C.2 Test Parameter Relaxations (This clause is informative)

37.571-13GPPPart 1: Conformance test specificationRelease 16TSUser Equipment (UE) conformance specification for UE positioning

The Test Parameter Relaxations defined in this clause have been used to relax the Conformance requirement to derive the Test Requirements.

The Test Parameter Relaxations are derived from Test System uncertainties, regulatory requirements and criticality to system performance. As a result, the Test Parameter Relaxations may sometimes be set to zero.

The Test Parameter Relaxations should not be modified for any reason e.g. to take account of commonly known test system errors (such as mismatch, cable loss, etc.).

C.2.1 A-GNSS Minimum Performance requirements

Table C.2.1: Test Parameter Relaxations for A-GNSS Minimum Performance tests

Clause

Test Parameter Relaxation

5.2.1, 6.2.1, 7.1.1, 13.2.1 Sensitivity Coarse Time Assistance

Coarse Time Assistance

200 ms

Absolute GNSS signal level

1 dB

Position error

1.3 m

Response time

300 ms

5.2.2, 6.2.2, 7.1.2, 13.2.2 Sensitivity Fine Time Assistance

Coarse Time Assistance

200 ms

Fine Time Assistance

1 us

Absolute GNSS signal level

1 dB

Position error

1.3 m

Response time

300 ms

5.3, 6.3, 7.2, 13.3 Nominal Accuracy

Coarse Time Assistance

200 ms

Absolute GNSS signal level

0 dB

Position error

1.3 m

Response time

300 ms

5.4, 6.4, 7.3, 13.4 Dynamic Range

Coarse Time Assistance

200 ms

Absolute GNSS signal level

1 dB

Relative GNSS signal level

0.2 dB

Position error

1.3 m

Response time

300 ms

5.5, 6.5, 7.4, 13.5 Multi-path scenario

Coarse Time Assistance

200 ms

Absolute GNSS signal level

0 dB

Relative GNSS signal level

0.2 dB

Position error

1.3 m

Response time

300 ms

5.6, 6.6, 7.5, 7.5A, 13.6, 13.7 Moving scenario and periodic update

Absolute GNSS signal level

0 dB

Position error

1.3 m

Differential Response Time

100 ms

C.2.2 ECID and OTDOA Measurement requirements

Table C.2.2: Test Parameter Relaxations for ECID and OTDOA Measurement requirements

Clause

Test Parameter Relaxation

8.1.1 E-UTRAN FDD UE Rx Tx time difference case (Rel-9 to Rel-11)

Parameters

Noc: -98dBm/15kHz

Ês / Noc: -3.00dB

RxTx time difference value:

Test Tolerance

0dB

+0.3dB

±3Ts

8.1.1A E-UTRAN FDD UE Rx – Tx time difference case (Rel-12 onwards)

Same as 8.1.1

Same as 8.1.1

8.1.1B E-UTRAN FDD UE Rx – Tx time difference case for UE Category 1bis

Same as 8.1.1

Same as 8.1.1

8.1.2 E-UTRAN TDD UE Rx Tx time difference case (Rel-9 to Rel-11)

Same as 8.1.1

Same as 8.1.1

8.1.2A E-UTRAN TDD UE Rx – Tx time difference case (Rel-12 onwards)

Same as 8.1.1

Same as 8.1.1

8.1.2B E-UTRAN TDD UE Rx – Tx time difference case for UE Category 1bis

Same as 8.1.1

Same as 8.1.1

8.1.3 E-UTRAN FDD UE Rx-Tx time difference under Time Domain Measurement Resource Restriction with Non-MBSFN ABS (eICIC)

Parameters

Noc: -98dBm/15kHz

Ês1 / Noc: -3.00dB

Ês2 / Noc: +1.00dB

Test Tolerance

0dB

+0.3dB

0dB

8.1.4 E-UTRAN TDD UE Rx-Tx time difference under Time Domain Measurement Resource Restriction with Non-MBSFN ABS (eICIC)

Same as 8.1.3

Same as 8.1.3

8.1.5 E-UTRAN FDD UE Rx–Tx time difference under Time Domain Measurement Resource Restriction with CRS Assistance Information and Non-MBSFN ABS (feICIC)

Parameters

Noc: -98dBm/15kHz

Ês1 / Noc: -3.00dB

Ês2 / Noc: +3.00dB

Ês3 / Noc: +1.00dB

Test Tolerance

0dB

+0.4dB

0dB

0dB

8.1.6 E-UTRAN TDD UE Rx–Tx time difference under Time Domain Measurement Resource Restriction with CRS Assistance Information and Non-MBSFN ABS (feICIC)

