94.2.2 Information Element Table
|
IE Name |
Range/Unit |
Arg. |
* |
Description |
Refined |
|
Altitude (ft) |
–1312 ... 29028 |
– |
p |
Height above sea level in feet. |
✔ |
|
Altitude (m) |
–400 ... 8848 |
– |
p |
Height above sea level in meters. |
✔ |
|
Text |
1 ... 6 |
c |
Cell name of each active set member. Requires cell file. Argument: Active set ID identifying an active set member. |
|
|
|
AS CPICH |
–34 ... 0 |
1 ... 6 |
|
CPICH Ec/N0 of each active set member. Argument: Active set ID. |
|
|
AS CPICH RSCP |
–140 ... –15 |
1 ... 6 |
|
CPICH received signal code power of each active set member. Also occurs in MIMO variants: Antenna 1, Antenna 2, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". Argument: Active set ID. |
|
|
0 ... 6 |
– |
|
The number of base stations in the active set. Valid only in state Cell_DCH. |
|
|
|
AS SC |
0 ... 511 |
1 ... 6 |
|
Scrambling code of each active set member. Argument: Active set ID. |
|
|
AS UARFCN DL |
0 ... 16383 (frequency band dependent) |
1 ... 6 |
|
Downlink UARFCN of each active set member. Argument: Active set ID. |
|
|
Averaged BER (%) |
0 ... 100 |
– |
|
Bit error rate, measured using either the pilot bits or the TPC bits on the DPCCH channel (choice depends on slot format). Reported in Q11 format. A 100% error figure means 2047 detected errors. Averaged over reporting period. |
|
|
0 ... 63 |
– |
|
BLER Target value set on device property page (UM section ), overriding BLER target set by network. |
|
|
|
BLER Target Control (Text) |
Text |
– |
|
Same as "BLER Target Control" but in text format. |
|
|
Call Event Success Rate |
0 ... 100 |
– |
|
Calculated as: # ends / where blocks = "Voice Bearer Established" events drops = "Dropped Call" events ends = "Call End" events Only events occurring in WCDMA mode are counted. |
|
|
0, 1 |
– |
|
Use of cell barring related functions in device. See UM section . |
|
|
|
Cell Barred Control (Text) |
Text |
– |
|
Same as "Cell Barred Control" but in text format. |
|
|
Compressed Mode |
0, 1 |
– |
|
Use of compressed mode. 0: False |
|
|
CW scanning: Synonymous with RSSI scanning. See UM section "RSSI Scanning". |
|||||
|
CW Sc No of UARFCNs |
0 ... 255 |
– |
rs |
RSSI scanning: Number of UARFCNs scanned. |
|
|
–130 ... –20 |
1 ... 255 |
rs |
RSSI scanning: RSSI of UARFCNs scanned. Argument: The channels are sorted by ascending UARFCN. The argument 1 gives the channel with the lowest UARFCN. |
|
|
|
CW Sc UARFCN |
0 ... 16383 (frequency band dependent) |
1 ... 255 |
rs |
RSSI scanning: UARFCNs of channels scanned, sorted in ascending order. Argument: 0 gives the first channel currently scanned, 1 the second, etc. |
|
|
Text |
1 ... 32 |
c |
Cell name of each detected neighbor. Requires cell file. Argument: Neighbor identity. |
✔ |
|
|
Det Neigh CPICH Ec/No |
–34 ... 0 |
1 ... 32 |
|
CPICH Ec/N0 of each detected neighbor. Argument: Neighbor identity. |
✔ |
|
Det Neigh CPICH RSCP |
–140 ... –15 |
1 ... 32 |
|
CPICH received signal code power of each detected neighbor. Also occurs in MIMO variants: Antenna 1, Antenna 2, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". Argument: Neighbor identity. |
✔ |
|
Det Neigh CPICH Tx Power |
–31 ... 50 |
1 ... 32 |
|
CPICH transmit power of each detected neighbor. Argument: Neighbor identity. |
|
|
Det Neigh No Of Members |
0 ... 32 |
– |
|
Number of detected neighbors. |
|
|
Det Neigh Pathloss |
30 ... 165 |
1 ... 32 |
|
Pathloss of each detected neighbor. Calculated as Primary CPICH Tx Power – CPICH RSCP. Argument: Neighbor identity. |
|
|
Det Neigh SC |
0 ... 511 |
1 ... 32 |
|
Scrambling code of each detected neighbor. Argument: Neighbor identity. |
✔ |
|
Det Neigh UARFCN DL |
0 ... 16383 (frequency band dependent) |
1 ... 32 |
|
Downlink UARFCN of each detected neighbor. Argument: Neighbor identity. |
✔ |
|
DTX Rate DL |
0 ... 100 |
– |
|
Use of DTX on downlink for the voice service. |
|
|
DVB-H BER |
0 ... 100 |
– |
dv |
DVB-H bit error rate. |
|
|
DVB-H C/N |
–5 ... 35 |
– |
dv |
DVB-H carrier-to-noise ratio. |
|
|
DVB-H MFER |
0 ... 100 |
– |
dv |
DVB-H frame error rate after MPE-FEC decoding. ► ETSI TR 102 377 V1.2.1, section 10.3.2.1. |
|
|
DVB-H Rx Power |
–128 ... –20 |
– |
dv |
DVB-H received signal power. |
|
|
"Finger" IEs: General remarks |
The Rake fingers are not sorted by signal strength; they come in the order they are reported. The ordinal ("1st", etc.) refers to a UMTS frequency. Separate sets of Finger elements are provided for the full number of UMTS frequencies that can be scanned simultaneously. The "Finger" and "Finger Position" series of elements contain the same data. The latter series consists of arrays of size 2560 corresponding to the sequence of chips in a radio frame timeslot, with the received finger information positioned at the correct indices. These elements are provided for bar chart plotting. The Finger Slot Pos element is of course not needed in the Finger Position series and is consequently absent from it. |
||||
|
–34 ... 0 |
1 ... 48 |
|
Ec/N0 for each Rake finger. Argument: Rake finger number. |
|
|
|
Finger ... No Of |
0 ... 48 |
– |
|
Total number of Rake fingers. |
|
|
–140 ... –15 |
1 ... 48 |
|
RSCP for each Rake finger. Argument: Rake finger number. |
|
|
|
–130 ... –20 |
1 ... 48 |
|
RSSI for each Rake finger. Argument: Rake finger number. |
|
|
|
0 ... 511 |
1 ... 48 |
|
Scrambling code for each Rake finger. Argument: Rake finger number. |
|
|
|
0 ... 15 |
1 ... 48 |
|
Radio frame timeslot index for each Rake finger. Argument: Rake finger number. |
|
|
|
Finger ... Slot Pos |
1 ... 2560 |
1 ... 48 |
|
Position (chip index) of each Rake finger within the radio frame timeslot. Argument: Rake finger number. |
|
|
Text |
1 ... 48 |
|
Type of channel on which each Rake finger is reported (e.g. CPICH). Argument: Rake finger number. |
|
|
|
0 ... 16383 (frequency band dependent) |
1 ... 48 |
|
UARFCN for each Rake finger. Argument: Rake finger number. |
|
|
|
Finger ... Position Ec/No |
–34 ... 0 |
1 ... 2560 |
|
Same as "Finger ...Ec/No" (see general remarks). Argument: Chip index. |
|
|
Finger ... Position RSCP |
–140 ... –15 |
1 ... 2560 |
|
Same as "Finger ... RSCP" (see general remarks). Argument: Chip index. |
|
|
Finger ... Position RSSI |
–130 ... –20 |
1 ... 2560 |
|
Same as "Finger ... RSSI" (see general remarks). Argument: Chip index. |
|
|
Finger ... Position SC |
0 ... 511 |
1 ... 2560 |
|
Same as "Finger ... SC" (see general remarks). Argument: Chip index. |
|
|
Finger ... Position Slot |
0 ... 15 |
1 ... 2560 |
|
Same as "Finger ... Slot" (see general remarks). Argument: Chip index. |
|
|
Text |
1 ... 2560 |
|
Same as "Finger ... Type" (see general remarks). Argument: Chip index. |
|
|
|
Finger ... Position UARFCN |
0 ... 16383 (frequency band dependent) |
1 ... 2560 |
|
Same as "Finger ... UARFCN" (see general remarks). Argument: Chip index. |
|
|
Text |
– |
|
Version number of device firmware. |
|
|
|
0 ... 1023 |
1 ... 32 |
ne |
ARFCNs of measured GSM neighbors. Argument: 1 gives the neighbor with the highest signal strength, etc. |
|
|
|
GSM Neigh BSIC |
Text |
1 ... 32 |
ne |
Base Station Identity Codes (in text format) of measured GSM neighbors. Argument: See "GSM Neigh ARFCN". |
|
|
GSM Neigh No Of |
0 ... 32 |
– |
ne |
Number of measured GSM neighbors. |
|
|
GSM Neigh RxLev |
–120 ... –10 |
1 ... 32 |
ne |
Received signal strength of measured GSM neighbors. Argument: See "GSM Neigh ARFCN". |
|
|
Text |
– |
|
Device model. |
|
|
|
Heading (deg) |
0 ... 360 |
– |
p |
Direction of travel measured in degrees clockwise from north. |
|
|
0 ... 6 |
– |
|
Type of latest handover. 0: Unknown (e.g. because no cell file loaded) |
|
|
|
HO Event Type (Text) |
Text |
– |
|
Same as "HO Event Type" but in text format. |
|
|
"HS" IEs: General remark |
All elements starting with "HS" (including channel names in "HS-") relate to HSPA. Special subgroups are "HS MIMO" and "HS UL"; see general remarks on these. |
||||
|
HS 16-QAM Modulation Rate |
