Access Type
|
Number of GPRS access
type, for the subscriber. Possible categories are: SGSN or GGSN.
|
Access Tech
|
Number of access technologies
associated with the PLMN that is being accessed by the Mobile Station
(MS). The Access Tech can be:
- GPRS GERAN
- GSM COMPACT
- UTRN
- E-UTRN
|
Network Type
|
Network type associated
with the PLMN or HPLMN on the PLMN selector. The MS uses this information
to select the type of radio carrier for searching, while attempting
to select a specific PLMN. Network Type can be:
- IP
- IP Sec
- Mobile IP
|
msid
|
Displays the Mobile
Station Identification (MSID) associated with the subscriber.
|
Callid
|
Displays the subscriber's
call identification number.
|
State
|
Displays the state of
GPRS session in the Mobile Station. Data transfer between MS and
network depends on this state. The state can be:
- Idle
- Stand by
- Active
- Ready
|
RFSP Id in Use
|
Displays the value of
the RFSD Id. used.
|
Connect Time
|
The date and time when
the call was connected to the GPRS network in Day MM DD HH:MM:SS
YYYY format.
|
Call Duration
|
Total time lapsed after
call connection, for this subscriber. Displayed in format hhmmss.
|
Idle Time
|
Time period for which
the subscriber session has been idle either in standby or dormant
state. Displayed in format hhmmss.
|
User Location (RAI)
|
This is the Routing
Area Indicator (RAI). It indicates user location in GPRS network.
|
Cell Global Identity
|
Cell Global Identity
(CGI) indicates a category of user location information that can
be used to geographically locate the connected MS.
|
IMEI (SV)
|
International Mobile
Identity (IMEI) Software Version (SV) associated with MS.
|
Equipment Status
|
Equipment status of
the mobile equipment, queried from Equipment Identity Registry (EIR).
|
Source Context
|
Name of configured source
context that was used for session initiation.
|
Destination Context
|
Name of configured destination
context that was used by the subscriber to access the network.
|
Accounting Context
|
The context name where
accounting information is configured or where an accounting interface
is configured. It can be used to provide accounting of the data session
to the subscriber.
|
Charging Characteristics
|
Displays associated
charging characteristics. It can be:
- Hot Billing
- Flat Rate Billing
- Prepaid Billing
- Normal Billing
|
Characteristics Selection Mode
|
The selection mode of
charging characteristics that is applicable to this session. For
example selection mode can be Home or Roaming.
|
Subscriber Plmn Type
|
Category of subscriber's
Public Land Mobile Network (PLMN). Possible values are:
- H: home Networks
- F: Foreign Networks
- U: Unknown Networks
|
PPF
|
The Page Proceed Flag
(PPF) indicates whether paging for PS and CS services can be initiated.
Possible values are True or False.
|
NGAF
|
The Non Gprs Alert Flag
(NGAF), indicates whether the MS activity is being reported to MCSC
or VLR. Possible values for this flag are True or False.
|
VLR-Reliable
|
This flag is set to
False when SGSN has received a reset indication from the VLR. The
SGSN, upon reception of next Routing Area Update (RAU), may request
the MS a procedure to re-attach to non-GPRS services provided that
the MS is IMISI attached to such non-GPRS request.
Alternately, the SGSN,
upon reception of a combined RAU and Location Area Update (LAU)
request from an MS that is still attached to non-GPRS service, performs location
update procedure for such non-GPRS service.
|
VLR – Association
|
States associated with
the Gs interface in the VLR. Possible states are:
- GS NULL
- LA UPDATE PRESENT
- Gs ASSOCIATED
|
NRI Assigned
|
Assigned Network Resource
Indicator (NRI). The NRI is utilized when either Iu-flex or Gb-flex
or MOCN configuration is used for network sharing.
|
ISR – Activated
|
The activation status
of Idle mode Signaling Reduction (ISR). This status can either be
True or False.
|
MME Ctrl Teid
|
S4-SGSN only: If
the ISR-Activated field
reads True, this
field provides the MME Control Tunnel Endpoint Identifier. The Ctrl
TEID identifies the specific S3 tunnel on the MME being used for
this ISR-activated subscriber.
|
MME IP Address
|
S4-SGSN only: If
the ISR-Activated field
reads True, this
field provides the IP address of the MME associated with this ISR-activated
subscriber.
|
Nego Ready Timer
|
This value is sent from
SGSN to MS. It indicates timeout ready timer value. Its range is
from 0 to 11160 seconds the default value is 44 seconds.
|
MS Network Capacity
|
The MS network capacity
elements provide MS information related to GPRS network. These elements
indicate general Mobile Station (MS) characteristics, hence are
independent of the frequency band of the channel for which this
capability is set.
