nrWavegenSRSConfig

Enable the SRS in 5G waveform generation, specified as one of these values.

Name of the SRS configuration, specified as a character array or string scalar. Use this property to set a description to the SRS configuration.

Power scaling of the SRS in dB, specified as a real-valued scalar or real-valued vector of length equal to the number of allocated transmissions in a period configured by the SlotAllocation property. Use this property to scale the power of the SRS in the generated 5G waveform.

ID of the bandwidth part (BWP) containing the configured SRS, specified as a nonnegative integer. Use this property to associate this SRS configuration with one of the BWP configurations specified by the BandwidthParts property of the nrULCarrierConfig object.

Number of SRS antenna ports, specified as 1, 2, 4, or 8.

0-based index of the first OFDM symbol in the SRS within a slot, specified as one of these options:

For the SRS symbols and index generation, set the cyclic prefix of the carrier by using the CyclicPrefix property of the BWP configuration object specified by the BandwidthPartID property.

Number of OFDM symbols allocated to the SRS in slot, specified as 1, 2, 4, 8, 10, 12, or 14. Property values 10 and 14 are only valid when you set the SRSPositioning property to 0 (false).

When you set the SRSPositioning property to 1 (true), for valid configurations of this property and the KTC property, see TS 38.211 Table 6.4.1.4.3-2. Alternatively, to display this table, type nrSRSConfig.SubcarrierOffsetTable at the command line.

Slot allocation in an SRS period, specified as a nonnegative integer or a row vector of nonnegative integers. This property specifies the slot positions of the SRS by using 0-based indexing and values that are less than the value of the Period property. The object ignores slot allocation values that are greater than the period. Each element of the vector corresponds to an SRS resource.

SRS allocation period in slots, specified as a nonnegative integer or []. An empty period indicates aperiodic SRS resource type (no repetition), as defined in TS 38.211 Section 6.4.1.4.3.

Frequency-domain offset of the SRS, in terms of a physical resource block (PRB) index relative to the carrier, specified as an integer from 0 to 271. FrequencyStart is analogous to parameter $$n_{{}_{shift}}$$ from TS 38.211 Section 6.4.1.4.3.

This property, the additional circular frequency-domain offset property NRRC, and the bandwidth configuration parameters in TS 38.211 Table 6.4.1.4.3-1 determine the actual frequency-domain location of the SRS. For more information, see NR SRS Configuration.

Additional circular frequency-domain offset of the SRS, as a multiple of 4 PRBs, specified as an integer from 0 to 67.

This property, the frequency domain offset property FrequencyStart, and the bandwidth configuration parameters in TS 38.211 Table 6.4.1.4.3-1 determine the actual frequency-domain location of the SRS. For more information, see NR SRS Configuration.

Row index of the bandwidth configuration table from TS 38.211 Table 6.4.1.4.3-1, specified as an integer from 0 to 63. Use this property with the BSRS property to control the bandwidth allocated to the SRS and the frequency hopping pattern. Increasing the CSRS value increases the SRS bandwidth. The default value of 0 results in a bandwidth of 4 PRBs.

Column index of the bandwidth configuration table from TS 38.211 Table 6.4.1.4.3-1, specified as an integer from 0 to 3. Use this property with the CSRS property to control the bandwidth allocated to the SRS and the frequency hopping pattern. Increasing the BSRS value decreases the SRS bandwidth.

Frequency hopping index, specified as an integer from 0 to 3. Setting this property to a value greater than or equal to the column index of the bandwidth configuration table property, BSRS, disables frequency hopping. Increasing the BHop value decreases the hopping bandwidth.

Repetition factor of OFDM symbols, specified as 1, 2, 4, 5, 6, 7, 8, 10, 12, or 14.

Transmission comb number, in subcarriers, specified as 2, 4, or 8. This property specifies the minimum frequency separation between two subcarriers that allocate SRS.

When you set the SRSPositioning property to 1 (true), for valid configurations of this property and the NumSRSSymbols property, see TS 38.211 Table 6.4.1.4.3-2. Alternatively, to display this table, type nrSRSConfig.SubcarrierOffsetTable at the command line.

Transmission comb offset, in subcarriers, specified as an integer from 0 to (KTC – 1). This property specifies a frequency offset within the comb.

