C.1 Acceptable uncertainty of Test System
37.571-13GPPPart 1: Conformance test specificationRelease 16TSUser Equipment (UE) conformance specification for UE positioning
The maximum acceptable uncertainty of the Test System is specified below for each test, where appropriate. The Test System shall enable the stimulus signals in the test case to be adjusted to within the specified range, and the equipment under test to be measured with an uncertainty not exceeding the specified values. All ranges and uncertainties are absolute values, and are valid for a confidence level of 95 %, unless otherwise stated.
A confidence level of 95 % is the measurement uncertainty tolerance interval for a specific measurement that contains 95 % of the performance of a population of test equipment.
It should be noted that the uncertainties in clause C.1 apply to the Test System operating into a nominal 50 ohm load and do not include system effects due to mismatch between the DUT and the Test System.
C.1.1 Measurement of test environments
The measurement accuracy of the UE environmental test conditions, defined in Annex G or TS 36.508 [18] clause 4.1, shall be:
Pressure |
5 kPa |
Temperature |
2 degrees |
Relative Humidity |
5 % |
DC Voltage |
1.0 % |
AC Voltage |
1.5 % |
Vibration |
10 % |
Vibration frequency |
0.1 Hz |
The above values shall apply unless the test environment is otherwise controlled and the specification for the control of the test environment specifies the uncertainty for the parameter.
C.1.2 A-GNSS Minimum Performance requirements
Table C.1.1: Maximum Test System Uncertainty for A-GNSS Minimum Performance tests
Clause |
Maximum Test System Uncertainty |
Derivation of Test System Uncertainty |
|
---|---|---|---|
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 |
0.05 m |
Position error consists of 0.05 m system uncertainty. The effect of position reporting resolution of approximately 1.2 m (see note) is not included in the allowable test system uncertainty but is included in the Test Parameter Relaxations since this resolution limitation limits the reporting capability of the UE. For simplicity the combined Test Parameter Relaxation is given as 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 |
0.05 m |
Position error as above |
|
Response time |
300 ms |
||
5.3, 6.3, 7.2, 13.3 Nominal Accuracy |
Coarse Time Assistance |
200 ms |
|
Absolute GNSS signal level |
1 dB |
||
Position error |
0.05 m |
Position error as above |
|
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 |
0.05 m |
Position error as above |
|
Response time |
300 ms |
||
5.5, 6.5, 7.4, 13.5 Multi-path scenario |
Coarse Time Assistance |
200 ms |
|
Absolute GNSS signal level |
1 dB |
||
Relative GNSS signal level |
0.2 dB |
||
Position error |
0.05 m |
Position error as above |
|
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 |
1 dB |
|
Position error |
0.05 m |
Position error as above |
|
Differential response time 100 ms |
100 ms |
NOTE: For UE based mode the effect of position reporting resolution is given by:
meters, where R is the radius of the earth and φ is the latitude of the location. For the GNSS scenarios defined in TS 37.571-5 [20] this equates to approximately.
Editor’s note: this needs checking once the GNSS scenarios are agreed [TBD] m. For simplicity this is given as 1.2 m.
For UE assisted mode it is assumed that the output from the WLS position solution calculation in Annex B is coded using the same position coding method as for UE based mode before being used to calculate position error. Therefore the effect of reporting resolution will be the same as for UE based mode.
