Post on 29-Dec-2015
Analyzer Parameter Description
REV : 00
2006. 05.
© Copyright by Innowireless Co., Ltd. , 2005. All rights reserved.
Introduction
© Copyright by Innowireless Co., Ltd. Page I
Appendix Overview
XCAP Graph/Map/Table Parameter Tree drescription of Parameter for CDMA and EVDO
History
Edition Date Remarks
00 2006.05 First draft
Content
© Copyright by Innowireless Co., Ltd. Page I
Appendix Overview ................................................................................. I
History ................................................................................................. I
Graph/Map/Table Tab ..............................................................................1
GPS 1
Event ....................................................................................................... 1
CDMA ...................................................................................................... 2
Handoff Info .......................................................................................... 2
Power Control Info ................................................................................... 2
PMRM ................................................................................................. 3
Finger Info ............................................................................................ 3
Searcher Info ......................................................................................... 3
Frame Info ............................................................................................ 4
Configuration Info .................................................................................... 4
Voice Statistics ....................................................................................... 5
ESCAM ............................................................................................... 5
RLP Statistics ........................................................................................ 5
Pilot Sets ............................................................................................. 6
Access Probe ........................................................................................ 6
EVDO ....................................................................................................... 8
Summary Info ........................................................................................ 8
Air Link Summary .................................................................................... 8
Power Info ............................................................................................ 9
DRC Info .............................................................................................. 9
Finger Info .......................................................................................... 10
Searcher Info ....................................................................................... 10
Partial RLP ......................................................................................... 10
FWD Rate State ................................................................................... 10
Pilot Sets ........................................................................................... 11
State Info ........................................................................................... 12
Sector Info .......................................................................................... 12
Handoff Info ........................................................................................ 12
ARQ Effective Receive Rate ..................................................................... 12
목차 XCAP User’s Guide /Ed.00
Page II © Copyright by Innowireless Co., Ltd.
Reverse Rate Statistics ........................................................................... 13
Reverse Link Packet Summary .................................................................. 13
Slot Unit Info ....................................................................................... 13
Access Probe ...................................................................................... 13
Reverse Activity .................................................................................... 14
Nak 14
Attribute ............................................................................................. 14
CDMA Release A ....................................................................................... 19
Handoff Info .................................................................................. 19
PMRM ........................................................................................ 19
Searcher Info ................................................................................ 19
Finger Info ................................................................................... 20
F-CCCH Frame Info ........................................................................ 20
Enhanced Access Probe ................................................................... 20
Enhanced Finger Info ....................................................................... 21
ESCAM ....................................................................................... 21
EVDO Release A ....................................................................................... 22
Rvs CH Gain ................................................................................. 22
SU Fwd Statistics ........................................................................... 22
MU Fwd Statistics ........................................................................... 25
Rvs Info ...................................................................................... 27
RMAC Sub3 T2P Info ....................................................................... 30
Multi RLP Statistics ......................................................................... 30
Attribute ...................................................................................... 30
BCMCS ....................................................................................... 36
PN Scanner ............................................................................................. 40
PSC Scanner ............................................................................................ 41
XCAL-S ....................................................................................... 41
PPP Data ................................................................................................. 42
Mobile Rx/Tx ................................................................................. 42
Throughput info ........................................................................................ 43
System Info ............................................................................................. 44
Graph/Map/Table Tab
GPS
Parameter Description
Lon Longitude
Lat Latitude
Time Received Time of GPS Data
Head Movement direction of GPS(display as 360 degree of angle of direction)
Speed Received speed of GPS data
Distance Distance between current coordinate and previous coordinate
Source Received status of GPS(for example, the number of received satellite)
Data Ind Effectivity of received data from GPS
Event
Parameter Description
Voice Call Change process of voice call in mobile station.
FTP Call Event Change process of data call in mobile station.
Browser Call Change process of EIF call in mobile station.
HTTP Call Event Change process of HTTP call in mobile station.
CS Call Event Change process of Circuit Switched call in mobile station.
E-Mail call Event Change process of POP3, SMTP call in mobile station.
User Event Received event from user in Diagnostic Measurement.
(The event is defined as F1~F9 by user)
Static Point Static position of In-Building data.
CDMA
Handoff Info
Parameter Description
Handoff Statistics1 Handoff type for example, hard handoff, soft handoff, softer handoff, etc.
Handoff HDM TCE Count of allocation channel for handoff.
Search Window Size Range of window size when the handoff is occurred.
Active Window Size of Active Set
Neighbor Window Size of Neighbor Set
Remaining Window Size of Remaining Set
Handoff Parameter Signal power of mobile station when the handoff is occurred and related parameter.
T_add Signal power of a point of time when neighbor PN is converted to
active PN
T_drop Signal power of a point of time when active PN is converted to
neighbor PN
T_comp Permitted limit of active and cascade
T_tdrop Required time to remove the active PN after T_drop
Handoff Statistics2 Handoff information for Finger Info
The handoff type is displayed with PN offset 168.
Power Control Info
Parameter Description
Rx Power Received power of mobile station.
Tx Power Transmitted power of mobile station.
Tx Adjust Difference between real transmitted power of mobile station and transmitted power
correspond with received power.
Reverse FCH Tx Power Transmitted power of Fundamental Channel in received platform.
Reverse SCH0 Tx
Power Transmitted power of Supplemental Channel in Antenna 0
Reverse SCH1 Tx
Power Transmitted power of Supplemental Channel in Antenna 1.
Reverse DCCH Tx
Power Transmitted power of Dedicated Control Channel in received platform.
Reverse Decision
History Statistics of Power Control Group that exists 16 in 1 Frame(20ms) of Reverse Link.
Forward FCH Setpoint Standard energy level for Fast Power Control of Fundamental Channel in Forward
Link
Forward SCH0 Setpoint Standard energy level for Fast Power Control of Fundamental Channel Antenna 0.
Forward SCH1 Setpoint Standard energy level for Fast Power Control of Fundamental Channel Antenna 1.
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Forward DCCH Setpoint Standard energy level for Fast Power Control of Dedicated Control Channel in
Forward Link.
Forward FCH Decision
History
Statistics of Power Control Group that exists 16 in 1 Frame of Fundamental Channel
in Forward Link.
Forward SCH Decision
History
Statistics of Power Control Group that exists 16 in 1 Frame of Supplemental Channel
in Forward Link.
PMRM
Parameter Description
Dominant PN The dominant PN among PNs in Pilot Measurement Report Message
Dominant Ec/Io Ec/Io(Chip Energy/Interference) of Dominant PN
PNs Each PN’s Ec/Io
Finger Info
Parameter Description
Combined Ec/Io Combined signal power of received PN offset from 6 fingers.
Combined Ec Combined chip energy of received PN offset from 6 fingers.
Dominant PN Locked PN of finger of dominant signal power among 6 fingers.
Dominant Best Ec/Io Dominant Ec/Io of Dominant PN
Dominant Ec Dominant Ec of Dominant PN
Dominant Combined
Ec/Io Combined Ec/Io for the same dominant PNs.
Finger 1~6 PN PNs information of 6 fingers.
Finger 1~6 Ec/Io Finger’s Ec/Io of 6 fingers.
PNs Ec/Io for each locked PN.
At this time the first data in parenthesis is total data count the second is data count
that the Ec/Io is upper than -15dB.
Searcher Info
Parameter Description
Best PN & Ec/Io Searcher Best PN The dominant PN among searcher PNs.
Searcher Best Ec/Io Ec/Io of dominant PN among searcher PNs.
PNs Ec/Io for each PN.
At this time the first data in parenthesis is total data count the second is data count
that the Ec/Io is upper than -15dB.
Frame Info
Parameter Description
Frame Offset FWD Frame Offset Specifies the frame offset of forward Fundamental Channel
RVS Frame Offset Specifies the frame offset of reverse Fundamental Channel
Reverse FCH Frame Frame Count Count of frame for each reverse FCH Type
Full/Half/Quarter/Eight
h Frame #
Count of frame count of Full/Half/Quarter/Eighth Rate for
Reverse FCH frame.
Reverse SCH0 Frame Full/Blank/Erasure
Rate Frame # Count of frame count of Full/Blank/Erasure Rate
Full/Blank Frame Rate Frame rate of Full/Blank Frame Type
FER Frame error rate for reverse SCH0 frame
Reverse SCH1 Frame Full/Blank/Erasure
Rate Frame # Count of frame count of Full/Blank/Erasure Rate
Full/Blank Frame Rate Frame rate of Full/Blank Frame Type
FER Frame error rate of reverse SCH1 frame
Forward FCH Frame Full/Half/Quarter/Eight
h Rate Frame #
Count of frame count of Full/Half/Quarter/Eighth Rate for
forward FCH frame.
