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Parameter Field Names

Find names of fields to populate parameter structures

List of Structure Field Names

An alphabetical list of all field names used within the LTE System Toolbox™ functions, their descriptions, their valid values, default values, and in which functions they are used is shown in the following table.

Field nameUsed by FunctionsValuesDescription
AlphalteSRS 

Reference signal cyclic shift (alpha)

lteSRS, ltePUCCH1, ltePUCCH1DRS, ltePUCCH2, ltePUCCH2DRS 

A row vector, containing the reference signal cyclic shift (alpha) for each OFDM symbol

ltePUSCHDRS 

A two-column row vector, containing the reference signal cyclic shift (alpha) for each slot

BaseFreq  

Base (cell-specific) frequency domain starting position (k_0 bar), from which this UE-specific SRS is offset as a function of the UE-specific SRS Bandwidth value, B_SRS. UE-specific SRS configuration cannot result in a frequency domain starting position (k_0) lower than this, given the cell-specific SRS bandwidth configuration value, C_SRS.

BaseOffset  

Base timing offset, in microseconds, for detection test in TS 36.104 (duration of N_CS/2)

BetaACK 

numeric scalar, 2.0 (default)

Modulation and coding scheme (MCS) offset for HARQ-ACK bits. This field was previously named BetaHI; if this field is absent but BetaHI is present, it is used as before.

BetaCQI 

numeric scalar, 2.0 (default)

Modulation and coding scheme (MCS) offset for CQI and PMI bits

BetaHI  

Modulation and Coding Scheme (MCS) offset for HARQ-ACK bits.

Note

The field name BetaHI is deprecated and should be replaced with BetaACK.

BetaRI 

numeric scalar, 2.0 (default)

Modulation and coding scheme (MCS) offset for RI bits

BLKCRC  

Type-24A transport block CRC decoding error

Bout  

Total number of bits in all segments

BWlteSRS, lteSRSIndices, lteRMCUL, lteRMCULTool0…3

UE-specific SRS Bandwidth value (BSRS)

lteTestModelTool, lteTestModel 

Channel bandwidth to use when generating test model waveforms

BWConfig 0…7

Cell-specific SRS Bandwidth Configuration value (CSRS)

C  

Total number of code blocks

CarrierFreq  

Carrier frequency, in hertz

CBSBuffers  

Cell array of vectors representing the LLR soft buffer states for the set of code blocks associated with a single transport block. The buffers are positioned at the input to the turbo decoder, after explicit rate recovery.

CBSCRC  

Array of type-24B code block set CRC decoding results

CellOffset 0…9

Cell-specific sounding reference signal (SRS) offsets

CellPeriod 1, 2, 5, 10

Cell-specific sounding reference signal (SRS) periodicity, in milliseconds

CellRefPlteBCH1, 2, 4

Number of cell-specific reference signal (CRS) antenna ports

CellRS 'Off', 'OmitEdgeRBs', 'On'

Cell-specific reference signal (CRS) correlation mode

CellRSPower  

Cell-specific reference symbol power adjustment, in dB

CFI 

1, 2, or 3
Scalar or if the CFI varies per subframe, a vector of length 10 (corresponding to a frame).

Control format indicator (CFI) value. In TDD mode, CFI varies per subframe for the RMCs ('R.0', 'R.5', 'R.6', 'R.6-27RB', 'R.12-9RB')

ChannelFilterDelay  

The implementation delay of the internal channel filtering, in samples.

Cm  

Number of code blocks of size Km (C–)

CodebookIdx 0…15

Codebook index used during precoding

CodedTrBlkSizes  

Coded transport block sizes for one or two codewords. This parameter field is only for informational purposes.

ConfigIdxlteSRS, lteSRSIndices, lteRMCUL, lteRMCULTool0…636

Configuration index for UE-specific periodicity and subframe offset

ltePRACH, ltePRACHInfo0…63

PRACH Configuration Index (prach-ConfigurationIndex)

Cp  

Number of code blocks of size Kp (C+)

CSI 'Off', 'On'

Flag provides control over weighting the soft values that are used to determine the output values with the channel state information (CSI) calculated during the equalization process. If 'On', soft values are weighted by CSI.