C.1.3 ECID and OTDOA Measurement requirements
Table C.1.3-1: Maximum Test System Uncertainty for ECID and OTDOA Measurement Requirements
Clause |
Maximum Test System Uncertainty |
Derivation of Test System Uncertainty |
8.1.1 E-UTRAN FDD UE Rx – Tx time difference case (Rel-9 to Rel-11) |
Noc ±1.0 dB averaged over BWConfig Ês / Noc ±0.3 dB ±3Ts Uplink signal transmit timing relative to downlink |
Note: Ês / Noc is the ratio of cell 1 signal / AWGN TS = 1/(15000 x 2048) seconds, the basic timing unit defined in TS 36.211 [26] |
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) |
Noc ±1.0 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB dB averaged over BWConfig ±3TS Uplink signal transmit timing relative to downlink |
Note: Ês1 / Noc is the ratio of cell 1 signal / AWGN Ês2 / Noc is the ratio of cell 2 signal / AWGN TS = 1/(15000 x 2048) seconds, the basic timing unit defined in TS 36.211 [26] |
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) |
Noc ±1.0 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB dB averaged over BWConfig Ês3 / Noc ±0.3 dB dB averaged over BWConfig ±3Ts Uplink signal transmit timing relative to downlink |
Note: Ês1 / Noc is the ratio of cell 1 signal / AWGN Ês2 / Noc is the ratio of cell 1 signal / AWGN Ês3 / Noc is the ratio of cell 1 signal / AWGN TS = 1/(15000 x 2048) seconds, the basic timing unit defined in TS 36.211 [26] |
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 |
Noc ±1.0 dB averaged over BWConfig PRS Ês1 / Noc ±0.6 dB averaged over BWConfig Ês1 / Noc ±0.6 dB averaged over BWConfig PRS Ês2 / Noc ±0.6 dB averaged over BWConfig Ês2 / Noc ±0.6 dB averaged over BWConfig PRS Ês3 / Noc ±0.6 dB averaged over BWConfig Ês3 / Noc ±0.6 dB averaged over BWConfig Response Time = ± 300 ms |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN PRS Ês3 / Noc and Ês3 / Noc are the ratios of cell 3 signal / AWGN PRS Ês / Noc and Ês / Noc uncertainty for fading condition comprises two quantities: 1. Signal-to-noise ratio uncertainty 2. Fading profile power uncertainty Items 1 and 2 are assumed to be uncorrelated so can be root sum squared: PRS Ês / Noc and Ês / Noc uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2) Signal-to-noise ratio uncertainty ±0.3 dB Fading profile power uncertainty ±0.5 dB |
9.1.1A FDD RSTD Measurement Reporting Delay for UE Category 1bis |
Same as 9.1.1 |
|
9.1.2 TDD RSTD Measurement Reporting Delay |
Same as 9.1.1 |
|
9.1.2A TDD RSTD Measurement Reporting Delay for UE Category 1bis |
Same as 9.1.1 |
|
9.1.3 FDD RSTD Measurement Accuracy |
Noc ±1.0 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 1 Ts |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN |
9.1.3A FDD RSTD Measurement Accuracy for UE Category 1bis |
Same as 9.1.3 |
|
9.1.4 TDD RSTD Measurement Accuracy |
Same as 9.1.3 |
|
9.1.4A TDD RSTD Measurement Accuracy for UE Category 1bis |
Same as 9.1.3 |
|
9.2.1 FDD-FDD inter-frequency RSTD measurement reporting delay |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.6 dB averaged over BWConfig Ês1 / Noc1 ±0.6 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.6 dB averaged over BWConfig Ês2 / Noc2 ±0.6 dB averaged over BWConfig PRS Ês3 / Noc2 ±0.6 dB averaged over BWConfig Ês3 / Noc2 ±0.6 dB averaged over BWConfig Response Time = ± 300 ms |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 PRS Ês3 / Noc2 and Ês3 / Noc2 are the ratios of cell 3 signal / AWGN for frequency 2 PRS Ês / Noc and Ês / Noc uncertainty for fading condition comprises two quantities: 1. Signal-to-noise ratio uncertainty 2. Fading profile power uncertainty Items 1 and 2 are assumed to be uncorrelated so can be root sum squared: PRS Ês / Noc and Ês / Noc uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2) Signal-to-noise ratio uncertainty ±0.3 dB Fading profile power uncertainty ±0.5 dB |
