6/5/2014 Question iPhone Issues on Call Set-up http://www.finetopix.com/showthread.php?32201-iPhone-Issues-on-Call-Set-up 1/32 Forum Discussions for Wireless Network Live Optimization Question iPhone Issues on Call Set-up If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below. Thread: iPhone Issues on Call Set-up User Name Password Log in Remember Me? Register Help What's New? Forum FAQ Calendar Forum Actions Quick Links Advanced Search LTE Fading Simulator sofimation.com LTE and WiMAX fading with MIMO. Sofi 07 Reliable Fading Solution Showing results 1 to 10 of 18 Page 1 of 2 1 2 Last Thread Tools 2012-10-04, 06:35 AM 0 iPhone Issues on Call Set-up Hi, Anybody else here who have investigated call set-up issues with iPhone like 1. iPhone automatically initiates a new call (new RANAP Initial UE CM Service Service Request) after a failed call set-up that did not reach the RANAP Set-up Message? The user is not aware of the automatic redial but instead experience long call set-up. 2. or iPhone repeats another RANAP CM Service Request even the first RANAP CM Service Request is not expired (T3230 of 3GPP TS 24.008). the result of this is that the MSS/MSC reject the call set- up with RANAP Cause 34 (Service option temporarily out of order). We have contacted Apple but no response so far. #1 Join Date: Posts: 2010-11-16 17 klystron Member Share 0 Share Post Thanks vimpel-dz, tyberry thanked for this post Forum
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Thread: iPhone Issues on Call Set-up
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Showing results 1 to 10 of 18 Page 1 of 2 1 2 Last
Thread Tools
2012-10-04, 06:35 AM
0
iPhone Issues on Call Set-up
Hi,
Anybody else here who have investigated call set-up issues with
iPhone like
1. iPhone automatically initiates a new call (new RANAP Initial UECM Service Service Request) after a failed call set-up that did notreach the RANAP Set-up Message? The user is not aware of theautomatic redial but instead experience long call set-up.
2. or iPhone repeats another RANAP CM Service Request even thefirst RANAP CM Service Request is not expired (T3230 of 3GPP TS24.008). the result of this is that the MSS/MSC reject the call set-up with RANAP Cause 34 (Service option temporarily out of order).
LTE and WiMAX fading with MIMO. Sofi 07 Reliable Fading Solution
2012-10-07, 05:41 PM
0
Re: iPhone Issues on Call Set-up
Hope you have any update here please share.
BR//Imran
#2
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Muhammad Imran Rafique
Member
2012-10-07, 09:15 PM
0
Re: iPhone Issues on Call Set-up
Not a surprise for me. My customer had to deactivated severalfeatures in the network due to issues with iPhone (mostly 3 and 4).iPhone software has some serious problems...
#3
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Darko
Senior Member
2012-10-07, 10:19 PM
0
Re: iPhone Issues on Call Set-up
hi guys,
this is a really good posts, does anyone have any knowledge ofNAS EMM/ESM cause codes failures related to smart phone devicesand why they have happened? I'm interested in finding out thetypical problems that users are experiencing in 4G networks thatspecifically relate to device issues. I understand that the NAScause codes related to Mobility management and Sessionmanagement are the protocols that generate this. any informationwould be good as I have nothing right now.
For HUAWEI based networks I have a case study ...We had thisissue in our network which really effected the VIP customer.But wemanaged to get it reduce by enabling CELL Update on DRD failures
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tharinduwije
Member
2012-10-08, 04:37 PM
0
Re: iPhone Issues on Call Set-up
Find the attachments for the case studies.There is a issue with theAMR decoding.Appreciate if you guys have any other documentsrelated to SMART Phone based call drops (I phone,Galaxy S)
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tharinduwije
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Last edited by tharinduwije; 2012-10-11 at 03:56 AM
Post Thanks
incoincov, 070057r, boo3000boo, fon909, dremka and 6 others thanked for this post
2012-10-08, 06:50 PM
0
Re: iPhone Issues on Call Set-up
Hi,
In the second case study there is a parameter change that shouldsolve the problems with silent calls on Samsung phones:SET UCORRMALGOSWITCH:ReservedSwitch0=RESERVED_SWITCH_0_BIT9-1
Can someone please explain this parameter change since I'mrunning a different vendor RNC (NSN) and and help me findequivalent parameter on it.