Erasure & Blank Rate
Frame # Sum of Erasure and Blank Rate frame.
FER Erasure & Blank Rate Frame # / Total Frame Type #
Forward SCH0 Frame Full/Blank/Erasure
Rate Frame # Count of frame count of Full/Blank/Erasure Rate
Full/Blank Frame Rate Frame rate of Full/Blank Frame Type
FER Frame error rate for forward SCH0 frame
Forward SCH1 Frame Full/Blank/Erasure
Rate Frame # Count of frame count of Full/Blank/Erasure Rate
Full/Blank Frame Rate Frame rate of Full/Blank Frame Type
FER Frame error rate of forward SCH1 frame
Configuration Info
Parameter Description
Reverse/Forward FCH RC Radio Configuration of Fundamental Channel in reverse/forward link.
Reverse/Forward SCH0 RC Radio Configuration of Supplemental Channel in reverse/forward link.
Reverse/Forward SCH1 RC Radio Configuration of Supplemental 1 Channel in reverse/forward link.
Reverse/Forward DCCH RC Radio Configuration of Dedicated Control Channel in reverse/forward link.
Reverse/Forward SO Service option of reverse/forward Link
XCAP User’s Guide /Ed.00 목차
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Voice Statistics
Voice Statistics displays Markov or Voice Frame information
Parameter Description
FER Error rate of voice frame.
Avg FER Average error rate of voice frame.
FEB Rate of Frame error bit
FER (2 sec) Average FER for 2 seconds.
ESCAM
ESCAM(Extended Supplemental Channel Assignment) displays Supplemental Channel
informations transmitting data in wireless network.
Parameter Description
Forward SCH0~1 PN PN allocating the Supplemental Channel in forward link
Forward SCH0~1 DUR Supplemental Channel duration in forward link
Forward SCH0~1 RATE Supplemental Channel rate in forward link
Reverse SCH0~1 DUR Supplemental Channel duration in reverse link
Reverse SCH0~1 RATE Supplemental Channel rate in reverse link
FWD/RVS SCH0,1
Throughput [1sec]
Conversion value of Supplemental Channel’s average rate in forward/reverse link
for each 1 second
FWD/RVS SCH0,1
Throughput [Inst] Conversion value of Supplemental Channel’s rate for each event interval.
RLP Statistics
RLP Statistics displays Radio Link Protocol Parameter.
Parameter Description
Service ID Service ID
Reset Time Timestamp for last statistics reset
Naks received Total count of nak frames received
Rex mits not found Count of Rexmits not found
Largest config Erasure Largest block of consecutive erasures
Resets Count of resets
Aborts Count of aborts (nak aborts)
Last RTT Round trip Time
RLP Blob Used 0-no BLOB, 1-NAK, 2-RTT, 3-NAK + RTT
Rx/Tx rexmit fr_count Count of received / transmitted re-transmitted frames
Rx/Tx idle fr_count Count of received / transmitted idle frames
Rx fill fr_count Count of received fill frames
Rx blank_fr_count Count of blank frames received
Rx null fr_count Count of null frames received
Rx/Tx new data fr_count Total count of received / transmitted new data frame count
Rx/Tx 20ms fr_count Count of received / transmitted Fundamental data frames
Rx/Tx total bytes Total count of bytes received / transmitted
Rx rlp erasures Count of RLP erasures received
Rx mux erasures Count of RLP mux erasures received
Tx naks count Count of tx naks entries to follow
Tx naks single count Single NAKs sent array
Tx naks double count Double NAKs sent array
Tx naks ets count Count of etc NAKs sent array
Pilot Sets
Parameter Description
Combined Ec/Io Combined signal power of received PN offset from mobile station.
Combined Ec Combined chip energy of received PN offset from mobile station.
Dominant PN PN of finger of dominant signal power among received signal of mobile station.
Dominant Ec/Io Ec/Io for Dominant PN.
Dominant Ec Ec for Dominant PN
Rx Power Received power in debug mode status for mobile stations received power.
Tx Adjust Transmitted power in debug mode status for mobile stations transmitted adjusts
power.
Tx Power Transmitted power in debug mode status for mobile station’s transmitted power.
Active Active Set Count Active PN count of mobile station.
PN List Active PN list of mobile station.
Active Cell Count Active cell count of mobile station.
PNs Ec/Io for each active PNs of mobile station.
Candidate Ec/Io for each candidate PNs of mobile station.
Neighbor Ec/Io for each neighbor PNs of mobile station.
Pilot Pollution Count of Ec/Io’s PN bigger than user sets Ec/Io.
Access Probe
Parameter Description
Sequence Number Sequence Number of Access Probe
Probe Number Count of Access Probe
Rx AGC Received Auto Gain Control Value ( Power )
Tx Adjust Transmit Gain Adjust
PSIST Count of Persistence tests performed
Channel Access Channel Number
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Random Delay Randomization Delay of PN
Sequence Backoff Access Probe 의 Sequence Back Off
Probe Backoff Probe Back Off
EVDO
Summary Info
Parameter Description
User Size Count of user for serviced PN
ASP Size Count of Active Set Pilot
ASP State PN information of Active Set Pilot
Cell Throughput Total throughput of serviced PN
Requested DRC
Throughput Conversion value of Data Requested Channel rate requested by mobile station.
Serving ASP PN Serviced PN among active set pilot
Serving ASP SINR C/I(Carrier/Interference) of serviced active set pilot
Serving ASP RTCOffset Reverse Traffic Channel offset of serviced active set pilot
Serving ASP PN DRC
Lock State DRC Lock Status of active set pilot
PER Packet Error Rate
Active Set Size Total count of active set
Active Cell Size Total count of active cell
Imbalance Info Imbalance Unity of best ASP in forward/reverse link
DB In Imbalance Difference of C/I between best ASP SINR and 1st ASP SINR
DRC Index VS Serving
ASP SINR Correlation with DRC Index Rate and Serving PN C/I
Network Serviced network of mobile station.
Air Link Summary
Parameter Description
DRC Index Index of DRC rate requested by mobile station.
Best ASP Index ASP index of the strongest signal ASP
Best ASP PN PN of the strongest signal ASP
Best ASP SINR (Inst) Averaged value of received Best ASP PN’s SINRs that are sixteen.
Best ASP SINR (Filt) C/I of the strongest signal of ASP Filt SINR
PER Packet Error Rate
PER [x Frame] PER averaged according to user input frame count
PER [x Moving Avg] PER averaged value according to user input time(second)
ASP Index Count Count of ASP Index
PktRcvFlag Success or failure of receiving the last 16th slot
1st~3rd ASP PN PN of from first to third ASP signal
1st~3rd ASP SINR (Filt) C/I of from first to third ASP signal
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Power Info
Parameter Description
Rev.0 Tx Open Loop
Power
Open Loop Power of reverse link
PA ON/OFF Power when Power Amplifier is on/off
Rev.0 Tx Closed Loop
Power Adjust
Closed Loop Power of reverse link
PA ON/OFF Power when Power Amplifier is on/off
Rev.0 Tx Pilot Power Pilot power of reverse link
PA ON/OFF Power when Power Amplifier is on/off
Rev.0 Tx Total Power Total power of reverse link
PA ON/OFF Power when Power Amplifier is on/off
Rev.A Tx Open Loop
Power
Open Loop Power of reverse link (1xEV-DO Rev A only)
Rev.A Tx Closed Loop
Power Adjust
Closed Loop Power of reverse link (1xEV-DO Rev A only)
Rev.0 Tx Pilot Power Pilot power of reverse link (1xEV-DO Rev A only)
Rev.0 Tx Total Power Total power of reverse link (1xEV-DO Rev A only)
Rx Power0 Received power of Antenna0
PA ON/OFF Power when Power Amplifier is on/off
Rx Power1 Received power of Antenna1
PA ON/OFF Power when Power Amplifier is on/off
Combined Rx Power Combined power between Rx Power 0 and Rx Power
PA ON/OFF Combined power when Power Amplifier is on/off
RPC History Status information for received power control
DRC Info
DRC Info displays data channel information requested by mobile station.