9.2.1A FDD-FDD inter-frequency RSTD measurement reporting delay for UE Category 1bis |
Same as 9.2.1 |
|
9.2.2 TDD-TDD inter-frequency RSTD measurement reporting delay |
Same as 9.2.1 |
|
9.2.2A TDD-TDD inter-frequency RSTD measurement reporting delay for UE Category 1bis |
Same as 9.2.1 |
|
9.2.4 FDD-FDD inter frequency RSTD Accuracy |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.3 dB averaged over BWConfig Ês1 / Noc1 ±0.3 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.3 dB averaged over BWConfig Ês2 / Noc2 ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 2 Ts |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 |
9.2.4A FDD-FDD inter frequency RSTD Accuracy for UE Category 1bis |
Same as 9.2.4 |
|
9.2.5 TDD-TDD inter frequency RSTD Accuracy |
Same as 9.2.4 |
|
9.2.5A TDD-TDD inter frequency RSTD Accuracy for UE Category 1bis |
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 |
Noc ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 1 Ts |
Note: NPRS Ês1 / Noc and Ês1 / Noc are the ratios of nCell 1 signal / AWGN NPRS Ês2 / Noc and Ês2 / Noc are the ratios of nCell 2 signal / AWGN |
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 |
Noc ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig NPRS Ês3 / Noc ±0.3 dB averaged over BWConfig Ês3 / Noc ±0.3 dB averaged over BWConfig Response Time = ± 300 ms |
Note: NPRS Ês1 / Noc and Ês1 / Noc are the ratios of nCell 1 signal / AWGN NPRS Ês2 / Noc and Ês2 / Noc are the ratios of nCell 2 signal / AWGN |
9.6.1 HD-FDD Inter-Frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc1 ±0.3 dB averaged over BWConfig Ês1 / Noc1 ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc2 ±0.3 dB averaged over BWConfig Ês2 / Noc2 ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 2 Ts |
Note: NPRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of nCell 1 signal / AWGN for frequency 1 NPRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of nCell 2 signal / AWGN for frequency 2 |
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 |
Same as 9.5.3 |
Same as 9.5.3 |
9.7.1 TDD Intra frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage |
Noc ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 1 Ts |
Note: NPRS Ês1 / Noc and Ês1 / Noc are the ratios of nCell 1 signal / AWGN NPRS Ês2 / Noc and Ês2 / Noc are the ratios of nCell 2 signal / AWGN |
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 |
Noc ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig NPRS Ês3 / Noc ±0.3 dB averaged over BWConfig Ês3 / Noc ±0.3 dB averaged over BWConfig Response Time = ± 300 ms |
Note: NPRS Ês1 / Noc and Ês1 / Noc are the ratios of nCell 1 signal / AWGN NPRS Ês2 / Noc and Ês2 / Noc are the ratios of nCell 2 signal / AWGN |
9.8.1 TDD Inter-frequency RSTD Measurement Accuracy for NB-IOT Inband Mode in normal coverage |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig NPRS Ês1 / Noc1 ±0.3 dB averaged over BWConfig Ês1 / Noc1 ±0.3 dB averaged over BWConfig NPRS Ês2 / Noc2 ±0.3 dB averaged over BWConfig Ês2 / Noc2 ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 2 Ts |
Note: NPRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of nCell 1 signal / AWGN for frequency 1 NPRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of nCell 2 signal / AWGN for frequency 2 |
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 |
Same as 9.7.3 |
Same as 9.7.3 |
