94.3.2 Information Element Table LTE
|
IE Name |
Range/Unit |
Arg |
Description |
Refined |
|
Altitude (ft) |
–1312 ... 29028 |
– |
Height above sea level in feet. Reported by positioning equipment. |
✔ |
|
Altitude (m) |
–400 ... 8848 |
– |
Height above sea level in meters. Reported by positioning equipment. |
✔ |
|
These elements relate to ANR, Automatic Neighbor Relation detection. Regarding this mechanism in general, see ► 3GPP 36.300, sections 22.3.2a and 22.3.3–4. |
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|
Text |
– |
Physical Layer Cell Identity of a cell which the UE has been instructed by the eNodeB to look for and report the CGI for. This may be an EUTRAN, UTRAN, or GERAN cell. ► 3GPP 36.331, sections 5.5.3–5 and 6.3.5, parameter cellForWhichToReportCGI The UE may conceivably have several such reporting orders assigned at the same time. If so, only one cell is presented. |
|
|
|
ANR Feature Group Indicators |
Text |
– |
Feature group indicators determining the UE's capability to perform ANR measurements. ► 3GPP 36.331, sections 6.3.6 and B.1 5: Long DRX cycle, DRX command MAC control element 17: Periodical measurement reporting for intra-frequency ANR 18: Periodical measurement reporting for inter-frequency ANR 19: Periodical measurement reporting for inter-RAT ANR |
|
|
ANR Inter-frequency LTE Activated |
Text |
– |
Populated when the UE is instructed to report CGI for an EUTRAN cell that is on a different carrier from the current serving cell. Cleared when the corresponding measId is removed. Example: "Yes, EARFCN: 6300, PCI: 38" |
|
|
ANR Inter-RAT LTE Activated |
Text |
– |
Populated when the UE is instructed to report CGI for a non-EUTRAN cell. Cleared when corresponding measId is removed. Examples: "Yes, RAT: GERAN, ARFCN: 19"; "Yes, RAT: UTRA, UARFCN: 10638, PSC: 14" |
|
|
ANR Intra-frequency LTE Activated |
Text |
– |
Populated when the UE is instructed to report CGI for an EUTRAN cell that is on the same carrier as the current serving cell. Cleared when corresponding measId is removed. Example: "Yes, PCI: 38" |
|
|
ANR LTE Configured |
Text: |
– |
This IE takes the value "Yes" if and when a reportConfig is observed with Purpose set to reportCGI: ► 3GPP 36.331, section 5.5.4.1. It does not follow that the UE is currently using the reportConfig; the value "Yes" only indicates that ANR as such is enabled in the network. |
|
|
Text |
– |
Cell reported by the UE. Normally identical to "ANR Cell For Which To Report CGI", except possibly if the UE has been given multiple reporting orders of this kind, in which case only one cell is presented. The string has the following format: LTE intra-frequency: <Physical Layer Cell Id> LTE inter-frequency: <EARFCN>, <Physical Layer Cell Id> WCDMA inter-RAT: <UARFCN>, <SC> GSM inter-RAT: <ARFCN>, <BSIC> |
|
|
|
ANR Reported CGI |
Text |
– |
CGI of the cell reported by the UE, that is, of "ANR Reported Cell". Formats: EUTRAN cell: MCC, MNC, TAC, UC-Id. UTRAN cell: PLMN, LAC, UC-Id. GERAN cell: PLMN, LAC, C-Id. |
|
|
Text |
– |
CS fallback: Current attach type. One of: "EPS Attach", "Combined EPS/IMSI Attach". |
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|
|
Bearer IEs: General remark |
The argument points to an EPS bearer. |
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|
Bearer Associated DRB |
Text |
1 ... 11 |
Data radio bearer associated with EPS bearer. |
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|
Bearer Default EPS Bearer ID |
5 ... 15 |
1 ... 11 |
The default EPS bearer that each dedicated EPS bearer is associated with. Invalid if the bearer is itself a default bearer, i.e. only valid for dedicated bearers. Regarding the EPS bearer identity, see ► 3GPP 24.007. |
|
|
Bearer Guaranteed Bitrate DL |
0 ... 350000 |
1 ... 11 |
Guaranteed downlink bit rate for each EPS bearer. ► 3GPP 24.301, section 9.9.4.3 |
|
|
Bearer Guaranteed Bitrate UL |
0 ... 350000 |
1 ... 11 |
Guaranteed uplink bit rate for each EPS bearer. ► 3GPP 24.301, section 9.9.4.3 |
|
|
Bearer ID |
5 ... 15 |
1 ... 11 |
Identity number of each EPS bearer. |
✔ |
|
Bearer Initiator |
Text |
1 ... 11 |
The party that initiated each EPS bearer: UE or network. |
|
|
Bearer Maximum Bitrate DL |
0 ... 350000 |
1 ... 11 |
Maximum downlink bit rate for each EPS bearer. ► 3GPP 24.301, section 9.9.4.3 |
|
|
Bearer Maximum Bitrate UL |
0 ... 350000 |
1 ... 11 |
Maximum uplink bit rate for each EPS bearer. ► 3GPP 24.301, section 9.9.4.3 |
|
|
Bearer Number Of |
0 ... 11 |
– |
Number of EPS bearers for the UE. |
|
|
Bearer PDN Connection Index |
0 ... 8 |
1 ... 11 |
The PDN connection that each EPS bearer is associated with. |
|
|
1 ... 9 |
1 ... 11 |
QoS Class Identifier. ► 3GPP 23.203, section 6.1.7.2 |
|
|
|
Bearer Type |
Text |
1 ... 11 |
Type of each EPS bearer. One of: "Undefined", "Default", "Dedicated". |
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|
CE Level |
0 ...3 |
– |
Coverage Enhancement Level. |
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|
CE Mode |
0 ...1 |
– |
Coverage Enhancement Mode. |
|
|
CE Num CSI RS Repetitions |
1 ... 32 |
– |
Number of repetitions for Coverage Enhancement CSI RS. |
|
|
CE Num Max MPDCCH Repetitions |
1 ... 256 |
– |
Maximum number of repetitions for Coverage Enhancement MPDCCH. |
|
|
CE Num PRACH MSG1 Repetitions (Current) |
1 ... 128 |
– |
Current number of repetitions for Coverage Enhancement PRACH MSG1. |
|
|
CE Num PUCCH Repetitions (Format 1) |
1 ... 32 |
– |
Number of repetitions for Coverage Enhancement PUCCH (Format 1) |
|
|
CE Num PUCCH Repetitions (Format 2) |
1 ... 32 |
– |
Number of repetitions for Coverage Enhancement PUCCH (Format 2) |
|
|
CE PDSCH Repetitions (Current) |
0 ... 2048 |
– |
Current number of repetitions for Coverage Enhancement PDSCH. |
|
|
CE PDSCH Repetitions (Max) |
16 ... 2048 |
– |
Maximum number of repetitions for Coverage Enhancement PDSCH. |
|
|
CE PUCCH MSG4 Repetitions (Current) |
0 ... 32 |
– |
Current number of repetitions for Coverage Enhancement MSG4 on PUCCH. |
|
|
CE PUCCH MSG4 Repetitions (Max) |
1 ... 32 |
– |
Maximum number of repetitions for Coverage Enhancement MSG4 on PUCCH. |
|
|
CE PUSCH Repetitions (Current) |
0 ... 2048 |
– |
Current number of repetitions for Coverage Enhancement PUSCH. |
|
|
CE PUSCH Repetitions (Max) |
8 ... 2048 |
– |
Maximum number of repetitions for Coverage Enhancement PUSCH. |
|
|
"Cell" IEs: General remarks |
All elements prefixed with "Cell" (without a following "List") pertain to cell reselection measurements of one type or another (intra-frequency, inter-frequency, or inter-RAT). The arguments of all IEs associated with the same type of cell reselection are coordinated; for example, arg = 1 always refers (at a given moment in time) to the same E-UTRA frequency for all IEs related to inter-frequency cell reselection. In the specifications, see especially ► 3GPP 36.331, section 6.1.3 ("RRC information elements – System information blocks") and ► 3GPP 36.304, section 5.2.4.7 ("Cell reselection parameters in system information broadcasts"). |
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|
Cell Allowed Measurement Bandwidth Inter Frequency |
6 ... 100 |
1 ... 8 |
Allowed bandwidth for inter-frequency cell reselection measurements. Given as a number of resource blocks (RBs). Argument: Points to an E-UTRA frequency. |
|
|
Cell Allowed Measurement Bandwidth Intra Frequency |
6 ... 100 |
– |
Allowed bandwidth for intra-frequency cell reselection measurements. Given as a number of resource blocks (RBs). |
|
|
Cell DL EARFCN Inter Frequency |
0 ... 39649 |
1 ... 8 |
EARFCNs of E-UTRA cells that are candidates for inter-frequency cell reselection. Argument: Just a sequence number. |
|
|
Cell GERAN ARFCN |
0 ... 1023 |
0 ... 63 |
ARFCNs of GERAN cells that are candidates for inter-RAT cell reselection. Argument: Just a sequence number. |
|
|
Cell Q-Hysteresis (dB) |
0 ... 24 |
– |
Qhyst, hysteresis value for cell ranking criteria. ► 3GPP 36.304, section 5.2.4.7 |
|
|
Cell Q-Offset Frequency |
–24 ... 24 |
1 ... 8 |
Qoffsetfrequency, frequency-specific offset for equal-priority E-UTRA frequencies. ► 3GPP 36.304, section 5.2.4.7 Argument: Points to an E-UTRA frequency. |
|
|
Cell Q-Qualmin (dB) |
-34 ... -3 dBm |
– |
Qqualmin, minimum required quality level in cell. |
|
|
Cell Q-RxLevMin |
–140 ... 44 |
– |
Qrxlevmin, minimum required Rx level in cell. ► 3GPP 36.304, section 5.2.4.7 |
|
|
Cell Q-RxLevMin Offset |
0 ... 8 |
– |
Corresponds to Qrxlevminoffset, offset to the signaled Qrxlevmin taken into account in the Srxlev evaluation as a result of a periodic search for a higher priority PLMN while camped normally in a VPLMN. ► 3GPP 36.304, section 5.2.3.2 The actual IE value is equal to q-RxLevMinOffset, broadcast in SIB type 1 (► 3GPP 36.331, section 6.2.2). Qrxlevminoffset = IE value à 2 [dB]. |
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|
Cell Reselection Priority Inter Frequency |
0 ... 7 |
1 ... 8 |
Absolute priority of carrier frequency used in inter-frequency cell reselection procedure. Derived from SIB type 5. ► 3GPP 36.304, section 5.2.4.7 Argument: Points to an E-UTRA frequency. |
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|
Cell Reselection Priority Intra Frequency |
0 ... 7 |
– |
Absolute priority of carrier frequency as stated in SIB type 3. ► 3GPP 36.304, section 5.2.4.7 |
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|