Thx
2012-10-08, 09:38 PM
0 out of 1 members found this post helpful.
0
Re: iPhone Issues on Call Set-up
Hey find below the parameter description below,
Set Connection-Oriented Algorithm Switches(SETUCORRMALGOSWITCH)Function
Use this command to query the connection-oriented algorithmswitches of an RNC.Note
1. As a supplement, this command is used to change only thealgorithm switches involved. All switches provide multiple options.SELECT ALL indicates that all switches are enabled. CLEAR ALLindicates that all switches are disabled. GRAY ALL indicates thatthe status of all switches does not change.
2. When PC_INNER_LOOP_LMTED_PWR_INC_SWITCH orDRA_BE_RATE_DOWN_BF_HO_SWITCH is enabled, you are advisedto enable DRA_DCCC_SWITCH to optimize the effect of the relatedfunctions.
3. HO_MC_SIGNAL_SWITCH is used to control the signaling statusonly before service connection. The signaling status after servicerelease is not controlled by this switch.ParameterParameter ID Parameter Name Parameter DescriptionCfgSwitch Channel Configuration Strategy Switch
1) CFG_DL_BLIND_DETECTION_SWITCH: When the switch is on, theDL blind transport format detection function is used for single SRBand AMR+SRB bearers. Note that the UE is only required to supportthe blind transport format stipulated in 3GPP 25.212 section 4.3.1.
2) CFG_HSDPA_64QAM_SWITCH: When the switch is on, 64QAMcan be configured for the HSDPA service.
3) CFG_HSDPA_DC_SWITCH: When the switch is on, DC can beconfigured for the HSDPA service.
4) CFG_HSDPA_MIMO_SWITCH: When the switch is on, MIMO canbe configured for the HSDPA service.
5) CFG_HSDPA_MIMO_WITH_64QAM_SWITCH: When the switch ison and the switches for 64QAM and MIMO are on, 64QAM+MIMOcan be configured for the HSDPA service
6) CFG_HSPA_DTX_DRX_SWITCH: When the switch is on, DTX_DRXcan be configured for the HSPA service.
7) CFG_HSPA_HSSCCH_LESS_OP_SWITCH: When the switch is on,HS-SCCH Less Operation can be configured for the HSPA service.
8) CFG_HSUPA_16QAM_SWITCH: When the switch is on, 16QAMcan be configured for the HSUPA service.
9) CFG_IMS_SUPPORT_SWITCH: When the switch is on and theIMS license is activated, the RNC supports IMS signaling.
10) CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH: When theswitch is on, DL lossless RLC PDU size change is supported.
11) CFG_LOSSLESS_RELOC_CFG_SWITCH: When the switch is onand the UE supports lossless relocation, the RNC configures losslessrelocation for PDCP parameters if the requirements of RLC mode,discard mode, and sequential submission are met. Then, losslessrelocation is used for the UE.
12) CFG_MULTI_RAB_SWITCH: When the switch is on, the RNCsupports multi-RABs combinations such as 2CS, 2CS+1PS,1CS+2PS, and 2PS.
13) CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH: When the switchis on and the PDCP header compression license is activated, thePDCP header compression algorithm for IPv6 is used at the RNC.
14) CFG_PDCP_RFC2507_HC_SWITCH: When the switch is on andthe PDCP IPHC license is activated, the PDCP IPHC headercompression algorithm is used for the RNC.
15) CFG_PDCP_RFC3095_HC_SWITCH: When the switch is on andthe PDCP ROHC license is activated, the PDCP ROHC headercompression algorithm is used for the RNC.
16) CFG_PTT_SWITCH: When this switch is on, the RNC identifiesthe PTT user based on the QoS attributes in the RAB assignmentrequest message. Then, the PTT users are subject to specialprocessing.