Same as 8.1.5

Same as 8.1.5

8.1.7 E-UTRAN FDD UE Rx-Tx time difference case for Category M1/M2 UE in CEModeA

Same as 8.1.1

Same as 8.1.1

8.1.8 E-UTRAN HD-FDD UE Rx-Tx time difference case for Category M1/M2 UE in CEModeA

Same as 8.1.1

Same as 8.1.1

8.1.9 E-UTRAN TDD UE Rx-Tx time difference case for Category M1/M2 UE in CEModeA

Same as 8.1.1

Same as 8.1.1

9.1.1 FDD RSTD Measurement Reporting Delay

Response time

300 ms

9.1.1A FDD RSTD Measurement Reporting Delay for UE Category 1bis

Response time

300 ms

9.1.2 TDD RSTD Measurement Reporting Delay

Response time

300 ms

9.1.2A TDD RSTD Measurement Reporting Delay for UE Category 1bis

Response time

300 ms

9.1.3 FDD RSTD Measurement Accuracy

For Test 2 and Test 4:

PRS Ês1 / Noc averaged over BWConfig

PRS Ês2 / Noc averaged over BWConfig

For all tests:

Cell Timing Difference

+0.3 dB

+0.3 dB

± 1 Ts

9.1.3A FDD RSTD Measurement Accuracy for UE Category 1bis

Same as 9.1.3

Same as 9.1.3

9.1.4 TDD RSTD Measurement Accuracy

Same as 9.1.3

Same as 9.1.3

9.1.4A TDD RSTD Measurement Accuracy for UE Category 1bis

Same as 9.1.3

Same as 9.1.3

9.2.1 FDD-FDD inter-frequency RSTD measurement reporting delay

Response time

300 ms

9.2.1A FDD-FDD inter-frequency RSTD measurement reporting delay for UE Category 1bis

Response time

300 ms

9.2.2 TDD-TDD inter-frequency RSTD measurement reporting delay

Response time

300 ms

9.2.2A TDD-TDD inter-frequency RSTD measurement reporting delay for UE Category 1bis

Response time

300 ms

9.2.4 FDD-FDD inter frequency RSTD Accuracy

PRS Ês1 / Noc1 averaged over BWConfig

PRS Ês2 / Noc2 averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 2 Ts

9.2.4A FDD-FDD inter frequency RSTD Accuracy for UE Category 1bis

Same as 9.2.4

Same as 9.2.4

9.2.5 TDD-TDD inter frequency RSTD Accuracy

Same as 9.2.4

Same as 9.2.4

9.2.5A TDD-TDD inter frequency RSTD Accuracy for UE Category 1bis

Same as 9.2.4

Same as 9.2.4

9.3.1.1 FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.1.2 FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.2.1 HD-FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.2.2 HD-FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.3.1 TDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.3.2 TDD intra-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.4.1 FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.4.2 FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.5.1 HD-FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.5.2 HD-FDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.6.1 TDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.1.1

Same as 9.1.1

9.3.6.2 TDD intra-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.1.1

Same as 9.1.1

9.3.7.1 FDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.7.2 FDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.8.1 HD-FDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.8.2 HD-FDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.9.1 TDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.9.2 TDD intra-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.10.1 FDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.10.2 FDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.11.1 HD-FDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.11.2 HD-FDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.12.1 TDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.1.3

Same as 9.1.3

9.3.12.2 TDD intra-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.1.3

Same as 9.1.3

9.3.13 E-UTRAN FDD intra-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.3.14 E-UTRAN HD-FDD intra-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.3.15 E-UTRAN TDD intra-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.3.16 E-UTRAN FDD intra-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.3.17 E-UTRAN HD-FDD intra-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.3.18 E-UTRAN TDD intra-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.1.3

Same as 9.1.3

9.4.1.1 FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.1.2 FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.2.1 HD-FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.2.2 HD-FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.3.1 TDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.3.2 TDD inter-frequency RSTD Measurement Reporting Delay in CE Mode A for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.4.1 FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.4.2 FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.5.1 HD-FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.5.2 HD-FDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.6.1 TDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M1

Same as 9.2.1

Same as 9.2.1

9.4.6.2 TDD inter-frequency RSTD Measurement Reporting Delay in CE Mode B for Category M2

Same as 9.2.1

Same as 9.2.1

9.4.7.1 FDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.7.2 FDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.8.1 HD-FDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.8.2 HD-FDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.9.1 TDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.9.2 TDD inter-frequency RSTD Measurement Accuracy in CE Mode A for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.10.1 FDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.10.2 FDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.11.1 HD-FDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.11.2 HD-FDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.12.1 TDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M1