Cell T-Reselection CDMA2000 |
0 ... 7 |
– |
Timer TreselectionRAT for inter-RAT cell reselection to CDMA2000 (1x). ► 3GPP 36.304, section 5.2.4.7 |
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|
Cell T-Reselection GERAN |
0 ... 7 |
– |
Timer TreselectionRAT for inter-RAT cell reselection to GERAN (GSM). |
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|
Cell T-Reselection Inter Frequency EUTRA |
0 ... 7 |
1 ... 8 |
Timer TreselectionRAT for inter-frequency cell reselection within E-UTRA. Argument: Points to an E-UTRA frequency. |
|
|
Cell T-Reselection Intra Frequency EUTRA |
0 ... 7 |
– |
Timer TreselectionRAT for intra-frequency cell reselection within E-UTRA. |
|
|
Cell T-Reselection UTRA |
0 ... 7 |
– |
Timer TreselectionRAT for inter-RAT cell reselection to UTRA (UMTS). |
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|
"Cell List" IEs: General remark |
These elements are what is shown in the LTE "Serving/Neighbor Cell" status window. They contain the same information as the "Serving Cell" and "Neighbor Cell" elements, except that there is an additional element indicating the type of each cell: see below. |
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|
Cell List Type CA |
Text |
1 ... 64 |
One of: SC: Serving cell (single carrier used) PCell: Primary serving cell (carrier aggregation used) SCell1 ... SCell7: Secondary serving cell no. 1 ... 7 (carrier aggregation used; nos. 3 and above are as yet theoretical) MN: Monitored neighbor DN: Detected neighbor |
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|
"Cell Threshold" IEs: General remark |
"High" refers to a frequency or RAT with higher priority than the current serving frequency. Similarly, "Low" refers to a frequency or RAT with lower priority than the current serving frequency. ► 3GPP 36.304, section 5.2.4.7 |
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|
Cell Threshold Serving Low |
0 ... 62 |
– |
Srxlev threshold used by the UE on the serving cell when reselecting towards a lower priority RAT/frequency. |
|
|
Cell Threshold X High CDMA2000 |
0 ... 62 |
1 ... 32 |
CDMA2000 inter-RAT cell reselection Srxlev threshold "High". Argument: Points to a CDMA2000 frequency. |
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|
Cell Threshold X High EUTRA |
0 ... 62 |
1 ... 8 |
E-UTRA inter-frequency cell reselection Srxlev threshold "High". Argument: Points to an E-UTRA frequency. |
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|
Cell Threshold X High GERAN |
0 ... 62 |
1 ... 16 |
GERAN inter-RAT cell reselection Srxlev threshold "High". Argument: Points to a GERAN frequency. |
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|
Cell Threshold X High UTRA (FDD) |
0 ... 62 |
1 ... 16 |
UTRA inter-RAT cell reselection Srxlev threshold "High" for FDD LTE. Argument: Points to a UTRA frequency. |
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|
Cell Threshold X High UTRA (TDD) |
0 ... 62 |
1 ... 16 |
UTRA inter-RAT cell reselection Srxlev threshold "High" for TDD LTE. Argument: Points to a UTRA frequency. |
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|
Cell Threshold X Low CDMA2000 |
0 ... 62 |
1 ... 32 |
CDMA2000 inter-RAT cell reselection Srxlev threshold "Low". Argument: Points to a CDMA2000 frequency. |
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|
Cell Threshold X Low EUTRA |
0 ... 62 |
1 ... 8 |
E-UTRA inter-frequency cell reselection Srxlev threshold "Low". Argument: Points to an E-UTRA frequency. |
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|
Cell Threshold X Low GERAN |
0 ... 62 |
1 ... 16 |
GERAN inter-RAT cell reselection Srxlev threshold "Low". Argument: Points to a GERAN frequency. |
|
|
Cell Threshold X Low UTRA (FDD) |
0 ... 62 |
1 ... 16 |
UTRA inter-RAT cell reselection Srxlev threshold "Low" for FDD LTE. Argument: Points to a UTRA frequency. |
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|
Cell Threshold X Low UTRA (TDD) |
0 ... 62 |
1 ... 16 |
UTRA inter-RAT cell reselection Srxlev threshold "Low" for TDD LTE. Argument: Points to a UTRA frequency. |
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|
CA |
0 ... 15 |
1 ... 4 |
Channel Quality Indicator for code word 0. ► 3GPP 36.213, section 7.2.3 Argument: |
✔ |
|
CQI Code Word 0 Average CA |
0 ... 15 |
1 ... 4 |
"CQI Code Word 0" averaged over one second. |
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|
CA |
0 ... 15 |
1 ... 4 |
Channel Quality Indicator for code word 1. Argument: |
✔ |
|
CQI Code Word 1 Average CA |
0 ... 15 |
1 ... 4 |
"CQI Code Word 1" averaged over one second. |
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|
CQI Periodicity |
Text |
– |
Periodicity of CQI reporting using PUCCH. ► 3GPP 36.213, section 7.2.2 |
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|
CA |
0 ... 15 |
1 ... 4 |
Channel Quality Indicator for code word 0, counting only samples where Rank Indication = 1. Argument: |
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|
CQI Rank 1 Code Word 0 Average CA |
0 ... 15 |
1 ... 4 |
"CQI Rank 1 Code Word 0" averaged over one second. |
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CA |
0 ... 15 |
1 ... 4 |
Channel Quality Indicator for code word 0, counting only samples where Rank Indication = 2. Argument: |
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|
CQI Rank 2 Code Word 0 Average CA |
0 ... 15 |
1 ... 4 |
"CQI Rank 2 Code Word 0" averaged over one second. |
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|
CQI Report Mode |
Text |
– |
PUCCH CQI reporting mode as defined in ► 3GPP 36.213, section 7.2.2: one of " |
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|
0 ... 1 |
– |
Uplink cyclic prefix length. |
✔ |
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|
DRX IEs: General remark |
These elements relate to the Discontinuous Reception mechanism: ► 3GPP 36.321, especially section 5.7. |
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|
0 ... 100 |
– |
Percentage of time DRX has been enabled. |
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|
DRX Cycle Type |
Text |
– |
DRX cycle type: " |
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|
DRX Inactivity Timer |
1 ... 2560 See Description |
– |
Number of consecutive PDCCH-subframes after the UE successfully decoded a PDCCH indicating an initial UL or DL user data transmission. |
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|
DRX Inactivity Timer Enabled |
0 ... 1 |
– |
Status of DRX Inactivity timer. 0: Disabled |
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|
DRX Long Cycle |
10 ... 2560 See Description |
– |
Length of long DRX cycle, expressed as a number of PDCCH-subframes. |
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|
DRX On Duration Timer |
1 ... 200 See Description |
– |
Number of consecutive PDCCH-subframes at the beginning of a DRX cycle. |
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|
DRX On Duration Timer Enabled |
0 ... 1 |
– |
Status of DRX On Duration timer. 0: Disabled |
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|
DRX Retransmission Timer |
1 ... 33 See Description |
– |
Maximum number of consecutive PDCCH-subframes for which the UE has to monitor the PDCCH for an expected retransmission. |
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|
DRX Short Cycle |
2 ... 640 See Description |
– |
Length of short DRX cycle, expressed as a number of PDCCH-subframes. |
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|
DRX Short Cycle Enabled |
0 ... 1 |
– |
Use of DRX short cycle. 0: Disabled |
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|
DRX Short Cycle Timer |
1 ... 16 See Description |
– |
Number of consecutive subframes for which the UE shall follow the short DRX cycle. |
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|
DRX Start Offset |
0 ... 2559 See Description |
– |
Subframe where the DRX cycle starts. |
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|
0 ... 1 |
– |
Duplex mode indication. 0: FDD |
✔ |
|
|
Duplex Mode (Text) |
Text |
– |
Same as "Duplex Mode" but in text format. |
✔ |
|
0 ... 1 |
– |
eMBMS: Indicates whether the eNodeB belongs to one eMBMS area or to several such areas (each having its own MCCH). 0: Single area |
✔ |
|
|
eMBMS Area Type (Text) |
Text |
– |
Same as "eMBMS Area Type (Num)" but in text format. |
✔ |
|
EMM State |
Text |
– |
EPS Mobility Management state. ► 3GPP 24.301, section 5.1.3.2 |
✔ |
|
EMM Substate |
Text |
– |
EPS Mobility Management substate. ► 3GPP 24.301, section 5.1.3.2 |
✔ |
|
0 ... 4 |
– |
Number of antennas in the eNodeB. Note: Only valid when RRC State: Connected. |
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EPower IEs: General remark |
These elements originate from enhanced power scanning. Argument: Points to a frequency as specified by the "EPower Ana Sc DL Freq (kHz)" element. |
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|
0 ... 6 · 106 |
1 ... 2559 |
List of frequencies scanned. |
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|
EPower Ana Sc DL No Of Freq |
0 ... 2560 |
– |
Number of frequencies scanned. |
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|
–140 ... 25 |
1 ... 2559 |
RSSI for each frequency scanned. |
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|
Text |
– |
Time as reported in device timestamp. Given in the format "hh:mm:ss.ddd", where "ddd" = decimal seconds. |
