Bearer Control Profile Configuration Mode Commands

The Bearer Control Profile configuration mode provides the commands to define the MME's bearer-level QoS control parameters. Bearer-level parameters such as ARP, MBR, GBR, QCI remap value can be configured independently for either or both default/dedicated bearers along with the capping action, such as prefer-as-cap or pgw-upgrade, in bearer control profile. The bearer control profile can be applied for a specific QCI or a range of QCIs.

The bearer control profile becomes valid after it is associated with an MME QoS profile.

Mode

Exec > Global Configuration > Bearer Control Profile Configuration

configure > bearer-control-profile profile_name

Entering the above command sequence results in the following prompt: 

[local]host_name(bearer-control-profile-bc_profile_name)#

Important

The commands or keywords/variables that are available are dependent on platform type, product version, and installed license(s).

dedicated-bearer

Use this command to define the operator-provided values for ARP-PL, ARP-PCI, ARP-PVI, MBR, GBR, and QCI, as well as pgw-upgrade capping.

Product

MME

Privilege

Administrator

Mode

Exec > Global Configuration > Bearer Control Profile Configuration

configure > bearer-control-profile profile_name

Entering the above command sequence results in the following prompt: 

[local]host_name(bearer-control-profile-bc_profile_name)#

Syntax

dedicated-bearer { arp { preemption-capability | preemption-vulnerability | priority-level } pgw-upgrade { local | minimum | rej-if-exceed } | gbr gbr-up  gbr_up_value gbr-down gbr_down_value pgw-upgrade { local | minimum | rej-if-exceed } |  mbr mbr-up mbr_up_value mbr-down mbr_down_value pgw-upgrade| qci { remap  | pgw-upgrade { local | minimum | rej-if-exceed } } } 
remove dedicated-bearer { arp | gbr | mbr | qci }

remove

Including this command prefix causes the MME to delete the dedicated-bearer configuration for the named bearer control profile.

arp

This keyword configures the allocation and retention priority parameters:
  • preemption-capability - Enter an integer, either 0 (may) to specify that this bearer may pre-empt other lower priority bearers if required, or 1 (shall-not) to specify that this bearer shall not pre-empt other lower priority bearers.
  • preemption-vulnerability - Enter an integer, either 0 (pre-emptible) to specify that this bearer is preemptible by other high priority bearers, or 1 (not-pre-emptible) to specify that this bearer is not pre-emptible by other high priority bearers.
  • priority-level - Enter an integer 1 through 15, with 1 as the highest priority, to specify the allocation/retention priority level.

gbr

The gbr keyword configures the Guaranteed Bit Rate values. This keyword is only used for the dedicated-bearer configuration.
  • gbr-up - Enter an integer from 1 though 256000 to identify the desired uplink data rate in kbps.

  • For 21.10 and later releases

    gbr-up gbr_up : Defines the guaranteed bit rate for uplink traffic. gbr_up must be an integer from 1 to 4000000000000 (4 Tbps).

  • gbr-down - Enter an integer from 1 though 256000 to identify the desired downlink data rate in kbps.

  • For 21.10 and later releases

    gbr-down gbr_down : Defines the guaranteed bit rate for downlink traffic. gbr_down must be an integer from 1 to 4000000000000 (4 Tbps).

mbr

The mbr keyword configures the Maximum Bit Rate values. This keyword is only used for the dedicated-bearer configuration.
  • mbr-up - Enter an integer from 1 though 256000 to identify the desired uplink data rate in kbps.

  • For 21.10 and later releases

    mbr-up mbr_up : Defines the maximum bit rate for uplink traffic. mbr_up must be an integer from 1 to 4000000000000 (4 Tbps).

  • mbr-down - Enter an integer from 1 though 256000 to identify the desired downlink data rate in kbps.

  • For 21.10 and later releases

    mbr-down mbr_down : Defines the maximum bit rate for downlink traffic. mbr_down must be an integer from 1 to 4000000000000 (4 Tbps).

qci remap

The qci remap keyword sets the locally configured QCI. Enter an integer from 1 through 9. You can enter the new standardized QCI values 65, 66, 67, 69 and 70. The QCI remap mechanism maps an incoming QCI or a range of QCI to the configured QCI or range of QCI. QCI remap is the first configuration that is applied, from the bearer control profile configuration, and it is applicable only during Create Session Request and Create Bearer Request procedures. The Bearer Control profile associated to the remapped QCI value is used for capping the remaining QoS parameters.

pgw-upgrade

The pgw-upgrade keyword can be included with any of the other keywords. It identifies the capping mechanism to be used when QoS parameters are received from the PGW and the options include:
  • local - Instructs the MME to select locally configured values for QoS capping.
  • minimum - Instructs the MME to select the lower value, of the two values locally configured or received value, to use as the QoS capping value.
  • rej-if-exceed - Instructs the MME to reject the call if the received value exceeds the locally configured value.