CSIRefP 1, 2, 4, 8

Array of number of CSI-RS antenna ports

CSIRSConfig  

Array CSI-RS configuration indices. See TS 36.211, Table 6.10.5.2-1.

CSIRSPeriod 'On', 'Off', Icsi-rs, [Tcsi-rs Dcsi-rs]

CSI-RS subframe configurations for one or more CSI-RS resources. Multiple CSI-RS resources can be configured from a single common subframe configuration or from a cell array of configurations for each resource.

CyclicOffset  

For High Speed mode, cyclic shift or shifts corresponding to a Doppler Shift of 1/T_SEQ (d_u)

CyclicPrefixDownlink functions (lteBCH, lteBCHDecode))

'Normal' (default), 'Extended'

Cyclic prefix length

Uplink functions

'Normal' (default), 'Extended'

Cyclic prefix length in the downlink

CyclicPrefixULUplink functions

'Normal' (default), 'Extended'

Current cyclic prefix length

CyclicShiftltePUSCHDRS, lteRMCUL, lteRMCULTool, lteULFrameOffset0…7

Number of cyclic shifts used for PUSCH DM-RS (yields nDMRS(1)).

ltePRACH, ltePRACHInfo 

Cyclic shift or shifts of Zadoff-Chu sequence (C_v)

lteSRS, lteSRSIndices, lteRMCUL, lteRMCULTool0…7

UE-specific cyclic shift (nSRScs)

CyclicShiftIdx 0…15

Cyclic shift configuration index (zeroCorrelationZoneConfig, yields NCS)

CyclicShifts 0…7

Number of cyclic shifts used for format 1 in resource blocks (RBs) with a mixture of format 1 and format 2 PUCCH, specified as an integer from 0 to 7. (Ncs(1))

DCIFormat  

Downlink control information (DCI) format

DelayProfile 'EPA', 'EVA', 'ETU'

Delay profile model. For more information, see Propagation Channel Models.

DeltaOffset 0, 1, 2

(Δoffset). Warning: The use of this parameter field is not advised. It applies only to 3GPP releases preceding v8.5.0. This parameter will be removed in a future release.

DeltaShift 1, 2, 3

Delta shift, specified as 1, 2, or 3. (Δshift)

Dmin  

eNodeB to railway track distance, in meters

DopplerFreq  

Maximum Doppler frequency, in Hz.

Ds  

Ds/2 is initial distance between train and eNodeB, in meters

DuplexMode 

'FDD' (default), 'TDD'

Duplexing mode, specified as:

  • 'FDD' for Frequency Division Duplex or

  • 'TDD' for Time Division Duplex

DynCyclicShift 0…7

Cyclic shift for DM-RS (yields nDMRS(2)).

EV  

Normalized error vector

F  

Number of filler bits in first block

Fields  

A 1-by-4 vector of PRACH field lengths, [OFFSET T_CP T_SEQ GUARD], where T_CP and T_SEQ are the length of cyclic prefix and PRACH sequence in fundamental time periods (T_s), OFFSET is the number of fundamental time periods from the start of configured subframe to the start of the cyclic prefix (non-zero only for TDD special subframes), and GUARD is the number of fundamental time periods from the end of the PRACH sequence to the end of the number of subframes spanned by the PRACH

Format 0…4

Preamble format

FreqIdxltePRACH, ltePRACHDetect, ltePRACHInfo0…5

Frequency resource index (fRA). Only required for 'TDD' duplexing mode.

lteSRSIndices0…B_SRS

A vector specifying the frequency position index (n_b) for each b

FreqOffset 0…94

PRACH frequency offset (nPRBoffset). Only required for Preamble format 0–3.

FreqPosition 0…23

Frequency domain position (nRRC)

FreqStart  

Frequency domain starting position (k_0), the 0-based subcarrier index of the lowest SRS subcarrier

FreqWindow  

Size of window in resource elements used to average over frequency during channel estimation

GltePDSCHIndices 

A one- or two-element vector, specifying the number of coded and rate matched DL-SCH data bits for each codeword

ltePUSCHIndices, lteULSCH, lteULSCHInfo 

A one- or two-element vector, specifying the number of coded and rate matched UL-SCH data bits for each codeword

GdltePDSCHIndices 

Number of coded and rate matched DL-SCH data symbols, equal to the number of rows in the PDSCH indices

ltePUSCHIndices 

Number of coded and rate matched UL-SCH data symbols, equal to the number of rows in the PUSCH indices

lteULSCH, lteULSCHInfo 

Number of coded and rate matched UL-SCH data symbols

HighSpeed 0…1

High Speed flag (highSpeedFlag). A value of 1 signifies a restricted set. A value of 0 signifies an unrestricted set.