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|
ESM State |
Text |
– |
EPS Session Management state. |
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|
Text |
1 ... 116 |
Device feature group indicators according to ► 3GPP 36.331, Annexes B and C. Each string tells whether the feature group is supported ("YES", "NO", or "N/A") and defines the contents of the feature group. Argument: FGI index. |
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|
Feature Group Indicator Bitmask |
Text |
– |
Hex string summarizing device feature group support as described by the "Feature Group Indicator" element. Equivalent to a binary string where "YES" is represented by 1, and where "NO" and "N/A" are represented by 0. |
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|
Text |
– |
Version number of device firmware. |
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"GSM Neighbor" IEs: General remark |
Argument: GSM neighbors are sorted by decreasing RxLev. |
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GSM Neigh ARFCN |
0 ... 1023 |
1 ... 32 |
ARFCNs of measured GSM neighbors. |
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|
00 ... 77 (octal) |
1 ... 32 |
Base Station Identity Codes of measured GSM neighbors. |
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|
GSM Neigh BSIC (Text) |
Text |
1 ... 32 |
Same as "GSM Neigh BSIC" but in text format. |
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GSM Neigh No Of |
0 ... 32 |
– |
Number of measured GSM neighbors. |
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|
GSM Neighbor RxLev (dBm) |
–120 ... –10 |
1 ... 32 |
Received signal strength of measured GSM neighbors. |
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|
Text |
– |
Hardware model. |
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|
Text |
– |
Hardware identification string. |
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|
Heading (deg) |
0 ... 360 |
– |
Direction of travel measured in degrees clockwise from north. Reported by positioning equipment. |
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|
IMSI |
Text |
– |
International Mobile Subscriber Identity, the unique identity of the SIM in the device. ► 3GPP 23.003 |
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|
Latitude |
–90 ... 90 |
– |
Latitude recorded by positioning equipment. |
✔ |
|
Latitude (Text) |
Text |
– |
Latitude as text. Example: "N 38°57.9198" |
✔ |
|
Latitude Decimal Degrees (Text) |
Text |
– |
Latitude in decimal degrees, presented as text. |
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|
Longitude |
–180 ... 180 |
– |
Longitude recorded by positioning equipment. |
✔ |
|
Longitude (Text) |
Text |
– |
Longitude as text. Example: "W 77°22.4014" |
✔ |
|
Longitude Decimal Degrees (Text) |
Text |
– |
Longitude in decimal degrees, presented as text. |
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|
MAC DL Handover First Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of first MAC layer packet received after a handover. |
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|
MAC DL Handover Last Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of last MAC layer packet received before a handover. |
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|
MAC DL PDU Handover Interruption Time |
0 ... 1000 |
– |
Duration of downlink data transfer interruption at the MAC layer in connection with a handover. |
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|
0 ... 350000 |
– |
MAC layer downlink throughput. Available in kbit/s and Mbit/s versions. |
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|
MAC HARQ Maximum No Of Retransmissions |
0 ... 28 |
– |
Maximum number of retransmissions in MAC layer HARQ processes. |
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|
MAC UL Handover First Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of first MAC layer packet transmitted after a handover. |
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|
MAC UL Handover Last Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of last MAC layer packet transmitted before a handover. |
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|
MAC UL PDU Handover Interruption Time |
0 ... 1000 |
– |
Duration of uplink data transfer interruption at the MAC layer in connection with a handover. |
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|
0 ... 350000 |
– |
MAC layer uplink throughput. Available in kbit/s and Mbit/s versions. |
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|
0 ... 1 |
– |
eMBMS: Indicates whether a Multicast Control Channel is configured. 0: No |
✔ |
|
|
MCCH Configured (Text) |
Text |
– |
Same as "MCCH Configured (Num)" but in text format. |
✔ |
|
Message Hex Dump Payload |
Text |
– |
Contains the hexadecimal string of a Layer 3 message or mode report. Used for text-format logfile export only. |
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|
MME Code |
0 ... 255 |
– |
Mobility Management Entity Code. ► 3GPP 23.003, section 2.8.1 |
✔ |
|
MME Group ID |
0 ... 65535 |
– |
Mobility Management Entity Group ID. ► 3GPP 23.003, section 2.8.1 |
✔ |
|
Mode |
Text |
– |
Same as "Mode (Num)" but in text format. |
✔ |
|
1 ... 7 |
– |
1: No service |
✔ |
|
|
1 ... 9 |
– |
Relevant values: 1: WCDMA |
✔ |
|
|
Mode - System (Text) |
Text |
– |
Same as "Mode - System" but in text format. |
✔ |
|
MTMSI |
Text |
– |
M-TMSI, M-Temporary Mobile Subscriber Identity. ► 3GPP 23.003 |
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|
The argument points to an LTE cell. The sorting order depends on the setting in the General window: see UM section "Sorting of Cells". In case of carrier aggregation, these IEs encompass neighbors of all serving cells. Note, however, that all neighbors are reported and presented in the same way irrespective of which carrier they belong to. They are not explicitly identified as "primary", "secondary", etc. |
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|
Neighbor Cell Channel RSSI (dBm) CA |
–140 ... 25 |
1 ... 64 |
Received signal strength on the EARFCN each neighbor is using. Regarding EARFCN numbering, ► 3GPP 36.101. |
✔ |
|
Neighbor Cell Distance (m) CA |
0 ... 100000 |
1 ... 64 |
Distance to each neighbor cell. Requires cell file and UE positioning data. |
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|
Neighbor Cell DL EARFCN CA |
0 ... 39649 |
1 ... 64 |
Downlink EARFCN of each neighbor. Regarding EARFCN numbering, ► 3GPP 36.101. |
✔ |
|
Neighbor Cell Frame Timing Rx1 CA |
0 ... 307199 |
1 ... 64 |
Neighbor cell frame timing relative to the network's absolute time reference, as received on antenna Rx1. |
✔ |
|
Neighbor Cell Frame Timing Rx2 CA |
0 ... 307199 |
1 ... 64 |
Neighbor cell frame timing relative to the network's absolute time reference, as received on antenna Rx2. |
✔ |
|
Neighbor Cell Frame Timing Offset Rx1 CA |
0 ... 307199 |
1 ... 64 |
Neighbor cell frame timing offset from serving cell as received on antenna Rx1, i.e. "Neighbor Cell Frame Timing Rx1" – "Serving Cell Frame Timing Rx1". |
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Neighbor Cell Frame Timing Offset Rx2 CA |
0 ... 307199 |
1 ... 64 |
Neighbor cell frame timing offset from serving cell as received on antenna Rx2, i.e. "Neighbor Cell Frame Timing Rx2" – "Serving Cell Frame Timing Rx2". |
|
|
Neighbor Cell Identity CA |
0 ... 503 |
1 ... 64 |
Physical Layer Cell Identity (equal to 3 |
✔ |
|
Neighbor Cell Identity (Cell Part) CA |
0 ... 2 |
1 ... 64 |
PCI of each neighbor. |
|
|
Neighbor Cell Identity (Group Part) CA |
0 ... 167 |
1 ... 64 |
PCIG of each neighbor. |
|
|
Neighbor Cell Name CA |
Text |
1 ... 64 |
Cell name of each neighbor. Requires cell file. |
✔ |
|
Neighbor Cell Number Of CA |
1 ... 64 |
– |
Number of neighbors in the neighbor list of the current serving cell. |
|
|
Neighbor Cell RSRP (dBm) CA |
–140 ... 25 |
1 ... 64 |
Reference Signal Received Power of each neighbor (sum of contributions from antennas Rx1 and Rx2). |
✔ |
|
Neighbor Cell RSRP Tx1 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
|
|
Neighbor Cell RSRP Tx1 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
|
|
Neighbor Cell RSRP Tx1 Rx3 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx3. |
|
|
Neighbor Cell RSRP Tx1 Rx4 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx4. |
|
|
Neighbor Cell RSRP Tx2 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx2 as received on antenna Rx1. |
|
|
Neighbor Cell RSRP Tx2 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 64 |
RSRP contribution from eNodeB antenna Tx2 as received on antenna Rx2. |
|
|
Neighbor Cell RSRQ (dBm) CA |
–40 ... 40 |
1 ... 64 |
Reference Signal Received Quality of each neighbor (sum of contributions from eNodeB antennas Rx1 and Rx2). |
✔ |
|
Neighbor Cell RSRQ Tx1 Rx1 (dBm) CA |
–40 ... 40 |
1 ... 64 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
|
|
Neighbor Cell RSRQ Tx1 Rx2 (dBm) CA |
–40 ... 40 |
1 ... 64 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
|
|
Neighbor Cell RSRQ Tx2 Rx1 (dBm) CA |
–40 ... 40 |
1 ... 64 |
RSRQ contribution from eNodeB antenna Tx2 as received on antenna Rx1. |
|
|
Neighbor Cell RSRQ Tx2 Rx2 (dBm) CA |
–40 ... 40 |
1 ... 64 |
RSRQ contribution from eNodeB antenna Tx2 as received on antenna Rx2. |
|
|
"Network Search" IEs: General remark |
These elements are derived from network scanning. The argument, where present, points to an LTE cell found during the scan. |