The MS network capacity
specifies parameters such as:
- Revision level indicator
- SoLSA capacity
- SS screening indicator
- Whether UCS2 character
set is enabled
- SMS via GPRS Channel
- Whether or not GPRS
Encryption Algorithm - GEA1 to GEA 7 are supported
- LCS VA
|
Revision Level Indicator
(MS Network Capability)
|
The 3GPP released version
that is supported by the MS network capability.
|
SoLSA Capability (MS Network
Capability)
|
Specifies whether the
Support of Localized Service Area (SoLSA) is included in the MS
network capability.
|
SS Screening Indicator
(MS Network Capability)
|
Category of Supplemental
Services (SS) screening indicator that is being sent by MS to the
network to assess the capabilities of the MS. This indictor is sent
by the MS at the beginning of the radio connection.
|
UCS2 (MS Network Capability)
|
Specifies whether the
Universal Character Set 2 (UCS-2) encoding for the character is
supported or whether the use of default alphabet is supported.
|
SMS via GPRS CH (MS Network
Capability)
|
Specifies whether the
MS support for mobile terminated point to point SMS via GPRS channel
is included in the MS network capability.
|
SMS via Dedicated CH
(MS Network Capability)
|
Specifies whether the
MS support for mobile terminated point to point SMS via a dedicated
GPRS channel is included in the MS network capability.
|
GEA/1 (MS Network Capability)
|
Specifies whether support
for GEA1 is included in the MS network capability.
|
GEA/2 (MS Network Capability)
|
Specifies whether support
for GEA2 is included in the MS network capability.
|
GEA/3 (MS Network Capability)
|
Specifies whether support
for GEA3 is included in the MS network capability.
|
GEA/4 (MS Network Capability)
|
Specifies whether support
for GEA4 is included in the MS network capability.
|
GEA/5 (MS Network Capability)
|
Specifies whether support
for GEA5 is included in the MS network capability.
|
GEA/6 (MS Network Capability)
|
Specifies whether support
for GEA6 is included in the MS network capability.
|
GEA/7 (MS Network Capability)
|
Specifies whether support
for GEA7 is included in the MS network capability.
|
Negotiated ciphering algorithm
|
The ciphering algorithm
negotiated by the SGSN and MS during Authentication and Ciphering
Request.
|
LCS VA Capability (MS Network
Capability)
|
Specifies whether the
LoCation Services Value Add (LCS VA) capability is included or not
in the MS network capacity.
|
DRX Parameter
|
Discontinuous Reception
(DRX) is used when the MS is in the packet idle mode. If MS is using
the discontinuous reception, then the DRX parameters indicate whether the
MS is in no-sleep mode and is able to receive paging requests and
channel assignments. GPRS uses two DRX modes namely, normal DRX
and split paging DRX.
Following are the DRX
parameters:
- Split PG cycle code
- Split on CCCH
- Non-DRX timer
- CN Specific DRX cycle
length coefficient.
|
SPLIT PG Cycle Code
(DRX Parameter)
|
displays the cycle code
for the split paging mode.
|
SPLIT on CCCH (DRX Parameter)
|
Specifies whether split
on Common Control Channel (CCCH) is supported or not.
|
Non-DRX timer (DRX Parameter)
|
Value of non-DRX timer
transfer state, displayed in seconds.
|
CN Specific DRX cycle
length coefficient (DRX Parameter)
|
Specifies the Core Network
(CN) specific DRX cycle length coefficient support by MS.