0 ... 100 |
– |
|
Use of 16-QAM as modulation method, expressed as a percentage of time. |
|
|
HS 64-QAM Modulation Rate |
0 ... 100 |
– |
|
Use of 64-QAM as modulation method, expressed as a percentage of time. |
|
|
"HS CQI" IEs: General remark |
Meaning of argument: 0: Primary carrier; 1: First secondary carrier; 2: Second secondary carrier; 3: Third secondary carrier. |
||||
|
0 ... 30 See Description |
0 ... 3 |
|
The maximum value of the CQI (Channel Quality Indicator) during the latest reporting period. The definition of the CQI values is given in ► 3GPP 25.214, section 6A.2. |
✔ |
|
|
HS CQI (Median) |
0 ... 30 |
0 ... 3 |
|
The median CQI value during the latest reporting period. Compare "HS CQI (Max)". |
|
|
HS CQI (Min) |
0 ... 30 |
0 ... 3 |
|
The minimum CQI value during the latest reporting period. Compare "HS CQI (Max)". |
✔ |
|
HS CQI Feedback Cycle |
0 ... 255 |
– |
|
CQI feedback cycle, controlling how often the UE transmits new CQI information on the uplink (► 3GPP 25.214, section 6A.1.2). A value of zero means that the UE shall not transmit any CQI information. |
|
|
HS CQI Repetition Factor |
0 ... 15 |
– |
|
CQI repetition factor, controlling how often the UE repeats CQI information on the uplink (► 3GPP 25.214, section 6A.1.2). |
|
|
HS DL Serving Cell Count |
1 ... 4 |
– |
|
Number of HSDPA serving cells. |
|
|
HS-DSCH ACK Rate |
0 ... 100 |
0 ... 3 |
|
ACK / (NACK + ACK) ratio on the HS-DSCH. Argument: |
|
|
HS-DSCH BLER 1st |
0 ... 100 |
– |
|
Block error rate on the HS-DSCH for first transmission. |
|
|
0 ... 100 |
– |
|
Residual block error rate on the HS-DSCH (decoding unsuccessful after maximum number of retransmissions). |
|
|
|
HS-DSCH BLER Residual Per Process |
0 ... 100 |
0 ... 16 |
|
Same as "HS-DSCH BLER Residual" but for each active HARQ process separately. Argument: HARQ process index. |
|
|
HS-DSCH DTX Rate |
0 ... 100 |
0 ... 3 |
|
DTX rate on the HS-DSCH: Percentage of TTIs estimated by the device as "not used" on downlink. Argument: |
|
|
HS-DSCH Error Blocks 1st No Of |
0 ... 100 |
– |
|
Number of block errors on the HS-DSCH (first transmission). |
|
|
0 ... 100 |
– |
|
Number of residual block errors on the HS-DSCH (decoding unsuccessful after maximum number of retransmissions). |
|
|
|
HS-DSCH Error Blocks Residual No Of Per Process |
0 ... 100 |
0 ... 16 |
|
Same as "HS-DSCH Error Blocks Residual No Of" but for each active HARQ process separately. Argument: HARQ process index. |
|
|
HS-DSCH HARQ Processes No Of |
0 ... 16 |
– |
|
Number of active HARQ (Hybrid Automatic Repeat Request) processes on the HS-DSCH. |
✔ |
|
HS-DSCH NACK Rate |
0 ... 100 |
0 ... 3 |
|
NACK / (NACK + ACK) ratio on the HS-DSCH. Argument: |
|
|
HS-DSCH New Transmission Rate Per Process |
0 ... 100 |
0 ... 16 |
|
New transmission rate on the HS-DSCH for each active HARQ process. Argument: HARQ process index. |
|
|
0 ... 100 |
– |
|
Rate of use of postamble indicator after TTI where data is sent, notifying the NodeB of the fact that the ACK/NACK sequence ends. |
|
|
|
HS-DSCH Pre Rate |
0 ... 100 |
– |
|
Rate of use of preamble indicator prior to TTI where data is sent, notifying the NodeB of the fact that a sequence of ACKs/NACKs will be sent. |
|
|
0 ... 100 |
– |
|
Retransmission rate on the HS-DSCH. |
✔ |
|
|
HS-DSCH Retransmission Rate Per Process |
0 ... 100 |
0 ... 16 |
|
Same as "HS-DSCH Retransmission Rate" but for each active HARQ process separately. Argument: HARQ process index. |
|
|
HS-DSCH Retransmissions |
0 ... 100 |
– |
|
Number of retransmitted blocks on the HS-DSCH. |
|
|
HS-DSCH Throughput Per Carrier (kbit/s) |
0 ... 80000 |
0 ... 3 |
|
Throughput on the HS-DSCH for multicarrier HSPA: see section "Dual/Multiple Carrier HSPA". Argument: |
✔ |
|
0 ... 80000 |
– |
|
Throughput on the HS-DSCH: The rate at which data is received by the MAC‑hs reordering queue distribution layer (as defined in ► 3GPP 25.321), from all HARQ processes taken together. Regarding "Total", see section "Dual/Multiple Carrier HSPA". |
|
|
|
HS H-RNTI |
0 ... 65535 |
– |
|
HS-DSCH Radio Network Temporary Identity. |
|
|
"HS MIMO" IEs: General remark |
These IEs are populated when MIMO is in use on the downlink. Non-MIMO IEs which have a counterpart among MIMO IEs (such as the CQI elements) are not updated while MIMO is being used. However, certain other HS elements of a general nature are updated also during MIMO activity. The argument, where present, has the following significance: Arg. = 1 means MIMO Type A with one transport block. Arg. = 2 means MIMO Type A with two transport blocks. Regarding the designation "MIMO Type A", see ► 3GPP 25.214, section 6A.1.2.2. |
||||
|
HS MIMO 16-QAM Modulation Rate |
0 ... 100 |
1 ... 2 |
|
Use of 16-QAM as modulation method, expressed as a percentage of time. |
|
|
HS MIMO 64-QAM Modulation Rate |
0 ... 100 |
1 ... 2 |
|
Use of 64-QAM as modulation method, expressed as a percentage of time. |
|
|
0 ... 30 See Description |
1 ... 2 |
|
The maximum value of the CQI (Channel Quality Indicator) during the latest reporting period. The definition of the CQI values is given in ► 3GPP 25.214, section 6A.2. |
|
|
|
HS MIMO CQI (Median) |
0 ... 30 |
1 ... 2 |
|
The median CQI value during the latest reporting period. Compare "HS MIMO CQI (Max)". |
|
|
HS MIMO CQI (Min) |
0 ... 30 |
1 ... 2 |
|
The minimum CQI value during the latest reporting period. Compare "HS MIMO CQI (Max)". |
|
|
HS MIMO DSCH ACK Rate |
0 ... 100 |
1 ... 2 |
|
ACK / (NACK + ACK) ratio on the HS-DSCH. |
|
|
HS MIMO DSCH BLER |
0 ... 100 |
1 ... 2 |
|
Block error rate on the HS-DSCH for first transmission. |
|
|
HS MIMO DSCH BLER Residual |
0 ... 100 |
1 ... 2 |
|
Residual block error rate on the HS-DSCH (decoding unsuccessful after maximum number of retransmissions). |
|
|
HS MIMO DSCH Error Block 1st No Of |
0 ... 100 |
1 ... 2 |
|
Number of block errors on the HS-DSCH (first transmission). |
|
|
HS MIMO DSCH Error Block Residual No Of |
0 ... 100 |
1 ... 2 |
|
Number of residual block errors on the HS-DSCH (decoding unsuccessful after maximum number of retransmissions). |
|
|
HS MIMO DSCH NACK Rate |
0 ... 100 |
1 ... 2 |
|
NACK / (NACK + ACK) ratio on the HS-DSCH. |
|
|
HS MIMO Multi TB Rate |
0 ... 100 |
1 ... 2 |
|
Argument = 1: Percentage of TTIs with one transport block used. Argument = 2: Percentage of TTIs with two transport blocks used. |
|
|
HS MIMO Phy Scheduled Throughput (kbit/s) |
0 ... 80000 |
1 ... 2 |
|
Calculated as: (sum of TBSs for non-DTX blocks) / (total TTI time for non-DTX blocks) Only blocks sent to this device are considered in the calculation, and the CRC indication does not matter. The element gives an estimate of the throughput on the assumption that all blocks were successfully transferred. |
|
|
HS MIMO Phy Served Throughput (kbit/s) |
0 ... 80000 |
1 ... 2 |
|
Calculated as: (sum of TBSs for blocks with CRC OK) / (reporting period) Only blocks sent to this device are considered in the calculation, and the CRC must be OK. The element reflects the actual physical channel throughput. |
|
|
HS MIMO QPSK Modulation Rate |
0 ... 100 |
1 ... 2 |
|
Use of QPSK as modulation method, expressed as a percentage of time. |
|
|
"HS MIMO Transport Block" IEs: General remark |
Argument = "Transport block size sequence number" means that 0 represents the first TBS used, etc.; the argument value does not equate to the corresponding TBS index. This, however, does not apply to the max/median/min elements; see below. |
||||
|
HS MIMO Transport Block Count Primary TB (Abs) |
0 ... 65535 |
1 ... 42192 |
|
Block counts for all possible HSPA transport block sizes in the primary MIMO stream, accumulated over the current session. Argument: The transport block size itself in bits (not an index). |
|
|
HS MIMO Transport Block Count Primary TB (Accu) |
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use in the primary MIMO stream, accumulated over the current session. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Count Primary TB (Curr) |