10.1 FDD RSTD Measurement Reporting Delay for Carrier Aggregation |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.6 dB averaged over BWConfig Ês1 / Noc1 ±0.6 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.6 dB averaged over BWConfig Ês2 / Noc2 ±0.6 dB averaged over BWConfig PRS Ês3 / Noc2 ±0.6 dB averaged over BWConfig Ês3 / Noc2 ±0.6 dB averaged over BWConfig Response Time = ± 300 ms |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 PRS Ês3 / Noc2 and Ês3 / Noc2 are the ratios of cell 3 signal / AWGN for frequency 2 PRS Ês / Noc and Ês / Noc uncertainty for fading condition comprises two quantities: 1. Signal-to-noise ratio uncertainty 2. Fading profile power uncertainty Items 1 and 2 are assumed to be uncorrelated so can be root sum squared: PRS Ês / Noc and Ês / Noc uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2) Signal-to-noise ratio uncertainty ±0.3 dB Fading profile power uncertainty ±0.5 dB |
10.1A FDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz |
Same as 10.1 |
Same as 10.1 |
10.1B FDD RSTD Measurement Reporting Delay Carrier Aggregation for 5 MHz +5 MHz Bandwidth |
Same as 10.1 |
Same as 10.1 |
10.1C FDD RSTD Measurement Reporting Delay for Carrier Aggregation for 10 MHz+5 MHz Bandwidth |
Same as 10.1 |
Same as 10.1 |
10.2 TDD RSTD Measurement Reporting Delay for Carrier Aggregation |
Same as 10.1 |
Same as 10.1 |
10.2A TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz |
Same as 10.1 |
Same as 10.1 |
10.2B TDD RSTD Measurement Reporting Delay Carrier Aggregation for 5 MHz +5 MHz Bandwidth |
Same as 10.1 |
Same as 10.1 |
10.2C TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 10 MHz+5 MHz Bandwidth |
Same as 10.1 |
Same as 10.1 |
10.2D TDD RSTD Measurement Reporting Delay for Carrier Aggregation for 20 MHz +10 MHz Bandwidth |
Same as 10.1 |
Same as 10.1 |
10.3 FDD RSTD Measurement Accuracy for Carrier Aggregation |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.3 dB averaged over BWConfig Ês1 / Noc1 ±0.3 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.3 dB averaged over BWConfig Ês2 / Noc2 ±0.3 dB averaged over BWConfig PRS Ês3 / Noc2 ±0.3 dB averaged over BWConfig Ês3 / Noc2 ±0.3 dB averaged over BWConfig Cell Timing Difference = ± 1 Ts |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 PRS Ês3 / Noc2 and Ês3 / Noc2 are the ratios of cell 3 signal / AWGN for frequency 2 |
10.3A FDD RSTD Measurement Accuracy for Carrier Aggregation for 20 MHz (Rel-10 and Rel-11) |
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 5 MHz+5 MHz Bandwidth |
Same as 10.3 |
Same as 10.3 |
10.3C FDD RSTD Measurement Accuracy for Carrier Aggregation for 10 MHz+5 MHz Bandwidth |
Same as 10.3 |
Same as 10.3 |
10.4 TDD RSTD Measurement Accuracy for Carrier Aggregation |
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 |
|
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 5 MHz+5 MHz Bandwidth |
Same as 10.3 |
Same as 10.3 |
10.4C TDD RSTD Measurement Accuracy for Carrier Aggregation for 10 MHz+5 MHz 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 |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig Noc3 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.6 dB averaged over BWConfig Ês1 / Noc1 ±0.6 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.6 dB averaged over BWConfig Ês2 / Noc2 ±0.6 dB averaged over BWConfig PRS Ês3 / Noc3 ±0.6 dB averaged over BWConfig Ês3 / Noc3 ±0.6 dB averaged over BWConfig PRS Ês4 / Noc3 ±0.6 dB averaged over BWConfig Ês4 / Noc3 ±0.6 dB averaged over BWConfig Response Time = ± 300 ms |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 PRS Ês3 / Noc3 and Ês3 / Noc3 are the ratios of cell 3 signal / AWGN for frequency 3 PRS Ês4 / Noc3 and Ês4 / Noc3 are the ratios of cell 4 signal / AWGN for frequency 3 PRS Ês / Noc and Ês / Noc uncertainty for fading condition comprises two quantities: 1. Signal-to-noise ratio uncertainty 2. Fading profile power uncertainty Items 1 and 2 are assumed to be uncorrelated so can be root sum squared: PRS Ês / Noc and Ês / Noc uncertainty = SQRT (Signal-to-noise ratio uncertainty 2 + Fading profile power uncertainty 2) Signal-to-noise ratio uncertainty ±0.3 dB Fading profile power uncertainty ±0.5 dB |