An MS can be attached
to either circuit or packet domain of CN. For the circuit domain
the MS uses the circuit domain CN- domain specific cycle length
coefficient broadcast in system information.
|
Uplink Coverage Class
|
Specifies the uplink coverage class value of the subscriber.
|
Downlink Coverage Class
|
Specifies the downlink coverage class value of the subscriber.
|
Current PTMSI
|
Current value of Packet
Temporary Mobile Subscriber Identity (P-TMSI). P-TMSI gets attached
to the MS when GPRS attach procedure is performed. P-TMSI is used
to avoid transmitting the IMSI over air interface. P-TMSI is only
applicable in the geographical area served by the SGSN. When the
MS move to another geographical area, a new P_TMSI gets
attached to the MS.
|
Current PTMSI Acked
by MS
|
Acknowledgement status
of current P_TMSI by the MS. Possible values are yes and
no.
|
Any Previous PTMSI
|
Specifies whether any
previous P-TMSI value is available for this MS.
|
MNRG Flag
|
Current value of Mobile
station Not Reachable in GPRS (MNRG) flag. This flag is found in
Home Location Register (HLR) and it indicates whether SGSN can reach this
MS. Possible values for this flag are true and false.
|
Subscriber offload status
|
Indicates the subscriber
offload status.
|
NRI Assigned
|
Number of assigned Network
Resource Indicators (NRIs).An NRI is a part of TMSI in CS domain
and P-TMSI in PS domain.
|
Number of Free Vectors
|
Number of free authentication
vectors available for the Universal Subscriber Identity Module (USIM)
that is associated with the MS.
|
Number of Used Vectors
|
Number of authentication
vectors used by the Universal Subscriber Identity Module (USIM)
associated with the MS.
|
Number of In-Use Vectors
|
Indicates the number
of authentication vectors that are being used by the Universal Subscriber
Identity Module (USIM) that is associated with the MS.
|
MSISDN (Subscription Data)
|
The Mobile Station Integrated
Subscriber Digital Network Number (MSISDN) associated with the MS.
It uniquely identifies a subscription in a mobile network.
|
Charging Characteristics (Subscription
Data)
|
Associated charging
characteristic profile. It can be hot or normal or pre-paid or flat
billing.
|
ODB General Data
|
Operator Determined
Barring (ODB) data. The ODB is an unsigned 32-bit Attribute Value
Pair (AVP) containing a bit mask that indicates the services barred
by the operator.
As per the bit mask:
- Bit 0 bars all packet
oriented services.
- Bit 1 bars roamer
access HPLMN-AP.
- Bit 2 bars roamer
access VPLMN- AP.
- Bit 3 bars all outgoing
calls.
- Bit 4 bars all outgoing
international calls.
- Bit 5 bars all outgoing
international calls except to the home PLMN country.
- Bit 6 bars all outgoing
inter-zonal calls.
- Bit 7 bars all outgoing
inter-zonal calls, except to the home PLMN country.
- Bit 8 bars all outgoing
international calls, except to the home PLMN country and barring
of all inter-zonal calls.
|
The following parameters
constitute the ODB general data:
- All Out Going Calls.
- All International
Outgoing Calls.
- All International
Outgoing Not To HPLMN Country Calls.
- All Interzonal Outgoing
Calls.
- All Interzonal And
International Outgoing Calls Not To HPLMN Country.
- Roamer Access to VPLMN
Access Point Barred.
|
All Out Going Calls
(ODB-General-Data)
|
Specifies permission
for all categories of outgoing calls associated with this MS. This
is a parameter of ODB General Data. These calls can be barred or
not-barred.
|
All International Outgoing Calls
(ODB-General-Data)
|
Specifies the permission
for international outgoing calls associated with this MS. This is
a parameter of ODB General Data. These calls can be barred or not-barred
|
All International Outgoing
Not To HPLMN Country Calls (ODB-General-Data
|
Specifies permission
for the international outgoing calls that are not made to Home Public
Land Mobile Network (HPLMN). This is a parameter of ODB General Data.
These calls can be barred or not-barred.
|
All Interzonal Outgoing
Calls (ODB-General-Data)
|
Specifies the permission
for the Interzonal outgoing calls associated with this MS. This
is a parameter of ODB General Data. These calls can be barred or
not-barred.
|
All Interzonal And International
Outgoing Calls Not To HPLMN Country (ODB-General-Data)
|
Specifies the permission
for all interzonal and international calls that are not made to
HPLMN country. This is a parameter of ODB General Data. These calls
can be barred or not barred.
|
Roamer Access to HPLMN Access
Point Barred (ODB-General-Data)
|
Specifies whether or
not the access point for roamer access to Home PLMN is barred. This
is a parameter of ODB General Data.
|
Roamer Access to VPLMN Access
Point Barred (ODB-General-Data)
|
Specifies whether or
not the access point for roamer access to Visitor PLMN is barred.