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use in the primary MIMO stream, collected over the latest report period. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Count Secondary TB (Abs) |
0 ... 65535 |
1 ... 42192 |
|
Block counts for all possible HSPA transport block sizes in the secondary MIMO stream, accumulated over the current session. Argument: The transport block size itself in bits (not an index). |
|
|
HS MIMO Transport Block Count Secondary TB (Accu) |
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use in the secondary MIMO stream, accumulated over the current session. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Count Secondary TB (Curr) |
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use in the secondary MIMO stream, collected over the latest report period. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Size Primary TB |
0 ... 42192 |
1 ... 295 |
|
HS-DSCH transport block sizes in the primary MIMO stream. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Size Secondary TB |
0 ... 42192 |
1 ... 295 |
|
HS-DSCH transport block sizes in the secondary MIMO stream. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Sizes Primary TB No Of |
0 ... 295 |
1 ... 295 |
|
Number of HSPA transport block sizes currently in use in the primary MIMO stream. Argument: Transport block size sequence number. |
|
|
HS MIMO Transport Block Sizes Secondary TB No Of |
0 ... 295 |
1 ... 295 |
|
Number of HSPA transport block sizes currently in use in the secondary MIMO stream. Argument: Transport block size sequence number. |
|
|
"HS MIMO Transport Block Size Max/Median/Min" IEs: General remark |
Argument: 1: Stream 0 |
||||
|
HS MIMO Transport Block Size Max (Accu) |
0 ... 65535 |
1 ... 2 |
|
Maximum transport block size over the whole of the current session. |
|
|
HS MIMO Transport Block Size Median (Accu) |
0 ... 65535 |
1 ... 2 |
|
Median transport block size over the whole of the current session. |
|
|
HS MIMO Transport Block Size Min (Accu) |
0 ... 65535 |
1 ... 2 |
|
Minimum transport block size over the whole of the current session |
|
|
HS MIMO Transport Block Size Max (Curr) |
0 ... 65535 |
1 ... 2 |
|
Maximum transport block size over the latest report period. |
|
|
HS MIMO Transport Block Size Median (Curr) |
0 ... 65535 |
1 ... 2 |
|
Median transport block size over the latest report period. |
|
|
HS MIMO Transport Block Size Min (Curr) |
0 ... 65535 |
1 ... 2 |
|
Minimum transport block size over the latest report period. |
|
|
0 ... 1 |
– |
|
0: MIMO Type A with one transport block |
|
|
|
HS MIMO Type (Text) |
Text |
– |
|
Same as "HS MIMO Type" but in text format. |
|
|
HS MIMO Type A CQI Rate |
0 ... 100 |
1 ... 2 |
|
Argument = 1: Percentage of TTIs with MIMO Type A CQI and one transport block used. Argument = 2: Percentage of TTIs with MIMO Type A CQI and two transport blocks used. ► 3GPP 25.214, section 6A.1.2.2 |
|
|
HS MIMO Type B CQI Rate |
0 ... 100 |
– |
|
Percentage of TTIs with MIMO Type B CQI. ► 3GPP 25.214, section 6A.1.2.2 |
|
|
0 ... 100 |
1 ... 15 |
|
Distribution of channelization code usage on the HS-PDSCH for the whole of the HSPA session. This element does not take DTX into account, so that values are computed as percentages of all blocks, whether used or unused. Argument: Channelization code index. |
|
|
|
HS-PDSCH Code Usage Secondary Cell (Accu) % |
0 ... 100 |
1 ... 15 |
|
Same as "HS-PDSCH Code Usage Primary Cell (Accu) %" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 100 |
1 ... 15 |
|
Current distribution of channelization code usage on the HS-PDSCH. This element takes DTX into account, so that values are computed as percentages of the total number of used blocks. Argument: Channelization code index. |
|
|
|
HS-PDSCH Code Usage Secondary Cell (Curr) % |
0 ... 100 |
1 ... 15 |
|
Same as "HS-PDSCH Code Usage Primary Cell (Curr) %" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
"HS Phy" IEs: General remark |
Regarding "Per Carrier" and "Total", see section "Dual/Multiple Carrier HSPA". Argument for "Per Carrier" elements: |
||||
|
HS Phy Requested Throughput Per Carrier (kbit/s) |
0 ... 80000 |
0 ... 1 |
|
Calculated as: (Average requested transport block size based on CQI) / (TTI length). ► 3GPP 25.214, tables 7a–7i |
|
|
HS Phy Requested Throughput Total (kbit/s) |
0 ... 80000 |
– |
|
|
|
|
HS Phy Scheduled Throughput Per Carrier (kbit/s) |
0 ... 80000 |
0 ... 1 |
|
Calculated as: (sum of TBSs for non-DTX blocks) / (total TTI time for non-DTX blocks) Only blocks sent to this device are considered in the calculation, and the CRC indication does not matter. The element gives an estimate of the throughput on the assumption that all blocks were successfully transferred. |
|
|
HS Phy Scheduled Throughput Total (kbit/s) |
0 ... 80000 |
– |
|
|
|
|
HS Phy Served Throughput Per Carrier (kbit/s) |
0 ... 80000 |
0 ... 1 |
|
Calculated as: (sum of TBSs for blocks with CRC OK) / (reporting period) Only blocks sent to this device are considered in the calculation, and the CRC must be OK. The element reflects the actual physical channel throughput. |
|
|
0 ... 80000 |
– |
|
|
||
|
HS Phy Served Throughput (kbit/s) Per Process |
0 ... 80000 |
0 ... 16 |
|
Same as "HS Phy Served Throughput Total (kbit/s)" but for each active HARQ process separately. Argument: HARQ process index. |
|
|
HS QPSK Modulation Rate |
0 ... 100 |
– |
|
Use of QPSK as modulation method, expressed as a percentage of time. |
|
|
HS-SCCH Channelisation Code |
0 ... 31 |
1 ... 8 |
|
Channelization codes used on the HS-SCCH, arranged in ascending order. Argument: Channelization code index. |
|
|
HS-SCCH Channelisation Codes No Of |
0 ... 8 |
– |
|
Number of channelization codes used on the HS-SCCH. |
|
|
HS-SCCH Channelisation Codes (Text) |
Text |
– |
|
List of HS-SCCH channelization codes in text format. |
|
|
HS-SCCH Decode Success Rate |
0 ... 100 |
0 ... 1 |
|
Decode success rate on the HS-SCCH. For the decoding to count as a success, both the first and the second parts must have been completed successfully. Argument: Carrier index. Arg. 1 is used only for dual carrier sessions. |
|
|
HS Serving Cell |
0 ... 511 |
– |
|
Scrambling code index of HSPA serving cell. |
|
|
HS Serving Cell Name |
Text |
– |
c |
Name of HSPA serving cell. Requires cell file. |
|
|
0 ... 3 |
– |
|
Indicates the type of HSPA session. 0: Plain HSDPA, only downlink, based on R5 signaling |
|
|
|
HS Session (Text) |
Text |
– |
|
Same as "HS Session" but in text format: one of " |
|
|
"HS Transport Block" IEs: General remark |
Argument = "Transport block size sequence number" means that 0 represents the first TBS used, etc.; the argument value does not equate to the corresponding TBS index. Argument = "Transport block size index" means that the argument represents the TBS index with this value. This, however, does not apply to the max/median/min elements; see below. |
||||
|
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use, accumulated over the current session. Argument: Transport block size sequence number. |
|
|
|
HS Transport Block Count Secondary Cell (Accu) |
0 ... 65535 |
1 ... 295 |
|
Same as "HS Transport Block Count Primary Cell (Accu)" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use, accumulated over the current session. Argument: Transport block size index. |
|
|
|
HS Transport Block Count By Index Secondary Cell (Accu) |
0 ... 65535 |
1 ... 295 |
|
Same as "HS Transport Block Count By Index Primary Cell (Accu)" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use, collected over the latest report period. Argument: Transport block size sequence number. |
|
|
|
HS Transport Block Count Secondary Cell (Curr) |
0 ... 65535 |
1 ... 295 |
|
Same as "HS Transport Block Count Primary Cell (Curr)" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 65535 |
1 ... 295 |
|
Block counts for HSPA transport block sizes currently in use, collected over the latest report period. Argument: Transport block size index. |