10.6 TDD 3 DL CA RSTD Measurement Reporting Delay |
Same as 10.5 |
Same as 10.5 |
10.7 FDD RSTD Measurement Accuracy for 3DL Carrier Aggregation |
Noc1 ±1.0 dB averaged over BWConfig Noc2 ±1.0 dB averaged over BWConfig Noc3 ±1.0 dB averaged over BWConfig PRS Ês1 / Noc1 ±0.3 dB averaged over BWConfig Ês1 / Noc1 ±0.3 dB averaged over BWConfig PRS Ês2 / Noc2 ±0.3 dB averaged over BWConfig Ês2 / Noc2 ±0.3 dB averaged over BWConfig PRS Ês3 / Noc3 ±0.3 dB averaged over BWConfig Ês3 / Noc3 ±0.3 dB averaged over BWConfig PRS Ês4 / Noc3 ±0.3 dB averaged over BWConfig Ês4 / Noc3 ±0.3 dB averaged over BWConfig Cell Timing Difference (Intra-freq) = ± 1 Ts Cell Timing Difference (Inter-freq) = ± 2 Ts |
Note: PRS Ês1 / Noc1 and Ês1 / Noc1 are the ratios of cell 1 signal / AWGN for frequency 1 PRS Ês2 / Noc2 and Ês2 / Noc2 are the ratios of cell 2 signal / AWGN for frequency 2 PRS Ês3 / Noc3 and Ês3 / Noc3 are the ratios of cell 3 signal / AWGN for frequency 3 PRS Ês4 / Noc3 and Ês4 / Noc3 are the ratios of cell 4 signal / AWGN for frequency 3 |
10.8 TDD RSTD Measurement Accuracy for 3DL Carrier Aggregation |
Same as 10.7 |
Same as 10.7 |
In addition, the following Test System uncertainties and related constraints apply. Any additional constraints are defined in the specific tests. |
||
AWGN Bandwidth |
≥ 1.08 MHz, 2.7 MHz, 4.5 MHz, 9 MHz, 13.5 MHz, 18 MHz; NRB x 180kHz according to BWConfig |
|
AWGN absolute power uncertainty |
Test-specific |
|
AWGN flatness and signal flatness, max deviation for any Resource Block, relative to average over BWConfig |
±2 dB |
|
AWGN peak to average ratio |
≥10 dB @0.001% |
|
Signal-to noise ratio uncertainty |
Test-specific |
|
Fading profile power uncertainty |
±0.5 dB |
|
Fading profile delay uncertainty, relative to frame timing |
±5 ns (excludes absolute errors related to baseband timing) |
C.1.4 MBS Minimum Performance requirements
Table C.1.4-1: Maximum Test System Uncertainty for MBS Minimum Performance tests
Clause |
Maximum Test System Uncertainty |
Derivation of Test System Uncertainty |
|
---|---|---|---|
11.1, 11.1A MBS Measurement Reporting Delay |
Beacon power level |
±2 dB |
|
Response time |
±300 ms |
||
11.2, 11.2A MBS Sensitivity Measurement Accuracy |
Beacon power level |
±2 dB |
|
Code phase delay difference |
±5 ns |
Code phase delay difference error value of +/- 5ns, being derived from 10% of the most stringent code phase delay measurement accuracy requirement |
|
11.3, 11.3A MBS Nominal Measurement Accuracy |
Beacon power level |
±2 dB |
|
Code phase delay |
±5 ns |
Code phase delay error as above |
|
11.4, 11.4A MBS Dynamic Range Measurement Accuracy |
Beacon power level |
±2 dB |
|
Code phase delay |
±5 ns |
Code phase delay error as above |
|
11.5, 11.5A MBS Measurement Accuracy in Multipath |
Beacon power level |
±2 dB |
|
Code phase delay |
±5 ns |
Code phase delay error as above |
|
Note: Code phase delay is equal to the propagation delay from the (simulated) beacon transmitter to the UE receive antenna based on the propagation distance in the test case. |
C.1.5 WLAN and BLE measurement requirements
Table C.1.5-1: Maximum Test System Uncertainty for WLAN and BLE measurement tests
Clause |
Maximum Test System Uncertainty |
Derivation of Test System Uncertainty |
|
---|---|---|---|
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 |
|
AP Power Level Difference |
±1 dB |
||
12.2.1 Bluetooth identification |
Response time |
±300 ms |
Note: AP Power Level Difference is the difference between the WLAN Received Power Level from the high power WLAN AP with respect to the low power WLAN APs.