Parameter Description
DRC Cover Cover value of best ASP requesting DRC
DRC Rate (Index) Index of DRC rate requested by mobile station
DRC Rate (Throughput) Conversion value of Data Requested Channel rate requested by mobile station
DRC Imbalance Unity status of best ASP between forward link and reverse link
DRC RL Best ASP Best ASP index in reverse link
DRC FL Best ASP Best ASP index in forward link
DSC Value[Index] The DSC value transmitted by the AT (1xEV-DO Rev A only)
ASP Index DRC Lock
State Lock state for each ASP Index(1st~6th)
DRC Lock Best ASP
[Handoff] Index, Lock state and effectively for Serving ASP PN
Best ASP PN DRC Lock
State PN, C/I, Lock state of Serving ASP
Finger Info
Parameter Description
ASP State ASP PN Offset of finger
ASP State(Locked) Locked PN among received PN from finger
Best ASP PN PN of serving ASP
Best ASP C Preveious power standarized by C/I
= Best ASP C/I + Combined Rx Power
Best ASP C/I C/I of serving ASP
Best ASP RTCOffset Reverse Traffic Channel Offset of Best ASP for the first received signal
MSTR Pilot PN PN of the first received signal
1st ASP PN PN of the first ASP
1st ASP Ec/Io C/I of the first ASP
1st ASP RTCOffset Reverse Traffic Channel Offset of the first ASP
PNs Ec/Io of PNs in fingers
Searcher Info
Parameter Description
Searcher Info PN, Ec/Io and Delay of searcher from first to forth
Partial RLP
Parameter Description
Rx Received Bytes Second unit Bytes calculated by seqence number of message
Throughput Throughput conversed by received bytes
Tx Transmitted
Bytes Second unit Bytes calculated by seqence number of message
Throughput Throughput conversed by received bytes
FWD Rate State
Parameter Description
Control Good CRC Good CRC Count of Control Channel
Bad CRC Bad CRC Count of Control Channel
Total Sum of Good CRC count and Bad CRC count
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Throughput Throughput conversed by Good CRC count for each second
rate of Control Channel
PER Bad CRC Count of Control Channel / Total CRC Count [ % ]
Slot Counts with
Good CRC
Good Served CRC possession for second unit
Good CRC Sum / 600 Slot
Slot Counts with
Total
Total Served CRC possession for second unit
Good CRC Sum / 600 Slot
Good Good Served CRC Count for each rate
Bad Bad Served CRC Count for each rate
Total Total Served CRC Count for each rate
Traffic Good CRC Good CRC Count of Traffic Channel
Bad CRC Bad CRC Count of Traffic Channel
Total Sum of Good CRC count and Bad CRC count for Traffic
Channel
Throughput Throughput conversed by Good CRC count for each second
rate of Traffic Channel
PER Bad CRC Count of Traffic Channel / Total CRC Count [ % ]
Slot Counts with
Good CRC
Good Served CRC possession for second unit
Good CRC Sum / 600 Slot
Slot Counts with
Total
Total Served CRC possession for second unit Good CRC Sum /
600 Slot
Good Good Served CRC Count for each rate
Bad Bad Served CRC Count for each rate
Total Total Served CRC Count for each rate
Pilot Sets
Parameter Description
PN Increment PN Increment used in mobile station
ASet Active Set
Count Count of active set
Window Search Window Size of active set
PNs PN of active set
CSet Candidate Set
Count Count of Candidate Set
Window Search Window Size of candidate set
PNs PN of candidate set
NSet Neighbor Set
Count Count of Neighbor Set
Window Search Window Size of neighbor set
PNs PN of neighbor set
Frequency Channel Number of active set
Band Class Band Class information of pilot set
Aset Best ASP PN PN of the strongest signal ASP
Best ASP Ec/Io Ec/Io of the strongest signal ASP
Combined Ec/Io Combined Ec/Io of active PN’s Ec/Io
State Info
Parameter Description
AT State Inactive, Acquisition, Sync, Access, Connected
Session State Closed, AMP Setup, AT-Init Nego, AN-Init Nego, Open
ALMP State Inactive, Initialization, Idle, Connected
Init State Inactive, Network Determination, Pilot Acquisition, Sync
Idle State Inactive, Monitor, Sleep, Connection Setup
Connected State Inactive, Open
Route Update State Inactive, Idle, Connection Setup, Connected
Ovhd State Inactive, Process all messages, Sleep, Frequency Change In Progress Access
Handoff In Progress, Wait for Link
Sector Info
Parameter Description
Sector ID Sector ID of base station
Subnet Mask 24 bit value for base station information
Color Code Color Code of base station
Handoff Info
Parameter Description
Handoff State Handoff state for example hard handoff, soft handoff, softer handoff, etc
Handoff PNs PN occurred handoff
Handoff State2 Handoff state by finger
Handoff Finger PNs PN when finger handoff is occurred
Handoff Count Handoff Event count
ARQ Effective Receive Rate
ARQ Effective Receive Rate displays data type of decoded each rate.
Parameter Description
Min Minimum rate received from HDR Decoder
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Max Maximum rate received from HDR Decoder
Effective Receive Rate Effective received rate early terminated by HDR Decoder Interrupt in received packet
Reverse Rate Statistics
Parameter Description
Avg Throughput Average Throughput information of Reverse Traffic Channel
Reverse Link Packet Summary
Parameter Description
Reverse Rate Limit Rate Limit Value of Reverse Limit Message
Current Rate Transmitted rate of Reverse Traffic Channel
Combined Busy Bit Busy Bits for new rate
PA Max Limited Max PA for mobile station
Condition RRI Reverse Rate Index(Calculated) transmitted to Reverse Link Packet
Actual RRI Reverse Rate transmitted to Reverse Link Packet
Num Pad Bytes
RRI Demotion Unity between actual RRI and condition RRI
Random Variable Represents the random variable that was used to calculate the new reverse rate.
Transition Probability The transition probability (in units of 1/255) that was used to calculate the new
reverse rate.
Slot Unit Info
Parameter Description
Air Link Summary DRC Index DRC Rate for slot unit
SINR_FOR_BESTAS
P C/I of the strongest signal PN
DRC Info Cover DRC Lock Index
Value (Index) DRC Rate
RL_ASP Reverse Link PN
FL_ASP Forward Link PN
ACK/NACK Acknowledgement or Unacknowledgement
DSC Value[Index] The DSC value transmitted by the AT (1xEV-DO Rev A
only)
Access Probe
Parameter Description
1st A/P Rx Power Received power of the first access point
Tx Power Transmitted power of the first access point
Pilot Power Pilot Channel power of the first access point
Last A/P Probe Seq Count Probe Sequence Num
Probe Count Count of Access Probe
Duration Time duration between first probe and last probe
PN PN trying to access
Probe Num Step Probe Number of Probe Sequence
Max Probe Seq Max Probe Num of Probe Sequence
Rx Power Rx Power of a point of time to access
Tx Power Tx Power of a point of time to access
Pilot Power Pilot Ch Power of a point of time to access
Reverse Activity
Parameter Description
ASP Index #1~#6 Reverse Activity Bit for each index of serving PN
ASP Index Total Reverse Activity Bit for all index of serving PN
Active PN 1st ASP PN ~ 3rd ASP PN PN of finger 1 to finger 3
Nak
Nak displays the data reception parameter.
Parameter Description
Reverse Pilot PN of revserse link
Reverse Nak Request Count of ack requested for reverse link PN
Reverse Window Len Window Size of reverse link
Forward Pilot PN of forward link
Forward Nak Request Count of ack requested for forward link PN
Forward Window Len Window Size of forward link
Attribute
Parameter Description
Stream Configuration Stream Application0
This field indicates the subtype of the
application used over Stream 0
Stream Application1
This field indicates the subtype of the
application used over Stream 2
Stream Application2
This field indicates the subtype of the
application used over Stream 3
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Stream Application3
This field indicates the subtype of the
application used over Stream 4
Prior Session
UATI
If the Restore field is set to ‘1’, the AT shall
set this field to the UATI associated with the
prior session.
Security Packet Length
If the Restore field is set to ‘1’, the AT shall
set this field to the length of the Security
Packet field in octets.
Security Packet
If the Restore field is set to ‘1’, the AT shall
set this field to the Security Packet variable
value.
Preferred Control
Channel Cycle Preferred Control Channel Cycle
Enabled
The sender shall set this field to ‘1’ if
Preferred Control Channel Cycle field is
included in this attribute; otherwise, the
sender shall set this field to ‘0’.
Preferred Control Channel Cycle
If Preferred Control Channel Cycle Enabled
is set to ‘1’, the sender shall included this
field and set it to specify the Control
Channel Cycle in which the AT transitions
out of the Sleep State in order to monitor
the Control Channel. The Sender shall omit
this field if Preferred Control Channel Cycle
Enabled is set to ‘0’.
Search Parameters
Pilot Increment
The AN shall set this field to the pilot PN
sequence increment, in units of 64 PN
chips, that AT are to use for searching the
Remaining Set.
Search Window Active Search window size for the Active Set and
Candidate Set
Search Window Neighbor Search window size for the Neighbor Set.
