nrPUSCHDMRSIndices
Description
returns a matrix containing demodulation reference signal (DM-RS) resource element (RE)
indices of a physical uplink shared channel (PUSCH), as defined in TS 38.211 Section
6.4.1.1.3 [1]. ind
= nrPUSCHDMRSIndices(carrier
,pusch
)carrier
specifies the carrier configuration parameters for a specific OFDM numerology.
pusch
specifies the PUSCH configuration parameters. The returned
indices are 1-based using linear indexing form.
specifies output formatting options by using one or more name-value pair arguments.
Unspecified options take default values.ind
= nrPUSCHDMRSIndices(carrier
,pusch
,Name,Value
)
Examples
Generate PUSCH DM-RS Indices for Codebook-Based Transmission
Create a carrier configuration object with default properties. This object corresponds to a 10 MHz carrier with 15 kHz subcarrier spacing.
carrier = nrCarrierConfig;
Create a physical uplink shared channel (PUSCH) configuration object with specified properties. When transform precoding is set to 0, the waveform type is cyclic-prefix orthogonal frequency division multiplexing (CP-OFDM).
pusch = nrPUSCHConfig;
pusch.TransformPrecoding = 0;
pusch.TransmissionScheme = 'codebook';
pusch.NumAntennaPorts = 4;
pusch.TPMI = 0;
Configure PUSCH demodulation reference signal (DM-RS) object with specified parameters.
pusch.DMRS.DMRSAdditionalPosition = 2; pusch.DMRS.DMRSTypeAPosition = 2; pusch.DMRS.DMRSPortSet = 3; pusch.DMRS.NIDNSCID = 15; pusch.DMRS.NSCID = 1;
Generate DM-RS indices associated to PUSCH of subscript indexing form.
ind = nrPUSCHDMRSIndices(carrier,pusch,'IndexStyle','subscript')
ind = 3744x3 uint32 matrix
2 3 1
4 3 1
6 3 1
8 3 1
10 3 1
12 3 1
14 3 1
16 3 1
18 3 1
20 3 1
⋮
Generate PUSCH DM-RS Symbols and Indices
Create a carrier configuration with 30 kHz subcarrier spacing and 5 MHz transmission bandwidth.
carrier = nrCarrierConfig; carrier.SubcarrierSpacing = 30; carrier.NSizeGrid = 11;
Create a physical uplink shared channel (PUSCH) configuration object with specified properties. When transform precoding is set to 1, the waveform type is discrete fourier transform spread orthogonal frequency division multiplexing (DFT-s-OFDM).
pusch = nrPUSCHConfig;
pusch.NSizeBWP = 9;
pusch.NStartBWP = 1;
pusch.PRBSet = 0:3;
pusch.TransformPrecoding = 1;
pusch.FrequencyHopping = 'intraSlot';
pusch.SecondHopStartPRB = 5;
Create a PUSCH demodulation reference signal (DM-RS) object with specified properties.
dmrs = nrPUSCHDMRSConfig; dmrs.DMRSAdditionalPosition = 1; dmrs.DMRSTypeAPosition = 2; dmrs.DMRSPortSet = 3; dmrs.GroupHopping = 1; dmrs.SequenceHopping = 0; dmrs.NRSID = 10;
Assign the PUSCH DM-RS configuration object to DMRS property of PUSCH configuration object.
pusch.DMRS = dmrs;
Generate PUSCH DM-RS symbols and indices for the specified carrier, PUSCH configuration, and output formatting name-value
pair argument.
sym = nrPUSCHDMRS(carrier,pusch,'OutputDataType','single')
sym = 96x1 single column vector
-0.7071 - 0.7071i
-0.7071 - 0.7071i
-0.7071 - 0.7071i
0.7071 - 0.7071i
-0.7071 - 0.7071i
-0.7071 - 0.7071i
-0.7071 - 0.7071i
0.7071 - 0.7071i
0.7071 + 0.7071i
-0.7071 + 0.7071i
⋮
ind = nrPUSCHDMRSIndices(carrier,pusch,'IndexBase','0based','IndexOrientation','bwp')
ind = 96x1 uint32 column vector
217
219
221
223
225
227
229
231
233
235
⋮
Create a bandwidth part (BWP) grid, and then map the DM-RS symbols on the grid.