|
|
|
HS Transport Block Count By Index Secondary Cell (Curr) |
0 ... 65535 |
1 ... 295 |
|
Same as "HS Transport Block Count By Index Primary Cell (Curr)" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 42192 |
1 ... 295 |
|
Transport block sizes on the HS-DSCH. Argument: Transport block size sequence number. |
|
|
|
HS Transport Block Size Secondary Cell |
0 ... 42192 |
1 ... 295 |
|
Same as "HS Transport Block Size Primary Cell" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 42192 |
1 ... 295 |
|
Transport block sizes on the HS-DSCH. Argument: Transport block size index. |
|
|
|
HS Transport Block Size By Index Secondary Cell |
0 ... 42192 |
1 ... 295 |
|
Same as "HS Transport Block Size By Index Primary Cell" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
0 ... 295 |
– |
|
Number of HSPA transport block sizes currently in use. |
|
|
|
HS Transport Block Sizes No Of Secondary Cell |
0 ... 295 |
– |
|
Same as "HS Transport Block Sizes No Of Primary Cell" but for the secondary cell; see section "Dual/Multiple Carrier HSPA". |
|
|
"HS Transport Block Size Max/Median/Min" IEs: General remark |
Argument: 1: Primary carrier |
||||
|
HS Transport Block Size Max (Accu) |
0 ... 65535 |
1 ... 2 |
|
Maximum transport block size over the whole of the current session. |
|
|
HS Transport Block Size Median (Accu) |
0 ... 65535 |
1 ... 2 |
|
Median transport block size over the whole of the current session. |
|
|
HS Transport Block Size Min (Accu) |
0 ... 65535 |
1 ... 2 |
|
Minimum transport block size over the whole of the current session |
|
|
HS Transport Block Size Max (Curr) |
0 ... 65535 |
1 ... 2 |
|
Maximum transport block size over the latest report period. |
|
|
HS Transport Block Size Median (Curr) |
0 ... 65535 |
1 ... 2 |
|
Median transport block size over the latest report period. |
|
|
HS Transport Block Size Min (Curr) |
0 ... 65535 |
1 ... 2 |
|
Minimum transport block size over the latest report period. |
|
|
"HS UL" IEs: General remark |
These elements pertain to HSUPA (EUL) and are updated primarily when that technology is in use. However, even if only HSDPA is available in the network, uplink activity occurring in the course of an HSDPA session may still cause some of the HS UL elements to be populated. |
||||
|
HS UL Average Serving Grant |
0 ... 800 |
– |
|
Average value of serving grant (maximum allowed E-DPDCH/E-DPCCH power ratio). |
|
|
HS UL Average Serving Grant Index |
0 ... 40 |
– |
|
Average value of serving grant index. |
✔ |
|
HS UL Average TBS |
0 ... 23000 |
– |
|
Average transport block size on E-DCH. |
✔ |
|
HS UL Average TBS / TBS Max |
0 ... 100 |
– |
|
Average value of: (transport block size on E-DCH) divided by (maximum transport block size on E-DCH as dictated by current E-TFCI). This is a measure of serving grant utilization. |
|
|
HS UL BLER 1st |
0 ... 100 |
– |
|
Block error rate on the E-DCH for first transmission. |
|
|
HS UL BLER Residual |
0 ... 100 |
– |
|
Residual block error rate on the E-DCH (decoding unsuccessful after maximum number of retransmissions). |
|
|
HS UL Buffer Limited Tx Rate |
0 ... 100 |
– |
|
Percentage of time the transmission on the E-DCH was buffer limited. |
|
|
HS UL DTX Rate |
0 ... 100 |
– |
|
Percentage of TTIs where nothing was sent on the E-DPCCH/E-DPDCH. |
✔ |
|
HS UL E-DCH Throughput Per Carrier (kbit/s) |
0 ... 80000 |
0 ... 1 |
|
Throughput on the E-DCH for each carrier separately. Argument: |
✔ |
|
HS UL E-DCH Throughput Total (kbit/s) |
0 ... 80000 |
– |
|
Total throughput on the E-DCH, taken over all carriers in case of multicarrier operation. |
|
|
HS UL E-DCH TTI (ms) |
2 ... 10 |
– |
|
E-DCH TTI length. |
|
|
HS UL E-TFC Retransmissions (Accu) % |
0 ... 100 |
0 ... 127 |
|
Retransmission rate for each E-TFC, averaged over the current session. Argument: E-TFCI. |
|
|
HS UL E-TFC Retransmissions (Curr) % |
0 ... 100 |
0 ... 127 |
|
Current retransmission rate for each E-TFC. Argument: E-TFCI. |
|
|
HS UL E-TFC Usage (Accu) % |
0 ... 100 |
0 ... 127 |
|
E-TFC usage distribution for the whole of the current session. Argument: E-TFCI. |
|
|
HS UL E-TFC Usage (Curr) % |
0 ... 100 |
0 ... 127 |
|
Current E-TFC usage distribution. Argument: E-TFCI. |
|
|
HS UL Error Blocks No Of 1st (2nd, 3rd, 4th) |
0 ... 100 |
– |
|
Number of block errors for the first (second, third, fourth) transmission on the E-DCH. |
|
|
HS UL Error Blocks Residual No Of |
0 ... 100 |
– |
|
Number of residual block errors on the E-DCH after maximum number of retransmissions. |
|
|
HS UL Happy Rate |
0 ... 100 |
– |
|
Percentage of TTIs where the UE was happy. ► 3GPP 25.321, section 11.8.1.5 |
✔ |
|
HS UL HICH ACK Rate |
0 ... 100 |
– |
|
ACK rate on the E-HICH. |
|
|
HS UL HICH NACK Rate |
0 ... 100 |
– |
|
NACK rate on the E-HICH. |
|
|
HS UL New Transmission Rate |
0 ... 100 |
– |
|
Number of new transmissions on E-DPCCH/E-DPDCH divided by the number of TTIs. |
|
|
HS UL Non-Serving Cells No Of |
0 ... 4 |
– |
|
Number of non-serving cells in E-DCH active set. |
|
|
HS UL Non-Serving E-RGCH Down No Of |
0 ... 100 |
– |
|
Number of times a non‑serving cell in the E-DCH active set was ordered to lower its transmit power (relative grant = "Down"). |
|
|
HS UL Number Of TTIs |
0 ... 100 |
– |
|
Number of TTIs in log report. |
|
|
HS UL Power Limited Tx Rate |
0 ... 100 |
– |
|
Percentage of time the transmission was limited by the available Tx power. |
|
|
HS UL Retransmission Rate |
0 ... 100 |
– |
|
Number of retransmissions on E-DPCCH/E-DPDCH divided by the number of TTIs. |
✔ |
|
HS UL Serving Cell Count |
0 ... 2 |
– |
|
Number of serving cells in E-DCH active set. |
|
|
HS UL Serving Cell DL UARFCN |
0 ... 16383 (frequency band dependent) |
1 ... 2 |
|
UARFCN of downlink carrier associated with each uplink carrier. Argument: |
|
|
HS UL Serving Cell SC |
0 ... 511 |
1 ... 2 |
|
Scrambling of downlink serving cell associated with each uplink carrier. Argument: |
|
|
HS UL Serving Grant Limited Tx Rate |
0 ... 100 |
– |
|
Percentage of time the transmission was limited by the current serving grant. |
|
|
HS UL Successful E-AGCH Rate (All TTIs) |
0 ... 100 |
– |
|
Percentage of TTIs where the UE received an absolute grant on the E-AGCH. |
|
|
HS UL Successful First Tx Rate |
0 ... 100 |
– |
|
Percentage of transport block successfully transmitted on first attempt. |
|
|
IMEI |
Text |
– |
|
International Mobile Equipment Identity, the unique equipment identity of the UE. ► 3GPP 23.003 |
|
|
Inter-freq Event Criteria |
Text |
1 ... 10 |
|
Event criteria governing when the UE should send inter-frequency measurement reports. Argument: One argument for each event criterion. |
|
|
Inter-freq Event Name |
Text |
1 ... 10 |
|
Names of events governing sending of inter-frequency measurement reports by the UE. The events extracted to this element are "e2a", "e2d", and "e2f". Other inter-frequency events are not extracted. Argument: One argument for each event criterion. There may be multiple criteria for the same event. |
|
|
Inter-RAT Event Criteria |
Text |
1 ... 5 |
|
Event criteria governing when the UE should send inter-RAT measurement reports. Argument: One argument for each event criterion. |
|
|
Inter-RAT Event Name |
Text |
1 ... 5 |
|
Names of events governing sending of inter-RAT measurement reports by the UE. The only event extracted to this element is "e3a". Other inter-RAT events are not extracted. Argument: One argument for each event criterion. There may be multiple criteria for the same event. |
|
|
Intra-freq Cells |
Text |
– |
|
Cells on which the UE has been ordered to perform intra-frequency measurements. |
|
|
Intra-freq Event Criteria |
Text |
1 ... 10 |
|
Event criteria governing when the UE should send intra-frequency measurement reports. Argument: One argument for each event criterion. |
|
|
Intra-freq Event Name |
Text |
1 ... 10 |
|