Same as 9.2.4

Same as 9.2.4

9.4.12.2 TDD inter-frequency RSTD Measurement Accuracy in CE Mode B for Category M2

Same as 9.2.4

Same as 9.2.4

9.4.13 E-UTRAN FDD inter-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.4.14 E-UTRAN HD-FDD inter-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.4.15 E-UTRAN TDD inter-frequency RSTD measurement period test case in CE Mode A with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.4.16 E-UTRAN FDD inter-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.4.17 E-UTRAN HD-FDD inter-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.4.18 E-UTRAN TDD inter-frequency RSTD measurement period test case in CE Mode B with longer PRS occasions

Same as 9.2.4

Same as 9.2.4

9.5.1 HD-FDD Intra frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage

PRS Ês1 / Noc averaged over BWConfig

PRS Ês2 / Noc averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 1 Ts

9.5.2 HD-FDD Intra frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in enhanced coverage

Same as 9.5.1

Same as 9.5.1

9.5.3 HD-FDD Intra frequency RSTD Measurement Reporting Delay for NB-IOT Inband Mode in enhanced coverage

Response time

300 ms

9.6.1 HD-FDD Inter-Frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage

PRS Ês1 / Noc1 averaged over BWConfig

PRS Ês2 / Noc2 averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 2 Ts

9.6.2 HD-FDD Inter-Frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in enhanced coverage

Same as 9.6.1

Same as 9.6.1

9.6.3 HD-FDD Inter frequency RSTD Measurement Reporting Delay for NB-IOT Inband Mode in enhanced coverage

Response time

300 ms

9.7.1 TDD Intra frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage

PRS Ês1 / Noc averaged over BWConfig

PRS Ês2 / Noc averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 1 Ts

9.7.2 TDD Intra frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in enhanced coverage

Same as 9.7.1

Same as 9.7.1

9.7.3 TDD Intra frequency RSTD Measurement Reporting Delay for NB-IOT Inband Mode in enhanced coverage

Response time

300 ms

9.8.1 TDD Inter-frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage

PRS Ês1 / Noc1 averaged over BWConfig

PRS Ês2 / Noc2 averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 2 Ts

9.8.2 TDD Inter-frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in enhanced coverage

Same as 9.8.1

Same as 9.8.1

9.8.3 TDD Inter frequency RSTD Measurement Reporting Delay for NB-IOT Inband Mode in enhanced coverage

Response time

300 ms

10.1 FDD RSTD Measurement Reporting Delay for Carrier Aggregation

Response time

300 ms

10.1A FDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz

Response time

300 ms

10.1B FDD RSTD Measurement Reporting Delay Carrier Aggregation for 5 MHz +5 MHz Bandwidth

Response time

300 ms

10.1C FDD RSTD Measurement Reporting Delay for Carrier Aggregation for 10 MHz+5 MHz Bandwidth

Response time

300 ms

10.2 TDD RSTD Measurement Reporting Delay for Carrier Aggregation

Response time

300 ms

10.2A TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz

Response time

300 ms

10.2B TDD RSTD Measurement Reporting Delay Carrier Aggregation for 5 MHz +5 MHz Bandwidth

Response time

300 ms

10.2C TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 10 MHz+5 MHz Bandwidth

Response time

300 ms

10.2D TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz +10 MHz Bandwidth

Response time

300 ms

10.3 FDD RSTD Measurement Accuracy for Carrier Aggregation

PRS Ês2 / Noc2 averaged over BWConfig

PRS Ês3 / Noc2 averaged over BWConfig

Cell Timing Difference

+0.3 dB

+0.3 dB

± 1 Ts

10.3A FDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz (Rel-10 and Rel-11)

Same as 10.3

Same as 10.3

10.3A_1 FDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz (Rel-12 onwards)

Same as 10.3

Same as 10.3

10.3B FDD RSTD Measurement Accuracy for Carrier Aggregation for 5MHz+5MHz Bandwidth

Same as 10.3

Same as 10.3

10.3C FDD RSTD Measurement Accuracy for Carrier Aggregation for 10MHz+5MHz Bandwidth

Same as 10.3

Same as 10.3

10.4 TDD RSTD Measurement Accuracy for Carrier Aggregation

Same as 10.3

Same as 10.3

10.4A TDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz (Rel-10 and Rel-11)

Same as 10.3

Same as 10.3

10.4A_1 TDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz (Rel-12 onwards)