17) CFG_RAB_REL_RMV_HSPAPLUS_SWITCH: When this switch is onand if an RAB release is performed, the RNC decides whether to fallback a certain HSPA(HSPA+) feature based on the requirement ofremaining traffic carried by the UE. That is, if an HSPA+ feature isrequired by the previously released RAB connection but is notrequired in the initial bearer policy of the remaining traffic, the RNCfalls back the feature to save the transmission resources. TheHSPA+ features that support the fallback are MIMO, 64QAM,MIMO+64QAM, UL 16QAM, DC-HSDPA, and UL TTI 2ms.
GUI Value Range: CFG_DL_BLIND_DETECTION_SWITCH,CFG_HSDPA_64QAM_SWITCH, CFG_HSDPA_DC_SWITCH,CFG_HSDPA_MIMO_SWITCH,CFG_HSDPA_MIMO_WITH_64QAM_SWITCH,CFG_HSPA_DTX_DRX_SWITCH,CFG_HSPA_HSSCCH_LESS_OP_SWITCH,CFG_HSUPA_16QAM_SWITCH, CFG_IMS_SUPPORT_SWITCH,CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH,CFG_LOSSLESS_RELOC_CFG_SWITCH, CFG_MULTI_RAB_SWITCH,CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH,CFG_PDCP_RFC2507_HC_SWITCH,CFG_PDCP_RFC3095_HC_SWITCH, CFG_PTT_SWITCH,CFG_RAB_REL_RMV_HSPAPLUS_SWITCH
Actual Value Range: CFG_DL_BLIND_DETECTION_SWITCH,CFG_HSDPA_64QAM_SWITCH, CFG_HSDPA_DC_SWITCH,CFG_HSDPA_MIMO_SWITCH,CFG_HSDPA_MIMO_WITH_64QAM_SWITCH,CFG_HSPA_DTX_DRX_SWITCH,CFG_HSPA_HSSCCH_LESS_OP_SWITCH,CFG_HSUPA_16QAM_SWITCH, CFG_IMS_SUPPORT_SWITCH,CFG_LOSSLESS_DLRLC_PDUSIZECHG_SWITCH,CFG_LOSSLESS_RELOC_CFG_SWITCH, CFG_MULTI_RAB_SWITCH,CFG_PDCP_IPV6_HEAD_COMPRESS_SWITCH,CFG_PDCP_RFC2507_HC_SWITCH,CFG_PDCP_RFC3095_HC_SWITCH, CFG_PTT_SWITCH,CFG_RAB_REL_RMV_HSPAPLUS_SWITCH
1) DRA_AQM_SWITCH: When the switch is on, the active queuemanagement algorithm is used for the RNC.
2) DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH: When the switchis on, the TTI dynamic adjustment algorithm for admission CE-based BE services applies to the UE with the UL enhanced L2feature. This parameter is valid whenDRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH(DraSwitch) is set toON.
3) DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH: When the switchis on, the TTI dynamic adjustment algorithm is supported foradmission CE-based BE services.
4) DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH: When the switch ison, the TTI dynamic adjustment algorithm for coverage-based BEservices applies to the UE with the UL enhanced L2 feature. Thisparameter is valid whenDRA_BASE_COVER_BE_TTI_RECFG_SWITCH(DraSwitch) is set toON.
5) DRA_BASE_COVER_BE_TTI_RECFG_SWITCH: When the switch ison, the TTI dynamic adjustment algorithm is supported forcoverage-based BE services.
6) DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH: When the switch ison, the TTI dynamic adjustment algorithm for differentiation-basedBE services applies to the UE with the UL enhanced L2 feature.This parameter is valid whenDRA_BASE_RES_BE_TTI_RECFG_SWITCH(DraSwitch) is set to ON.
7) DRA_BASE_RES_BE_TTI_RECFG_SWITCH: When the switch is on,the TTI dynamic adjustment algorithm is supported fordifferentiation-based BE services.
8) DRA_DCCC_SWITCH: When the switch is on, the dynamicchannel reconfiguration control algorithm is used for the RNC.