Names of events governing sending of intra-frequency measurement reports by the UE. The events extracted to this element are "e1a", "e1b", "e1c", and "e1d". Other intra-frequency events are not extracted. Argument: One argument for each event criterion. There may be multiple criteria for the same event. |
|
|
Latitude |
–90 ... 90 |
– |
p |
Latitude recorded by positioning equipment. |
✔ |
|
Latitude (Text) |
Text |
– |
p |
Latitude as text. For the presentation format, see TR section "Data". |
✔ |
|
Latitude Decimal Degrees (Text) |
Text |
– |
p |
Latitude in decimal degrees, presented as text. |
|
|
Longitude |
–180 ... 180 |
– |
p |
Longitude recorded by positioning equipment. |
✔ |
|
Longitude (Text) |
Text |
– |
p |
Longitude as text. For the presentation format, see TR section "Data". |
✔ |
|
Longitude Decimal Degrees (Text) |
Text |
– |
p |
Longitude in decimal degrees, presented as text. |
|
|
0 ... 999 |
– |
|
Mobile Country Code. |
✔ |
|
|
Message Hex Dump Payload |
Text |
– |
|
Contains the hexadecimal string of a Layer 3 message or mode report. Used for text-format logfile export only. |
|
|
0 ... 999 |
– |
|
Mobile Network Code. May consist of two or three digits. |
✔ |
|
|
Mode (Num) |
1 ... 7 |
– |
|
Relevant values: 1: No service |
✔ |
|
1 ... 9 |
– |
|
The full set of values is as follows (only 1, 2, and 7 being relevant here): 1: WCDMA |
✔ |
|
|
Mode - System (Text) |
Text |
– |
|
Same as "Mode - System" but in text format. |
✔ |
|
Text |
1 ... 32 |
c |
Cell name of each monitored neighbor. Requires cell file. Argument: Neighbor identity. |
✔ |
|
|
Mon Neigh CPICH Ec/No |
–34 ... 0 |
1 ... 32 |
|
CPICH Ec/N0 of each monitored neighbor. Argument: Neighbor identity. |
✔ |
|
Mon Neigh CPICH RSCP |
–140 ... –15 |
1 ... 32 |
|
CPICH received signal code power of each monitored neighbor. Also occurs in MIMO variants: Antenna 1, Antenna 2, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". Argument: Neighbor identity. |
✔ |
|
Mon Neigh CPICH Tx Power |
–31 ... 50 |
1 ... 32 |
|
CPICH transmit power of each monitored neighbor. Argument: Neighbor identity. |
|
|
Mon Neigh No Of Members |
0 ... 32 |
– |
|
Number of monitored neighbors. |
|
|
Mon Neigh Pathloss |
30 ... 165 |
1 ... 32 |
|
Pathloss of each monitored neighbor. Calculated as Primary CPICH Tx Power – CPICH RSCP. Argument: Neighbor identity. |
|
|
Mon Neigh SC |
0 ... 511 |
1 ... 32 |
|
Scrambling code of each monitored neighbor. Argument: Neighbor identity. |
✔ |
|
Mon Neigh UARFCN DL |
0 ... 16383 (frequency band dependent) |
1 ... 32 |
|
Downlink UARFCN of each monitored neighbor. Argument: Neighbor identity. |
✔ |
|
MS Behavior Modified (Text) |
Text: |
– |
|
Indicates whether the UE behavior has been changed from the default. Empty string: No modification of UE behavior " " Combinations of these letters may appear. |
|
|
"Network Search" IEs: General remark |
These elements are derived from network scanning. The argument, where present, points to an UARFCN where network activity was detected. |
||||
|
–30 ... 0 |
1 ... 800 |
ns |
Ec/Io measured on each UARFCN. |
|
|
|
Network Search No of UARFCNs |
0 ... 800 |
– |
ns |
The number of UARFCNs where network activity was detected. |
|
|
0 ... 511 |
1 ... 800 |
ns |
Scrambling code detected on each UARFCN. |
|
|
|
410 ... 10840 (frequency band dependent) |
1 ... 800 |
ns |
List of UARFCNs. |
|
|
|
0 ... 10 |
0 ... 10 |
pi |
CPICH scanning (UM section "CPICH Scanning (with SCH Scanning)"): Estimated ratio between polluting signal power and desired signal power on a CPICH control channel, based on the assumption that there is only one possible member in the active set. Applies to the first UMTS frequency scanned (lowest UARFCN). Argument: Power threshold (in dB) relative to the power of the strongest scrambling code; used to identify possible active set members. See UM section "Presentation: "Poss No Of AS Members" and "Other/Own" Information Elements" for a full description. |
|
|
|
Other/Own, |
0 ... 10 |
0 ... 10 |
pi |
As "Other/Own,Max 1 SC" except that the active set is assumed to have at most two possible members. Applies to the first UMTS frequency scanned. See UM section "Presentation: "Poss No Of AS Members" and "Other/Own" Information Elements" for a full description. |
|
|
Other/Own, |
0 ... 10 |
0 ... 10 |
pi |
As "Other/Own,Max 1 SC" except that the active set is assumed to have at most three possible members. Applies to the first UMTS frequency scanned. See UM section "Presentation: "Poss No Of AS Members" and "Other/Own" Information Elements" for a full description. |
|
|
Other/Own, |
0 ... 10 |
0 ... 10 |
pi |
As "Other/Own,Max 1 SC" except that the active set is assumed to have at most four possible members. Applies to the first UMTS frequency scanned. See UM section "Presentation: "Poss No Of AS Members" and "Other/Own" Information Elements" for a full description. |
|
|
"Other/Own 2nd (etc.)" IEs |
0 ... 10 |
0 ... 10 |
pi |
Same as "Other/Own, ..." but for the second (etc.) UMTS frequency scanned. |
|
|
PDP IEs: General remark |
The argument, where present, refers to a PDP context index. |
||||
|
PDP Access Point Name |
Text |
1 ... 11 |
|
Host name or network address for each active PDP context. |
✔ |
|
PDP Address |
Text |
1 ... 11 |
|
User address (IPv4/IPv6). |
✔ |
|
PDP Contexts Active |
0 ... 11 |
– |
|
Number of active PDP contexts. |
|
|
PDP Delay Class |
Text |
1 ... 11 |
|
Delay class as defined by subscription. |
|
|
PDP LLC SAPI |
3 ... 11 |
1 ... 11 |
|
LLC Service Access Point Identifier. |
|
|
PDP Mean Throughput |
Text |
1 ... 11 |
|
Mean throughput as defined by subscription. |
|
|
PDP NSAPI |
5 ... 15 |
1 ... 11 |
|
Network SAPI (Service Access Point Identifier). |
✔ |
|
PDP Peak Throughput |
Text |
1 ... 11 |
|
Peak throughput as defined by subscription. |
|
|
PDP Precedence Class |
Text |
1 ... 11 |
|
Precedence class as defined by subscription. |
|
|
PDP Radio Priority |
Text |
1 ... 11 |
|
Radio priority level as defined by subscription. |
|
|
PDP Reliability Class |
Text |
1 ... 11 |
|
Reliability class as defined by subscription. |
|
|
0 ... 10 |
0 ... 10 |
pi |
CPICH scanning: The estimated number of possible members in the active set. Applies to the first UMTS frequency scanned (lowest UARFCN). Argument: Power threshold (in dB) relative to the power of the strongest scrambling code. See UM section "Presentation: "Poss No Of AS Members" and "Other/Own" Information Elements" for a full description. |
|
|
|
"Poss No of AS Members 2nd (etc.)" IEs |
0 ... 10 |
0 ... 10 |
pi |
Same as "Poss No of AS Members" but for the second (etc.) UMTS frequency scanned. |
|
|
–1 ... 1 |
– |
|
Recent trend indication for inner loop power control on downlink: average of TPC_cmd values over the latest reporting period. ► 3GPP 25.214, section 5.2 |
|
|
|
–1 ... 1 |
– |
|
Recent trend indication for inner loop power control on uplink: average of TPC_cmd values over the latest reporting period. ► 3GPP 25.214, section 5.1 |
|
|
|
RACH Max Preambles |
0 ... 64 |
– |
|
Maximum number of preambles in one preamble ramping cycle. ► 3GPP 25.214, section 6.1 |
✔ |
|
RACH Message TX |
–50 ... 34 |
– |
|
Transmit power of last RACH preamble in dBm. |
✔ |
|
RACH Transmitted Preambles |
0 ... 64 |
– |
|
Number of preambles used in this preamble ramping cycle. |
✔ |
|
0 ... 3 |
– |
|
Use of Lock to RAT function in UE. See UM section "Radio Access Technology Lock ("Lock on RAT")". 0: Lock to RAT disabled |
|
|
|
RAT Control (Text) |
Text |
– |
|
Use of Lock to RAT function in UE. Blank when no lock is engaged; " |
|
|
0 ... 108 |
– |
|
The scrambling code of the uplink Dedicated Physical Channel. |
|
|
|
Text |
1 ... 4 |
|
Radio Link Control (Acknowledged Mode): Type of downlink logical channel, e.g. " Argument: Logical channel index. |
|
|
|
RLC AM DL PDU Retran (%) |
0 ... 100 |
1 ... 4 |
|
Radio Link Control (Acknowledged Mode, downlink): PDU retransmission percentage. Calculated as (number of NACKed PDUs) / (total number of PDUs) Ã 100. Argument: Logical channel index. |
|
|
RLC AM DL PDU Thr |