HoppingltePUCCH1, ltePUCCH2, ltePUCCH3'Off', 'Group'

Frequency hopping method.

ltePUSCH'Off', 'Group', 'Sequence'

Frequency hopping method

HoppingBW 0…3

SRS Frequency hopping configuration index (bhop)

HoppingOffset  

A vector specifying the offset term due to frequency hopping (F_b), used in calculation of n_b

InitCyclicPrefixUL 

'Normal', 'Extended', CyclicPrefixUL (default)

Cyclic prefix length of initial transmit subframe. This is the length used during the first transmission of this transport block. If this field is absent, its value is assumed to be the same as the value for the associated current subframe field, CyclicPrefixUL.

InitPRBSet 

1- or 2-column integer matrix, PRBSet (default)

PRB indices used in the initial transmission PUSCH allocation. If this field is absent, its value is assumed to be the same as the value for the associated current subframe field, PRBSet.

InitShortened 

0, 1, Shortened (default)

Initial transmit subframe shortened flag. If 1, the initial transmit subframe was shortened for possible SRS. If this field is absent, its value is assumed to be the same as the value for the associated current subframe field, Shortened.

InitTimelteFadingChannel 

Fading process time offset, in seconds

lteHSTChannel 

Doppler shift timing offset, in seconds

lteMovingChannel 

Fading process and timing adjustment offset, in seconds

InterpTypelteDLChannelEstimate, lteULChannelEstimate, lteULChannelEstimatePUCCH1, lteULChannelEstimatePUCCH2, lteULChannelEstimatePUCCH3'nearest', 'linear', 'natural', 'cubic', 'v4'

Type of 2-D interpolation used during interpolation. For details, see griddata. Supported choices are shown in the following table.

ValueDescription
'nearest'Nearest neighbor interpolation
'linear'Linear interpolation
'natural'Natural neighbor interpolation
'cubic'Cubic interpolation
'v4'MATLAB® 4 griddata method
'none'Disables interpolation

InterpWindow 'Causal', 'Non-causal', 'Centred'

Interpolation window type used during channel estimation. Options 'Centred' and 'Centered' are equivalent.

InterpWinSize  

Window size across which to interpolate. The interpolation window size is specified in number of subframes.

IsSRSSubframe  

This field is present only if the UE contains NSubframe. Value is 1 if NSubframe satisfies the equation:

mod(NSubframe,

CellPeriod)=CellOffset

Value is 0 otherwise.

k  

Subband size, in resource blocks (equal to NRB for wideband PMI reporting or transmission schemes without PMI reporting).

K  

Ratio of uplink data to PRACH subcarrier spacing (K)

Km  

Lower code block size (K–)

Kp  

Upper code block size (K+)

KTxComb  

Offset to the frequency domain starting position (k_TC), a function of the transmission comb parameter

L  

Number of segment cyclic redundancy check (CRC) bits

MacTxNumber 0…27

Number of the current MAC (re-)transmission, CURRENT_TX_NB

MaxPMIltePMIInfo 

Maximum permitted PMI value for the given configuration. Valid PMI values range from 0 to MaxPMI. For CSI reporting, when CSIRefP = 8, or for CSI reporting with the alternative codebook for four antennas,MaxPMI is a 2–element vector, indicating the maximum permissible values of i1 and i2, the first and second codebook indices. For transmission schemes without PMI reporting, MaxPMI = 0.

lteULPMIInfo 

Indicates the maximum permitted PMI value for the given configuration. Valid PMI values range from 0 to MaxPMI.

MIMOCorrelation 'Low', 'Medium', 'High'

Correlation between UE and eNodeB antennas

ModelTypelteFadingChannel'Dent', 'GMEDS'

Rayleigh fading model type

ModulationlteACKDecode, lteACKEncode

'QPSK', '16QAM', '64QAM', or '256QAM'

Modulation type, specified as a character vector or cell array of character vectors. If blocks, each cell is associated with a transport block.