Search Window Remaining Search window size for the Remaining Set.
Set Management
Same/Difference
Channel Parameters Pilot Add
This value is used by the AT to trigger a
RouteUpdate in the Connected State. The
AN shall set this field to the pilot detection
threshold.
Pilot Compare
Active Set versus Candidate Set
comparison threshold, expressed as
a 2’s complement number. The AT
transmits a RouteUpdate message when
the strength of a pilot in the Candidate Set
exceeds that of a pilot in the Active Set by
this margin.
Pilot Drop
This value is used by the AT to start a pilot
drop timer for a pilot in the Active Set or the
Candidate Set. The AN shall set this field to
the pilot drop threshold.
Pilot Drop Timer
Timer value after which an action is taken
by the AT for a pilot that is a member of the
Active Set or Candidate Set, and whose
strength has not become greater than the
value specified by
PilotDrop.
Dynamic Thresholds
This field shall be set to ‘1’ if the following
three fields are included in this record.
Otherwise, this field shall be set to ‘0’.
Soft Slope
This field shall be included only if
DynamicThresholds is set to ‘1’. This field
shall be set to an unsigned binary number,
which is used by the AT in the inequality
criterion for adding a pilot to the Active Set
or dropping a pilot from the Active Set.
Add Intercept
This field shall be included only if
DynamicThresholds is set to ‘1’. This field
shall be set to a 2’s complement signed
binary number in units of dB.
Drop Intercept
This field shall be included only if
DynamicThresholds is set to ‘1’. This field
shall be set to a 2’s complement signed
binary number in units of dB.
Neighbor Max Avg
The AN shall set this field to the maximum
AGE value beyond which the AT is to drop
members from the Neighbor Set.
Initial Configuration
Probe Sequence Max
Maximum number of probe sequences. The
AN shall set this field to the maximum
number of probe sequences for a single
access attempt.
Probe Back Off
Inter-probe backoff. The AN shall set this
field to the upper limit of the backoff range
(in units of AccessCycleDuration) that the
AT is to use between probes.
Probe Sequence Backoff
Inter-probe sequence backoff. The AN shall
set this field to the upper limit of the
backoff range (in units of
AccessCycleDuration) that the AT is to use
between probe sequences.
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DRG Gating
DRC Gated mode
The negotiable simple attribute for this
protocol is Continuous /DisContinuous
transmission.
DRC Lock
DRC Lock Period
The AN shall set this field to specify the
time interval in units of slots between
transmission of two consecutive DRCLock
bit transmissions on the Forward MAC
Channel.
DRC Lock Length
The AN shall set this field to specify the
number of times that a DRCLock bit is
repeated.
Handoff Delays
Softer Handoff Delay
The AN shall set this field to the minimum
interruption that the AT should expect when
the AT switches the DRC from a source
sector to a target sector where the
target sector is such that its Forward Traffic
Channel carries the same closed-loop
power control bits as the source sector.
Soft Handoff Delay
The AN shall set this field to the minimum
interruption that the AT should expect when
the AT switches the DRC from a source
sector to a target sector where the target
sector is such that its Forward Traffic
Channel does not always carry the same
closed-loop power control bits as the
source sector.
Power Parameters
DataOffsetNom
The AN shall set this field to the nominal
offset of the reverse link data channel
power to pilot channel power, expressed as
2's complement value in units of 0.5 dB.
DataOffset9k6
The AN shall set this field to the ratio of
access channel power at 9600 bps to the
nominal access channel power at 9600
bps.
DataOffset19k2
The AN shall set this field to the ratio of
access channel power at 9600 bps to the
nominal access channel power at 19200
bps.
DataOffset38k4
The AN shall set this field to the ratio of
access channel power at 9600 bps to the
nominal access channel power at 38400
bps.
DataOffset76k8
The AN shall set this field to the ratio of
access channel power at 9600 bps to the
nominal access channel power at 76800
bps.
DataOffset153k6
The AN shall set this field to the ratio of
access channel power at 9600 bps to the
nominal access channel power at 153600
bps.
RPCStep Reverse Power Control Step Value
Rate Parameters
Transition009k6_019k2
The field is set to the probability the AT
uses to increase its transmission rate to
19.2kbps if it is currently transmitting at
9.6kbps.
Transition019k2_038k4
The field is set to the probability the AT
uses to increase its transmission rate to
38.4kbps if it is currently transmitting at
19.2kbps.
Transition038k4_076k8
The field is set to the probability the AT
uses to increase its transmission rate to
76.8kbps if it is currently transmitting at
38.4kbps.
Transition076k8_153k6
The field is set to the probability the AT
uses to increase its transmission rate to
153.6kbps if it is currently transmitting at
76.8kbps.
Transition019k2_009k6
The field is set to the probability the AT
uses to decrease its transmission rate to
9.6kbps or lower if it is currently
transmitting at 19.2kbps.
Transition038k4_019k2
The field is set to the probability the AT
uses to decrease its transmission rate to
19.2kbps or lower if it is currently
transmitting at 38.4kbps.
Default Session
Management
TSMPClose
Default is 54 hours.
all other values are in minutes.
(c.f 0x0000 means disable keep
alive messages)
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 19
CDMA Release A
Handoff Info
Parameter Description
Handoff Statistics1 Handoff type for example, hard handoff, soft handoff, softer handoff, etc.
Handoff HDM TCE Count of Channel allocation according to handoff
Search Window Size Window Size range of mobile station related to handoff
Active Window Size of active set
Neighbor Window Size of neighbor set
Remaining Window Size of remaining set
Handoff Parameter Signal power of mobile station when the handoff is occurred and related parameter.
T_add Signal power of a point of time when neighbor PN is converted to
active PN
T_drop Signal power of a point of time when active PN is converted to
neighbor PN
T_comp Permitted limit of active and cascade
T_tdrop Required time to remove the active PN after T_drop
PMRM
Parameter Description
Dominant PN The dominant PN among PNs in Pilot Measurement Report Message
Dominant Ec/Io Ec/Io(Chip Energy/Interference) of Dominant PN
DCCH FER Frame Error Rate of DCCH Channel
PNs Ec/Io of each PN
Searcher Info
Searcher Info 는 단말의 Searcher 를 통해 수집한 PN 을 Ec/Io 값으로 표시합니다.
Parameter Description
Best PN & Ec/Io Searcher Best PN The dominant PN among searcher PNs.
Searcher Best Ec/Io Ec/Io of dominant PN among searcher PNs.
Active Ec/Io of active PN
Candidate Ec/Io of candidate PN
Neighbor Ec/Io of Neighbor PN
Remaining Ec/Io of Remaining PN
PNs Ec/Io for each PN.
At this time the first data in parenthesis is total data count the second is data count
that the Ec/Io is upper than -15dB.
Finger Info
Parameter Description
PN State PN state received from finger
Locked PN State Locked PN in finger
Dominant PN Locked PN of finger of dominant signal power among 6 fingers.
Dominant PN Ec/Io Ec/Io of the strongest signal PN
Dominant Combined
Ec/Io Combined Ec/Io for the same dominant PNs.
Combined Ec/Io Combined signal power of received PN offset from 6 fingers.
Finger 1~6 Ec/Io, PN Ec/Io and PN data for top 1 to top 6, top is distinguished by Ec/Io
PNs Ec/Io for each locked PN.
At this time the first data in parenthesis is total data count the second is data count
that the Ec/Io is upper than -15dB.
F-CCCH Frame Info
Parameter Description
Good Frame Good Frame Count
Bad Frame Bad Frame Count
Blank Frame Blank Frame Count
FER Frame Error Rate
Enhanced Access Probe
Parameter Description
1st Access Probe
Rx Power Received power of mobile station at the first access point
Tx Power Transmitted power of mobile station at the first access point
Tx Adjust Transmitted adjust power of mobile station at the first access point
Last Access Probe
Seq_Num Probe Sequence Num
Prob_Num Count of access probe
Max Prob_Num Count of maximum access probe of probe sequence
Duration Probe Duration Time
Acc Rate Access Probe Rate
Rx Power Rx Power of a point of time to access
Tx Power Tx Power of a point of time to access
Tx Adjust Tx adjust Power of a point of time to access
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 21
Enhanced Finger Info
Parameter Description
Rx Power 0 Rx Power of antenna 0
Rx Power 1 Rx Power of antenna 1
PN State PN state of finger
Locked PN State Locked PN in finger
Dominant PN Locked PN of finger of dominant signal power among 6 fingers.
Dominant PN Ec/Io Ec/Io of the strongest signal PN
Dominant Combined
Ec/Io Combined Ec/Io for the same dominant PNs.