|||
|
0 .. 503 |
1 ... 100 |
Physical Layer Cell Identity (equal to 3 |
|
|
|
0 ..39649 |
1 ... 100 |
EARFCN to which each detected cell belongs. |
|
|
|
Network Search No of EARFCNs |
0 ... 100 |
– |
Number of EARFCNs on which network activity (i.e. at least one cell) was detected. |
|
|
–140 ... 25 |
1 ... 100 |
Reference Signal Received Power of each detected cell. |
|
|
|
PBCH BLER |
0 ...100 |
– |
PBCH block error rate for the latest reporting period. |
|
|
PBCH BLER |
0 ...100 |
– |
PBCH block error rate, accumulated over the current session. |
|
|
0 ...100 |
1 ... 4 |
The percentage of subframes encoded with a specific number of OFDM symbols during one second. Argument: OFDM symbol count. |
|
|
|
0 ... 1 · 106 |
1 ... 4 |
Number of Control Channel Elements sent on the PDCCH, accumulated over the current session. The update interval is configurable: see Options dialog. Argument: OFDM symbol count. |
|
|
|
PDCCH CCE Count (Curr) |
0 ... 100 |
1 ... 4 |
Number of Control Channel Elements sent on the PDCCH during the latest reporting period. Argument: OFDM symbol count. |
|
|
0 ... 65535 |
1 ... 11 |
Distribution of Downlink Control Information format usage on PDCCH. Accumulated over the current session. DCI formats are detailed in ► 3GPP 36.212, section 5.3.3.1. The update interval is configurable: see section Options dialog. Argument: |
|
|
|
PDCCH DCI Format Usage Distribution Current |
0 ... 65535 |
1 ... 10 |
Distribution of Downlink Control Information format usage on PDCCH for the latest reporting period. DCI formats are detailed in ► 3GPP 36.212, section 5.3.3.1. Argument: See "PDCCH DCI Format Usage Distribution Accumulated". |
|
|
PDCCH DL Grant Count (Accu) |
0 ... 1 · 106 |
– |
Number of downlink grants on PDCCH, accumulated over the current session. The update interval is configurable: see Options dialog. |
|
|
PDCCH DL Grant Count (Curr) |
0 ... 100 |
– |
Number of downlink grants on PDCCH during the latest reporting period. |
|
|
PDCCH UL Grant Count (Accu) |
0 ... 1 · 106 |
– |
Number of uplink grants on PDCCH, accumulated over the current session. The update interval is configurable: Options dialog. |
|
|
PDCCH UL Grant Count (Curr) |
0 ... 100 |
– |
Number of uplink grants on PDCCH during the latest reporting period. |
|
|
PDCP DL Handover First Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of first PDCP packet received after a handover. |
|
|
PDCP DL Handover Last Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of last PDCP packet received before a handover. |
|
|
0 ... 1000 |
– |
Duration of downlink data transfer interruption at the PDCP layer in connection with a handover. |
|
|
|
PDCP DL RB Throughput (kbit/s) |
0 ... 350000 |
0 ... 37 |
Throughput on each PDCP downlink radio bearer. Argument: Radio bearer index. |
|
|
0 ... 350000 |
– |
Total downlink throughput in the PDCP protocol layer (sum over all radio bearers). Available in kbit/s and Mbit/s versions. |
✔ |
|
|
0 ... 350000 |
1 ... 9 |
Distribution of PDCP downlink throughput over QoS Class Identifiers, each representing a different class of quality-of-service requirements. Argument: QCI value as defined in ► 3GPP 23.203, section 6.1.7.2. Conversational voice has QCI = 1, and conversational video has QCI = 2. |
|
|
|
PDCP UL Handover First Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of first PDCP packet transmitted after a handover. |
|
|
PDCP UL Handover Last Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of last PDCP packet transmitted before a handover. |
|
|
0 ... 1000 |
– |
Duration of uplink data transfer interruption at the PDCP layer in connection with a handover. |
|
|
|
PDCP UL RB Throughput (kbit/s) |
0 ... 350000 |
0 ... 37 |
Throughput on each PDCP uplink radio bearer. Argument: Radio bearer index. |
|
|
0 ... 350000 |
– |
Total uplink throughput in the PDCP protocol layer (sum over all radio bearers). Available in kbit/s and Mbit/s versions. |
✔ |
|
|
0 ... 350000 |
1 ... 9 |
Distribution of PDCP uplink throughput over QoS Class Identifiers. Compare "PDCP DL Throughput Per QCI (kbit/s)". Argument: QCI value. |
|
|
|
PDN Connection IEs: General remark |
These IEs relate to packet data network (PDN) connections. Argument: Just a sequence number pointing to a PDN connection. |
|||
|
PDN Connection IPv4 Address |
Text |
1 ... 9 |
User address (IPv4). |
✔ |
|
PDN Connection IPv6 Address |
Text |
1 ... 9 |
User address (IPv6). |
✔ |
|
PDN Connection Address Type |
Text |
1 ... 9 |
Address type: IPv4 or IPv6. |
|
|
PDN Connection AMBR DL |
0 ... 350000 |
1 ... 9 |
Aggregate maximum bit rate on downlink. ► 3GPP 24.301, section 9.9.4.2 |
|
|
PDN Connection AMBR UL |
0 ... 350000 |
1 ... 9 |
Aggregate maximum bit rate on uplink. ► 3GPP 24.301, section 9.9.4.2 |
|
|
PDN Connection APN |
Text |
1 ... 9 |
Host name or network Access Point Name. |
✔ |
|
PDN Connection Default Bearer ID |
5 ... 15 |
1 ... 9 |
EPS Default Bearer associated with each PDN connection. |
|
|
PDN Connection Index |
0 ... 8 |
1 ... 9 |
PDN connection index. |
|
|
PDN Connection Number Of |
0 ... 9 |
– |
Number of active PDN connections. |
|
|
PDSCH IEs: General remark |
These elements concern the Physical Downlink Shared Channel, PDSCH. |
|||
|
In these elements, the block error rate is calculated simply as the percentage of failed transmission attempts, each attempt being regarded in isolation and no attention being paid to its sequence number. Note that "PDSCH Initial BLER TB0" and "PDSCH Residual BLER TB0" are different. These elements are valid for the latest reporting period. |
||||
|
PDSCH BLER (%) |
0 ... 100 |
1 ... 4 |
Block error rate on the PDSCH. Argument: |
✔ |
|
PDSCH BLER TB0 (%) |
0 ... 100 |
1 ... 4 |
Block error rate for downlink Transport Block 0. Argument: |
|
|
PDSCH BLER TB0 Ack Number Of |
0 ... 75 |
1 ... 4 |
Number of ACKs for downlink Transport Block 0. Argument: |
|
|
PDSCH BLER TB0 Nack Number Of |
0 ... 75 |
1 ... 3 |
Number of NACKs for downlink Transport Block 0. Argument: |
|
|
PDSCH BLER TB1 (%) |
0 ... 100 |
1 ... 3 |
Block error rate for downlink Transport Block 1. Argument: |
|
|
PDSCH BLER TB1 Ack Number Of |
0 ... 75 |
1 ... 4 |
Number of ACKs for downlink Transport Block 1. Argument: |
|
|
PDSCH BLER TB1 Nack Number Of |
0 ... 75 |
1 ... 4 |
Number of NACKs for downlink Transport Block 1. Argument: |
|
|
0 ... 100 |
1 ... 4 |
Percentage of failed first attempts to transmit PDSCH transport block, no further attempts being considered. Updated once every second. Argument: |
|
|
|
PDSCH Initial BLER TB1 |
0 ... 100 |
1 ... 4 |
Percentage of failed first attempts to transmit PDSCH transport block, no further attempts being considered. Updated once every second. Argument: |
|
|
CA |
0 ... 31 |
1 ... 4 |
Modulation Coding Scheme index for downlink Transport Block 0. ► 3GPP 36.213, section 7.1.7.1 Argument: |
✔ |
|
PDSCH MCS1 CA |
0 ... 31 |
1 ... 4 |
Modulation Coding Scheme index for downlink Transport Block 1. Argument: |
✔ |
|
PDSCH MCS Distribution PCell TB0 CA |
0 ... 100 |
0 ... 31 |
Distribution of modulation coding scheme usage on PDSCH for primary serving cell and Transport Block 0. Updated once every second. Argument: MCS index. |
|
|
PDSCH MCS Distribution PCell TB1 CA |
0 ... 100 |
0 ... 31 |
Distribution of modulation coding scheme usage on PDSCH for primary serving cell and Transport Block 1. Updated once every second. Argument: MCS index. |
|
|
PDSCH MCS Distribution SCell<n> TB0 n = 1 ... 2 CA |
0 ... 100 |
0 ... 31 |
Distribution of modulation coding scheme usage on PDSCH for nth secondary serving cell and Transport Block 0. Updated once every second. Argument: MCS index. |
|
|
PDSCH MCS Distribution SCell<n> TB1 n = 1 ... 2 CA |
0 ... 100 |
0 ... 31 |
Distribution of modulation coding scheme usage on PDSCH for nth secondary serving cell and Transport Block 1. Updated once every second. Argument: MCS index. |
|
|
PDSCH Modulation Distribution PCell TB0 CA |
0 ... 1000 |
1 ... 4 |
Distribution of modulation method usage for primary serving cell and downlink Transport Block 0. TTIs are counted over one-second intervals. Argument: |
|
|
PDSCH Modulation Distribution PCell TB1 CA |
0 ... 1000 |
1 ... 4 |
Same as "PDSCH Modulation Distribution PCell TB0" but for Transport Block 1. |
|
|
PDSCH Modulation Distribution SCell<n> TB0 n = 1 ... 2 CA |
0 ... 1000 |
1 ... 4 |
Distribution of modulation method usage for nth secondary serving cell and downlink Transport Block 0. TTIs are counted over one-second intervals. Argument: |
|
|
PDSCH Modulation Distribution SCell<n> TB1 n = 1 ... 2 CA |
0 ... 1000 |
1 ... 4 |
Same as "PDSCH Modulation Distribution SCell<n> TB0" but for Transport Block 1. |
|
|
CA |
0 ... 8 |
1 ... 4 |
The number of bits used for modulation of downlink Transport Block 0. ► 3GPP 36.213, section 7.1.7.1 Argument: |
✔ |
|
PDSCH Modulation TB0 (Text) CA |
Text |
1 ... 4 |
Name of modulation method used for modulation of downlink Transport Block 0. Argument: |
✔ |
|
PDSCH Modulation TB1 (bits) CA |
0 ... 8 |
1 ... 4 |
The number of bits used for modulation of downlink Transport Block 1. ► 3GPP 36.213, section 7.1.7.1 Argument: |
✔ |
|
PDSCH Modulation TB1 (Text) CA |
Text |
1 ... 4 |
Name of modulation method used for modulation of downlink Transport Block 1. Argument: |
✔ |
|
PDSCH Number Of Used Transport Blocks CA |
1 ... 2 |
1 ... 4 |