9) DRA_HSDPA_DL_FLOW_CONTROL_SWITCH: When the switch ison, flow control is enabled for HSDPA services in AM mode.
10) DRA_HSDPA_STATE_TRANS_SWITCH: When the switch is on,the status of the UE RRC that carrying HSDPA services can bechanged to CELL_FACH at the RNC. If a PS BE service is carriedover the HS-DSCH, the switch PS_BE_STATE_TRANS_SWITCHshould be on simultaneously. If a PS real-time service is carriedover the HS-DSCH, the switch PS_NON_BE_STATE_TRANS_SWITCHshould be on simultaneously.
11) DRA_HSUPA_DCCC_SWITCH: When the switch is on, the DCCCalgorithm is used for HSUPA. The DCCC switch must be also onbefore this switch takes effect.
12) DRA_HSUPA_STATE_TRANS_SWITCH: When the switch is on,the status of the UE RRC that carrying HSUPA services can bechanged to CELL_FACH at the RNC. If a PS BE service is carriedover the E-DCH, the switch PS_BE_STATE_TRANS_SWITCH shouldbe on simultaneously. If a PS real-time service is carried over theE-DCH, the switch PS_NON_BE_STATE_TRANS_SWITCH should beon simultaneously.
13) DRA_IP_SERVICE_QOS_SWITCH: Switch of the algorithm forincreasing the quality of subscribed services. When this parameteris set to ON, the service priority weight of the subscriber whosekey parameters (IP Address, IP Port, and IP Protocol Type) matchthe specified ones can be adjusted. In this way, the QoS isimproved.
14) DRA_PS_BE_STATE_TRANS_SWITCH: When the switch is on,UE RRC status transition (CELL_FACH/CELL_PCH/URA_PCH) isallowed at the RNC.
15) DRA_PS_NON_BE_STATE_TRANS_SWITCH: When the switch ison, the status of the UE RRC that carrying real-time services canbe changed to CELL_FACH at the RNC.
16) DRA_R99_DL_FLOW_CONTROL_SWITCH: Under a poor radioenvironment, the QoS of high speed services drops considerablyand the TX power is overly high. In this case, the RNC can setrestrictions on certain transmission formats based on thetransmission quality, thus lowering traffic speed and TX power.When the switch is on, the R99 downlink flow control function isenabled.
17) DRA_THROUGHPUT_DCCC_SWITCH: When the switch is on, theDCCC based on traffic statistics is supported over the DCH.
18) DRA_VOICE_SAVE_CE_SWITCH: when the switch is on, the TTIselection based on the voice service type (including VoIP and CSover HSPA) is supported when the service is initially established.
19) DRA_VOICE_TTI_RECFG_SWITCH: when the switch is on, theTTI adjustment based on the voice service type (including VoIPand CS over HSPA) is supported.
GUI Value Range: DRA_AQM_SWITCH,DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH,DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH,DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH,DRA_BASE_COVER_BE_TTI_RECFG_SWITCH,DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH,DRA_BASE_RES_BE_TTI_RECFG_SWITCH, DRA_DCCC_SWITCH,DRA_HSDPA_DL_FLOW_CONTROL_SWITCH,DRA_HSDPA_STATE_TRANS_SWITCH, DRA_HSUPA_DCCC_SWITCH,DRA_HSUPA_STATE_TRANS_SWITCH,DRA_IP_SERVICE_QOS_SWITCH,DRA_PS_BE_STATE_TRANS_SWITCH,DRA_PS_NON_BE_STATE_TRANS_SWITCH,DRA_R99_DL_FLOW_CONTROL_SWITCH,DRA_THROUGHPUT_DCCC_SWITCH, DRA_VOICE_SAVE_CE_SWITCH,DRA_VOICE_TTI_RECFG_SWITCH