Combined Ec/Io Combined signal power of received PN offset from 6 fingers.
Finger State Ec/Io and PN data for top 1 to top 4, top is distinguished by Ec/Io
ESCAM
Parameter Description
SCH PN PN allocating the Supplemental Channel in forward link
Forward SCH0~1 DUR Supplemental Channel duration in forward link
Forward SCH0~1 RATE Supplemental Channel rate in forward link
Reverse SCH0~1 DUR Supplemental Channel duration in reverse link
Reverse SCH0~1 RATE Supplemental Channel rate in reverse link
FWD/RVS SCH0,1
Throughput [1sec]
Conversion value of Supplemental Channel’s average rate in forward/reverse link
for each 1 second
FWD/RVS SCH0,1
Throughput [Inst] Conversion value of Supplemental Channel’s rate for each event interval.
EVDO Release A
Rvs CH Gain
Parameter Description
Trans Mode Transmission mode
PA State PA enabled
RPC Bit Reverse power control bit
Ratio Ack/Pilot[dB] Ratio of ACK channel power to pilot power
DRC/Pilot [dB] Ratio of DRC channel power to pilot power
RRI/Pilot[dB] Ratio of RRI channel power to pilot power
DSC/Pilot[dB] Ratio of DSC channel power to pilot power
Data/Pilot[dB] Ratio of Data channel power to pilot power
Aux/Data[dB] Ratio of Auxiliary pilot gain to data pilot power
SU Fwd Statistics
SU Fwd Statistics indicates the information about CRC and early-decode statistics for Rev A
forward traffic channel single-user packets and control channel packets.
Parameter Description
Traffic Channel Packet Error Rate Packet error rate for single-user packet.
Throughput (slot
cumulated) This is the AT throughput during the time it is served by the AN.
Throughput (sec
cumulated)
This is the AT throughput averaged over time, including the time
the AN did not serve the AT.
Throughput (sec) This is the instantaneous AT throughput during 1sec.
CRC Info
TC0_128_Good Counter for DRC 0 [128, 16, 1024] traffic channel packets
with good CRC
TC0_256_Good Counter for DRC 0 [256, 16, 1024] traffic channel packets
with good CRC
TC0_512_Good Counter for DRC 0 [512, 16, 1024] traffic channel packets
with good CRC
TC0_1024_Good Counter for DRC 0 [1024, 16, 1024] traffic channel packets
with good CRC
TC0_Bad Counter for DRC 0 traffic channel packets with bad CRC
TC1_128_Good Counter for DRC 1 [128, 16, 1024] traffic channel packets
with good CRC
TC1_256_Good Counter for DRC 1 [256, 16, 1024] traffic channel packets
with good CRC
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 23
TC1_512_Good Counter for DRC 1 [512, 16, 1024] traffic channel packets
with good CRC
TC1_1024_Good Counter for DRC 1 [1024, 16, 1024] traffic channel packets
with good CRC
TC1_Bad Counter for DRC 1 traffic channel packets with bad CRC
TC2_128_Good Counter for DRC 2 [128, 8, 512] traffic channel packets with
good CRC
TC2_128_Good Counter for DRC 2 [256, 8, 512] traffic channel packets with
good CRC
TC2_128_Good Counter for DRC 2 [512, 8, 512] traffic channel packets with
good CRC
TC2_128_Good Counter for DRC 2 [1024, 8, 512] traffic channel packets with
good CRC
TC2_Bad Counter for DRC 2 traffic channel packets with bad CRC
TC3_128_Good Counter for DRC 3 [128, 4, 256] traffic channel packets with
good CRC
TC3_256_Good Counter for DRC 3 [256, 4, 256] traffic channel packets with
good CRC
TC3_512_Good Counter for DRC 3 [512, 4, 256] traffic channel packets with
good CRC
TC3_1024_Good
Counter for DRC 3 [1024, 4, 256] traffic channel packets with
good CRC
TC3_Bad Counter for DRC 3 traffic channel packets with bad CRC
TC4_128_Good
Counter for DRC 4 [128, 2, 128] traffic channel packets with
good CRC
TC4_256_Good Counter for DRC 4 [256, 2, 128] traffic channel packets with
good CRC
TC4_512_Good Counter for DRC 4 [512, 2, 128] traffic channel packets with
good CRC
TC4_1024_Good Counter for DRC 4 [1024, 2, 128] traffic channel packets with
good CRC
TC4_Bad Counter for DRC 4 traffic channel packets with bad CRC
TC5_512_Good Counter for DRC 5 [512, 4, 128] traffic channel packets with
good CRC
TC5_2048_Good Counter for DRC 5 [2048, 4, 128] traffic channel packets with
good CRC
TC5_Bad Counter for DRC 5 traffic channel packets with bad CRC
TC6_128_Good Counter for DRC 6 [128, 1, 64] traffic channel packets with
good CRC
TC6_256_Good Counter for DRC 6 [256, 1, 64] traffic channel packets with
good CRC
TC6_512_Good Counter for DRC 6 [512, 1, 64] traffic channel packets with
good CRC
TC6_1024_Good Counter for DRC 6 [1024, 1, 64] traffic channel packets with
good CRC
TC6_Bad Counter for DRC 6 traffic channel packets with bad CRC
TC7_512_Good
Counter for DRC 7 [512, 2, 64] traffic channel packets with
good CRC
TC7_1024_Good
Counter for DRC 7 [1024, 2, 64] traffic channel packets with
good CRC
TC7_2048_Good
Counter for DRC 7 [2048, 2, 64] traffic channel packets with
good CRC
TC7_Bad Counter for DRC 7 traffic channel packets with bad CRC
TC8_1024_Good Counter for DRC 8 [1024, 2, 64] traffic channel packets with
good CRC
TC8_3072_Good Counter for DRC 8 [3072, 2, 64] traffic channel packets with
good CRC
TC8_Bad Counter for DRC 8 traffic channel packets with bad CRC
TC9_512_Good
Counter for DRC 9 [512, 1, 64] traffic channel packets with
good CRC
TC9_1024_Good
Counter for DRC 9 [1024, 1, 64] traffic channel packets with
good CRC
TC9_2048_Good
Counter for DRC 9 [2048, 1, 64] traffic channel packets with
good CRC
TC9_Bad Counter for DRC 9 traffic channel packets with bad CRC
TC10_4096_Goo
d
Counter for DRC 10 [4096, 2, 64] traffic channel packets with
good CRC
TC10_Bad Counter for DRC 10 traffic channel packets with bad CRC
TC11_1024_Goo
d
Counter for DRC 11 [1024, 1, 64] traffic channel packets with
good CRC
TC11_3072_Goo
d
Counter for DRC 11 [3072, 1, 64] traffic channel packets with
good CRC
TC11_Bad Counter for DRC 11 traffic channel packets with bad CRC
TC12_4096_Goo
d
Counter for DRC 12 [4096, 1, 64] traffic channel packets with
good CRC
TC12_Bad Counter for DRC 12 traffic channel packets with bad CRC
TC13_5120_Goo
d
Counter for DRC 13 [5120, 2, 64] traffic channel packets with
good CRC
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 25
TC14_Bad Counter for DRC 14 traffic channel packets with bad CRC
Short Control Channel
Throughput (slot
cumulated)
This is the AT throughput when served for control channel short
packet.
Throughput (sec
cumulated)
This is the AT throughput averaged over time, including the
time the AN did not serve the AT.
Throughput (sec) This is the instantaneous AT throughput during 1sec.
MU Fwd Statistics
MU Fwd Statistics indicates the information about CRC and early-decode statistics for Rev A
forward traffic channel multi-user packets.
Parameter Description
Traffic Channel Packet Error Rate Packet Error rate for Multi-user packet.
Throughput (slot
cumulated)
This is the AT throughput during the time it is served by the
AN.
Throughput (sec
cumulated)
This is the AT throughput averaged over time, including the
time the AN did not serve the AT.
Throughput (sec) This is the instantaneous AT throughput during 1sec.
