibility for the eNodeB to restrict every possible subset of the codebook. There
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`Attorney Docket No. 4015-9080
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`are thus zN possible codebook subset restriction configurations.For large antenna arrays with
`
`many antenna elements, the effective beams become narrow and a codebook containing many
`
`precoders is required for the intended coverage area. Furthermore, for two-dimensional antenna
`
`arrays, the codebook size increases quadratically since the precoders in the codebook need to
`
`span two dimensions, typically the horizontal and vertical domain. Thus, the codebook size (i.e.
`
`the total number of possible precoding matrices W) can be very large. Signaling a codebook
`
`subset restriction in the conventional way by means of a bitmap with one bit for every precoder
`
`can thus impose a large overhead, especially if the codebook subset restriction (CSR) is
`
`frequently updated or if there are many users served by the cell which each has to receive the
`
`CSR.
`
`SUMMARY
`
`[0006]
`
`One or more embodiments herein advantageously lower the signaling overhead
`
`imposed by transmitting a codebook subset restriction, while still allowing for flexibility in
`
`configuring different codebook subset restrictions.
`
`[0007]
`
`Embodiments herein therefore generally include methods to reduce the number of
`
`bits required for signaling a codebook subset restriction configuration to a UE. The methods in
`
`one or more of these embodiments do so by:
`
`Utilizing an explicit or implicit assumption about which sets of precoders are more likely
`
`to be restricted, and/or
`
`-
`
`Associating a group of precoders with a single codebook subset restriction bit.
`
`DETAILED DESCRIPTION
`
`[0008]
`
`According to the flowchart of Figure 1, a network node in a wireless communication
`
`network (e.g., an eNB in the network) signals a codebook subset restriction (CSR) configuration
`
`to a wireless communication device (e.g., a UE). The device then sends a channel state
`
`information (CSI) report back to the network. This CSI report suggests which of different
`
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`Client Docket No. P45698-US1
`Attorney Docket No. 4015-9080
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`possible precoders in a codebook the network should use for transmitting to the deivce, but the
`
`CSI report is restricted in the sense that there is a subset of precoders that cannot be reported
`
`by the device; that is, all precoders in the codebook cannot be selected and reported by the
`
`device. This restriction is defined by the signaled CSR configuration.
`
`[0009]
`
`In more detail, for a precoder codebook X, consisting of N precoders, there are zN
`
`possible codebook subset restriction configurations since each precoder can individually either
`
`be allowed or restricted (a restricted configuration is not allowed to be used). Each configuration
`
`can be represented by a bitmap of N bits, where each bit corresponds to a certain precoder and
`
`the value of the bit then indicates whether the precoder is restricted or not. If each of the zN
`
`configurations is equiprobable and independent, this is the optimal representation of a codebook
`
`subset restriction configuration with respect to the expected length (in bits) of the representation
`
`and it provides full flexibility.
`
`[001 0]
`
`However, embodiments herein recognize that, if certain configurations are more
`
`likely to be used than others, and/or if the restriction of one precoder is highly correlated to the
`
`restriction of another precoder, then this signaling leads to unnecessarily high signaling
`
`overhead. One or more embodiments herein include methods to reduce this signaling overhead;
`
`that is, reduce the number of bits required for signaling a codebook subset restriction
`
`configuration to a wireless communication device from the network. In some embodiments, for
`
`example, the methods utilize an implicit assumption about which sets of precoders are more
`
`likely to be restricted or which sets of precoders are likely to be jointly restricted.
`
`Method in A Network Node
`
`[0011]
`
`According to one embodiment shown in Figure 2, for example, a method is
`
`implemented by a network node (e.g., a base station) for signaling to a wireless communication
`
`device which precoders in a codebook are restricted from being used. For each of one or more
`
`groups of precoders in the codebook, the method includes identifying one or more reference
`
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`Client Docket No. P45698-US1
`Attorney Docket No. 4015-9080
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`configurations for the group (Block 110). Each reference configuration is one of different
`
`possible configurations that restrict different subgroups of precoders in the group from being
`
`used. One of the reference configurations for a group may be for instance whichever one of the
`
`different possible configurations has the maximum probability of being signaled, e.g., as
`
`predicted or estimated based on empirical observations or implicit assumptions. Regardless, the
`
`method further includes identifying, from the different possible configurations for the group, the
`
`actual configuration to be signaled for the group (Block 120).
`
`[0012]
`
`The method also includes generating signaling to indicate the actual configuration for
`
`the group (Block 130). This entails generating the signaling as a bit pattern whose length
`
`depends on (i) whether the actual configuration matches one of the one or more reference
`
`configurations; and/or (ii) which reference configuration the actual configuration matches. In
`
`some embodiments, for example, when the actual configuration matches any reference
`
`configuration, the bit pattern's length is shorter than when the actual configuration does not
`
`match any reference configuration. In other embodiments, when the actual configuration
`
`matches a particular one of multiple reference configurations, the bit pattern's length is shorter
`
`than when the actual configuration matches a different one of the reference configurations.
`
`Regardless, this process (Blocks 110-130) is repeated for each of one or more groups of
`
`precoders in the codebook (Blocks 100, 140, and 150). Finally, the method includes sending the
`
`generated signaling to the wireless communication device (Block 160).
`
`[0013]
`
`This approach may in some sense be viewed as a sort of compression algorithm for
`
`CSR signaling. Indeed, the approach advantageously reduces the signaling overhead when,
`
`over the course of a given time period, the overhead savings realized by signaling bit patterns
`
`with relatively shorter lengths outweighs the overhead costs imposed by signaling bit patterns
`
`with relatively longer lengths. Depending on the relative lengths of the bit patterns, then, the
`
`approach may for instance reduce signaling overhead when the one or more reference
`
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`Client Docket No. P45698-US1
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`configurations (or particular ones of the one or more reference configurations) are signaled
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`more often than not.