 'QPSK', '16QAM', '64QAM'

Modulation scheme associated with one codeword

MovingScenario 'Scenario1', 'Scenario2'

Moving channel scenario

MTot  

Total number of bits associated with PDCCHs (8×NRE)

NAllocatedPDCCHREG  

Number of allocated PDCCH REGs as per Test Model number and BW

N1DMRS  

Component of the reference signal cyclic shift, signaled from higher layers (n1_DMRS)

N2DMRS  

Component of the reference signal cyclic shift, signaled from the most recent DCI format 0 message (n2_DMRS)

NBundledlteACKDecode, lteACKEncode

0 (default), 1, …, 9

TDD HARQ-ACK bundling scrambling sequence index. When set to 0, the function disables the TDD HARQ-ACK bundling scrambling. Therefore, it is off by default.

NCCE  

Number of control channel elements available for actual PDCCH usage

NCellCyclicShift  

A row vector, containing the cell-specific cyclic shift (ncell_cs) for each OFDM symbol

NCellID  

Physical layer cell identity

NCodewords 1, 2

Number of codewords

NCS  

Length of zero correlation zone, plus 1 (N_CS)

NDLRB 

Scalar integer from 6 to 110

Number of downlink resource blocks. (NRBDL)

NF4RachPreambles 0…27

Number of RACH preamble frequency resources of Format 4 in UpPTS

Nfft  

Number of fast Fourier transform (FFT) points

NFrame  

Frame number

Ng 'Sixth', 'Half', 'One', 'Two'

HICH group multiplier

Ngroups  

Number of PHICH groups

NHARQProcesses 1…8

Number of HARQ processes per component carrier

NIR  

Number of soft bits associated with transport block. Soft buffer size for entire input transport block

NL  

Number of layers used in rate matching calculation

NLayerslteDLSCH, lteDLSCHDecode, lteULSCH, lteULSCHDecode

1 (default), 2, 3, 4, 5, 6, 7, 8

Total number of transmission layers associated with the transport block or blocks.

Downlink modulation

1,…,8, depending on TxScheme

Number of transmission layers (downlink modulation)

Uplink modulation (lteACKDecode, lteACKEncode)

1 (default), 2, 3, 4

Number of transmission layers, total or per codeword

NMappingUnits  

Number of PHICH mapping units

NPHICH  

Number of individual PHICH available

NPRS  

A two-column row vector, containing the cell-specific component of the reference signal cyclic shift (n_PRS) for each slot

NPRSRB 0…NDLRB

Number of PRS physical resource blocks

NREltePCFICHInfo 

Number of resource elements (REs) assigned to PCFICH (4×NREG)

ltePDCCHInfo 

Total number of resource elements (REs) associated with PDCCHs (4×NREG)

ltePHICHInfo 

Number of resource elements (REs) assigned to all PHICH

lteULSCH, lteULSCHInfo 

Number of resource elements (REs) used for PUSCH transmission

NREGltePCFICHInfo 

Number of resource element groups (REGs) assigned to PCFICH

ltePDCCHInfo, ltePDCCHSpace 

Total number of resource element groups (REGs) associated with PDCCHs (4×NRE)

ltePHICHInfo 

Number of resource element groups assigned to all PHICH

NREGUsed  

Number of resource element groups (REGs) available for actual PDCCH usage

NResourceIdx  

A two-column row vector, containing the resource indices (n') for each slot

NREUsed  

Number of resource elements (REs) available for actual PDCCH usage

NRxAnts 1 or more

Number of receive antennas

NSCID 0, 1

Scrambling identity (ID)

NSequences  

Number of orthogonal sequences in each PHICH group

NSoftbits 

Nonnegative scalar integer (default 0)

Total number of soft buffer bits. The default setting of 0 signifies that there is no buffer limit.

NSRSTx  

Number of UE-specific SRS transmissions (n_SRS)

NSubbandsltePMIInfo, lteULPMIInfo 

Number of subbands for PMI reporting (equal to 1 for wideband PMI reporting) or transmission schemes without PMI reporting.