Number of used downlink transport blocks. Argument: |
|
|
0 ... 350000 |
– |
Total throughput on the PDSCH, measured as the throughput rate from the physical layer to the MAC layer. Sum taken over all carriers in case of carrier aggregation (CA). Available in kbit/s and Mbit/s versions. |
✔ |
|
|
PDSCH Phy Throughput Per Carrier CA |
0 ... 350000 |
1 ... 4 |
Total throughput on the PDSCH for each carrier in use. Available in kbit/s and Mbit/s versions. Argument: |
✔ |
|
PDSCH Phy Throughput CW0 CA |
0 ... 350000 |
1 ... 4 |
Throughput on the PDSCH for Transport Block 0. Available in kbit/s and Mbit/s versions. Argument: |
|
|
PDSCH Phy Throughput CW1 CA |
0 ... 350000 |
1 ... 4 |
Throughput on the PDSCH for Transport Block 1. Available in kbit/s and Mbit/s versions. Argument: |
|
|
0 ... 100 |
1 ... 4 |
Percentage of PDSCH transport blocks that were not transmitted successfully even after the maximum number of attempts. Updated once every second. Argument: |
|
|
|
0 ... 100 |
1 ... 4 |
Percentage of PDSCH transport blocks that were not transmitted successfully even after the maximum number of attempts. Updated once every second. Argument: |
|
|
|
CA |
1 ... 110 |
1 ... 4 |
Number of PDSCH resource blocks, equal to N_PRB in ► 3GPP 36.213, section 7.1.7. Argument: |
✔ |
|
CA |
0 ... 100 |
1 ... 4 |
Percentage of the maximum number of PDSCH resource blocks, equal to N_PRB in ► 3GPP 36.213, section 7.1.7. Argument: |
|
|
PDSCH Resource Block Allocation Count CA |
0 ... 8 · 106 |
1 ... 4 |
Number of PDSCH resource blocks allocated over the past second. Argument: |
✔ |
|
CA |
0 ... 100 |
1 ... 4 |
Within the current TTI, index of the first PDSCH resource block that is allocated to this device. Argument: |
|
|
CA |
–40 ... 60 |
1 ... 4 |
Signal to interference-plus-noise ratio on the PDSCH. Calculated as: Serving cell SINR + PA value + ("eNodeB Antenna Count" – 1) Ã 3, where "PA value" comes from the physicalConfigDedicated field of any Layer 3 ERRC message. Argument: |
|
|
0 ... 100 |
0 ... 8 |
Distribution of the number of attempts required to successfully transmit a downlink Transport Block 0. Accumulated over the current session. (CW = Code Word.) Argument: |
|
|
|
0 ... 1 · 106 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Accu) (%)" but expressing the distribution in terms of absolute numbers rather than percentages. |
|
|
|
0 ... 100 |
0 ... 8 |
Distribution of the number of attempts required to successfully transmit a downlink Transport Block 0. Valid for latest reporting period. Argument: See "PDSCH Transmission Distribution CW0 (Accu) (%)". |
|
|
|
0 ... 100 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Curr) (%)" but expressing the distribution in terms of absolute numbers rather than percentages. |
|
|
|
PDSCH Transmission Distribution CW1 (Accu) (%) |
0 ... 100 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Accu) (%)" but for Transport Block 1 (Code Word 1). |
|
|
PDSCH Transmission Distribution CW1 (Accu) Count |
0 ... 1 · 106 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Accu) Count" but for Transport Block 1 (Code Word 1). |
|
|
PDSCH Transmission Distribution CW1 (Curr) (%) |
0 ... 100 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Curr) (%)" but for Transport Block 1 (Code Word 1). |
|
|
PDSCH Transmission Distribution CW1 (Curr) Count |
0 ... 100 |
0 ... 8 |
Same as "PDSCH Transmission Distribution CW0 (Curr) Count" but for Transport Block 1 (Code Word 1). |
|
|
CA |
0 ... 100 |
1 ... 4 |
Percentage of non-empty TTIs (i.e. ones where data as been sent) on the PDSCH during the latest second. Updated once every second. Argument: |
|
|
PDSCH TTI Allocation Count CA |
0 ... 1000 |
1 ... 4 |
Number of non-empty TTIs (i.e. ones where data as been sent) on the PDSCH during the latest second. Updated once every second. Argument: |
|
|
0 ... 100 |
– |
eMBMS: Percentage of PMCH transport blocks that were successfully decoded (CRC pass). Updated once every second. |
✔ |
|
|
0 ... 1000 |
– |
eMBMS: Number of PMCH transport blocks received over the past second. |
✔ |
|
|
PMI |
0 ... 15 |
1 ... 4 |
Precoding Matrix Indicator: actual value used. Argument: |
✔ |
|
PMI Feedback |
0 ... 15 |
1 ... 4 |
PMI reported by the UE to the eNodeB. Argument: |
|
|
Power Headroom |
-40 ... 40 |
– |
Indicates how much transmission power left for a UE to use in addition to the power being used by current transmission. |
|
|
PRACH Hopping Enabled |
0 ... 1 |
– |
PRACH Hopping Enabled. |
|
|
Protocol Version |
Text |
– |
E-UTRA Access Stratum release supported by UE: " |
|
|
These elements relate to the primary synchronization signal. |
||||
|
PSS Peak Position |
0 ... 48000 |
1 ... 16 |
Position of PSS peak, expressed as a multiple of 5 ms. Argument: PSS peak index. |
|
|
PSS Peak Power (dB) |
–21 ... 27 |
1 ... 16 |
Power of PSS peak, expressed as a value in decibel. Argument: PSS peak index. |
|
|
PSS Peak Count |
0 ... 16 |
– |
Number of PSS peaks found. |
|
|
PUCCH G(i) |
–10 ... 10 |
– |
Current power control adjustment state for Physical Uplink Control Channel. ► 3GPP 36.213, section 5.1.2.1 |
|
|
PUSCH IEs: General remark |
These elements concern the Physical Uplink Shared Channel, PUSCH. |
|||
|
PUSCH Alpha |
0 ... 1 |
– |
Path loss weighting factor in PUSCH power control equation. ► 3GPP 36.213, section 5.1.1.1 |
|
|
In these elements, the block error rate is calculated simply as the percentage of failed transmission attempts, each attempt being regarded in isolation and no attention being paid to its sequence number. Note that "PUSCH Initial BLER" and "PUSCH Residual BLER" are different. These elements are valid for the latest reporting period. |
||||
|
PUSCH BLER (%) |
0 ... 100 |
– |
Block error rate on the PUSCH. |
|
|
PUSCH BLER Ack Number Of |
0 ... 100000 |
– |
Number of ACKs for uplink transport blocks. |
|
|
PUSCH BLER Nack Number Of |
0 ... 100000 |
– |
Number of NACKs for uplink transport blocks. |
|
|
PUSCH F(i) |
–10 ... 10 |
– |
Current PUSCH power control adjustment state. ► 3GPP 36.213, section 5.1.1.1 ("fc(i)") |
|
|
PUSCH HARQ Max Transmissions |
0 ... 1 |
– |
Maximum number of HARQ transmissions. |
|
|
0 ... 100 |
– |
Percentage of failed first attempts to transmit PUSCH transport blocks, no further attempts being considered. Updated once every second. |
|
|
|
0 ... 31 |
– |
Modulation Coding Scheme index for the uplink transport block. ► 3GPP 36.213, section 7.1.7.1 |
|
|
|
PUSCH MCS Distribution |
0 ... 100 |
0 ... 31 |
Distribution of modulation coding scheme usage on the PUSCH. Updated once every second. Argument: MCS index. |
|
|
0 ... 8 |
– |
The number of bits used for modulation of the uplink transport block. ► 3GPP 36.213, section 7.1.7.1 |
|
|
|
PUSCH Modulation (Text) |
Text |
– |
Name of modulation method used for modulation of the uplink transport block. |
|
|
PUSCH P0 Nominal (dBm) |
–126 ... 24 |
– |
PO_NOMINAL_PUSCH for current serving cell. ► 3GPP 36.213, section 5.1.1.1 |
|
|
0 ... 350000 |
– |
Throughput on the PUSCH. Available in kbit/s and Mbit/s versions. |
✔ |
|
|
0 ... 100 |
– |
Percentage of PUSCH transport blocks that were not transmitted successfully even after the maximum number of attempts. Updated once every second. |
|
|
|
PUSCH Resource Block Allocation Count |
0 ... 1000006 |
– |
Number of PUSCH resource blocks allocated over the past second. |
✔ |
|
PUSCH Resource Block Start |
0 ... 100 |
1 ... 6 |
Within the current TTI, index of the first PUSCH resource block that is allocated to this device. Argument: Carrier index |
✔ |
|
PUSCH Resource Block |
1 ... 110 |
1 ... 6 |
Number of PUSCH resource blocks, equal to N_PRB in ► 3GPP 36.213, section 8.1. Argument: Carrier index |
|
|
0 ... 100 |
1 ... 6 |
Percentage of the maximum number of PUSCH resource blocks, equal to N_PRB in ► 3GPP 36.213, section 8.6.2. Argument: Carrier index |
|
|
|
0 ... 100 |
0 ... 6 |
Distribution of the number of attempts required to successfully transmit an uplink Transport Block. Accumulated over the current session. Argument: |
|
|
|
PUSCH Transmission Distribution (Curr) % |
0 ... 100 |
0 ... 6 |
Distribution of the number of attempts required to successfully transmit an uplink Transport Block. Valid for latest reporting period. Argument: See "PUSCH Transmission Distribution (Accu) %". |
|
|
PUSCH TTI Allocation (%) |
0 ... 100 |
– |
Percentage of non-empty TTIs (i.e. ones where data as been sent) on the PUSCH during the latest second. Updated once every second. |
|
|
PUSCH TTI Allocation Count |
0 ... 1000 |
– |
Number of non-empty TTIs (i.e. ones where data as been sent) on the PUSCH during the latest second. Updated once every second. |
|
|
RACH Contention Resolution Timer |
8 ... 64 |
– |
Specifies the number of consecutive subframes during which the UE shall monitor the PDCCH after a RACH-related message of type "Msg3" is transmitted. ► 3GPP 36.321, section 5.1.5 |
✔ |
|
0 ... 2 |
– |
Status of RACH contention resolution timer. 0: Idle |
|
|
|
RACH Contention Resolution Timer Status (Text) |
Text |
– |
Same as "RACH Contention Resolution Timer Status (Num)" but in text format. |
|
|
RACH Current Tx Power (dBm) |
–140 ... 25 |
– |
Transmit power of last RACH preamble. |
✔ |
|
RACH Initial Tx Power (dBm) |
–50 ... 25 |
– |
Transmit power of first RACH preamble. |
✔ |
|
RACH Latency (TTI) |
0 ... 32000 |
– |
Time between request and response, measured in TTIs. |
✔ |
|
RACH Max Preamble Power |