CRC Info
TC3_128_Good
Counter for DRC 3 [128,4,256] multiuser traffic channel
packets with good CRC
TC3_256_Good
Counter for DRC 3 [256,4,256] multiuser traffic channel
packets with good CRC
TC3_512_Good
Counter for DRC 3 [512,4,256] multiuser traffic channel
packets with good CRC
TC3_1024_Good
Counter for DRC 3 [1024,4,256] multiuser traffic channel
packets with good CRC
TC3_bad
Counter for DRC 3 multiuser traffic channel packets with
bad CRC
TC5_2048_Good
Counter for DRC 5 [2048,4,128] multiuser traffic channel
packets with good CRC
TC5_2048_bad Counter for DRC 5 multiuser traffic channel packets with
bad CRC
TC8_3072_Good
Counter for DRC 8 [3072,2,64] multiuser traffic channel
packets with good CRC
TC8_3072_bad
Counter for DRC 8 multiuser traffic channel packets with
bad CRC
TC10_4096_Good
Counter for DRC 10 [4096, 2, 644,128] multiuser traffic
channel packets with good CRC
TC10_4096_bad
Counter for DRC 10 multiuser traffic channel packets with
bad CRC
TC13_5120_Good
Counter for DRC 13 [5120, 2, 64]4,128] multiuser traffic
channel packets with good CRC
TC13_5120_bad
Counter for DRC 13 multiuser traffic channel packets with
bad CRC
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 27
Rvs Info
Rvs Metric info indicates the information about reverse link traffic packet transmitted and the
early termination statistics for each packet size and transmission mode.
Parameter Description
Total PER [cumulated]
The Packet Error Rate for transmitted Reverse link traffic
packet.
PER [sec] Transmitted PARQ NAK Count / Transmitted total packet
count
Throughput [sub-
pkt cumulated]
The total number of CRC passed bits received by AT/the
transmitted time.
Throughput [sec
cumulated]
Total number of CRC packet bits received by AT /log
packet sequence number
Throughput [sec] Throughput for both High Capacity and Low Latency
modes over all packet size.
Average Latency The total time of packet transmission
Interlaced Pkt info
Interlace [0]~[2]
# of Total
Packet sent
Total number of PS1 (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt0
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt1
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt2
Ack
Number of Acks received for the third
subpacket PS(128 bit~12288bit) packets
sent in this interlace
# of P-ARQ Ack
Number of P-ARQ Acks received after 4
subpackets for PS(128 bit~12288bit)
packets sent in this interlace
# of P-ARQ
Nack
Number of P-ARQ Nacks received after
4 subpackets for PS(128 bit~12288bit)
packets sent in this interlace
Interlaced Pkt info
Interlace Total
# of Total
Packet sent
Number of total packet from
intertace[0] to interace[2]
# of sub-pkt0
Ack
Number of total sub-pkt0 Ack from
intertace[0] to interace[2]
# of sub-pkt1
Ack
Number of total sub-pkt1 Ack from
intertace[0] to interace[2]
# of sub-pkt2
Ack
Number of total sub-pkt2 Ack from
intertace[0] to interace[2]
# of P-ARQ Ack Number of total P-ARQ Ack from
intertace[0] to interace[2]
# of P-ARQ
Nack
Number of total P-ARQ Nack from
intertace[0] to interace[2]
HiCap Total PER
The Packet Error Rate for transmitted Reverse link traffic
packet.
Total Instantaneous
PER
Transmitted PARQ NAK Count / Transmitted total packet
count
Total Transmitted
Throughput
The total number of CRC passed bits received by AT/the
transmitted time.
Total Overall
Throughput
Total number of CRC packet bits received by AT /log
packet sequence number
Total Instantaneous
Throughput
Throughput for both High Capacity and Low Latency
modes over all packet size.
Average Latency The total time of packet transmission
Interlaced Pkt info
Interlace [0]~[2]
# of Total
Packet sent
Total number of PS1 (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt0
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt1
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt2
Ack
Number of Acks received for the third
subpacket PS(128 bit~12288bit) packets
sent in this interlace
# of P-ARQ Ack
Number of P-ARQ Acks received after 4
subpackets for PS(128 bit~12288bit)
packets sent in this interlace
# of P-ARQ
Nack
Number of P-ARQ Nacks received after
4 subpackets for PS(128 bit~12288bit)
packets sent in this interlace
Interlaced Pkt info
Interlace Total
# of Total
Packet sent
Number of total packet from
intertace[0] to interace[2]
# of sub-pkt0
Ack
Number of total sub-pkt0 Ack from
intertace[0] to interace[2]
# of sub-pkt1
Ack
Number of total sub-pkt1 Ack from
intertace[0] to interace[2]
# of sub-pkt2
Ack
Number of total sub-pkt2 Ack from
intertace[0] to interace[2]
# of P-ARQ Ack Number of total P-ARQ Ack from
intertace[0] to interace[2]
# of P-ARQ
Nack
Number of total P-ARQ Nack from
intertace[0] to interace[2]
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 29
LoLat Total PER
The Packet Error Rate for transmitted Reverse link traffic
packet.
Total Instantaneous
PER
Transmitted PARQ NAK Count / Transmitted total packet
count
Total Transmitted
Throughput
The total number of CRC passed bits received by AT/the
transmitted time.
Total Overall
Throughput
Total number of CRC packet bits received by AT /log
packet sequence number
Total Instantaneous
Throughput
Throughput for both High Capacity and Low Latency
modes over all packet size.
Average Latency The total time of packet transmission
Interlaced Pkt info
Interlace [0]~[2]
# of Total
Packet sent
Total number of PS1 (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt0
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt1
Ack
Number of Acks received for the second
subpacket of all PS (128 bit~12288bit)
packets sent in this interlace
# of sub-pkt2
Ack
Number of Acks received for the third
subpacket PS(128 bit~12288bit) packets
sent in this interlace
# of P-ARQ Ack
Number of P-ARQ Acks received after 4
subpackets for PS(128 bit~12288bit)
packets sent in this interlace
# of P-ARQ
Nack
Number of P-ARQ Nacks received after
4 subpackets for PS(128 bit~12288bit)
packets sent in this interlace
Interlaced Pkt info
Interlace Total
# of Total
Packet sent
Number of total packet from
intertace[0] to interace[2]
# of sub-pkt0
Ack
Number of total sub-pkt0 Ack from
intertace[0] to interace[2]
# of sub-pkt1
Ack
Number of total sub-pkt1 Ack from
intertace[0] to interace[2]
# of sub-pkt2
Ack
Number of total sub-pkt2 Ack from
intertace[0] to interace[2]
# of P-ARQ Ack Number of total P-ARQ Ack from
intertace[0] to interace[2]
# of P-ARQ
Nack
Number of total P-ARQ Nack from
intertace[0] to interace[2]
RMAC Sub3 T2P Info
RMAC Sub3 T2P Info indicates the information about RTCMAC Subtype 3 T2P resource-
related information.
Parameter Description
TxT2P T2P of packet currently being transmitted over the air.
Pilot Strength Pilot strength of packet currently being transmitted over the air.
Packet Size Packet size of the packet currently being transmitted over the air.
Normal HDR Mode True or False about Normal High Data rate (1XEV) mode.
FRAB Filtered Reverse Activity Bit.
QRAB Flow specific QRAB
T2P Outflow Raw value of actual T2P Resource withdrawn from this flow’s bucket in proportion to
its allotment.
Delta T2P Inflow Raw value of the T2P inflow increment or decrement for this flow.
T2P Inflow Raw value of the average T2P resource added to bucket for this flow.
Bucket Level Raw value of current bucket level
Bucket Saturation Level Raw value of the bucket saturation level.
Bucket Factor Raw value of the Bucket Factor (T2PInflow, FRAB ) function
Multi RLP Statistics
Parameter Description
RLP Flow ID[0...N] Identifies RLP
Rx Received Bytes Total number of bytes received
Rx Throughput Multi RLP throughput for forward link
Tx Received Bytes Total number of bytes transmitted
Tx Throughput Multi RLP throughput for reverse link
Attribute
Parameter Description
Enhanced FTC MAC DRCLockLength
The AN shall set this field to specify the number of times
that a DRCLock bit is repeated.
MultiUserPacket
Enabled
Enable or disable of multi user packet
DSCLength Length of a single DSC transmission
DRC Supervision
Timer
Value of DRC Supervision Timer
Handoff Delays
Attribute SofterHandoffDelay
The AN shall set this field to the
minimum interruption that the AT
should expect when the AT switches
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 31
the DRC from a source sector to a
target sector where the target sector
is such that its Forward Traffic
Channel carries the same closed-
loop power control bits as the source
sector.
SoftHandoffDelay
The AN shall set this field to the
minimum interruption that the AT
should expect when the AT switches
the DRC from a source sector to a
target sector where the target sector
is such that its Forward Traffic
Channel does not always carry the
same closed-loop power control bits
as the source sector.
Subtype 3 RTC MAC
ARQ Mode
The ARQMode is a 1bit value that indicates the modulation
(Bi-Polar (+1 implies ACK and −1 implies NAK) Keying or
ACK-oriented ON-OFF (+1 implies ACK and 0 implies NAK)
Keying) of the H-ARQ bit
Transmission
Mode NN
The transmission mode for flow NN indicates High Capacity
or Low Latency.