Actual Value Range: DRA_AQM_SWITCH,DRA_BASE_ADM_CE_BE_TTI_L2_OPT_SWITCH,DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH,DRA_BASE_COVER_BE_TTI_L2_OPT_SWITCH,DRA_BASE_COVER_BE_TTI_RECFG_SWITCH,DRA_BASE_RES_BE_TTI_L2_OPT_SWITCH,DRA_BASE_RES_BE_TTI_RECFG_SWITCH, DRA_DCCC_SWITCH,DRA_HSDPA_DL_FLOW_CONTROL_SWITCH,DRA_HSDPA_STATE_TRANS_SWITCH, DRA_HSUPA_DCCC_SWITCH,DRA_HSUPA_STATE_TRANS_SWITCH,DRA_IP_SERVICE_QOS_SWITCH,DRA_PS_BE_STATE_TRANS_SWITCH,DRA_PS_NON_BE_STATE_TRANS_SWITCH,DRA_R99_DL_FLOW_CONTROL_SWITCH,DRA_THROUGHPUT_DCCC_SWITCH, DRA_VOICE_SAVE_CE_SWITCH,DRA_VOICE_TTI_RECFG_SWITCH
DRA_THROU_DCCC_SWITCH,DRA_BASE_ADM_CE_BE_TTI_RECFG_SWITCH,DRA_BASE_COVER_BE_TTI_RECFG_SWITCH,DRA_BASE_RES_BE_TTI_RECFG_SWITCH and DRA_HSUPA_DCCC_SWITCH are validwhen DRA_DCCC_SWITCH is set to ON; For BEservice,DRA_HSDPA_STATE_TRANS_SWITCH andDRA_HSUPA_STATE_TRANS_SWITCH are valid whenDRA_PS_BE_STATE_TRANS_SWITCH is set to ON; For RTservice,DRA_HSDPA_STATE_TRANS_SWITCH andDRA_HSUPA_STATE_TRANS_SWITCH are valid whenDRA_PS_NON_BE_STATE_TRANS_SWITCH is set to ON;
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NoneCsSwitch CS Algorithm Switch
Meaning: CS algorithm switch group.
1) CS_AMRC_SWITCH: When the switch is on and the AMRC licenseis activated, the AMR control function is enabled for AMR services.
2) CS_HANDOVER_TO_UTRAN_DEFAULT_CFG_SWITCH: When theswitch is on, the default configurations of signaling and RABs,which are stipulated in 3GPP 25.331, are used for relocation of theUE from GSM to WCDMA. When the switch is not on, the defaultconfigurations are not used. Instead, the complete information ofRB, TrCH, and PhyCH, which are in the HANDOVER TO UTRANCOMMAND message is used.
3) CS_IUUP_V2_SUPPORT_SWITCH: When the switch is on and the"Support IUUP Version 2" license is activated, the RNC supports theTFO/TRFO function.
GUI Value Range: CS_AMRC_SWITCH,CS_HANDOVER_TO_UTRAN_DEFAULT_CFG_SWITCH,CS_IUUP_V2_SUPPORT_SWITCH
Actual Value Range: CS_AMRC_SWITCH,CS_HANDOVER_TO_UTRAN_DEFAULT_CFG_SWITCH,CS_IUUP_V2_SUPPORT_SWITCH
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NonePcSwitch Power Control Switch
Meaning: Power control switch group.
1) PC_CFG_ED_POWER_INTERPOLATION_SWITCH: When the switchis on, E-DPDCH power interpolation formula is allowed. Otherwise,interpolation formula is not allowed. When the interpolation formulais used, E-TFCI and PO is involved in the calculation of transmitpower for block transmission on the E-DPDCH. In addition, theextrapolation formula is also used. the interpolation formular is usedfor high-speed services, whereas the extrapolation formula is usedfor low-speed services. For details, see the 3GPP TS 25.214.
2) PC_DL_INNER_LOOP_PC_ACTIVE_SWITCH: When the switch ison, the status of inner loop DL power control is set to "Active."When the switch is not on, the status is set to "Inactive."
3) PC_DOWNLINK_POWER_BALANCE_SWITCH: When the switch ison, the RNC supports DL power balancing. During soft handover,TPC bit errors may cause DL power drift. DL power balancing isenabled to balance the DL power between links, thus achieving theoptimal gain of soft handover.