–50 ... 23 |
– |
Maximum transmit power of RACH preamble. |
|
|
RACH Max Preambles |
3 ... 200 |
– |
Maximum number of preambles in one preamble ramping cycle. |
✔ |
|
RACH MSG1 Retransmission Count |
1 ... 128 |
– |
Retransmission count for each RACH Msg 1. |
✔ |
|
RACH MSG3 Retransmission Count |
1 ... 128 |
– |
Retransmission count for each RACH Msg 3. |
✔ |
|
RACH Number Of Transmits |
1 ... 255 |
– |
Number of transmits required for the last random access procedure. |
✔ |
|
RACH Period |
Text |
– |
Window size for Random Access Response. |
|
|
RACH Preamble Responses with PUSCH Resource |
0 ... 255 |
– |
Number of RACH preamble responses with indication of PUSCH resource. |
|
|
RACH Preamble Step |
0 ... 255 |
– |
RACH preamble power step size in dB. |
✔ |
|
RACH Reason |
Text |
– |
Reason for random access procedure, one of: " |
✔ |
|
Text |
– |
Outcome of random access procedure, e.g.: " |
✔ |
|
|
RACH RNTI |
0 ... 65535 |
– |
Random access Radio Network Temporary Identity (RA-RNTI). |
|
|
RACH Signature |
Text |
– |
UE identifier used for contention resolution in random access procedure. ► 3GPP 36.300, section 10.1.6 |
|
|
Text |
– |
Type of random access procedure: " |
✔ |
|
|
1 ... 4 |
1 ... 4 |
Rank Indication: actual value used. ► 3GPP 36.212 Argument: |
|
|
|
RI 1 Number Of |
0 ... 65535 |
1 ... 4 |
Number of times the "RI" element has had the value 1, accumulated over the current session. The update interval is configurable: see Options dialog. Argument: |
✔ |
|
RI 2 Number Of |
0 ... 65535 |
1 ... 4 |
Number of times the "RI" element has had the value 2, accumulated over the current session. The update interval is configurable: see Options dialog. Argument: |
✔ |
|
1 ... 4 |
1 ... 4 |
Rank Indication reported by the UE to the eNodeB. Argument: |
|
|
|
RI 1 Feedback Number Of |
0 ... 65535 |
1 ... 4 |
Number of times the "RI Feedback" element has had the value 1, accumulated over the current session. Argument: |
✔ |
|
RI 2 Feedback Number Of |
0 ... 65535 |
1 ... 4 |
Number of times the "RI Feedback" element has had the value 2, accumulated over the current session. Argument: |
✔ |
|
RLC IEs: General remark |
The argument, where present, refers to an individual RLC radio bearer. |
|||
|
0 ... 86,400,000 |
– |
UE timestamp of first RLC packet received after a handover. |
|
|
|
0 ... 86,400,000 |
– |
UE timestamp of last RLC packet received before a handover. |
|
|
|
0 ... 1000 |
– |
Duration of downlink data transfer interruption at the RLC layer in connection with a handover. |
|
|
|
RLC DL RB ID |
Text |
1 ... 15 |
Identity of each RLC downlink radio bearer. |
|
|
RLC DL RB Mode |
Text |
1 ... 15 |
RLC downlink radio bearer mode, one of: " |
|
|
RLC DL RB Number Of |
1 ... 15 |
– |
Number of RLC downlink radio bearers. |
|
|
0 ... 350000 |
1 ... 15 |
Throughput on each RLC downlink radio bearer. |
|
|
|
RLC DL State |
Text |
– |
State of RLC DL protocol: 0: Inactive |
|
|
0 ... 350000 |
– |
Total RLC downlink throughput for all radio bearers. Available in kbit/s and Mbit/s versions. |
✔ |
|
|
0 ... 86,400,000 |
– |
UE timestamp of first RLC packet transmitted after a handover. |
|
|
|
RLC UL Handover Last Packet Time |
0 ... 86,400,000 |
– |
UE timestamp of last RLC packet transmitted before a handover. |
|
|
0 ... 1000 |
– |
Duration of uplink data transfer interruption at the RLC layer in connection with a handover. |
|
|
|
RLC UL RB ID |
Text |
1 ... 15 |
Identity of each RLC uplink radio bearer. |
|
|
RLC UL RB Mode |
Text |
1 ... 15 |
RLC uplink radio bearer mode. One of: " |
|
|
RLC UL RB Number Of |
1 ... 15 |
– |
Number of RLC uplink radio bearers. |
|
|
0 ... 350000 |
1 ... 15 |
Throughput on each RLC uplink radio bearer. |
|
|
|
RLC UL State |
Text |
– |
State of RLC UL protocol: 0: Inactive |
|
|
0 ... 350000 |
– |
Total RLC uplink throughput for all radio bearers. Available in kbit/s and Mbit/s versions. |
✔ |
|
|
Roaming Status |
Text |
– |
Device NAS status. One of: " |
|
|
RRC State |
Text |
– |
RRC state: " |
✔ |
|
"Sc 1st" IEs: General remark |
These elements derive from LTE scanning. The ordinal "1st" means that these IEs pertain to the first EARFCN scanned. Argument: Refers to an LTE cell. The sorting order within each element depends on the setting in the General window: see UM section "Sorting of Cells". |
|||
|
Freqs 1–4 |
–140 ... 25 |
0 ... 503 |
BCH RSSI for each cell scanned. |
|
|
Sc 1st Cell Distance (m) Freqs 1–12, B |
0 ... 100000 |
0 ... 503 |
Distance from scanning device to each cell scanned. Requires cell file and GPS positioning data for the scanning device. |
|
|
Sc 1st Cell Identity Freqs 1–12, B |
0 ... 503 |
0 ... 503 |
Physical Layer Cell Identity (equal to 3 |
✔ |
|
Sc 1st Cell Macro Ingress Freqs 1–4 |
–140 ... 140 |
– |
This element is populated only for TEMS Pocket logfiles. It indicates the difference between the total RSRP of small (indoor) cells and the total RSRP of macro (outdoor) cells on this EARFCN. Small cells have been identified as such in a transmitter file contained in an iBwave indoor map set. The RSRP sums are taken in the mW domain. |
✔ |
|
Sc 1st Cell Name Freqs 1–12, B |
Text |
0 ... 503 |
Name of each cell. Requires cell file. |
|
|
Sc 1st Cell Small Cell Indication Freqs 1–4 |
Text |
0 ... 503 |
This element is populated only for TEMS Pocket logfiles, taking the value " |
✔ |
|
Sc 1st Cell Zone Freqs 1–4 |
Text |
0 ... 503 |
This element is populated only for TEMS Pocket logfiles, indicating which of the zones defined in an iBwave indoor map set each cell belongs to. |
|
|
Sc 1st CFO (Hz) Freqs 1–12 |
–10000 ... 10000 |
0 ... 503 |
Center Frequency Offset of each cell scanned. |
|
|
Freqs 1–12, B |
–140 ... 25 |
– |
The power in the entire LTE channel bandwidth. |
✔ |
|
Sc 1st Delay Spread (samples) Freqs 1–4 |
0 ... 1023 |
0 ... 503 |
Delay spread, expressed as a number of sample times Ts, for each cell scanned. Ts is the shortest time interval defined in the LTE system, equal to 1 / (30.72 MHz) or 32.552 ns. |
✔ |
|
Sc 1st Duplex Mode Freqs 1–12 |
Text |
– |
Scanner duplex mode indication (FDD/TDD). |
|
|
Sc 1st EARFCN Freqs 1–12, B |
0 ... 39649 |
0 ... 503 |
EARFCN of each cell scanned. |
✔ |
|
Sc 1st MCC Freqs 1–12, B |
0 ... 999 |
0 ... 503 |
Mobile Country Code of each cell scanned. |
✔ |
|
Sc 1st MIMO Channel Matrix Noise Power (dBm) Freqs 1–12 |
-150 ... -20 dBm |
0 ... 503 |
Noise power (average) of channel matrix for each cell scanned in dBm. |
|
|
Sc 1st MIMO Condition Number (2x2) (dB) Freqs 1–12 |
0 ... 25 |
0 ... 503 |
Condition number of the channel matrix in a 2x2 MIMO configuration (2 Tx, 2 Rx) for each cell scanned. The condition number is a measure of the orthogonality of the MIMO streams, and hence an indication of whether the MIMO channel is currently capable of supporting spatial multiplexing. The lower the condition number, the better. |
✔ |
|
Sc 1st MIMO Condition Number (4x4) (dB) Freqs 1–12 |
0 ... 25 |
0 ... 503 |
Condition number of the channel matrix in a 4x4 MIMO configuration (4 Tx, 4 Rx) for each cell scanned. The condition number is a measure of the orthogonality of the MIMO streams, and hence an indication of whether the MIMO channel is currently capable of supporting spatial multiplexing. The lower the condition number, the better. |
|
|
Sc 1st MIMO Layer i Estimated CQI Freqs 1–12 Where MIMO Layer Index i = 1 ... 4 |
0 ... 15 |
0 ... 3 |
Estimated Channel Quality Indicator. Indication of overall channel efficiency. Calculated for each MIMO transmission scheme and layer. Available for both wideband and individual subbands. Argument: 0: EARFCN [0-23] |
|
|
Sc 1st MIMO Estimated Rank (2x2) Freqs 1–12 |
0 ... 2 |
0 ... 503 |
The estimated rank of the channel matrix in a 2x2 MIMO configuration (2 Tx, 2 Rx) for each cell scanned. Rank estimates are computed for both open-loop and closed-loop MIMO, and the better estimate is presented. |
|
|
Sc 1st MIMO Estimated Rank (4x4) Freqs 1–12 |
1 ... 4 |
0 ... 503 |
The estimated rank of the channel matrix in a 4x4 MIMO configuration (4 Tx, 4 Rx) for each cell scanned. Rank estimates are computed for both open-loop and closed-loop MIMO, and the better estimate is presented. |
|
|
Sc 1st MIMO Estimated Rank Type Freqs 1–12 |
Text |
0 ... 503 |
Type of MIMO that has the best estimated rank: " Argument: |
|
|
Sc 1st MIMO Layer i Estimated Throughput Freqs 1–12 Where MIMO Layer Index i = 1 ... 4 |
0 ... 500 Mbps |
0 ... 503 |
Estimation of overall wideband channel throughput, given channel conditions, bandwidth, and typical overhead. Calculated for each MIMO transmission scheme and layer. |
|
|
Sc 1st MNC Freqs 1–12, B |
0 ... 999 |
0 ... 503 |
Mobile Network Code of each cell scanned. |
✔ |
|
Sc 1st No Of Cell Identities Freqs 1–12, B |
0 ... 504 |
– |
Total number of detected Physical Layer Cell Identities on this EARFCN. |
|
|
Sc 1st No Of Rx Antennas Freqs 1–12 |
0 ... 4 |
– |
The number of scanner Rx antennas used in scanning this EARFCN. |
|
|
Sc 1st No Of Tx Antennas Freqs 1–12 |
0 ... 4 |
0 ... 503 |
Number of Tx ports for each cell/EARFCN scanned. Argument: |
|
|
Freqs 1–4 |
–140 ... 25 |
0 ... 503 |
P-SCH received power for each cell scanned. |
|
|
Sc 1st RRC Cell Identity Freqs 1–12, B |
0 ... 228 – 1 |
0 ... 503 |
ECI, E-UTRAN Cell Identifier, of each cell scanned, expressed in decimal format. ► 3GPP 36.300, section 8.2 |
|
|
Freqs 1–12, B |
–40 ... 60 |
0 ... 503 |