C.1.6 NR PRS-based measurement requirements
Table C.1.6-1: Maximum Test System Uncertainty for NR PRS-based Measurement Requirements
Clause |
Maximum Test System Uncertainty |
Derivation of Test System Uncertainty |
14.2.1 NR RSTD measurement period test case for single positioning frequency layer in FR1 SA |
Noc ±1.5 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig PRS Ês3 / Noc ±0.3 dB averaged over BWConfig Ês3 / Noc ±0.3 dB averaged over BWConfig Response Time = 300ms |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN PRS Ês3 / Noc and Ês3 / Noc are the ratios of cell 3 signal / AWGN Signal-to-noise ratio uncertainty ±0.3 dB |
14.2.2 NR RSTD measurement period test case for dual positioning frequency layers in FR1 SA |
Same as 14.2.1 |
|
14.2.3 NR RSTD measurement period test case for single positioning frequency layer in FR2 SA |
Noc ±5.65 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig PRS Ês3 / Noc ±0.3 dB averaged over BWConfig Ês3 / Noc ±0.3 dB averaged over BWConfig Response Time = FFS |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN PRS Ês3 / Noc and Ês3 / Noc are the ratios of cell 3 signal / AWGN Signal-to-noise ratio uncertainty ±0.3 dB |
14.2.4 NR RSTD measurement period test case for dual positioning frequency layers in FR2 SA |
Same as 14.2.3 |
|
14.3.1 NR RSTD measurement accuracy test case for single positioning frequency layer in FR1 SA |
Noc ±1.5 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Cell Timing Difference = 32 Tc |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN |
14.3.2 NR RSTD measurement accuracy test case for dual positioning frequency layers in FR1 SA |
Noc ±5.65 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Cell Timing Difference = FFS |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN |
14.3.3 NR RSTD measurement accuracy test case for single positioning frequency layer in FR2 SA |
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 |
|
15.2.1 UE Rx-Tx time difference measurement period for single positioning frequency layer in FR1 SA |
Noc ±1.5 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Response Time = ± 300 ms |
Note: PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN Tc = 1/(480000 x 4096), the basic timing unit defined in TS 38.211 [53] |
15.2.2 UE Rx-Tx time difference measurement period for dual positioning frequency layers in FR1 SA |
Same as 15.2.1 |
Same as 15.2.1 |
15.2.3 UE Rx-Tx time difference measurement period for single positioning frequency layer in FR2 SA |
Noc ±5.65 dB averaged over BWConfig PRS Ês1 / Noc ±0.3 dB averaged over BWConfig Ês1 / Noc ±0.3 dB averaged over BWConfig PRS Ês2 / Noc ±0.3 dB averaged over BWConfig Ês2 / Noc ±0.3 dB averaged over BWConfig Response Time = ± 300 ms |
PRS Ês1 / Noc and Ês1 / Noc are the ratios of cell 1 signal / AWGN PRS Ês2 / Noc and Ês2 / Noc are the ratios of cell 2 signal / AWGN Tc = 1/(480000 x 4096), the basic timing unit defined in TS 38.211 [53] |
15.2.4 UE Rx-Tx time difference measurement period for dual positioning frequency layers in FR2 SA |
Same as 15.2.3 |
Same as 15.2.3 |