NSubframe  

Subframe number

NSymbolslteDuplexingInfo 

Total number of symbols in the subframe

ltePDCCHInfo 

Total number of OFDM symbols spanned by the PDCCH

NSymbolsDL  

Number of symbols used for transmission in the downlink (DL)

NSymbolsGuard  

Number of symbols in the guard period

NSymbolsUL  

Number of symbols used for transmission in the uplink (UL)

NSymbSlot  

A vector indicating the number of OFDM symbols in each slot ([N_SF,0_PUCCH N_SF,1_PUCCH])

NTerms power of 2

Number of oscillators used in fading path modeling

NTurboDecIts  

Number of turbo decoder iteration cycles

NTxAntslteDMRSIndices, ltePDSCHIndices0 or more

Number of transmission antenna ports. This argument is only present for UE-specific demodulation reference symbols.

Uplink modulation1. 2, 4

Number of transmission antennas.

NULRB  

Number of uplink resource blocks. (NRBUL)

NZCltePRACHDetect, ltePRACHInfo 

Zadoff-Chu sequence length (N_ZC)

ltePUSCHDRS, lteSRS 

Zadoff-Chu sequence length (NRS_ZC)

OACKlteACKDecode

nonnegative scalar integer, 0 (default)

Number of uncoded HARQ-ACK bits.

  

Number of uncoded symbols for ACK/NACK

OCQIlteCQIDecode

nonnegative scalar integer, 0 (default)

Number of uncoded channel quality information (CQI) bits

  

Number of coded channel quality information (CQI) symbols in UL-SCH

OCNG 'Disable', 'Enable'

OFDMA channel noise generator

OdACK  

Number of coded symbols for ACK/NACK (Q’_ACK)

OdCQI  

Number of coded symbols for CQI (Q’_CQI)

OdRI  

Number of coded symbols for RI (Q’_RI)

OffsetIdx 0…1

Choice of SRS Subframe Offset in the case of 2 ms SRS periodicity. This parameter indexes the two SRS Subframe Offset entries in the row specified by the ConfigIdx parameter in table 8.2-2 of TS 36.213 for the SRS Configuration Index.

ORI  

Number of uncoded symbols for RI

  

Number of uncoded RI bits

OrthCover 'On', 'Off'

Applies ('On'), or does not apply ('Off'), orthogonal cover sequence w (Activate-DMRS-with OCC).

OrthSeqltePUCCH1, ltePUCCH3 

A 4-by-2 matrix where each column contains the orthogonal sequence (w_n_oc) for each slot

ltePUCCH1DRS, ltePUCCH2DRS, ltePUCCH3DRS 

A two-column matrix where each column contains the orthogonal sequence (w bar) for each slot

ltePUSCHDRS 

A vector containing the orthogonal cover value (w) for each slot

OrthSeqIdxltePUCCH1, ltePUCCH3, ltePUCCH3DRS 

A two-column row vector, containing the orthogonal sequence index (n_oc) for each slot

ltePUCCH1DRS 

A two-column row vector, containing the orthogonal sequence index (n_oc bar) for each slot

PBCHPower  

PBCH symbol power adjustment, in dB

PCFICHPower  

PCFICH symbol power adjustment, in dB

PDCCHFormat 0, 1, 2, 3

PDCCH format

PDCCHPower  

PDCCH symbol power adjustment, in dB

PDSCH  

PDSCH transmission configuration substructure

PDSCHPowerBoosted  

PDSCH symbol power adjustment, in dB, for the boosted physical resource blocks (PRBs)

PDSCHPowerDeboosted  

PDSCH symbol power adjustment, in dB, for the de-boosted physical resource blocks (PRBs)

Peak  

Peak error vector magnitude (EVM), the largest single EVM value calculated across all input values

Phi  

Frequency domain location offset (phi)

PHICHDuration 'Normal', 'Extended'

PHICH duration

PilotAverage 'TestEVM', 'UserDefined'

Type of pilot averaging

PMI 0…23

Scalar precoder matrix indication (PMI) to be used during precoding

PMIMode 'Wideband', 'Subband'

PMI reporting mode. PMIMode='Wideband' corresponds to PUSCH reporting Mode 1-2 or PUCCH reporting Mode 1-1 (PUCCH Report Type 2) and PMIMode='Subband' corresponds to PUSCH reporting Mode 3-1.