4) PC_EFACH_ECN0_DYN_ADJ_SWITCH: When the switch is on, thetarget value of Ec/N0 can be dynamically reconfigured on the E-FACH. When the switch is disabled, the minimum value of Ec/N0 isdirectly configured for the NodeB.
5) PC_FP_MULTI_RLS_IND_SWITCH: When the switch is on, theRNC informs the NodeB of the current RLS number through the FPinband signaling.
6) PC_HSUPA_HARQNUM_AUTO_ADJUST_SWITCH: When the switchis on, the HSUPA service can use the smaller target number ofretransmissions when the uplink is not congested. If the uplink iscongested, the HSUPA service can use the typical target number ofretransmissions.
7) PC_INNER_LOOP_LMTED_PWR_INC_SWITCH: When the switch ison, the limited power increase function is used for DL inner looppower control.
8) PC_OLPC_SWITCH: When the switch is on, the RNC updates theUL SIR TARGET of radio links on the NodeB side through IUB DCH FPinband signaling.
9) PC_RL_RECFG_SIR_TARGET_CARRY_SWITCH: When the switch isnot on, a new initial SIRTarget value, during radio link
reconfiguration, is based on the converged SIRTarget value ofcurrent outer loop power control. In addition, the UL SIRTargetvalue is not included in the radio link reconfiguration messages tothe NodeB. This switch is only valid when the OLPC switch is ON.
10) PC_SIG_DCH_OLPC_SWITCH: When the switch is on, SIG DCHis involved in UL OLPC as service DCH is. If the current link has onlySIG DCH, SIG DCH is always involved in UL OLPC.
11) PC_UL_SIRERR_HIGH_REL_UE_SWITCH: When the switch is on,the UE is unconditionally released if the SIR error is high and thecell is overloaded. Otherwise, the UE is not released.
GUI Value Range: PC_CFG_ED_POWER_INTERPOLATION_SWITCH,PC_DL_INNER_LOOP_PC_ACTIVE_SWITCH,PC_DOWNLINK_POWER_BALANCE_SWITCH,PC_EFACH_ECN0_DYN_ADJ_SWITCH,PC_FP_MULTI_RLS_IND_SWITCH,PC_HSUPA_HARQNUM_AUTO_ADJUST_SWITCH,PC_INNER_LOOP_LMTED_PWR_INC_SWITCH, PC_OLPC_SWITCH,PC_RL_RECFG_SIR_TARGET_CARRY_SWITCH,PC_SIG_DCH_OLPC_SWITCH, PC_UL_SIRERR_HIGH_REL_UE_SWITCH
Actual Value Range: PC_CFG_ED_POWER_INTERPOLATION_SWITCH,PC_DL_INNER_LOOP_PC_ACTIVE_SWITCH,PC_DOWNLINK_POWER_BALANCE_SWITCH,PC_EFACH_ECN0_DYN_ADJ_SWITCH,PC_FP_MULTI_RLS_IND_SWITCH,PC_HSUPA_HARQNUM_AUTO_ADJUST_SWITCH,PC_INNER_LOOP_LMTED_PWR_INC_SWITCH, PC_OLPC_SWITCH,PC_RL_RECFG_SIR_TARGET_CARRY_SWITCH,PC_SIG_DCH_OLPC_SWITCH, PC_UL_SIRERR_HIGH_REL_UE_SWITCH
Impact on Network Performance: NoneCmpSwitch Compatibility Switch
Meaning: Compatibility switch group.
1) CMP_IU_IMS_PROC_AS_NORMAL_PS_SWITCH: When the switchis on, the IMS signaling assigned by the CN undergoes compatibilityprocessing as an ordinary PS service. When the switch is not on,no special processing is performed.
2) CMP_IU_QOS_ASYMMETRY_IND_COMPAT_SWITCH: When the IuQoS Negotiation function is active and the switch is on, IE RABAsymmetry Indicator is Symmetric bidirectional, The uplink anddownlink RNC negotiation rate is asymmetric, RNC select the biggerrete as Iu QoS negotiation rate. When the switch is OFF, RNCselect the less rate as Iu QoS negotiation rate.