Usage Guidelines

Repeat the dedicated-bearer command as needed to configure all parameters of interest.

QoS Computation - The following explains how the resultant QoS values are derived for the minimum and reject-if-exceed actions configured under pgw-upgrade .
  • QCI
    • Every standard GBR/non-GBR QCI is associated with a priority level as per 3GPP TS 23.203 v12.10.0, Table 6.1.7.
      QCI Resource Type Priority
      1 GBR 2
      2 GBR 4
      3 GBR 3
      4 GBR 5
      5 non-GBR 1
      6 non-GBR 6
      7 non-GBR 7
      8 non-GBR 8
      9 non-GBR 9
    • Priority Level 1 has the highest priority and in case of congestion lowest priority level traffic would be the first to be discarded.
    • minimum : The QCI with lower priority level will be used.
    • rej-if-exceed : If the received QCI has higher priority level than the configured local QCI, then the procedure will be rejected.
  • ARP Priority Level
    • ARP Priority level decreases on increasing value (1 to 15). ARP Priority level 1 has the highest priority value.
    • minimum : The lower ARP Priority level (i.e. higher value) will be used.
    • rej-if-exceed : If the received ARP Priority level is higher (i.e. value is lesser) than the CLI configured local ARP Priority level, then the procedure will be rejected.
  • ARP-PCI
    • Preemption capability indicator can have either of the following two values, where may (0) > shall-not (1)
      • may - specifies that this bearer may preempt other lower priority bearers, if required
      • shall-not - specifies that this bearer shall-not pre-empt other lower priority bearers.
    • Following table indicates the resultant pre-emption capability for the minimum pgw-upgrade
      Received value Configured local value Resultant value to be used
      may may may
      may shall-not shall-not
      shall-not may shall-not
      shall-not shall-not shall-not
    • rej-if-exceed: If the received ARP-PCI value is may and the configured local value is shall-not, then the procedure will be rejected.
    • Default value set by MME if not provided by HSS/PGW : shall-not
  • ARP-PVI
    • Preemption vulnerability indicator can have either of the following two values, where not-pre-emptible (1) > pre-emptible (0)
      • pre-emptible - specifies that this bearer is pre-emptible by other high priority bearers
      • not-pre-emptible - specifies that this bearer is NOT pre-emptible by other high priority bearers
    • Following table indicates the resultant pre-emption vulnerability for the minimum pgw-upgrade:
      Received value Configured local value Resultant value to be used
      pre-emptible pre-emptible pre-emptible
      pre-emptible not-pre-emptible pre-emptible
      not-pre-emptible pre-emptible pre-emptible
      not-pre-emptible not-pre-emptible not-pre-emptible
    • rej-if-exceed: If the received ARP-PVI value is not-pre-emptible and the configured local value is pre-emptible, then the procedure will be rejected.
    • Default value set by the MME if not provided by the HSS/PGW : pre-emptible
  • MBR / GBR
    • minimum:
      • Uplink - The lower of the values, comparing the received values and the configured local value, will be used for APN-AMBR/MBR/GBR.
      • Downlink - The lower value of the received value and configured local value will be used for APN-AMBR/MBR/GBR.
    • rej-if-exceed: If the received Uplink value is greater than the configured local Uplink value or the received Downlink value is greater than the configured local Downlink value, then the procedure will be rejected.

Example

The following is a sample command to configure ARP capping for dedicated bearers: 
dedicated-bearer arp priority 1 pgw-upgrade local
The following is a sample command to configure MBR capping for dedicated bearers: 
dedicated-bearer mbr max-ul 20000 max-dl 20000  pgw-upgrade minimum

default-bearer

Use this command to configure the operator-provided values for the ARP and QCI QoS control parameters, as well as the prefer-as-cap and pgw-upgrade capping.