0 ... 80000 |
1 ... 4 |
|
Radio Link Control PDU throughput (Acknowledged Mode, downlink), counting both control PDUs and AM PDUs. Since the PDU throughput includes RLC headers, it will be slightly higher than the SDU throughput where such headers are absent. Argument: Logical channel index. |
|
|
RLC AM DL SDU Thr |
0 ... 80000 |
1 ... 4 |
|
Radio Link Control SDU throughput (Acknowledged Mode, downlink). Argument: Logical channel index. |
|
|
RLC AM UL Log Ch Type |
Text |
1 ... 4 |
|
Radio Link Control (Acknowledged Mode): Type of uplink logical channel, e.g. " Argument: Logical channel index. |
|
|
RLC AM UL PDU Retran (%) |
0 ... 100 |
1 ... 4 |
|
Radio Link Control (Acknowledged Mode, uplink): PDU retransmission percentage. Calculated as (number of NACKed PDUs) / (total number of PDUs) Ã 100. Argument: Logical channel index. |
|
|
RLC AM UL PDU Thr |
0 ... 80000 |
1 ... 4 |
|
Radio Link Control PDU throughput (Acknowledged Mode, uplink), counting both control PDUs and AM PDUs. Since the PDU throughput includes RLC headers, it will be slightly higher than the SDU throughput where such headers are absent. Argument: Logical channel index. |
|
|
RLC AM UL SDU Thr |
0 ... 80000 |
1 ... 4 |
|
Radio Link Control SDU throughput (Acknowledged Mode, uplink). Argument: Logical channel index. |
|
|
RLC DL Entity Data Mode |
Text |
1 ... 32 |
|
Downlink RLC entity data mode. One of: " Argument: RLC entity. |
|
|
0 ... 80000 |
1 ... 32 |
|
Total RLC downlink throughput. Argument: RLC entity. |
✔ |
|
|
RLC No Of Entities |
0 ... 32 |
– |
|
Total number of RLC entities on uplink and downlink. |
|
|
RLC UL Entity Data Mode |
Text |
1 ... 32 |
|
Uplink RLC entity data mode. One of: " Argument: RLC entity. |
|
|
0 ... 80000 |
1 ... 32 |
|
Total RLC uplink throughput. Argument: RLC entity. |
✔ |
|
|
0 ... 80000 |
– |
|
Highest downlink throughput for all RLC entities/transport channels. |
|
|
|
0 ... 80000 |
– |
|
Highest uplink throughput for all RLC entities/transport channels. |
|
|
|
RRC Connection Reject Cause |
0, 1 |
– |
|
Cause for rejection of RRC connection establishment request. 0: Congestion ► 3GPP 25.331, section 10.3.3.31 |
|
|
RRC Connection Reject Wait Time |
0 ... 16 |
– |
|
The time the UE has to wait before repeating the rejected RRC procedure. ► 3GPP 25.331, section 10.3.3.50 |
|
|
0 ... 5 |
– |
|
State of RRC protocol: 0: No service The state is set to idle when the UE registers, and the information element is then updated each time the state changes. ► 3GPP 25.331, chapter 7 |
✔ |
|
|
RRC State (Text) |
Text |
– |
|
Same as "RRC State" but in text format. |
✔ |
|
"SAN" IEs: General remark |
These elements are what is shown in the WCDMA "Serving/Active Set + Neighbors" status window. |
|
|||
|
0 ... 228 – 1 |
1 ... 38 |
|
Cell identity (UC-Id) of each cell listed. Argument: Indicates the row in the window. In Cell_DCH mode, the active set is on top (max 4 rows), whereas in other modes the serving cell is found on row 1. In either case the neighbors follow directly beneath. |
|
|
|
SAN Cell Id (CI Part) |
0 ... 216 – 1 |
1 ... 38 |
|
Cell Identity (C-Id) part of SAN Cell Id: bits 12 through 27 (in decimal). Argument: See "SAN Cell Id". |
|
|
SAN Cell Id (CI Part Hex) |
Text: "0000" ... "FFFF" |
1 ... 38 |
|
Cell Identity (C-Id) part of SAN Cell Id: bits 12 through 27 in hexadecimal. Argument: See "SAN Cell Id". |
|
|
SAN Cell Id (RNC Part) |
0 ... 212 – 1 |
1 ... 38 |
|
RNC-Id part of SAN Cell Id: bits 0 through 11 (in decimal). Argument: See "SAN Cell Id". |
|
|
SAN Cell Id (RNC Part Hex) |
Text: "000" ... "FFF" |
1 ... 38 |
|
RNC-Id part of SAN Cell Id: bits 0 through 11 in hexadecimal. Argument: See "SAN Cell Id". |
|
|
SAN Cell Name |
Text |
1 ... 38 |
c |
Name of each cell listed. Requires cell file. Argument: Window row. |
✔ |
|
1 ... 4 |
1 ... 38 |
c |
Type of cell for each cell listed. 1: Serving cell Requires cell file. Argument: Window row. |
|
|
|
SAN Cell Type Abbr Str |
Text |
1 ... 38 |
c |
Same as "SAN Cell Type" but with text strings indicating the type of cell: SC: Serving cell Argument: Window row. |
|
|
SAN CPICH |
–34 ... 0 |
1 ... 38 |
|
CPICH Ec/N0 for each cell listed. Argument: Window row. |
✔ |
|
SAN CPICH |
–140 ... –15 |
1 ... 38 |
|
CPICH RSCP for each cell listed. Also occurs in MIMO variants: Antenna 1, Antenna 2, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". Argument: Window row. |
✔ |
|
SAN CPICH Tx Power |
–31 ... 50 |
1 ... 38 |
|
Primary CPICH transmit power for each cell listed. Argument: Window row. |
|
|
1 ... 4 |
1 ... 38 |
|
Cell type for each cell in HSPA active set. 1: Serving cell |
✔ |
|
|
SAN HS Cell Type Abbr Str |
Text |
1 ... 38 |
|
Same as "SAN HS Cell Type" but in text format: One of " |
|
|
SAN No of Members |
0 ... 38 |
– |
|
Total number of cells listed. |
|
|
SAN Pathloss |
30 ... 165 |
1 ... 38 |
|
Pathloss for each cell listed. Calculated as Primary CPICH Tx Power – CPICH RSCP. Argument: Window row. |
|
|
SAN SC |
0 ... 511 |
1 ... 38 |
|
Scrambling code for each cell listed. Argument: Window row. |
✔ |
|
SAN UARFCN DL |
0 ... 16383 (frequency band dependent) |
1 ... 38 |
|
Downlink UARFCN for each cell listed. Argument: Window row. |
✔ |
|
SAN URA Id |
0 ... 228 – 1 |
1 ... 38 |
|
URA identity of each cell listed. Argument: Window row. |
|
|
These elements are derived from CPICH scanning and combine scrambling codes from all scanned UMTS frequencies, sorted by descending Aggr Ec/I0. The sorting order within the "Best" elements is not affected by the settings in the General window (see UM section "Sorting of Scrambling Codes"). The "Freqs" line in the IE Name indicates for how many individual scanned UMTS frequencies the IE exists; compare the remark on the "Sc 1st (etc.)" elements. Regarding CPICH scanning in general, see UM section "CPICH Scanning (with SCH Scanning)". Argument (where present): 1 is the scrambling code with the highest Aggr Ec/I0, etc. |
|||||
|
Sc Best Aggr Eb/Io (dB) Freqs 1–4 |
–10 ... 21 |
1 ... 512 |
pi |
The aggregate code power of the scrambling code (Eb, energy per bit) relative to the total signal power in the channel (I0). |
|
|
Freqs 1–12 |
–130 ... –25 |
1 ... 512 |
pi |
The aggregate code power (energy per chip) of each scanned scrambling code. The aggregate code power is a measure of the total signal power (distributed around the main peak due to multipath propagation) that is above the PN threshold (see UM section "Setup of CPICH Scan: PCTel"). |
Freqs 1-12 |
|
Freqs 1–12 |
–30 ... 0 |
1 ... 512 |
pi |
The aggregate code power of the scrambling code (Ec, energy per chip) relative to the total signal power in the channel (I0). |
Freqs 1-12 |
|
Sc Best Aggr-Peak Ec (dB) Freqs 1–4 |
0 ... 90 |
1 ... 512 |
pi |
The difference between the aggregate code power and peak code power. |
|
|
Sc Best Cell Identity Freqs 1–12 |
0 ... 228 – 1 |
1 ... 512 |
pi |
Cell identity (UC-Id) of the cell using each scanned scrambling code. |
Freqs 1-12 |
|
Sc Best Cell Name Freqs 1–12 |
Text |
1 ... 512 |
pi |
Deduced name of the cell that uses each scanned scrambling code. The algorithm determining the cell name takes as input the SC number, the UARFCN, and the position reported. It searches the cell file for cells with matching SC number and UARFCN within a 50 km radius. If multiple matches are found, the cell closest to the position is selected. If no positioning data is available, the information element will still be presented, but the cell names may then of course be wrong. The algorithm in this case simply picks the first cell in the cell file with matching SC number and UARFCN. Requires cell file. |
|
|
Sc Best Cell Type Freqs 1–12 |
1 ... 3 |
1 ... 512 |
pi |
Categorization of the cells that use the scanned scrambling codes. 1: The cell with the strongest Aggr Ec. 2: All neighbors of the "1" cell, as indicated by the cell file. 3: All other cells. In the "Sc Best" element, this categorization is applied for each UMTS frequency, so there will be one "1" with associated "2"s for each frequency. Requires cell file. |