Reference Signal CINR for each cell scanned. |
✔ |
|
Freqs 1–12, B |
–140 ... 25 |
0 ... 503 |
Reference Signal Received Power (sum total over all Tx ports) for each cell scanned. |
✔ |
|
"Sc 1st RSRP Rxi Txj (dBm)" IEs Freqs 1–4 |
–140 ... 25 |
0 ... 503 |
Reference Signal Received Power for Tx port j (j = 1 ... 4) as received on Rx antenna i (i = 1 ... 4), for each cell scanned. |
|
|
Freqs 1–12, B |
–40 ... 40 |
0 ... 503 |
Reference Signal Received Quality (sum total over all Tx ports) for each cell scanned. |
✔ |
|
"Sc 1st RSRQ Rxi Txj (dB)" IEs Freqs 1–4 |
–40 ... 40 |
0 ... 503 |
Reference Signal Received Quality for Tx port j (j = 1 ... 4) as received on Rx antenna i (i = 1 ... 4), for each cell scanned. |
|
|
Freqs 1–12, B |
–40 ... 60 |
0 ... 503 |
PCTel: P-SCH CINR for each cell scanned. R&S: S-SCH CINR for each cell scanned. |
|
|
Freqs 1–12 |
–40 ... 40 |
0 ... 503 |
PCTel: P-SCH Received Quality for each cell scanned. R&S: S-SCH Received Quality for each cell scanned. |
|
|
Freqs 1–4 |
–140 ... 25 |
0 ... 503 |
S-SCH Received Power for each cell scanned. |
|
|
Sc 1st TAC Freqs 1–12, B |
0 ... 65535 |
0 ... 503 |
Tracking Area Code of each cell scanned. |
✔ |
|
Sc 1st Time Offset (samples) Freqs 1–12 |
0 ... 307199 |
0 ... 503 |
Time offset (in samples) from the beginning of the current frame, adjusted so that a frame begins at the GPS one-second tick epoch. |
|
|
"Sc 2nd (etc.)" IEs: General remark |
These elements are analogous to "Sc 1st" but pertain to the second (etc.) EARFCN scanned. Note: More IEs are provided for EARFCNs 1–4 than for EARFCNs 5–12, as detailed for the "Sc 1st" elements above. |
|||
|
These elements combine cells from all scanned EARFCNs, sorted by descending RSRQ (Es/I0). The sorting order within the "Best" elements is not affected by the settings in the General window (see UM section "Sorting of Cells"). Note: Fewer IEs are provided than for any individual EARFCN, as detailed under the "Sc 1st" elements above ("B" for "Best"). |
||||
|
"Sc RSSI" IEs: General remark |
These elements derive from RSSI scanning. The argument, where present, is a sequence number pointing to scanned frequencies as specified by the ""Sc RSSI Frequency (MHz)"" element, unless otherwise indicated. |
|||
|
–140 ... 25 |
1 ... 1000 |
RSSI for each scanned cell. |
|
|
|
–140 ... 25 |
0 ... 39649 |
RSSI for each scanned cell. Argument: EARFCN. |
|
|
|
Sc RSSI Band |
Text |
1 ... 1000 |
Band to which each scanned cell belongs. |
|
|
Sc RSSI Bandwidth |
Text |
1 ... 1000 |
Bandwidth used for each scanned cell. |
|
|
Sc RSSI Count |
0 ... 1000 |
– |
Number of cells scanned. |
|
|
Sc RSSI EARFCN |
0 ... 39649 |
1 ... 1000 |
EARFCN of each scanned cell. Regarding EARFCN numbering, see ► 3GPP 36.101. |
|
|
0 ... 6 · 106 |
1 ... 1000 |
Frequency of each cell scanned. |
|
|
|
These elements pertain to the current serving cell or cells. In case of carrier aggregation (CA), the serving cells are distinguished in a subset of IEs. Argument: Unless otherwise noted, 1 = primary serving cell and numbers above = secondary serving cell (CA). IEs lacking an argument are valid for the primary serving cell when CA is used. This is also true of elements whose argument has a different meaning, as detailed below. |
||||
|
Serving Cell X CQI Sub-band CW 0 |
0 ... 15 |
0 ... 27 |
Sub-band CQIs for code word 0, on carrier X where X is 1 to 6) Argument: Sub-band index. |
✔ |
|
Serving Cell X CQI Sub-band CW 1 |
0 ... 15 |
0 ... 27 |
Sub-band CQIs for code word 1, on carrier X where X is 1 to 6) Argument: Sub-band index. |
✔ |
|
CA |
–140 ... 25 |
1 ... 4 |
Received signal strength on the EARFCN each serving cell is using. |
|
|
Serving Cell Count CA |
1 ... 3 |
– |
Number of serving cells: greater than one in case of carrier aggregation. |
|
|
Serving Cell Distance (m) |
0 ... 50000 |
– |
Distance from UE to the serving cell. Requires cell file and UE positioning data. |
|
|
Serving Cell DL Bandwidth CA |
Text |
1 ... 4 |
Downlink bandwidth of serving cell. One of: 1.4 MHz, 3 MHz, 5 MHz, 10 MHz, 15 MHz, 20 MHz. |
✔ |
|
Serving Cell DL EARFCN CA |
0 ... 39649 |
1 ... 4 |
Downlink EARFCN of each serving cell. Regarding EARFCN numbering, see ► 3GPP 36.101. |
✔ |
|
Serving Cell DL Frequency (MHz) CA |
0 ... 3000 |
1 ... 4 |
Downlink frequency of serving cell. |
✔ |
|
Serving Cell DL Pathloss (dB) CA |
15 ... 200 |
1 ... 4 |
Downlink pathloss for serving cell. Calculated as (eNodeB transmit power) – "Serving Cell RSRP (dBm)". The eNodeB transmit power is updated from the RRC Connection Reconfiguration message and (for single carrier only) from SIB 2. |
|
|
CA |
0 ... 307199 |
1 ... 4 |
Cell frame timing of each serving cell relative to the network's absolute time reference, as received on antenna Rx1. |
✔ |
|
CA |
0 ... 307199 |
1 ... 4 |
Cell frame timing of each serving cell relative to the network's absolute time reference, as received on antenna Rx2. |
✔ |
|
Serving Cell Frequency Band CA |
Text |
1 ... 4 |
Frequency band to which each serving cell EARFCN belongs. |
✔ |
|
Serving Cell Identity CA |
0 ... 503 |
1 ... 4 |
Physical Layer Cell Identity of each serving cell, equal to 3 |
✔ |
|
Serving Cell Identity (Cell Part) CA |
0 ... 2 |
1 ... 4 |
PCI of each serving cell. |
|
|
Serving Cell Identity (Group Part) CA |
0 ... 167 |
1 ... 4 |
PCIG of each serving cell. |
|
|
0 ... 65535 |
– |
MCC of serving cell. |
✔ |
|
|
0 ... 65535 |
– |
MNC of serving cell. |
✔ |
|
|
Serving Cell Name |
Text |
– |
Name of serving cell. Requires cell file. |
✔ |
|
Serving Cell PLMN |
Text |
– |
PLMN (MCC and MNC) of serving cell. |
|
|
0 ... 228 – 1 |
– |
ECI, E-UTRAN Cell Identifier, of serving cell, expressed in decimal format. ► 3GPP 36.300, section 8.2 |
✔ |
|
|
Serving Cell RRC Cell Identity (Cell Part) |
0 ... 255 |
– |
Cell Id part (8 bits) of ECI for serving cell, expressed in decimal. |
✔ |
|
Serving Cell RRC Cell Identity (Cell Part Hex) |
Text: |
– |
Cell Id part of ECI for serving cell, expressed in hexadecimal. |
✔ |
|
Serving Cell RRC Cell Identity (eNB Part) |
0 ... 220 – 1 |
– |
eNodeB Identifier part (20 bits) of ECI for serving cell, expressed in decimal. |
✔ |
|
Serving Cell RRC Cell Identity (eNB Part Hex) |
Text: |
– |
eNodeB Identifier part of ECI for serving cell, expressed in hexadecimal. |
✔ |
|
Serving Cell RS CINR (dB) CA |
–40 ... 60 |
1 ... 4 |
CINR for Reference Signal of each serving cell. |
✔ |
|
CA |
–140 ... 25 |
1 ... 4 |
Reference Signal Received Power for each serving cell. Sum of contributions from antennas Rx1 and Rx2. |
✔ |
|
Serving Cell RSRP Tx1 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
✔ |
|
Serving Cell RSRP Tx1 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
✔ |
|
Serving Cell RSRP Tx1 Rx3 (dBm) CA |
–140 ... 25 |
1 ... 3 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx3. |
✔ |
|
Serving Cell RSRP Tx1 Rx4 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSRP contribution from eNodeB antenna Tx1 as received on antenna Rx4. |
✔ |
|
Serving Cell RSRP Tx2 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSRP contribution from eNodeB antenna Tx2 as received on antenna Rx1. |
✔ |
|
Serving Cell RSRP Tx2 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSRP contribution from eNodeB antenna Tx2 as received on antenna Rx2. |
✔ |
|
CA |
–40 ... 40 |
1 ... 4 |
Reference Signal Received Quality. Sum of contributions from antennas Rx1 and Rx2. |
✔ |
|
Serving Cell RSRQ Tx1 Rx1 (dB) CA |
–40 ... 40 |
1 ... 4 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
✔ |
|
Serving Cell RSRQ Tx1 Rx2 (dB) CA |
–40 ... 40 |
1 ... 4 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
✔ |
|
Serving Cell RSRQ Tx1 Rx3 (dB) CA |
–40 ... 40 |
1 ... 4 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx3. |
✔ |
|
Serving Cell RSRQ Tx1 Rx4 (dB) CA |
–40 ... 40 |
1 ... 3 |
RSRQ contribution from eNodeB antenna Tx1 as received on antenna Rx4. |
✔ |
|
Serving Cell RSRQ Tx2 Rx1 (dB) CA |
–40 ... 40 |
1 ... 4 |
RSRQ contribution from eNodeB antenna Tx2 as received on antenna Rx1. |
✔ |
|
Serving Cell RSRQ Tx2 Rx2 (dB) CA |
–40 ... 40 |
1 ... 4 |
RSRQ contribution from eNodeB antenna Tx2 as received on antenna Rx2. |
✔ |
|
Serving Cell RSSI Tx1 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSSI contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
✔ |
|
Serving Cell RSSI Tx1 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSSI contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
✔ |
|
Serving Cell RSSI Tx1 Rx3 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSSI contribution from eNodeB antenna Tx1 as received on antenna Rx3. |
✔ |
|
Serving Cell RSSI Tx1 Rx4 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RSSI contribution from eNodeB antenna Tx1 as received on antenna Rx4. |
✔ |
|
Serving Cell RS CINR Tx1 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx1 as received on antenna Rx1. |
✔ |
|
Serving Cell RS CINR Tx1 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx1 as received on antenna Rx2. |
✔ |
|
Serving Cell RS CINR Tx1 Rx3 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx1 as received on antenna Rx3. |
✔ |
|
Serving Cell RS CINR Tx1 Rx4 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx1 as received on antenna Rx4. |
✔ |
|
Serving Cell RS CINR Tx2 Rx1 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx2 as received on antenna Rx1. |
✔ |
|
Serving Cell RS CINR Tx2 Rx2 (dBm) CA |