This is a parameter of ODB General Data.
|
ODB-HPLMN-Data
|
Specifies the availability
of HPLMN data for Operator Defined Barring (ODB).
|
Zone-Code-List
|
Zone code list that
can be associated with the subscription. A zone is combination of
origin and destination area codes. Zoning information can be used
for rating and charging purpose.
|
Tele-Service Code List
|
Code of the barer service
(tele service) associated with this subscription.
|
HLR Number
|
The Home Location Register
(HLR) associated with this subscription.
|
HLR-Reset Flag
|
Specifies the whether
the HLR associated with this subscription was reset or not. Possible
values of this flag are true and false.
|
HSS Peer
|
The name of the peer
home subscriber server (HSS) service associated with this subscription.
|
Utran-not-allowed (ARD)
|
Value of UTRN –not –allowed
flag in the Algorithm Requirements Document (ARD) associated with
this subscription. Possible values are true or false.
|
Geran-not-allowed (ARD)
|
Value of GERAN –not –allowed
flag in the Algorithm Requirements Document (ARD) associated with
this subscription. Possible values are true or false.
|
Super-Charger Enabled
|
Current value of Super-Charger
Enabled flag. It can be either true or False.
Subscriber movement
across MSC or VLR forces the HLR to provision new serving MSC or
VLR with the subscriber data by moving this data. These signaling procedures
add significant overhead in the network traffic. Specifically in
high population aerates where the MSC or VLR is handling significantly
smaller geographical area. In s supercharged network the HLR does
not remove subscriber data from old MSC or VLR and this data can
be used when subscriber roams back to old MSC or VLR.
|
SAI Version
|
Current version of SAI.
The Service Area Identifier (SAI) is a combination of PLMN-id, Location
Area Code (LAC) and Service Area Code (SAC). The SAI identifies
an area consisting of one or more cells belonging to same LA.
|
EPS Subscription
|
Enhanced Packet Service
(EPS) subscription data includes subscription related data. Refer
the 3GPP technical standard 3GPP TS 23.016 and other related standards for
more information.
|
PDP Context Id (PDP Subscription
Data)
|
Identifies the PDP context
for PDP subscription data.
|
APN (PDP Subscription Data)
|
Identifies the Access
Point Name (APN) associated with this PDP subscription.
|
PDP Type (PDP Subscription Data)
|
Category of PDP context.
For example it can be IPv4, IPv6 or PPP.
|
PDP Address Type (PDP Subscription
Data)
|
Category or type of
address allocation for PDP address. For example it can be static
or dynamic.
|
PDP Address (PDP Subscription
Data)
|
The IP address allocated
for PDP packets.
|
Ext PDP Type (PDP Subscription
Data)
|
Category or type of
PDP context. For example, IPv4 or IPv6.
|
Ext PDP Address Type
(PDP Subscription Data)
|
Category or type of
address allocation for external PDP address. For example it can
be static or dynamic.
|
Ext PDP address (PDP Subscription
Data)
|
The IP address allocated
for external PDP packets.
|
Charging Characteristics
(PDP Subscription Data)
|
Category of charging
characteristics associated with this PDP subscription. For example
charging characteristics can be either normal billing or hot billing.
|
VPLMN Address Allowed (PDP
Subscription Data)
|
Specifies whether the
address of Visited Public Land Mobile Network (VPLMN) is allowed
or not allowed.
|
Reliability Class (PDP Subscription
Data)
|
Reliability class associated
with the PDP subscription. It considers reliability attributes such
as delivery order, traffic handling priority, as well as allocation
and retention priority.
For example reliability
class for PDP subscription can be unacknowledged GTP, LLC, acknowledged
RLC or protected data.
|
Delay Class (PDP Subscription
Data)
|
Defined category of
network transient delay for the PDP subscription data. For example
class 4.
|
Precedence Class (PDP Subscription
Data)
|
Service precedence delay
supported by SGSN by discarding or allowing packets based on the
precedence class for the PDP subscription. For example the precedence class
for PDP subscription can be high priority.
|
Peak Throughput (PDP Subscription
Data)
|
Configured maximum allowed
throughput rate for the PDP subscription. Along with other fields
such as reliability, delay or precedence class, it can be used for
traffic shaping.
|
Mean Throughput (PDP Subscription
Data)
|
Configured mean throughput
rate for the PDP subscription. Along with other fields such as reliability,
delay or precedence class, it can be used for traffic shaping.
|
Allocation/Retention
Priority (PDP Subscription Data)
|
Allocation, retention
priority indicates the reliability of the PDP subscription data.