|
|
Sc Best Delay Spread Freqs 1–4 |
0 ... 255 |
1 ... 512 |
pi |
Time in chips between the first and last Ec/I0 peaks that are above the PN threshold (see UM section "Setup of CPICH Scan: PCTel"). This is a measure of the signal spreading due to multipath propagation. |
Freqs 1-4 |
|
Freqs 1–12 |
–115 ... –25 |
– |
pi |
The total signal power in the channel. |
|
|
Sc Best LAC Freqs 1–12 |
000 ... 999 |
1 ... 512 |
pi |
Location Area Code of the cell using each scanned scrambling code. |
|
|
Sc Best MCC Freqs 1–12 |
000 ... 999 |
1 ... 512 |
pi |
Mobile Country Code of the cell using each scanned scrambling code. |
Freqs 1-12 |
|
Sc Best MNC Freqs 1–12 |
000 ... 999 |
1 ... 512 |
pi |
Mobile Network Code of the cell using each scanned scrambling code. |
Freqs 1-12 |
|
Sc Best No of SCs Freqs 1–12 |
0 ... 512 |
– |
pi |
The number of scrambling codes scanned. |
|
|
Sc Best Peak Eb/Io (dB) Freqs 1–4 |
–10 ... 21 |
1 ... 512 |
pi |
The peak code power of each scanned scrambling code (Eb, energy per bit) relative to the total signal power in the channel (I0), i.e. the difference between them in dB. |
|
|
Sc Best Peak Ec (dBm) Freqs 1–4 |
–130 ... –25 |
1 ... 512 |
pi |
The peak code power of each scanned scrambling code (Ec, energy per chip) in dBm. |
Freqs 1-4 |
|
Sc Best Peak Ec/Io (dB) Freqs 1–4 |
–30 ... 0 |
1 ... 512 |
pi |
The peak code power of each scanned scrambling code (Ec, energy per chip) relative to the total signal power in the channel (I0), i.e. the difference between them in dB. |
Freqs 1-4 |
|
Freqs 1–4 |
–130 ... –25 |
1 ... 512 |
pi |
The peak code power of each scanned scrambling code on the primary synchronization channel (P-SCH). |
|
|
Freqs 1–4 |
–30 ... 0 |
1 ... 512 |
pi |
The peak code power (Ec) of each scanned scrambling code on the primary synchronization channel (P-SCH), relative to the total signal power in the channel (I0). |
|
|
Sc Best Rake Finger Count Freqs 1–4 |
0 ... 51 |
1 ... 512 |
pi |
The number of Ec/I0 peaks (multipath components) that are above the PN threshold. |
Freqs 1-4 |
|
Sc Best SC Freqs 1–12 |
0 ... 511 |
1 ... 512 |
pi |
The number of each scanned scrambling code. |
Freqs 1-12 |
|
Sc Best SC Group Freqs 1–4 |
0 ... 7 |
1 ... 512 |
pi |
The number of the group to which each scanned scrambling code belongs. |
|
|
Freqs 1–4 |
–25 ... 30 |
1 ... 512 |
pi |
Received SIR (in dB) for scanned scrambling codes. |
Freqs 1-4 |
|
Freqs 1–4 |
–130 ... –25 |
1 ... 512 |
pi |
The peak code power of each scanned scrambling code on the secondary synchronization channel (S-SCH). |
|
|
Freqs 1–4 |
–30 ... 0 |
1 ... 512 |
pi |
The peak code power (Ec) of each scanned scrambling code on the secondary synchronization channel (S-SCH), relative to the total signal power in the channel (I0). |
|
|
Freqs 1–4 |
0 ... 38399 |
1 ... 512 |
pi |
The time offset of the radio frame (10 ms = 38,400 chips) for each scanned scrambling code. |
|
|
Sc Best Time Offset Slot Pos Freqs 1–4 |
1 ... 2560 |
1 ... 512 |
pi |
Equal to ("Sc Best Time Offset" mod 2560) + 1. |
|
|
Sc Best UARFCN Freqs 1–12 |
410 ... 10840 (frequency band dependent) |
– |
pi |
The UARFCN of the CPICH currently scanned. |
Freqs 1-12 |
|
Freqs 1–12 |
–110 ... –70 |
– |
pi |
Interference on uplink, extracted from SIB type 7. |
|
|
Sc 1st (etc.) Cell Macro Ingress Freqs 1–4 |
–140 ... 140 |
– |
pi |
This element is populated only for TEMS Pocket logfiles. It indicates the difference between the total Ec of small (indoor) cells and the total Ec of macro (outdoor) cells on this UARFCN. Small cells have been identified as such in a transmitter file contained in an iBwave indoor map set. The Ec sums are taken in the mW domain. No "Sc Best" version is provided for these elements. |
✔ |
|
Sc 1st (etc.) Cell Small Cell Indication Freqs 1–4 |
Text |
1 ... 512 |
pi |
This element is populated only for TEMS Pocket logfiles, taking the value " No "Sc Best" version is provided for these elements. |
✔ |
|
Sc 1st (etc.) Cell Zone Freqs 1–4 |
Text |
1 ... 512 |
pi |
This element is populated only for TEMS Pocket logfiles, indicating which of the zones defined in an iBwave indoor map set each scanned cell belongs to. No "Sc Best" version is provided for these elements. |
|
|
Sc 1st (etc.) Intra-freq Cells Freqs 1–12 |
Text |
– |
pi |
Neighbor list for the first scrambling code on the first (second, third, etc.) scanned UMTS frequency. Obtained from SIB. What scrambling code is the first depends on the sorting order set in the General window: see UM section "Sorting of Scrambling Codes". Given as a comma-separated string of scrambling codes, e.g. " No "Sc Best" version is provided for these elements, since that would be pointless. |
|
|
(except Intra-freq Cells) |
Same as "Sc Best" elements except that only the first (second, third, etc.) scanned UMTS frequency is considered. Note: More IEs are provided for frequencies 1–4 than for frequencies 5–12, as detailed for the "Sc Best" elements above. Argument: The sorting order within each element depends on the General window setting: see UM section "Sorting of Scrambling Codes". |
||||
|
"SCH TS" IEs: General remark |
These elements are obtained from SCH timeslot scanning. |
||||
|
–24 ... 0 |
1...2560 |
ts |
SCH timeslot scanning (UM section "SCH Timeslot Scanning"): Power in each segment (1, 2, 4, or 8 chips depending on setup) of the scanned timeslot. Argument: Index of timeslot segment (not chip index). If Every 2 has been chosen, the argument range is 1 ... 2560/2, i.e. 1 ... 1280; for Every 4, the range is 1 ... 640; for Every 8, the range is 1 ... 320. |
|
|
|
SCH TS Sc |
0 ... 2560 |
ts |
SCH timeslot scanning: Number of scanned timeslot segments (each with length 1, 2, 4, or 8 chips depending on setup). |
|
|
|
SCH TS Sc Segm |
1 ... 2560 |
1...2560 |
ts |
SCH timeslot scanning: Position of each timeslot segment scanned, expressed as a chip index. The first chip has number 1. Argument: Index of timeslot segment (not chip index). If Every 2 has been chosen, the argument range is 1 ... 2560/2, i.e. 1 ... 1280; for Every 4, the range is 1 ... 640; for Every 8, the range is 1 ... 320. |
|
|
1 ... 2560 |
– |
ts |
The time separation in chips between the strongest peak and the second strongest. |
|
|
|
1 ... 2560 |
– |
ts |
The time separation in chips between the second strongest peak and the third strongest. |
|
|
|
410 ... 10840 (frequency band dependent) |
– |
ts |
UARFCN scanned. |
|
|
|
0, 1 |
– |
|
Use of Lock to Sector/Cell Selection function in UE in idle mode: 0: Lock to Sector disabled See UM section . |
|
|
|
Sector Control (Text) |
Text |
– |
|
Same as "Sector Control" but in text format. |
|
|
These elements pertain to the serving cell. They are not valid in Cell_DCH mode. |
|||||
|
Serving Cell Id |
0 ... 228 – 1 |
– |
|
Cell identity of the serving cell. |
✔ |
|
0 ... 216 – 1 |
– |
|
Cell Identity part of Serving Cell Id: bits 12 through 27 (in decimal). |
✔ |
|
|
Serving Cell Id (CI Part Hex) |
Text: "0000" ... "FFFF" |
– |
|
Cell Identity part of Serving Cell Id: bits 12 through 27 in hexadecimal. |
✔ |
|
Serving Cell Id (RNC Part) |
0 ... 212 – 1 |
– |
|
RNC part of Serving Cell Id: bits 0 through 11 (in decimal). |
✔ |
|
Serving Cell Id (RNC Part Hex) |
Text: "000" ... "FFF" |
– |
|
RNC part of Serving Cell Id: bits 0 through 11 in hexadecimal. |
✔ |
|
0 ... 65535 |
– |
|
LAC of serving cell. |
✔ |
|
|
Serving Cell LAC (Hex) |
Text: "0000" ... "FFFF" |
– |
|
LAC of serving cell in hexadecimal format. |
✔ |
|
Serving Cell Name |
Text |
– |
c |
Name of the serving cell. Requires cell file. |
✔ |
|
Serving Cell RAC |
0 ... 255 |
– |
|
RAC of serving cell. |
|
|
Serving Cell RAC (Hex) |
Text: |
– |
|
RAC of serving cell in hexadecimal format. |
|
|
Serving Cell Small Cell Indication |
Text |
– |
|
This element is populated only for TEMS Pocket logfiles, taking the value " |
✔ |
|
Serving Cell Zone |
Text |
– |
|