QRAB Select NN
The QRAB Select for flow NN indicate QRAB or QRABps.
c.f )
QRABn,s: Indicates the Quick RAB value from sector s at
sub-frame n.
QRABpsn: Indicates the effective Quick RAB value
generated at sub-frame n based on
2 PilotStrengthn, s of the sectors s in its active set.
Power Parameter
128 Attribute
LoLatT2P
transition128
LoLatT2PTransitionPS: Number of sub-
packets (excluding the first) from the
start of the packet for which the pre-
transition T2P values are used for Low
Latency mode Reverse Traffic Channel
transmissions with packet size PS.
LoLatTermination
Target128
The sender shall set this field to one
less than the expected number of sub-
frames needed to achieve the target
Physical Layer erasure rate for a
Reverse Traffic Channel packet with
packet size of 128 bits transmitted
using the Low Latency Mode.
HiCapT2P
transition128
HiCapT2PTransitionPS: Number of
sub-packets (excluding the first) from
the start of the packet for which the
pre-transition T2P values are used for
High Capacity mode Reverse Traffic
Channel transmissions with packet size
PS.
HiCapTermination
Target128
The sender shall set this field to one
less than the expected number of sub-
frames needed to achieve the target
Physical Layer erasure rate for a
Reverse Traffic Channel packet with
packet size of 128 bits transmitted
using the High Capacity Mode.
T2PLoLatPre
Transition128
T2PLoLatPreTransition128 defines the
T2P's used by the AT for transmitting
the first LoLatT2PTransitionPS+1 sub-
packets of a Reverse Traffic Channel
packet with packet size128 in Low
Latency Mode.
T2PLoLatPost
Transition128
T2PLoLatPostTransition128 defines the
T2P's used by the AT for transmitting
the subsequent sub-packets of a
Reverse Traffic Channel packet with
packet size (128) in Low Latency
Mode.
T2PHiCapPre
Transition128
T2PHiCapPreTransition128 defines the
T2P's used by the AT for transmitting
the first HiCapT2PTransition
PS+1 sub-packets of a Reverse Traffic
Channel packet with packet size (128)
in High Capacity Mode
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 33
T2PTransitionFuc
tionNN Attribute
NumT2PAxis
Values
This field indicates number of values
specified on the T2P axis minus 1.
NumFRABAxisVal
ues
This field indicates the number of
values specified on the FRAB axis
minus 1.
T2PAxis This field to values that define the T2P
axis.
FRABAxis This field to values that define the
FRAB axis.
T2PupT2PAxisFR
ABAxis
this field to the value of the function
T2PUp of the associated MAC flow at
[T2PAxis, FRABAxis].
T2PDnT2PAxisFR
ABAxis
This field to the value of the function
T2PDn of the associated MAC flow at
[T2PAxis, FRABAxis].
Enhanced Idle State
Preferred Control
CH Cycle
Attribute
PreferredControlC
hannelcycleEnabl
ed
This field indicates whether
PreferredControlChannelCycle is
enabled or not.
Preferred Control
Channel Cycle
This field is set to specify the Control
Channel Cycle in which the AT
transitions out of the Sleep State in
order to monitor the Control Channel.
Slotted Mode
Attribute
SlotCycle 1 This field indicates the Slotcycle1 in
slotted mode.
SlotCycle 2 SlotCycle2 shall be greater than or
equal to SlotCycle1
SlotCycle 3 SlotCycle3 shall be greater than or
equal to SlotCycle2.
WakeCount 1 This field indicates the WakeCount1 in
slotted mode.
WakeCount 2 WakeCount2 shall be greater or equal
to than WakeCount1.
Default Session
Management
TSMP Close TSMP Close
Default is 54 hours.
all other values are in minutes.
(c.f 0x0000 means disable keep
alive messages)
Multi-Flow Packet
Application MaxAbortTimer MaxAbortTimer
The max value of the RLP abort timer
for this forward link RLP flow in units of
ms.
FlowNNPhysical
LayerNak
EnableRvs
FlowNNPhysical
LayerNak
EnableRvs
This Field indicates whether RLP
retransmission is enabled or not.
FlowNNTimers
Fwd
AbortTimer
This field indicates the value of the RLP
abort timer for this forward link RLP
flow in units of ms.
FlushTimer
The sender shall set this field to the
value of the RLP flush timer for this
forward link RLP flow in units of ms.
FlowNNTimers
Rvs
AbortTimer
This field indicates the value of the RLP
abort timer for this reverse link RLP
flow in units of ms.
FlushTimer
The sender shall set this field to the
value of the RLP flush timer for this
reverse link RLP flow in units of ms.
ReservationKKQo
SRequestFwd
ProfileType
The AT shall use the Profile Type 0x00,
0x01, or 0x02 in the
ReservationKKQoSRequestFwd
attributes
ProfileLength Length of the Profile Value field in units
of octets.
ProfileValue
If Profile Type is equal to 0x00, then
the sender shall omit this field. If Profile
Type is equal to 0x01, if the
ANSupportedQoSProfiles attribute does
not have a default value, and if this
attribute is included in an
AttributeUpdateRequest then the
requested Flow Profile IDs shall be a
subset of the Flow Profile IDs in the
ProfileValue fields of
ANSupportedQoSProfiles attribute.
ReservationKKQo ProfileType The AT shall use the Profile Type 0x00,
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© Copyright by Innowireless Co., Ltd. Page 35
SRequestRvs 0x01, or 0x02 in the
ReservationKKQoSRequestRev
attributes.
ProfileLength Length of the Profile Value field in units
of octets.
ProfileValue
If ProfileType is equal to 0x00, then the
sender shall omit this field. If
ProfileType is equal to 0x01, if the
ANSupportedQoSProfiles attribute does
not have a default value, and if this
attribute is included in an
AttributeUpdateRequest then the
requested Flow Profile IDs shall be a
subset of the Flow Profile IDs in the
ProfileValue fields of
ANSupportedQoSProfiles attribute.
ReservationKKQo
SResponseFwd
ProfileType
The AN shall use Profile Type 0x00 or
0x03 in the
ReservationKKQoSResponseFwd
attributes.
ProfileLength Length of the Profile Value field in units
of octets.
ProfileValue
If ProfileType is equal to 0x00, then the
sender shall omit this field. If
ProfileType is equal to 0x01, if the
ANSupportedQoSProfiles attribute does
not have a default value, and if this
attribute is included in an
AttributeUpdateRequest then the
requested Flow Profile IDs shall be a
subset of the Flow Profile IDs in the
ProfileValue fields of
ANSupportedQoSProfiles attribute.
ReservationKKQo
SResponseRvs ProfileType
The AN shall use Profile Type 0x00 or
0x03 in the
ReservationKKQoSResponseRev
attributes.
ProfileLength Length of the Profile Value field in units
of octets.
ProfileValue
If ProfileType is equal to 0x00, then the
sender shall omit this field. If
ProfileType is equal to 0x01, if the
ANSupportedQoSProfiles attribute does
not have a default value, and if this
attribute is included in an
AttributeUpdateRequest then the
requested Flow Profile IDs shall be a
subset of the Flow Profile IDs in the
ProfileValue fields of
ANSupportedQoSProfiles attribute.
BCMCS
Parameter Description
BOM Info Dominant PN The pilot PN in Broadcast Overhead Message.
Data Rate Physical Layer data rate and the number of slots in a Broadcast
Physical Layer packet used to transmit this logical channel.
Outer Code Reed-Solomon outer code is used to form an error control block
for this logical channel
I/M Pair Interlace and Multiplex Index
I/M Pair (%) Rate of Interlace and Multiplex Index
Soft Combine NeighborPilotPN Index included in the SectorParameters
message with signature equal to SectorSignature.
Neighbor Count NeighborPilotPN Count included in the SectorParameters
message with signature equal to SectorSignature.
Neighbor PNs This field indicates the Neighbor PN when value of soft combine
is equal 1.
SoftCombine info NeighborPilotPN Index included in the SectorParameters
message with signature equal to SectorSignature.
Neighbor Info NeighborPilotPN List included in the SectorParameters
message with signature equal to SectorSignature.
MCastPktDec Info Control
Good CRC The difference between good CRC count of pre packets and
post packets In control channel.
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 37
Bad CRC The difference between bad CRC count of pre packets and post
packets In control channel.
Total The difference between total CRC count of pre packets and
post packets In control channel.
Throughput Throughput conversed by Good CRC count for each second
rate of Control Channel.