For example for various traffic classes such as conversational,
streaming, interactive and background, this priority can be defined
as 1, 2 or 3.
|
Delivery of Erroneous
SDUs (PDP Subscription Data)
|
Status of the delivery
of erroneous Service Delivery Units (SDUs) for the PDP subscription.
For example, it indicates whether the delivery of erroneous SDUs
are detected.
|
Traffic Class (PDP Subscription
Data)
|
Category of traffic
associated with this PDP subscription. Traffic is broadly categorized
as Conversational, Streaming, Background and Interactive.
|
Max Sdu Size (PDP Subscription
Data)
|
Maximum allowable size
of Service Data Units (SDUs) in octets, which is associated with
this PDP subscription data.
|
Max Bit Rate Uplink
(PDP Subscription Data)
|
Maximum allowable rate
in kbps for sending that data from an MS to network, that is associated
with the PDP subscription.
|
Max Bit Rate Downlink
(PDP Subscription Data)
|
Maximum allowable rate
in kbps for sending the data from network to the MS, which is associated
with the PDP subscription.
|
Residual Bit Error rate
(PDP Subscription Data)
|
Reliability based on
residual Bit Error Rate (BER) associated with PDP subscription.
For specific traffic class such as conversational, streaming, interactive
or background, certain range of residual BER is required.
|
Sdu Error rate (PDP Subscription
Data)
|
Reliability class based
on Service Delivery Unit (SDU) error rate associated with the PDP
subscription. For specific traffic class such as Conversational,
Streaming, Interactive or background, certain range of SDU error
rate is required.
|
Traffic Handling Priority
(PDP Subscription Data)
|
Priority or importance
of handling SDUs belonging to a specific context associated with
the PDP subscription.
|
Transfer Delay (PDP Subscription
Data)
|
Delay encountered in
milliseconds (ms), while delivering about 95% of SDUs associated
with the PDP context, in the life time of the bearer service.
|
Guaranteed Bit Rate
Uplink (PDP Subscription Data)
|
Guaranteed number of
bits delivered by MS to network in kbps for the associated PDP context.
|
Guaranteed Bit Rate
Downlink (PDP Subscription Data)
|
Guaranteed number of
bits delivered by network to MS, in kbps for the associated PDP
context.
|
APN (User Name)
|
Access Point Name used
by the Mobile Station (MS) to communicate with the GPRS network.
It determines the IP addresses used by and security methods applicable to
the MS.
|
PDP address (User Name)
|
IP address associated
with the PDP context that is being used by this user name or subscriber.
|
NSAPI (User Name)
|
Network (layer) Service
Access Point Identifier (NSAPI) that is being used to identify the
unique data session or the PDP context associated with the MS and
the SGSN.
|
Context initiated by
(User Name)
|
Context or session initiated
by the user name.
|
LLC SAPI (User Name)
|
Logical Link Control
Service Access Point Identifier LLC SAPI associated with this user
name.
|
Context Plmn Type (User Name)
|
PLMN context associated
with the MS. IT can be home or roaming.
|
GGSN c-teid (User Name)
|
GGSN control plane Tunnel
Endpoint Identifier (teid), that is associated with this subscription.
The teid is a unique
number that is allocated by the GSN (SGSN or GGSN) and it identifies
the tunnel data related to a specific PDP context. The teid along
with IP address and UDP port number is used to identify the Gprs
Tunneling Protocol (GTP) tunnel that is being established between
two GPRS nodes to deliver packets.
|
GGSN u-teid (User Name)
|
GGSN user plan Tunnel
End Point Identifier (teid), that is associated with this subscription.
The teid is a unique
number that is allocated by the GSN (SGSN or GGSN) and it identifies
the tunnel data related to a specific PDP context. The teid along
with IP address and UDP port number is used to identify the GTP
tunnel that is being established between two GPRS nodes to deliver
packets.
|
SGSN c-teid (User Name)
|
SGSN control plane Tunnel
Endpoint Identifier (teid), that is associated with this subscription.
The teid is a unique
number that is allocated by the GSN (SGSN or GGSN) and it identifies
the tunnel data related to a specific PDP context. The teid along
with IP address and UDP port number is used to identify the Gprs
Tunneling Protocol (GTP) tunnel that is being established between
two GPRS nodes to deliver packets.
|
SGSN u-teid (User Name)
|
SGSN user plan Tunnel
End Point Identifier (teid), that is associated with this subscription.