This element is populated only for TEMS Pocket logfiles, indicating which of the zones defined in an iBwave indoor map set the serving cell belongs to. |
✔ |
|
–34 ... 0 |
– |
|
CPICH Ec/N0 of the serving cell. |
✔ |
|
|
–140 ... –15 |
– |
|
CPICH received signal code power of the serving cell. Also occurs in MIMO variants: Per Antenna, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". |
✔ |
|
|
Serving CPICH Tx Power |
–31 ... 50 |
– |
|
CPICH transmit power of the serving cell. |
|
|
Serving Pathloss |
30 ... 165 |
– |
|
Pathloss of the serving cell. Calculated as Primary CPICH Tx Power – CPICH RSCP. |
|
|
Serving SC |
0 ... 511 |
– |
|
Scrambling code of the serving cell in idle, Cell_FACH, Cell_PCH, and URA_PCH mode. |
✔ |
|
Serving UARFCN DL |
0 ... 16383 (frequency band dependent) |
– |
|
Downlink UARFCN of the serving cell in idle, Cell_FACH, Cell_PCH, and URA_PCH mode. |
✔ |
|
Serving URA Id |
0 ... 228 – 1 |
– |
|
URA identity of the serving cell. |
|
|
SF DL |
1 ... 512 |
– |
|
Spreading factor on downlink. |
|
|
SF UL |
1 ... 512 |
– |
|
Spreading factor on uplink. |
|
|
SHO Event Rate |
0 ... 50 |
0 ... 3600 |
|
Number of radio link events (both failures and successes) over the last arg seconds, where arg is the value of the argument. Regarding the events, see section "GSM/WCDMA/LTE Events". Argument: See above. Argument = 0 means that the events are counted from the beginning of the logfile. |
|
|
SHO Event Success Rate |
0 ... 100 |
– |
|
Soft handover success rate. Calculated as: (# add + # rem + # repl) / # all where add = "Radio Link Addition" events rem = "Radio Link Removal" events repl = "Radio Link Replacement" events all = All radio link events, including failures |
|
|
SHO Percent Softer |
0 ... 100 |
– |
c |
A measure of the amount of softer handover. Calculated as: # softer / (# softer + # soft) where softer = Radio link event indicating success occurs while in softer handover (and with more than one member in active set) soft = Radio link event indicating success occurs while in soft handover (and with more than one member in active set) A radio link event is one of "Radio Link Addition", "Radio Link Removal", and "Radio Link Replacement". Requires that a cell file with NodeB information has been loaded; otherwise the element is invalid. |
|
|
0 ... 2 |
– |
c |
Soft handover state. 0: Unknown (no cell data loaded) Requires that a cell file with NodeB information has been loaded; otherwise the value will always be = 0. Invalid when "AS No Of Members" < 2. |
|
|
|
SHO State (Text) |
Text |
– |
c |
Soft handover state as plain text: " Requires that a cell file has been loaded (otherwise the value will always be " Invalid when "AS No Of Members" < 2. |
|
|
–20 ... 30 |
– |
|
Signal-to-interference ratio, measured on DPCCH. ► 3GPP 25.215, section 5.2.2 |
✔ |
|
|
–20 ... 30 |
– |
|
SIR target governing SIR. |
|
|
|
Spectr Ana IEs: General remark |
These elements are obtained from spectrum analysis scanning. The same elements are used for both uplink and downlink bands. The argument, where present, is simply a sequence number pointing to scanned frequencies as indicated by the "Spectr Ana Sc Freq (kHz)" element. |
||||
|
698,000 ... 2,690,000 |
1 ... 2560 |
ss |
Scanned frequencies in ascending order. |
|
|
|
Spectr Ana Sc No of Freq |
0 ... 2560 |
– |
ss |
The number of frequencies swept by the scan. |
|
|
–130 ... –20 |
1 ... 2560 |
ss |
RSSI of frequencies scanned. |
|
|
|
Speed (km/h) |
0 ... 250 |
– |
p |
Speed in km/h. |
✔ |
|
Speed (mph) |
0 ... 155 |
– |
p |
Speed in mph. |
✔ |
|
–20 ... 30 |
– |
|
Speech Quality Index for WCDMA. The range is different depending on the AMR speech codec mode. The maximum SQI values for NB are as follows: 12.2 kbit/s: 30 dBQ |
|
|
|
SQI MOS |
1 ... 5 |
– |
|
"SQI" expressed on the MOS scale. See UM chapter "Speech Quality Index – SQI". |
✔ |
|
Text |
1 ... 6 |
c |
Cell names of neighbors (monitored as well as detected) sorted by signal strength in descending order. Requires cell file. Argument: 1 is the strongest neighbor, etc. |
|
|
|
Str Neigh CPICH Ec/No |
–34 ... 0 |
1 ... 6 |
|
CPICH Ec/N0 of neighbors (monitored as well as detected) sorted by signal strength in descending order. Argument: 1 is the strongest neighbor, etc. |
|
|
Str Neigh CPICH RSCP |
–140 ... –15 |
1 ... 6 |
|
CPICH RSCP of neighbors (monitored as well as detected) sorted by signal strength in descending order. Also occurs in MIMO variants: Antenna 1, Antenna 2, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". Argument: 1 is the strongest neighbor, etc. |
|
|
Str Neigh SC |
0 ... 511 |
1 ... 6 |
|
Scrambling codes of neighbors (monitored as well as detected) sorted by signal strength in descending order. Argument: 1 is the strongest neighbor, etc. |
|
|
Str Neigh Type |
3, 4 |
1 ... 6 |
|
Types of neighbors (monitored as well as detected) sorted by signal strength in descending order. The types are: 3: Monitored neighbor Argument: 1 is the strongest neighbor, etc. |
|
|
Str Neigh UARFCN DL |
0 ... 16383 (frequency band dependent) |
1 ... 6 |
|
CPICH UARFCNs of neighbors (monitored as well as detected) sorted by signal strength in descending order. Argument: 1 is the strongest neighbor, etc. |
|
|
Text |
– |
|
Current time in text format: " |
|
|
|
0 ... 100 |
– |
|
Block error rate on the worst downlink transport channel (DCH only) in percent. |
|
|
|
0 ... 63 See Description |
1 ... 32 |
|
Block error rate on each downlink transport channel (DCH only), converted to logarithmic value. Regarding the conversion, see ► 3GPP 25.331, section 10.3.5.10. Argument: Transport channel index. Note: Nokia UEs do not deliver separate values for each transport channel, but only an average over all of them (argument = 1). |
|
|
|
Trsp Ch BLER, DL (%) |
0 ... 100 |
1 ... 32 |
|
Block error rate on each downlink transport channel (DCH only) in percent. ► 3GPP 25.215, section 5.1.6. Compare "Trsp Ch BLER, DL (Log)". Argument: Transport channel index. |
|
|
Trsp Ch BLER Target (%) |
0 ... 100 |
1 ... 32 |
|
Block error rate target for each downlink transport channel (DCH only) in percent. Argument: Transport channel index. |
|
|
Trsp Ch Id DL |
1 ... 32 |
1 ... 32 |
|
Identity of each downlink transport channel. The channel type is indicated by the element "Trsp Ch Type DL". Argument: Transport channel index. |
|
|
Trsp Ch Id UL |
1 ... 32 |
1 ... 32 |
|
Identity of each uplink transport channel. Argument: Transport channel index. |
|
|
Trsp Ch No Of DL |
0 ... 32 |
– |
|
Number of downlink transport channels. |
|
|
Trsp Ch No Of UL |
0 ... 32 |
– |
|
Number of uplink transport channels. |
|
|
Trsp Ch No Of Error Blocks |
0 ... 4095 |
1 ... 32 |
|
Number of erroneous blocks on each transport channel. (The number of reports over which this is summed varies between devices.) Compare "Trsp Ch BLER, DL (Log)". Argument: Transport channel index. |
|
|
Trsp Ch Rec Blocks |
0 ... 4095 |
1 ... 32 |
|
Number of blocks received on each transport channel. (The number of reports over which this is summed varies between devices.) Argument: Transport channel index. |
|
|
Trsp Ch Throughput DL (kbit/s) |
0 ... 80000 |
1 ... 32 |
|
Downlink throughput on each transport channel. Argument: Transport channel index. |
|
|
Trsp Ch Throughput UL (kbit/s) |
0 ... 80000 |
1 ... 32 |
|
Uplink throughput on each transport channel. Argument: Transport channel index. |
|
|
Text |
1 ... 32 |
|
Downlink transport channel type: DCH or FACH. Argument: Transport channel index. |
|
|
|
–60 ... 44 |
– |
|
UE transmit power in dBm. Valid only in connected mode. |
✔ |
|
|
–110 ... –70 |
– |
|
Interference on uplink, extracted from SIB type 7. |
✔ |
|
|
–130 ... –20 |
– |
|
Total energy measured by the UE within the downlink bandwidth. Also occurs in MIMO variants: Per Antenna, Sum. See section "MIMO: Multiple-antenna vs. Single-antenna Information Elements". |
✔ |
|
|
VTQI |
1 ... 5 |
– |
|
Video Telephony Quality Index; see UM chapter "Video Telephony Quality Index – VTQI". |
|