PMISet 

Integer vector with element values from 0 to 15.

Precoder matrix indication (PMI) set. It can contain either a single value, corresponding to single PMI mode, or multiple values, corresponding to multiple or subband PMI mode. The number of values depends on CellRefP, transmission layers and TxScheme. For more information about setting PMI parameters, see ltePMIInfo.

Port  

Antenna port number used for transmission (p)

PRBSetDownlink modulation

Integer column vector or two-column matrix

Zero-based physical resource block (PRB) indices corresponding to the slot wise resource allocations for this PDSCH. PRBSet can be assigned as:

  • a column vector, the resource allocation is the same in both slots of the subframe,

  • a two-column matrix, this parameter specifies different PRBs for each slot in a subframe,

  • a cell array of length 10 (corresponding to a frame, if the allocated physical resource blocks vary across subframes).

PRBSet varies per subframe for the RMCs 'R.25'(TDD), 'R.26'(TDD), 'R.27'(TDD), 'R.43'(FDD), 'R.44', 'R.45', 'R.48', 'R.50', and 'R.51'.

Uplink modulation

Integer column vector or two-column matrix

0-based physical resource block indices (PRBs) for the slots of the current PUSCH resource allocation. As a column vector, the resource allocation is the same in both slots of the subframe. As a two-column matrix, it specifies different PRBs for each slot in a subframe.

ltePRACHInfo 

PRBs occupied by PRACH preamble (starts at n_PRB, 0-based)

lteSRSIndices 

A vector specifying the PRBs occupied by the indices in each slot of the subframe (0-based)

PreambleIdx 0…63

Preamble index within cell (ra-PreambleIndex)

PRSPeriod 'On', 'Off', Iprs, [Tprs Dprs]

Positioning reference signal (PRS) subframe configuration

PSS 'Off', 'On'

Primary synchronization signal (PSS) correlation mode

PSSPower  

Primary synchronization signal (PSS) symbol power adjustment, in dB

PUSCH  

PUSCH transmission configuration structure

PUSCHHopping 'Inter', 'InterAndIntra'

Uplink subframe hopping mode

PUSCHHoppingOffset 0…98

PUSCH hopping offset

QdACKlteACKEncode

nonnegative scalar integer

Number of coded HARQ-ACK symbols for ACK or NACK (Q’_ACK)

QdCQIlteCQIEncode

nonnegative scalar integer

Number of coded channel quality information (CQI) symbols (Q’_CQI)

QdRI  

Number of coded symbols for RI (Q’_RI)

Qm  

Bits per symbol variable used in rate matching calculation

  

Number of bits per symbol

RBIdx  

PUCCH logical resource block index (m)

RC  

Reference measurement channel (RMC) number or type, as specified in TS 36.101, Annex A.3.

  • 'R.31-3A' and 'R.31-4' are sustained data rate RMCs with user data in subframe 5.

  • 'R.6-27RB', 'R.12-9RB', and 'R.11-45RB' are custom RMCs configured for non-standard bandwidths that maintain the same code rate as the standardized versions defined in TS 36.101, Annex A.3.

ReferencelteDLChannelEstimate'DMRS', 'CSIRS'

Specifies point of reference (signals to internally generate) for channel estimation

lteULChannelEstimate, lteULPMISelect'Antennas', 'Layers', 'None'

Specifies point of reference (signals to internally generate)

ResourceIdxltePUCCH1, ltePUCCH1Decode, ltePUCCH1DRS, ltePUCCH1DRSIndices, ltePUCCH1Indices, lteULChannelEstimatePUCCH1, lteULFrameOffsetPUCCH10…2047

PUCCH resource indices, specified as an integer or a vector of integers. Values range from 0 to 2047. These indices determine the physical resource blocks, cyclic shift and orthogonal cover used for transmission. (nPUCCH(1)). Define one index for each transmission antenna.

ltePUCCH2, ltePUCCH2Decode, ltePUCCH2DRS, ltePUCCH2DRSDecode, ltePUCCH2DRSIndices, ltePUCCH2Indices, lteULChannelEstimatePUCCH2, lteULFrameOffsetPUCCH20…1185