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`[0014]
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`In at least some embodiments, therefore, a reference configuration has a higher
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`likelihood or probability of being signaled than any other possible configurations that are not
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`reference configurations. For example, the one or more reference configurations for a group
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`may include whichever one(s) of the different possible configurations for the group have the
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`highest probability of being signaled. Different reference configurations that have different
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`probabilities of being signaled may be represented with bit patterns of different lengths, where
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`reference configurations with higher probabilities are represented with bit patterns of shorter
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`lengths. That is, certain configurations that are deemed more probable may be represented with
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`a fewer number of bits, while other configurations, that are deemed less probable to be used,
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`may be represented with a larger number of bits.
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`[0015]
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`In some embodiments, the one or more reference configurations may be predefined
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`to be particular one(s) of the possible configurations, e.g., based on an (implicit) assumption
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`that the particular configuration(s) have the highest probability of being signaled. For example,
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`an implicit assumption is made on how the network is likely to be configured. Hence, here
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`certain configurations are considered more likely than others but there are no actual probability
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`values estimated for the different configurations.
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`[0016]
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`In other embodiments, though, the network node determines signaling probabilities
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`of different configurations, e.g., based on empirical observations and compares those
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`probabilities to identify the configuration(s) with the highest probability. In one embodiment for
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`example signaling probabilities are estimated through logging of network data. Hence, here it
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`may be possible to estimate actual probabilities for the different configurations. In general,
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`therefore, the knowledge on "how likely" a certain configuration is may be obtained in many
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`ways.
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`[0017]
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`In some embodiments, only a single reference configuration is defined for a group. In
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`this case, the signaling is generated as a short bit pattern when the actual configuration
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`matches the reference configuration and as a long bit pattern when the actual configuration
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`does not match the reference configuration. Different long bit patterns in this regard are
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`respectively defined for signaling different configurations (other than the reference configuration,
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`for which the short bit pattern is defined for signaling). A long bit pattern of course has more bits
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`than a short bit pattern (e.g., N bits vs. 1 bit).
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`[0018]
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`In other embodiments, multiple reference configurations are defined for a group. In
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`this case, the signaling may be generated as bit patterns that have different lengths when the
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`actual configuration matches different reference configurations. These lengths may correspond
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`to how likely it is that the reference configurations will be signaled. The bit pattern's length may
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`be shortest when the actual configuration matches a particular one of the reference
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`configurations (e.g., the one with the maximum probability of being signaled), may be next
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`shortest when the actual configuration matches a different reference configuration (e.g., the one
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`with the next highest signaling probability), and may be longest when the actual configuration
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`does not match any of the reference configurations.
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`[0019]
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`In some embodiments, bit patterns signaling non-reference configurations are
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`encoded as a combination of a so-called "non-reference bit pattern" and a "bitmap." The non(cid:173)
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`reference bit pattern is defined for signaling that the actual configuration for the group does not
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`match any reference configuration for the group. The non-reference bit pattern may for instance
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`be the complement of a bit pattern defined for signaling a reference configuration. For example,
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`when only a single reference configuration is defined for a group, the bit pattern signaling that
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`reference configuration may simply be a single bit with a value of "1 ", whereas the non(cid:173)
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`reference bit pattern may be a single bit with a value of "0". Regardless, the bitmap portion of
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`the bit pattern comprises different bits respectively dedicated to indicating whether different
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`precoders in the group are restricted from being used.
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`[0020]
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`In at least some embodiments, the method is performed for only one group. This
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`single group in one embodiment includes all precoders in the codebook.
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`[0021]
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`In another embodiment, of course, the single group includes only a portion of the
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`precoders in the codebook, such that the signaling approach is adopted for only this portion,
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`while other signaling approaches (e.g., the conventional bitmap) is adopted for other portions.
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`[0022]
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`In other embodiments, the method is performed for multiple different groups that
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`respectively include different portions of the precoders in the codebook. In one such
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`embodiment, the signaling indicates the actual configurations for the groups in a defined order.
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`In one embodiment, the one or more reference configurations for any given group includes the
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`actual configuration, if any, signaled immediately before that of the given group (according to
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`the defined order).
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`[0023]
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`Consider a simple example with an arbitrary codebook of size N, where the single
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`group includes all N precoders. A certain configuration out of the zN possible codebook subset
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`restriction configurations for the single group is deemed more probable. This configuration is
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`represented by a single bit, '1 '. The other zN - 1 configurations are represented by a 'O',
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`followed by a bitmap of size N. One of the configurations is then represented by 1 bit, while the
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`other configurations are represented by N + 1 bits. Since the configuration represented by one
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`bit is more frequently signaled, according to the assumption, the average number of bits
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`required to convey the codebook subset restriction may be much less than N.
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`[0024]
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`However, if the assumption that one of the possible codebook subset restriction
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`configurations was more likely than the others was incorrect for the actual usage of codebook
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`subset restriction configurations, the average number of bits required to convey a codebook
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`subset restriction to a UE may be larger than N bits. One or more embodiments herein
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`therefore aim to choose the representations of the zN configurations well. Various methods may
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`represent the zN configurations differently depending on which sets of precoders are more likely
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`to be restricted.
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`[0025]
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`Consider for example embodiments where the codebook is defined for a multi-
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`dimensional (e.g., two-dimensional) antenna array. Such antenna arrays may be (partly)
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`described by the number of antenna columns corresponding to the horizontal dimension Mh, the
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`number of antenna rows corresponding to the vertical dimension Mv and the number of
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`dimensions corresponding to different polarizations MP The