Product

MME

Privilege

Administrator

Mode

Exec > Global Configuration > Bearer Control Profile Configuration

configure > bearer-control-profile profile_name

Entering the above command sequence results in the following prompt: 

[local]host_name(bearer-control-profile-bc_profile_name)#

Syntax

default-bearer { arp { { preemption-capability | preemption-vulnerability | priority-level } { pgw-upgrade | prefer-as-cap } { local | minimum | rej-if-exceed } } | qci { remap | pgw-upgrade { local | minimum | rej-if-exceed } } } 
remove default-bearer { arp | qci }

remove

Including this command prefix instructs the MME to delete the default-bearer configuration.

arp

This keyword configures the allocation and retention priority parameters:
  • preemption-capability - Enter an integer, either 0 (may) to specify that this bearer may pre-empt other lower priority bearers if required, or 1 (shall-not) to specify that this bearer shall not pre-empt other lower priority bearers.
  • preemption-vulnerability - Enter an integer, either 0 (pre-emptible) to specify that this bearer is preemptible by other high priority bearers, or 1 (not-pre-emptible) to specify that this bearer is not pre-emptible by other high priority bearers.
  • priority-level - Enter an integer 1 through 15, with 1 as the highest priority, to specify the allocation/retention priority level.

pgw-upgrade

The pgw-upgrade keyword can be included with any of the other keywords. It identifies the capping mechanism to be used when QoS parameters are received from the PGW and the options include:
  • local - Instructs the MME to select locally configured values for QoS capping.
  • minimum - Instructs the MME to select the lower value, of the two values locally configured or received value, to use as the QoS capping value.
  • rej-if-exceed - Instructs the MME to reject the call if the received value exceeds the locally configured value.

prefer-as-cap

The prefer-as-cap keyword can be included with any of the other keywords. It identifies the capping mechanism to be used when QoS parameters are received from the HSS or from the peer-MME/S4-SGSN:
  • local - The configured local value will be used.
  • minimum - The minimum (lowest) value of the configured local value or the HSS-provided value will be used.
  • reject-if-exceed - The request/procedure is rejected if the HSS-provided value exceeds the configured local value.

qci remap

The qci remap keyword sets the locally configured QCI. Enter an integer from 1 through 9. You can enter the new standardized QCI values 69 and 70. The QCI remap mechanism maps an incoming QCI or a range of QCI to the configured QCI or range of QCI. QCI remap is the first configuration that is applied, from the bearer control profile configuration, and it is applicable only during Create Session Request and Create Bearer Request procedures. The Bearer Control profile associated to the remapped QCI value is used for capping the remaining QoS parameters.

Usage Guidelines

Repeat the default-bearer command as needed to configure all parameters of interest.

QoS Computation - The following explains how the resultant QoS values are derived for the minimum and reject-if-exceed actions configured under prefer-as-cap or pgw-upgrade .
  • QCI
    • Every standard GBR/non-GBR QCI is associated with a priority level as per 3GPP TS 23.203 v12.10.0, Table 6.1.7.
      QCI Resource Type Priority
      1 GBR 2
      2 GBR 4
      3 GBR 3
      4 GBR 5
      5 non-GBR 1
      6 non-GBR 6
      7 non-GBR 7
      8 non-GBR 8
      9 non-GBR 9

      65

      GBR

      0.7

      66

      GBR

      2

      67

      GBR

      1.5

      69

      Non-GBR

      0.5

      70

      Non-GBR

      5.5
    • Priority Level 1 has the highest priority and in case of congestion lowest priority level traffic would be the first to be discarded.
    • minimum : The QCI with lower priority level will be used.
    • rej-if-exceed : If the received QCI has higher priority level than the configured local QCI, then the procedure will be rejected.
  • ARP Priority Level
    • ARP Priority level decreases on increasing value (1 to 15). ARP Priority level 1 has the highest priority value.
    • minimum : The lower ARP Priority level (i.e. higher value) will be used.
    • rej-if-exceed : If the received ARP Priority level is higher (i.e. value is lesser) than the CLI configured local ARP Priority level, then the procedure will be rejected.
  • ARP-PCI
    • Preemption capability indicator can have either of the following two values, where may (0) > shall-not (1)
      • may - specifies that this bearer may preempt other lower priority bearers, if required
      • shall-not - specifies that this bearer shall-not pre-empt other lower priority bearers.
    • Following table indicates the resultant pre-emption capability for the minimum prefer-as-cap or pgw-upgrade
      Received value Configured local value Resultant value to be used
      may may may
      may shall-not shall-not
      shall-not may shall-not
      shall-not shall-not shall-not
    • rej-if-exceed: If the received ARP-PCI value is may and the configured local value is shall-not, then the procedure will be rejected.
    • Default value set by MME if not provided by HSS/PGW: shall-not
  • ARP-PVI
    • Preemption vulnerability indicator can have either of the following two values, where not-pre-emptible (1) > pre-emptible (0)
      • pre-emptible - specifies that this bearer is pre-emptible by other high priority bearers
      • not-pre-emptible - specifies that this bearer is NOT pre-emptible by other high priority bearers
    • Following table indicates the resultant pre-emption vulnerability for the minimum prefer-as-cap or pgw-upgrade:
      Received value Configured local value Resultant value to be used
      pre-emptible pre-emptible pre-emptible
      pre-emptible not-pre-emptible pre-emptible
      not-pre-emptible pre-emptible pre-emptible
      not-pre-emptible not-pre-emptible not-pre-emptible
    • rej-if-exceed: If the received ARP-PVI value is not-pre-emptible and the configured local value is pre-emptible, then the procedure will be rejected.
    • Default value set by the MME if not provided by the HSS/PGW : pre-emptible