Frequency scaling factor, specified as 1, 2, or 4. Use this property to reduce the SRS transmission bandwidth for partial frequency sounding. This property corresponds to the parameter P_F in Release 17 of TS 38.211 Section 6.4.1.4.3. The default value 1 disables frequency scaling.

Partial frequency sounding block index, specified as a nonnegative integer in the range [0, FrequencyScalingFactor–1].

Use this property to control the SRS frequency position when you set the FrequencyScalingFactor property to 2 or 4.

Enable frequency hopping of the first RB in the SRS transmission for partial frequency sounding, specified as one of these logical values.

Use this property to control the frequency hopping of the first RB when you set the FrequencyScalingFactor property to 2 or 4.

Mapping of signal ports to physical antennas, specified as one of these values:

Precoding matrix, specified as one of these options:

Cyclic shift offset, specified as an integer from 0 to 11. This property determines the cyclic shift applied to the SRS sequence for each antenna port. This property corresponds to parameter $$n_{SRS}^{cs}$$ in TS 38.211 Section 6.4.1.4.2.

Set the cyclic shift offset in relation to the transmission comb property, KTC:

For multiport SRS transmissions, consecutive cyclic shift numbers are used for each port, modulo 6, 8, or 12, depending on the KTC property.

Type of SRS symbol hopping, specified as 'neither', 'groupHopping', or 'sequenceHopping'. When either group or sequence hopping is enabled, the group or sequence hopping numbers per OFDM symbol in the SRS transmission are based on a pseudo-random binary sequence (PRBS). Set the scrambling identity for the PRBS by using the NSRSID property.

SRS scrambling identity, specified as an integer from 0 to 65,535.

SRS for user positioning, as defined in Release 16 of TS 38.211 Section 6.4.1.4, specified as one of these values.

This property affects the valid range of the NumSRSSymbols and KTC properties.

Eight-port time division multiplexing (TDM), specified as one of these logical values:

Dependencies

To enable this property, set the NumSRSPorts property to 8.

Cyclic shift hopping, specified as one of these logical values:

Cyclic shift hopping ID, specified as a nonnegative integer. This property initializes the pseudorandom binary sequence (PRBS) that defines the cyclic shift hopping pattern.

Dependencies

To enable this property, set the CyclicShiftHopping property to true.

Cyclic shift hopping subset, specified as a vector of nonnegative integers. This property corresponds to the higher-layer parameter cyclicShiftHoppingSubset and specifies the set of cyclic shifts for hopping in the SRS transmission. The PRBS that you initialize with the CyclicShiftHoppingID property determines the order of the cyclic shifts in the hopping pattern. The default value, [], implies that the object automatically selects the {0, 1, ..., K⨯NCSmax – 1} set. NCSmax is the maximum number of cyclic shifts, as defined in TS 38.211 Table 6.4.1.4.2-1. K = 1 by default. To enable finer granularity, set the HoppingFinerGranularity property to true, in which case K = 2.

Dependencies

To enable this property, set the CyclicShiftHopping property to true.

Finer granularity for cyclic shift hopping, specified as one of these logical values:

This property determines the value of the K parameter in the default cyclic shift hopping subset that the object automatically selects when you set the CyclicShiftHoppingSubset property to [].

Dependencies

To enable this property, set the CyclicShiftHopping property to true.

Comb offset hopping, specified as one of these logical values:

Comb offset hopping ID, specified as a nonnegative integer. This property initializes the PRBS that defines the comb offset hopping pattern.

Dependencies

To enable this property, set the CombOffsetHopping property to true.

Comb offset hopping subset, specified as a matrix of nonnegative integers. This property corresponds to the higher-layer parameter combOffsetHoppingSubset and specifies the set of comb offsets for hopping in the SRS transmission. The PRBS that you initialize with the CombOffsetHoppingID property determines the order of the comb offsets in the hopping pattern. The default value, [], implies that the object automatically selects the {0,1,...,KTC – 1} set, which depends on the transmission comb number property value.

Dependencies

To enable this property, set the CombOffsetHopping property to true.

Comb offset hopping with repetition, specified as one of these logical values:

Dependencies

To enable this property, set the CombOffsetHopping property to true.