PER Bad CRC Count of control Channel / Total CRC Count [ % ]
Slot Utilization Slot Counts with
Good CRC
Good Served CRC possession for second
unit Good CRC Sum / 600 Slot
Slot Counts with
Total
Total Served CRC possession for second
unit Good CRC Sum / 600 Slot
Multicast
Good CRC The difference between good CRC count of pre packets and
post packets In multicast channel.
Bad CRC The difference between bad CRC count of pre packets and post
packets In multicast channel.
Total The difference between total CRC count of pre packets and
post packets In multicast channel.
PER Bad CRC Count of multicast Channel / Total CRC Count [ % ]
Slot Utilization Slot Counts with
Good CRC
Good Served CRC possession for second
unit Good CRC Sum / 600 Slot
Slot Counts with
Total
Total Served CRC possession for second
unit Good CRC Sum / 600 Slot
Good
BC 38400 Counter for 38.4 k traffic channel packets with good CRC
BC 76800 Counter for 76.8 k multicast packets with good CRC
BC 153600 Counter for 156.6 k multicast packets with good CRC
BC 204800 Counter for 204.8 k multicast packets with good CRC
BC 307200 Short Counter for 302.2 k (short) multicast packets with good
CRC
BC 307200 Long Counter for 307.2 k (long) multicast packets with good
CRC
BC 409600 Counter for 409.6 k multicast packets with good CRC
BC614400Short Counter for 614.4 k (short) multicast packets with good
CRC
BC614400Long
Counter for 614.4 k (long) multicast packets with good
CRC
BC921600 Counter for 921.6 k multicast packets with good CRC
BC1228800Short
Counter for 1228.8 k (short) multicast packets with good
CRC
BC1228800Long
Counter for 1228.8 k (long) multicast packets with good
CRC
BC1843200 Counter for 1843.2 k multicast packets with good CRC
BC2457600 Counter for 2457. k multicast packets with good CRC
Bad
BC 38400 Counter for 38.4 k traffic channel packets with bad CRC
BC 76800 Counter for 76.8 k multicast packets with bad CRC
BC 153600 Counter for 156.6 k multicast packets with bad CRC
BC 204800 Counter for 204.8 k multicast packets with bad CRC
BC 307200 Short Counter for 302.2 k (short) multicast packets with bad
CRC
BC 307200 Long Counter for 307.2 k (long) multicast packets with bad
CRC
BC 409600 Counter for 409.6 k multicast packets with bad CRC
BC614400Short Counter for 614.4 k (short) multicast packets with bad
CRC
BC614400Long
Counter for 614.4 k (long) multicast packets with bad
CRC
BC921600 Counter for 921.6 k multicast packets with bad CRC
BC1228800Short Counter for 1228.8 k (short) multicast packets with bad
CRC
BC1228800Long Counter for 1228.8 k (long) multicast packets with bad
CRC
BC1843200 Counter for 1843.2 k multicast packets with bad CRC
BC2457600 Counter for 2457. k multicast packets with bad CRC
Total
BC 38400 Counter for 38.4 k traffic channel packets with total CRC
BC 76800 Counter for 76.8 k multicast packets with total CRC
BC 153600 Counter for 156.6 k multicast packets with total CRC
BC 204800 Counter for 204.8 k multicast packets with total CRC
BC 307200 Short Counter for 302.2 k (short) multicast packets with total
CRC
BC 307200 Long Counter for 307.2 k (long) multicast packets with total
CRC
BC 409600 Counter for 409.6 k multicast packets with total CRC
BC614400Short Counter for 614.4 k (short) multicast packets with total
CRC
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 39
BC614400Long
Counter for 614.4 k (long) multicast packets with total
CRC
BC921600 Counter for 921.6 k multicast packets with total CRC
BC1228800Short Counter for 1228.8 k (short) multicast packets with total
CRC
BC1228800Long Counter for 1228.8 k (long) multicast packets with total
CRC
BC1843200 Counter for 1843.2 k multicast packets with total CRC
BC2457600 Counter for 2457. k multicast packets with total CRC
PER
BC 38400 Packet error rate of 38.4 k traffic channel packets
BC 76800 Packet error rate of 76.8 k multicast packets
BC 153600 Packet error rate of 156.6 k multicast packets
BC 204800 Packet error rate of 204.8 k multicast packets
BC 307200 Short Packet error rate of 302.2 k (short) multicast packets
BC 307200 Long Packet error rate of 307.2 k (long) multicast packets
BC 409600 Packet error rate of 409.6 k multicast packets
BC614400Short Packet error rate of 614.4 k (short) multicast packets
BC614400Long Packet error rate of 614.4 k (long) multicast packets
BC921600 Packet error rate of 921.6 k multicast packets
BC1228800Short Packet error rate of 1228.8 k (short) multicast packets
BC1228800Long Packet error rate of 1228.8 k (long) multicast packets
BC1843200 Packet error rate of 1843.2 k multicast packets
BC2457600 Packet error rate of 2457. k multicast packets
PN Scanner
Parameter Description
Center Frequency Center Frequency
Locked State Locked state of PN
Io Signal power of interference
Top 20 Ec/Io, Delay and Ec for 20 PNs of the strongest received power
PN Ec/Io Ec/Io for each PN
PN Delay Delay for each PN
PN Ec Ec for each PN
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 41
PSC Scanner
XCAL-S
Parameter Description
Frequency 1/2/3 Center
Frequency Center Frequency
RSSI RSSI of Carrier Frequency
Tx Diversity
ON/OFF
Diversity indicates whether the diversity is enabled
for the AT
SC Ec/Io, RSCP and Delay Spread for each SC
TOP SC By SC, Ec/Io and RSCP for each Top SC ordered by Ec/No
signal
Neighbor List
Analysis Neighbor List of each cell by using scanner measurement data
PPP Data
Mobile Rx/Tx
Parameter Description
Packet ID Packet ID
Duplicated Packets
Count Count of duplicated packets
Duplicated Packets ID ID of duplicated packets
Seq Num Sequence Number of TCP header received from mobile station
Next Seq Num Sum of packet sequence number and packet TCP/IP packet Len(Payload) received
from mobile station
Ack Num Ack Number of TCH header received from mobile station
Source Port FTP Server IP Number
Destination Port Client IP Number
TCP Flag TCP Flag is response message. The message indicates request or response of
TCP Layer.
Window Size Window Size of TCH header set when mobile station is received packet
PPP Throughput (Sec) 8 times of PPP frame per second of packet received from mobile station
Data Throughput (Sec) 8 times of TCP/IP frame per second of packet received from mobile station
APP Throughput (Sec) (Last Ack of previous second – last Ack of current second)×8
Inter Frame Time Difference of interval time between current packet and previous packet
Packet Count Count of received packet from mobile station per second
FCS Error FCS Error Packet ID
FCS Error Count FCS Error Packet count
Header CheckSum Error Header Checksum Error Packet ID
Header CheckSum Error
Count Count of Header Checksum Error Packet
PPP Frame Size PPP Header of disturffing packet+ IP Header + TCP Header + Packet
+ PPP Tailor
PPP Payload Size IP Header + TCP Header
Data Size Payload of packet
Total PPP Frame Size Total PPP Frame Len per call
Total PPP Payload Size Total PPP Payload Size per call
Total Data Size Total Data size per call
XCAP User’s Guide /Ed.00 목차
© Copyright by Innowireless Co., Ltd. Page 43
Throughput info
Parameter Description
RLP FWD/RVS Throughput RLP layer throughput for forward/reverse link
Rx/Tx Bytes Total received byte in RLP layer of reverse/forward link
PPP FWD/RVS Throughput PPP layer throughput for forward/reverse link
Rx/Tx Bytes Total received byte in PPP layer of reverse/forward link
IP FWD/RVS Throughput IP layer throughput for forward/reverse link
Rx/Tx Bytes Total received byte in IP layer of reverse/forward link
TCP/UDP FWD/RVS Throughput TCP/UDP throughput for forward/reverse link
Rx/Tx Bytes Total received byte in TCP/UDP layer of reverse/forward link
APP FWD/RVS Throughput APP layer throughput for forward/reverse link
Rx/Tx Bytes Total received byte in APP layer of Reverse/forward link
Retransmission FWD/RVS Throughput Retransmission throughput from forward/reverse link
Rx/Tx Bytes Total received byte by retransmission of reverse/forward link
System Info
Parameter Description
BID Base station ID connecting with mobile station
SID System ID connecting with mobile station
NID Network ID connecting with mobile station
FA Frequency of channel that mobile station is using
NETWORK Network serviced by mobile station
Transition Network (information) set by user
XCAP User’s Guide /Ed.00 목차
© C i ht b I i l C Ltd P 45
Analyzer Parameter
© Copyright by Innowireless Co., Ltd., 2005
All rights reserved.