Same as 10.3

Same as 10.3

10.4B TDD RSTD Measurement Accuracy for Carrier Aggregation for 5MHz+5MHz Bandwidth

Same as 10.3

Same as 10.3

10.4C TDD RSTD Measurement Accuracy for Carrier Aggregation for 10MHz+5MHz Bandwidth

Same as 10.3

Same as 10.3

10.4D TDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz+10 MHz Bandwidth

Same as 10.3

Same as 10.3

10.5 FDD 3 DL CA RSTD Measurement Reporting Delay

Response time

300 ms

10.6 TDD 3 DL CA RSTD Measurement Reporting Delay

Response time

300 ms

10.7 FDD RSTD Measurement Accuracy for 3DL Carrier Aggregation

PRS Ês3 / Noc3 averaged over BWConfig

PRS Ês4 / Noc3 averaged over BWConfig

Cell Timing Difference (Intra-band)

Cell Timing Difference (Inter-band)

+0.3 dB

+0.3 dB

± 1 Ts

± 2 Ts

10.8 TDD RSTD Measurement Accuracy for 3DL Carrier Aggregation

Same as 10.7

Same as 10.7

C.2.3 MBS Minimum Performance requirements

Table C.2.3-1: Test Parameter Relaxations for MBS Minimum Performance tests

Clause

Test Parameter Relaxation

11.1,11.1A MBS Measurement Reporting Delay

Beacon power level

0 dB (no relaxation)

Response time

300 ms

11.2,11.2A MBS Sensitivity Measurement Accuracy

Beacon power level

2 dB

Code phase difference

5 ns

11.3,11.3A MBS Nominal Measurement Accuracy

Beacon power level

0 dB (no relaxation)

Code phase difference

5 ns

11.4,11.4A MBS Dynamic Range Measurement Accuracy

Beacon power level

2 dB

Code phase difference

5 ns

11.5,11.5A MBS Measurement Accuracy in Multipath

Beacon power level

0 dB (no relaxation)

Code phase difference

5 ns

C.2.4 WLAN and BLE measurement requirements

Table C.2.4-1: Test Parameter Relaxations for WLAN and BLE measurement tests

Clause

Test Parameter Relaxation

12.1.1 WLAN AP Identification and reporting delay under nominal conditions

Response time

300 ms

12.1.2 WLAN AP Identification and reporting delay under dynamic range conditions

Response time

300 ms

Low Power WLAN APs Received Power Level

1 dB

12.2.1 Bluetooth identification

Response time

300 ms

C.2.5 NR PRS-based Measurement requirements

Table C.2.5-1: Test Parameter Relaxations for NR PRS-based Measurement requirements

Clause

Test Parameter Relaxation

14.2.1 NR RSTD measurement period test case for single positioning frequency layer in FR1 SA

Response time

300ms

14.2.2 NR RSTD measurement period test case for dual positioning frequency layers in FR1 SA

Response time

FFS

14.2.3 NR RSTD measurement period test case for single positioning frequency layer in FR2 SA

Response time

FFS

14.2.4 NR RSTD measurement period test case for dual positioning frequency layers in FR2 SA

Response time

FFS

14.3.1 NR RSTD measurement accuracy test case for single positioning frequency layer in FR1 SA

Cell Timing Difference

32 Tc

14.3.2 NR RSTD measurement accuracy test case for dual positioning frequency layers in FR1 SA

FFS

FFS

14.3.3 NR RSTD measurement accuracy test case for single positioning frequency layer in FR2 SA

Same as 14.3.1

Same as 14.3.1

14.3.4 NR RSTD measurement accuracy test case for dual positioning frequency layer in FR2 SA

Same as 14.3.2

Same as 14.3.2

Table C.4.5: Derivation of Test Requirements for UE Rx–Tx time difference Measurement tests

Test

Minimum Requirement in TS 38.133

Test Parameter Relaxation
(TPR)

Test Requirement in TS 37.571-1

15.2.1 UE Rx-Tx time difference measurement period for single positioning frequency layer in FR1 SA

Response Time = 11s

300ms

Time + TPR: 11.3s

15.2.2 UE Rx-Tx time difference measurement period for dual positioning frequency layers in FR1 SA

Response Time = 20s

300ms

Time + TPR: 20.3s

15.2.3 UE Rx-Tx time difference measurement period for single positioning frequency layer in FR2 SA

Response Time = 42s

300ms

Time + TPR: 42.3s

15.2.4 UE Rx-Tx time difference measurement period for dual positioning frequency layers in FR2 SA

Response Time = 82s

300ms

Time + TPR: 62.3s