PUCCH resource indices which determine the physical resource blocks, cyclic shift, and orthogonal cover used for transmission. (nPUCCH(2)). Define one index for each transmission antenna.

ltePUCCH3, ltePUCCH3Decode, ltePUCCH3DRS, ltePUCCH3DRSIndices, ltePUCCH3Indices, lteULChannelEstimatePUCCH3, lteULFrameOffsetPUCCH30…549

PUCCH resource indices which determine the physical resource blocks, cyclic shift, and orthogonal cover used for transmission (nPUCCH(3)). Define one index for each transmission antenna.

ResourceSize 0…63

Size of resource allocated to PUCCH format 2 (NRB(2))

Rho  

PDSCH resource element power allocation, in dB

RMS  

Root mean square (RMS) error vector magnitude (EVM), the square root of the mean square of the EVM across all input values

RNTI  

Radio network temporary identifier (RNTI) value (16 bits)

RootSeqltePRACH, ltePRACHDetect, ltePRACHInfo 

Physical root Zadoff-Chu sequence index or indices (u)

lteSRS 

Root Zadoff-Chu sequence index (q)

ltePUSCHDRS 

A two-column row vector, containing the Root Zadoff Chu sequence index (q) for each slot

RV 

Integer vector (0,1,2,3). A one or two column matrix (for one or two codewords).

Specifies the redundancy version for one or two codewords used in the initial subframe number, NSubframe. This parameter field is only for informational purposes and is Read-Only.

 0, 1, 2, 3

RV value associated with one codeword

RVSeq  

Specifies the sequence of Redundancy Version (RV) indicators for each HARQ process. The number of elements in each row is equal to the number of transmissions in each HARQ process. If RVSeq is a row vector in a two codeword transmission, then the same RV sequence is applied to both codewords.

SamplingRatelteOFDMModulate, lteOFDMInfo, lteSCFDMAModulate, lteSCFDMAInfo 

Sampling rate of the time-domain waveform

ltePRACH, ltePRACHDetect, ltePRACHInfo 

Sampling rate of the PRACH modulator

lteSRS 

Input signal sampling rate, the rate of each sample in the rows of the input matrix, in.

ScrambSeq  

A two-column row vector, containing the scrambling value (S) for each slot

Seed  

Random number generator seed for channel models. Set to zero for a random seed.

SeqGrouplteSRS0…29

SRS sequence group number (u)

ltePUSCHDRS, lteRMCUL, lteRMCULTool, lteULFrameOffset0…29

PUSCH sequence group assignment (ΔSS).

ltePUCCH1, ltePUCCH1DRS, ltePUCCH2, ltePUCCH2DRS, ltePUCCH3DRS, ltePUSCHDRS 

A two-column row vector, containing the base sequence group number (u) for each slot

lteSRS 

Base sequence group number (u)

SeqIdxlteSRS0, 1

Base sequence number (v)

ltePUCCH1, ltePUCCH1DRS, ltePUCCH2, ltePUCCH2DRS, ltePUCCH3DRS, ltePUSCHDRS 

A two-column row vector, containing the base sequence number (v) for each slot

ltePRACH, ltePRACHDetect, ltePRACHInfo0…837

Logical root sequence index (RACH_ROOT_SEQUENCE)

Shortened 

0 (default), 1

Option to shorten the subframe by omitting the last symbol, specified as 0 or 1. If 1, the last symbol of the subframe is not used. For subframes with possible SRS transmission, set Shortened to 1 to maintain a standard compliant configuration.

SRS 'on'

Enable SRS related configuration parameters (set SRS to 'on') for RMCs which optionally support SRS, or a complete or part SRS structure. If absent, no SRS configuration is created.