3) CMP_IU_SYSHOIN_CMP_IUUP_FIXTO1_SWITCH: When theswitch is on, the IUUP version can be rolled back to R99 whencomplete configurations are applied during inter-RAT handover.
4) CMP_IUR_H2D_FOR_LOWR5_NRNCCELL_SWITCH: When theswitch is on, H2D is performed before a neighboring RNC cell whoseversion is earlier than R5 is added to the active set; E2D isperformed before a neighboring RNC cell whose version is earlierthan R6 is added to the active set. If the DRNC is of a versionearlier than R5, DL services cannot be mapped on the HS-DSCH. Ifthe DRNC is of a version earlier than R6, DL services cannot bemapped on the HS-EDCH.
5) CMP_IUR_SHO_DIVCTRL_SWITCH: When the switch is on, thediversity combination over the Iur interface is configured on thebasis of that of the local RNC. When the switch is not on, thediversity combination over the Iur interface is configured on thebasis of services. The flag of diversity combination over the Iurinterface can be set to MUST (for BE services) or MAY (for otherservices).
6) CMP_UU_ADJACENT_FREQ_CM_SWITCH: when the switch is on,the RNC initiates the inter-frequency measurement withoutactivating the compressed mode if the following two conditions aremet: the UE supports the non-compressed inter-frequencymeasurement, the inter-frequency neighboring cells work in a samefrequency which is within 5 MHz higher or lower than the currentfrequency; when the switch is off, the RNC activates thecompressed mode before initiating the inter-frequencymeasurement.
7) CMP_UU_AMR_DRD_HHO_COMPAT_SWITCH: When the switch ison, When SRB is set up on DCH, and RNC decides to setup the AMRthrough DRD procedure, RNC will execute blind handover to thetarget cell, and then setup the AMR RBs on the target cell.
8) CMP_UU_AMR_SID_MUST_CFG_SWITCH: For narrowband AMR
services, when the switch is on, the SID frame is alwaysconfigured; when the switch is not on, the SID frame is configuredon the basis of CN assignment.
9) CMP_UU_FDPCH_COMPAT_SWITCH: When the switch is OFF, ifthe information element that indicates the F-DPCH capability of UEexists in the message "RRC_CONNECT_REQ" or"RRC_CONNECT_SETUP_CMP", the F-DPCH capability depends onthat indicator. In other case, it means UE does not support F-DPCH. When the switch is ON, if the information element thatindicates the F-DPCH capability of UE exists in the message"RRC_CONNECT_REQ" or "RRC_CONNECT_SETUP_CMP", the F-DPCHcapability depends on that indicator. If that information elementdoes not exist, UE supports F-DPCH when all the conditions meets:a) the version of UE is Release 6. b) UE supports HS-PDSCH.
10) CMP_UU_IGNORE_UE_RLC_CAP_SWITCH: When the switch ison, the RAB assignment request and the subsequent RB setupprocedure proceed if the RLC AM capabilities of the UE fail to meetthe minimum RLC TX/RX window buffer requirement of the RAB tobe setup. When the switch is not on, the RAB assignment requestis rejected.
11) CMP_UU_INTRA_FREQ_MC_BESTCELL_CIO_SWITCH: When thisswitch is on, the cell individual offset (CIO) of the best cell isalways set to 0 in the INTRA-FREQUENCY MEASUREMENT CONTROLmessages. Otherwise, the CIO information of the best cell is notcarried in the INTRA-FREQUENCY MEASUREMENT CONTROLmessages.
12) CMP_UU_IOS_CELL_SYNC_INFO_REPORT_SWITCH: When theswitch is on, the cell synchronization information traced by the IOSneed to be reported during the RRC measurement period.
13) CMP_UU_SERV_CELL_CHG_WITH_ASU_SWITCH: When theswitch is on, the active set update is in the same procedure as thechange of the serving cell. When the switch is not on, the servingcell is changed after the UE updates the active set and deliversreconfiguration of physical channels. This switch is applicable onlyto R6 or aboveUEs.