The teid is a unique
number that is allocated by the GSN (SGSN or GGSN) and it identifies
the tunnel data related to a specific PDP context. The teid along
with IP address and UDP port number is used to identify the GTP
tunnel that is being established between two GPRS nodes to deliver
packets.
|
Requested and Negotiated QoS
|
A Quality of Service
Profile (QoS) profile for the GPRS is defined using service parameters
such as:
- Traffic class
- Reliability class
- Delay class
- Maximum bit rate uplink
throughput
- Maximum bit rate downlink
throughput
- Guaranteed bit rate
downlink throughput
- Residual bit error
rate
- SDU error rate
- Traffic handling priority
- Transfer delay
Using these parameters
an MS requests the
network with specific values for the QoS profile parameters and
the network provides the negotiated values
of the profile parameters. There can be a difference between the
values of the QoS parameters requested by the Mobile Station (MS),
and those negotiated with the network.
|
Reliability Class (Requested-QoS)
|
It is a QoS attribute
associated with reliability. It considers reliability attributes such
as delivery order, traffic handling as well as allocation or retention
priority. Possible values are unchecked GTP, LLC, acked RLC and
protected data. This indicates a QoS parameter value requested by
the MS to the network.
|
Delay Class (Requested-QoS)
|
It is a QoS attribute
associated with traffic flow, the delay class indicates network transient
delay. This indicates a QoS parameter value requested by the MS
to the network.
|
Precedence Class (Requested-QoS)
|
It is a QoS attribute
that indicates the service precedence supported by the GPRS network
by discarding packets, based on requested and negotiated precedence
class. For example a precedence class can have Priority values as
high, Normal and Low.
This indicates the QoS
parameter value requested by the MS to the network.
|
Peak Throughput (Requested-QoS)
|
It is a QoS attribute
that indicates configured, maximum allowed throughput rate. This
attribute along with other attributes such as precedence, delay
and reliability classes can be used for shaping traffic between
GPRS network and MS.
|
Mean Throughput (Requested-QoS)
|
It is a QoS attribute
that indicates configured mean throughput rate. This attribute along
with other attributes such as precedence, delay and reliability
classes can be used for shaping traffic between GPRS network and
the MS.
This is the QoS parameter
value requested by the MS to the network.
|
Delivery of Erroneous
SDUs (Requested-QoS)
|
It is the QoS status
regarding the delivery of erroneous Service Delivery Units (SDUs).
For example it indicates whether or not the delivery of the erroneous
SDUs is detected or not.
This is the QoS parameter
value requested by the MS to the network.
|
Traffic Class (Requested-QoS)
|
Category of traffic
class as per the QoS requested by the MS. The traffic is broadly
categorized as:
- Conversational
- Streaming
- Background
- Interactive
This is the QoS parameter
value requested by the MS to the network.
|
Max Sdu Size (Requested-QoS)
|
Maximum allowable size
of Service Data Units (SDUs) in octets. This is the QoS parameter
value requested by the MS to the network.
|
Max Bit Rate Uplink (Requested-QoS)
|
Maximum allowable traffic
rate in kbps, for sending data from MS to the network. This is the
QoS parameter value requested by the MS to the network.
|
Max Bit Rate Downlink (Requested-QoS)
|
Maximum allowable traffic
rate in kbps for sending the data from network to MS. This is the
QoS parameter value requested by the MS to the network.
|
Residual Bit Error rate (Requested-QoS)
|
Reliability based on
residual Bit Error Rate (BER). Certain BER rate is associated with
specific category of the traffic class such as conversational, streaming,
and interactive or background. This is the QoS parameter value requested
by the MS to the network.
|
Sdu Error rate (Requested-QoS)
|
Service Delivery Unit
(SDU) error rate. This is the QoS parameter value requested by the
MS to the network.
|
Traffic Handling Priority (Requested-QoS)
|
Priority or level of
handling SDUs belonging to a specific context. This is the QoS parameter
value requested by the MS to the network.
|
Transfer Delay (Requested-QoS)
|
Delay encountered in
ms, while delivering about 95% of SDUs belonging to specific
context. This is the QoS parameter value requested by the MS to
the network.
|
Guaranteed Bit Rate
Uplink (Requested-QoS)
|
Guaranteed number of
bits transferred in the specified time frame, by the MS to the network.