SSC 

0 (default), 1, 2, 3, 4, 5, 6, 7, 8, 9

Special subframe configuration (SSC)

SSS 'Off', 'On'

Secondary synchronization signal (SSS) correlation mode

SSSPower  

Secondary synchronization signal (SSS) symbol power adjustment, in dB

SubcarrierSpacing  

Subcarrier spacing of PRACH preamble, in Hz (deltaf_RA)

SubframeConfig 0…15

Sounding reference signal (SRS) subframe configuration

SubframeType 'Downlink', 'Uplink', 'Special'

Type of subframe

SymbolsltePUCCH1 

A row vector containing the modulated data symbols (d(0)) for each OFDM symbol

ltePUCCH1DRS, ltePUCCH2DRS, ltePUCCH3DRS 

A row vector containing the modulated data symbols (z) for each OFDM symbol

ltePUCCH2, ltePUCCH3 

A row vector containing the modulated data symbols (d) for each OFDM symbol

TDDConfig 

0 (default), 1, 2, 3, 4, 5, 6

Uplink–downlink configuration

TimeWindow  

Size of window in resource elements used to average over time during channel estimation

TimingOffset  

PRACH timing offset, in microseconds

TMN  

Test model number, as specified in TS 36.141, identifying the test model to use when generating the waveform

TotSubframeslteDLPerfectChannelEstimate, lteRMCDL, lteRMCDLTool, lteRMCUL, lteRMCULTool, lteULPerfectChannelEstimate 

Total number of subframes to generate

ltePRACHInfo 

The number of subframes duration of the PRACH. Each subframe lasts 30,720 fundamental periods; therefore, TotSubframes is ceil(sum(Fields)/30720), the number of subframes required to hold the entire PRACH waveform. The duration of the PRACH is a function of the Preamble Format as described in table 5.7.1-1 of TS 36.211.

TrBlkSizes  

Transport block sizes for each subframe in a frame

TxComb 0, 1

Transmission comb. Controls SRS positions; SRS is transmitted in 6 carriers per resource block on odd (1) and even (0) resource indices.

TxScheme 

'Port0', 'TxDiversity', 'CDD', 'SpatialMux', 'MultiUser', 'Port5', 'Port7-8', 'Port8', 'Port7-14'.

PDSCH transmission scheme, specified as one of the following options.

Transmission schemeDescription
'Port0'Single antenna port, port 0
'TxDiversity'Transmit diversity
'CDD'Large delay cyclic delay diversity scheme
'SpatialMux'Closed loop spatial multiplexing
'MultiUser'Multi-user MIMO
'Port5'Single-antenna port, port 5
'Port7-8'Single-antenna port, port 7, when NLayers = 1. Dual layer transmission, ports 7 and 8, when NLayers = 2.
'Port8'Single-antenna port, port 8
'Port7-14'Up to eight layer transmission, ports 7–14

UeOffset 0…319

UE-specific SRS offset

UePeriod 2, 5, 10, 20, 40, 80, 160, 320

UE-specific SRS periodicity, in milliseconds

VelocitylteHSTChannel 

Train velocity, in kilometers per hour

WlteDMRS 

NLayers-by-P precoding matrix for the wideband UE-specific beamforming of the DM-RS. P is the number of transmit antennas. An empty matrix, [], signifies no precoding.

ltePDSCH

Numeric matrix, [] (default)

NLayers-by-P precoding matrix for the wideband UE-specific beamforming of the PDSCH symbols. P is the number of transmit antennas. When W is not specified, no precoding is applied.

Window 'Left', 'Right', 'Centred', 'Centered'

If more than one subframe is input this parameter is required to indicate the position of the subframe from rxgrid and refgrid containing the desired channel estimate. Only channel estimates for this subframe will be returned. For the 'Centred' and 'Centered' settings, the window size must be odd.

WindowinglteOFDMModulate, lteOFDMInfo, lteRMCDL, lteTestModel 

Number of time-domain samples over which windowing and overlapping of OFDM symbols is applied

lteRMCUL, lteSCFDMAModulate, lteSCFDMAInfo 

The number of time-domain samples over which windowing and overlapping of SC-FDMA symbols is applied

References

[1] 3GPP TS 36.104. “Base Station (BS) radio transmission and reception.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA). URL: http://www.3gpp.org.

[2] 3GPP TS 36.141. “Base Station (BS) conformance testing.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA). URL: http://www.3gpp.org.

[3] 3GPP TS 36.211. “Physical Channels and Modulation.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA). URL: http://www.3gpp.org.

[4] 3GPP TS 36.213. “Physical layer procedures.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA). URL: http://www.3gpp.org.

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