Example

The following is an example of a command to configure QCI mapping for the default bearer: 
default-bearer qci remap 6

description

Allows you to enter descriptive text for this configuration.

Product

All

Privilege

Security Administrator, Administrator

Syntax

description text 
no description

no

Clears the description for this configuration.

text

Enter descriptive text as an alphanumeric string of 1 to 100 characters.

If you include spaces between words in the description, you must enclose the text within double quotation marks (" "), for example, "AAA BBBB".

Usage Guidelines

The description should provide useful information about this configuration.

end

Exits the current configuration mode and returns to the Exec mode.

Product

All

Privilege

Security Administrator, Administrator

Syntax

end

Usage Guidelines

Use this command to return to the Exec mode.

exit

Exits the current mode and returns to the parent configuration mode.

Product

All

Privilege

Security Administrator, Administrator

Syntax

exit

Usage Guidelines

Use this command to return to the parent configuration mode.

pre-rel8-qos-mapping

This command defines mapping of EPC QOS (non-standard QCIs) to 3GPP PreRelease8 QoS parameters in the MME.

Product

MME

Privilege

Security Administrator, Administrator

Mode

Exec > Global Configuration > Bearer Control Profile Configuration

configure > bearer-control-profile profile_name

Entering the above command sequence results in the following prompt: 

[local]host_name(bearer-control-profile-bc_profile_name)#

Syntax

[ remove ] { pre-rel8-qos-mapping { { class { background | conversational | interactive | streaming } } { thp thp_value } { sig-ind indicator_value }  { src-stat-desc value } { min-transfer-delay value } { sdu error-ratio value } } | qci value }

remove

Including this command prefix causes the MME to delete the PreRelease8QoS parameter configuration for the named bearer control profile.

qci

qci indicates the QoS class. Its value ranges from 1 to 9. When QCI is configured, the corresponding mapping takes place based on 3GPP TS 23.401.

class

Indicates the UMTS traffic classified into the following categories:

  • background

  • conversational

  • interactive

  • streaming

thp

Traffic handling priority specifies the relative importance of handling all SDUs that belong to the UMTS bearer compared to the SDUs of other bearers. The priority value ranges from 1 to 3, where the value 1 holds the highest priority.

sig-ind

The sig-ind keyword toggles the state of the signal. The values are either 0 or 1.

src-stat-desc

The src-stat-desc (Source Statistics Descriptor) keyword toggles the state of the signal. The values are either 0 or 1.

sdu error-ratio

The Service Data Unit (SDU) Error ratio indicates the fraction of SDUs lost or detected as error packets. SDU error ratio is defined only for conforming traffic.

min-transfer-delay

The min-transfer-delay defines the maximum delay for 95th percentile of the delay distributed for all delivered SDUs during the lifetime of a bearer service. The delay value ranges from 10 to 40,000 milliseconds.

Usage Guidelines

An operator specific QCI can be remapped to another QCI using the Bearer Control Profile Configuration mode. Bearer level parameters such as ARP, MBR, GBR values can be configured independently for default/dedicated bearer along with actions such as prefer-as-cap or pgw-upgrade in the Bearer Control Profile Configuration mode.

The operator specific QCIs from 128 to 254 has the lowest priority. These priority values are considered while deriving resultant QoS values for the minimum and reject-if-exceed actions configured under prefer-as-cap or pgw-upgrade.

Example

The following is a sample command to configure PreRelease8QoS parameter for the conversational class: 
pre-rel8-qos-mapping class conversational thp 1 sig-ind 0 src-stat-desc 1 min-transfer-delay 100 sdu error-ratio 4
The following is a sample command to configure PreRelease8QoS parameter for the conversational class: 
pre-rel8-qos-mapping class interactive thp 2 sig-ind 0 src-stat-desc 1 min-transfer-delay 300 sdu error-ratio 4