This is the QoS parameter value requested by the MS to the network.
|
Guaranteed Bit Rate
Downlink (Requested-QoS)
|
Guaranteed number of
bits transferred in the specified time frame, by the network to
MS. This is the QoS parameter value requested by the MS to the network.
|
Reliability Class (Negotiated-QoS)
|
QoS attribute associated
with reliability. It considers reliability attributes such as delivery
order, traffic handling as well as allocation or retention priority.
Possible values are unchecked GTP, LLC, acked RLC and protected
data. This is the negotiated value between MS and the network.
|
Delay Class (Negotiated-QoS)
|
QoS attribute associated
with traffic flow, the delay class indicates network transient delay.
This is the negotiated value between MS and the network.
|
Precedence Class (Negotiated-QoS)
|
QoS attribute that indicates
the service precedence supported by the GPRS network by discarding
packets, based on requested and negotiated precedence class. For
example a precedence class can have Priority values as high, Normal
and Low. This is the negotiated value between MS and the network.
|
Peak Throughput (Negotiated-QoS)
|
QoS attribute that indicates
configured, maximum allowed throughput rate. This attribute along
with other attributes such as precedence, delay and reliability
classes can be used for shaping traffic between GPRS network and
MS.This is the negotiated value between MS and the network.
|
Mean Throughput (Negotiated-QoS)
|
QoS attribute that indicates
configured mean throughput rate. This attribute along with other
attributes such as precedence, delay and reliability classes can
be used for shaping traffic between GPRS network and the MS.This
is the negotiated value between MS and the network.
|
Allocation/Retention
Priority (Negotiated-QoS)
|
Allocation, retention
priority indicates the reliability of the PDP subscription data.
For example for various traffic classes such as conversational,
streaming, interactive and background, this priority can be defined
as 1, 2 or 3. This is the negotiated value between MS and the network.
|
Delivery of Erroneous
SDUs (Negotiated-QoS)
|
QoS status regarding
the delivery of erroneous Service Deliver Units (SDUs). For example
it indicates whether or not the delivery of the erroneous SDUs is
detected or not. This is the negotiated value between MS and the
network.
|
Traffic Class (Negotiated-QoS)
|
Category of traffic
class as per the QoS requested by the MS. The traffic is broadly
categorized as:
- Conversational
- Streaming
- Background
- Interactive
This indicates the negotiated
value between MS and the network.
|
Max Sdu Size (Negotiated-QoS)
|
Maximum allowable size
of Service Data Units (SDUs) in octets.
This is the negotiated
value between MS and the network.
|
Max Bit Rate Uplink (Negotiated-QoS)
|
Maximum allowable traffic
rate in kbps, for sending data from MS to the network.
This is the negotiated
value between MS and the network.
|
Max Bit Rate Downlink (Negotiated-QoS)
|
Maximum allowable traffic
rate in kbps for sending the data from network to MS.
This is the negotiated
value between MS and the network.
|
Residual Bit Error rate (Negotiated-QoS)
|
Reliability based on
residual Bit Error Rate (BER). Certain BER rate is associated with
specific category of the traffic class such as conversational, streaming,
and interactive or background.
This is the negotiated
value between MS and the network.
|
Sdu Error rate (Negotiated-QoS)
|
Service Delivery Unit
(SDU) error rate.
This is the negotiated
value between MS and the network.
|
Traffic Handling Priority (Negotiated-QoS)
|
Priority or level of
handling SDUs belonging to a specific context.
This is the negotiated
value between MS and the network.
|
Transfer Delay (Negotiated-QoS)
|
Delay encountered in
ms, while delivering about 95% of SDUs belonging to specific
context.
This is the negotiated
value between MS and the network.
|
Guaranteed Bit Rate
Uplink (Negotiated-QoS)
|
Guaranteed number of
bits transferred in the specified time frame, by the MS to the network.
This is the negotiated
value between MS and the network.
|
Guaranteed Bit Rate
Downlink (Negotiated-QoS)
|
Guaranteed number of
bits transferred in the specified time frame, by the network to
MS.
This is the negotiated
value between MS and the network.
|
Downlink traffic-rate-limit
|
Specifies whether the
traffic rate limit for the data traffic from network to MS is enabled
or disabled.
|
Uplink traffic-rate-limit
|