bwp = complex(zeros([pusch.NSizeBWP*12 carrier.SymbolsPerSlot pusch.NumLayers]));
bwp(ind+1) = sym; % Map the DM-RS symbols
Map the BWP to the carrier resource grid, and then display the carrier grid.
grid = complex(zeros([carrier.NSizeGrid*12 carrier.SymbolsPerSlot pusch.NumLayers])); % Create carrier resource grid offset = pusch.NStartBWP-carrier.NStartGrid; % BWP start location in the carrier grid grid(offset*12+1:(offset+pusch.NSizeBWP)*12,:,:) = bwp; imagesc(abs(grid(:,:,1))); axis xy; xlabel('OFDM Symbols'); ylabel('Subcarriers'); title('PUSCH DM-RS Resource Elements in the Carrier Resource Grid');
Input Arguments
carrier
— Carrier configuration parameters
nrCarrierConfig
object
Carrier configuration parameters for a specific OFDM numerology, specified as an nrCarrierConfig
object. This function uses only these properties of the nrCarrierConfig
object.
pusch
— PUSCH configuration parameters
nrPUSCHConfig
object
PUSCH configuration parameters, specified as an nrPUSCHConfig
object. This
function uses only these properties of the nrPUSCHConfig
object.
For
operation with shared spectrum channel access for frequency range 1 (FR1), set the Interlacing
property to true
, then use the
RBSetIndex
and InterlaceIndex
object properties to specify the allocated frequency
resources. (since R2023b)
Name-Value Arguments
Specify optional pairs of arguments as
Name1=Value1,...,NameN=ValueN
, where Name
is
the argument name and Value
is the corresponding value.
Name-value arguments must appear after other arguments, but the order of the
pairs does not matter.
Before R2021a, use commas to separate each name and value, and enclose
Name
in quotes.
Example: 'IndexStyle','subscript','IndexBase','0based'
specifies
nondefault resource element index formatting properties.
IndexStyle
— RE indexing form
'index'
(default) | 'subscript'
RE indexing form, specified as one of these values:
'index'
— The indices are in linear index form.'subscript'
— The indices are in [subcarrier, symbol, antenna] subscript row form.
Data Types: char
| string
IndexBase
— RE indexing base
'1based'
(default) | '0based'
RE indexing base, specified as one of these values:
'1based'
— The index counting starts from 1.'0based'
— The index counting starts from 0.
Data Types: char
| string
IndexOrientation
— Indexing orientation of resource elements
'carrier'
(default) | 'bwp'
Indexing orientation of resource elements, specified as the comma-separated pair
consisting of 'IndexOrientation'
and one of these values:
'carrier'
— Indices are referenced with respect to the carrier grid.'bwp'
— Indices are referenced with respect to the bandwidth part.
Data Types: char
| string
Output Arguments
ind
— DM-RS resource element indices
N-by-P matrix | M-by-3 matrix
DM-RS resource element indices, returned as one of these values:
N-by-P matrix — The function returns this type of value when
'IndexStyle'
is set to'index'
. The number of columns depends on theTransmissionScheme
property ofnrPUSCHConfig
object and returned as one these values.Number of transmission layers — When the transmission scheme is non-codebook
Number of antenna ports configured — When the transmission scheme is codebook
M-by-3 matrix — The function returns this type of value when
'IndexStyle'
is set to'subscript'
. The matrix rows correspond to the [subcarrier, symbol, antenna] subscripts based on the number of subcarriers, OFDM symbols, and number of antennas, respectively.
Depending on the value of 'IndexBase'
, the function returns
either 1-based or 0-based indices. Depending on the value of
'IndexOrientation'
, the function returns either carrier oriented
indices or BWP oriented indices.
Data Types: uint32
References
[1] 3GPP TS 38.211. “NR; Physical channels and modulation.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network.
Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using MATLAB® Coder™.
Version History
Introduced in R2020aR2023b: Configure intracell guard bands
Use the IntraCellGuardBands
object property of the carrier
input
to specify intracell guard bands.
R2023b: Support for release 16 interlacing for operation in unlicensed spectrum (NR-U)
Use the Interlacing
, RBSetIndex
, and InterlaceIndex
properties of the pusch
input
argument to configure interlaced PUSCH transmissions.
R2023a: C/C++ code generation updates
For C/C++ code generation, the limitation to specify name-value arguments as compile-time constants has been removed.
See Also
Functions
Objects
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