–140 ... 25 |
1 ... 4 |
RS CINR contribution from eNodeB antenna Tx2 as received on antenna Rx2. |
✔ |
|
Serving Cell Small Cell Indication CA |
Text |
1 ... 4 |
This element is populated only for TEMS Pocket logfiles, taking the value " |
✔ |
|
Serving Cell Supports eMTC |
0 ... 1 |
0 ... 7 |
States if the serving cell supports eMTC. Arg: Cell |
|
|
Text |
– |
Tracking Area Code of serving cell. |
✔ |
|
|
–140 ... 25 |
– |
Total Reference Signal power for serving cell, calculated from serving cell RSRP and channel bandwidth. |
✔ |
|
|
–20 ... 20 |
0 ... 2 |
Difference between transmit powers of eNodeB Tx1 and Tx2 antennas, as received on each Rx antenna. Each presented value is an average over 20 samples in the time domain. Argument: 0: Mean of Rx1 and Rx2 values |
|
|
|
Serving Cell UL EARFCN |
0 ... 39649 |
– |
Uplink EARFCN of serving cell. Regarding EARFCN numbering, see ► 3GPP 36.101. |
✔ |
|
Serving Cell UL Frequency (MHz) |
0 ... 3000 |
– |
Uplink frequency of serving cell. |
|
|
Serving Cell Zone CA |
Text |
1 ... 4 |
This element is populated only for TEMS Pocket logfiles, indicating which of the zones defined in an iBwave indoor map set each serving cell belongs to. |
✔ |
|
"Spectr Ana" IEs: General remark |
These elements are populated by spectrum analysis scanning. The same elements are used for both uplink and downlink bands. The argument, where present, is a sequence number pointing to scanned frequencies as indicated by the ""Spectr Ana Sc Freq (kHz)"" element. |
|||
|
698,000 ... 3,800,000 |
1 ... 3001 |
Scanned frequencies in ascending order. |
|
|
|
Spectr Ana Sc No Of Freq |
0 ... 3001 |
– |
The number of frequencies swept by the scan. |
|
|
–140 ... 25 |
1 ... 3001 |
RSSI of frequencies scanned. |
|
|
|
Speed (km/h) |
0 ... 250 |
– |
Speed in km/h. |
✔ |
|
Speed (mph) |
0 ... 160 |
– |
Speed in mph. |
✔ |
|
SRS Resource Blocks |
0 ... 100 |
– |
Number of resource blocks allocated to transmission of sounding reference signals. |
|
|
–50 ... 23 |
– |
Transmit power of sounding reference signal. ► 3GPP 36.211, section 5.5.3 |
✔ |
|
|
SRS Usage Rate |
0 ... 100 |
– |
Percentage of subframes in which the UE transmits a sounding reference signal. |
|
|
These elements relate to the part of the cell search procedure making use of the secondary synchronization signal. Argument: Points to a cell detected during the cell search. |
||||
|
SSS Detected Cell Count |
0 ... 16 |
– |
Number of cells detected. |
|
|
SSS Detected Cell EARFCN |
0 ... 39649 |
1 ... 16 |
EARFCNs of cells detected. |
|
|
SSS Detected Cell Identity |
0 ... 503 |
1 ... 16 |
Physical Layer Cell Identity (equal to 3 |
|
|
SSS Detected Cell Power |
–25 ... 20 |
1 ... 16 |
SSS power for cells detected, expressed as a value in decibel. |
|
|
"Strongest Sc RSSI" IEs: General remark |
These elements contain RSSI scan data. Argument: The frequencies are sorted by decreasing RSSI. |
|||
|
Strongest Sc RSSI (dBm) |
–140 ... 25 |
1 ... 16 |
Received signal strength. |
|
|
Strongest Sc RSSI Band |
Text |
1 ... 16 |
Scanned frequency band. |
|
|
Strongest Sc RSSI EARFCN |
0 ... 39649 |
1 ... 16 |
Scanned EARFCN. |
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Strongest Sc RSSI Frequency (kHz) |
0 ... 6 · 106 |
1 ... 16 |
Scanned frequency. |
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"TDD" IEs: General remark |
These elements pertain to the TDD (Time Division Duplex) mode of operation within LTE, also known as TD-LTE. |
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0 ... 1 |
– |
ACK/NACK feedback mode for TDD. ► 3GPP 36.212, section 5.2.2.6 0: Multiplexing |
✔ |
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TDD Ack Reporting Mode (Text) |
Text |
– |
Same as "TDD Ack Reporting Mode" but in text format. |
✔ |
|
0 ... 96 |
– |
Average number of the first CCE used for transmission of the corresponding PDCCH. ► 3GPP 36.213, section 10.1 (nCCE) |
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TDD n_CCE (Max) |
0 ... 96 |
– |
Maximum number of the first CCE used for transmission of the corresponding PDCCH. Compare "TDD n_CCE (Average)". |
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TDD n_CCE (Min) |
0 ... 96 |
– |
Minimum number of the first CCE used for transmission of the corresponding PDCCH. Compare "TDD n_CCE (Average)". |
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0 ... 100 |
0 ... 14 |
Value distribution of Np, used in the calculation of n(1)PUCCH, resource index for PUCCH formats 1/1a/1b. ► 3GPP 36.213, section 10.1 Argument: Represents possible values of Np. 0: Value = 0 |
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TDD N_(p+1) Distribution (%) |
0 ... 100 |
0 ... 14 |
Value distribution of Np+1, used in the calculation of n(1)PUCCH, resource index for PUCCH formats 1/1a/1b. ► 3GPP 36.213, section 10.1 Argument: See "TDD N_p Distribution (%)". |
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0 ... 100 |
0 ... 9 |
Value distribution of the index m for which km is the smallest value in the set K such that UE detects a PDCCH in subframe n – km (► 3GPP 36.213, section 10.1). Used in calculating n(1)PUCCH, resource index for PUCCH formats 1/1a/1b. Valid only when "TDD Ack Reporting Mode" = Bundling. Argument: Represents possible values of m. |
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TDD Special Subframe Configuration |
0 ... 8 |
– |
TDD special subframe configuration. ► 3GPP 36.211, table 4.2‑1 |
✔ |
|
TDD UL/DL Configuration |
0 ... 6 |
– |
TDD uplink–downlink configuration. ► 3GPP 36.211, table 4.2-2 |
✔ |
|
TDD UL/DL Configuration Type |
5 ... 10 |
– |
TDD downlink-to-uplink switch-point periodicity. ► 3GPP 36.211, table 4.2-2 |
✔ |
|
Text |
– |
Current time in text format: " |
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|
Time (ms) |
0 ... 86,400,000 |
– |
Current time in ms. |
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Timer T3412 |
0 ... 54 Minutes |
– |
The timer T3412 is reset and started with its initial value, when the UE goes from EMM-CONNECTED to EMM-IDLE mode. The timer is stopped when the UE enters EMM-CONNECTED mode or EMM-DEREGISTERED state. On expiry, the periodic TAU procedure is initiated. |
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0 ... 2047 See Description |
– |
Timing Advance, an adjustment of uplink transmission timing in relation to downlink timing, introduced to compensate for propagation delay. Regarding the mechanism, see ► 3GPP 36.321, section 5.2. For the representation of values, see ► 3GPP 36.213, section 4.2.3. |
✔ |
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|
Timing Advance (meters) |
0 ... 1 · 106 |
– |
"Timing Advance" value converted to distance in meters. |
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|
1 ... 10 |
– |
LTE transmission mode as numbered in ► 3GPP 36.213, Table 7.2.3-0. Updated from Layer 3 messages. |
✔ |
|
|
Text |
– |
Same as "Transmission Mode" but in text format ("TM-1", etc.). |
✔ |
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|
1 ... 10 |
– |
PDSCH transmission scheme corresponding to "Transmission Mode" as laid out in ► 3GPP 36.213, Table 7.2.3-0. Updated from UE mode reports. 1: Single-antenna transmission 2: Transmit diversity 3: Open-loop codebook-based precoding (in case of multiple layers) 4: Closed-loop codebook-based precoding 5: Multi-user MIMO version of mode 4 6: Closed-loop codebook-based precoding using single-layer transmission 7: Non-codebook-based precoding supporting single-layer PDSCH transmission 8: Non-codebook-based precoding supporting up to two layers 9: Non-codebook-based precoding supporting up to eight layers (extension of scheme 8) 10: Extension of scheme 9 for enhanced support of different means of downlink multi-point coordination and transmission (CoMP) |
✔ |
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|
Transmission Scheme (Text) |
Text |
– |
Same as "Transmission Scheme" but in text format with explanatory strings similar to those above. |
✔ |
|
UE Category DL |
Text |
– |
E-UTRA UE category Downlink. ► 3GPP 36.306 |
|
|
UE Category UL |
Text |
– |
E-UTRA UE category Uplink. ► 3GPP 36.306 |
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|
–30 ... 30 |
– |
UE PUCCH Channel average transmit power. |
✔ |
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|
–30 ... 30 |
– |
UE PUSCH Channel average transmit power. |
✔ |
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UE Tx Power (dBm) |
–30 ... 30 |
– |
UE average transmit power. |
✔ |
|
"WCDMA Neighbor" IEs: General remark |
Argument: WCDMA neighbors are sorted by decreasing CPICH Ec/N0. |
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WCDMA Neighbor CPICH Ec/No (dB) |
–34 ... 0 |
1 ... 32 |
CPICH Ec/N0 of measured WCDMA neighbors. |
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WCDMA Neighbor CPICH RSCP (dBm) |
–140 ... –15 |
1 ... 32 |
CPICH RSCP of measured WCDMA neighbors. |
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WCDMA Neighbor SC |
0 ... 511 |
1 ... 32 |
Scrambling codes of measured WCDMA neighbors. |
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WCDMA Neighbor UARFCN |
0 ... 16383 (frequency band dependent) |
1 ... 32 |
UARFCNs of measured WCDMA neighbors. |
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WCDMA Neighbors No Of |
0 ... 32 |
– |
Number of measured WCDMA neighbors. |
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