14) CMP_UU_SERV_CELL_CHG_WITH_RB_MOD_SWITCH: When theswitch is on, channel transition is in the same procedure as thechange of the serving cell. When the switch is not on, the servingcell is changed after the UE performs channel transition anddelivers reconfiguration of physical channels.
15) CMP_UU_VOIP_UP_PROC_AS_NORMAL_PS_SWITCH: By default,the switch is on. In this case, the Alternative E-bit is notconfigured for L2.
GUI Value Range: CMP_IU_IMS_PROC_AS_NORMAL_PS_SWITCH,CMP_IU_QOS_ASYMMETRY_IND_COMPAT_SWITCH,CMP_IU_SYSHOIN_CMP_IUUP_FIXTO1_SWITCH,CMP_IUR_H2D_FOR_LOWR5_NRNCCELL_SWITCH,CMP_IUR_SHO_DIVCTRL_SWITCH,
Actual Value Range: CMP_IU_IMS_PROC_AS_NORMAL_PS_SWITCH,CMP_IU_QOS_ASYMMETRY_IND_COMPAT_SWITCH,CMP_IU_SYSHOIN_CMP_IUUP_FIXTO1_SWITCH,CMP_IUR_H2D_FOR_LOWR5_NRNCCELL_SWITCH,CMP_IUR_SHO_DIVCTRL_SWITCH,CMP_UU_ADJACENT_FREQ_CM_SWITCH,CMP_UU_AMR_DRD_HHO_COMPAT_SWITCH,CMP_UU_AMR_SID_MUST_CFG_SWITCH,CMP_UU_FDPCH_COMPAT_SWITCH,CMP_UU_IGNORE_UE_RLC_CAP_SWITCH,CMP_UU_INTRA_FREQ_MC_BESTCELL_CIO_SWITCH,CMP_UU_IOS_CELL_SYNC_INFO_REPORT_SWITCH,CMP_UU_SERV_CELL_CHG_WITH_ASU_SWITCH,CMP_UU_SERV_CELL_CHG_WITH_RB_MOD_SWITCH,CMP_UU_VOIP_UP_PROC_AS_NORMAL_PS_SWITCH
1) MAP_HSUPA_TTI_2MS_SWITCH: When the switch is on, 2 msTTI is supported for HSUPA.
2) MAP_INTER_RAT_PS_IN_CHANLE_LIMIT_SWITCH: When theswitch is on, the PS services are transmitted on the DCH during the2G-to-3G handover. When the switch is not on, the PS servicescan be transmitted on suitable channels according to the algorithmparameter configured for the RNC during the 2G-to-3G handover.
3) MAP_PS_BE_ON_E_FACH_SWITCH: When the switch is on, thePS BE services can be transmitted on the E-FACH.
4) MAP_PS_STREAM_ON_E_FACH_SWITCH: When the switch is on,the PS streaming services can be transmitted on the E-FACH.
5) MAP_PS_STREAM_ON_HSDPA_SWITCH: When the switch is on, aPS streaming service is mapped on the HS-DSCH if the DL maximumrate of the service is greater than or equal to the HSDPA thresholdfor streaming services.
6) MAP_PS_STREAM_ON_HSUPA_SWITCH: When the switch is on, aPS streaming service is mapped on the E-DCH if the UL maximumrate of the service is greater than or equal to the HSUPA thresholdfor streaming services.
7) MAP_SRB_6800_WHEN_RAB_ON_HSDSCH_SWITCH: When theswitch is on, the signaling is transmitted at a rate of 6.8 kbit/s if allthe downlink traffic is on the HSDPA channel.
GUI Value Range: MAP_HSUPA_TTI_2MS_SWITCH,MAP_INTER_RAT_PS_IN_CHANLE_LIMIT_SWITCH,MAP_PS_BE_ON_E_FACH_SWITCH,MAP_PS_STREAM_ON_E_FACH_SWITCH,MAP_PS_STREAM_ON_HSDPA_SWITCH,MAP_PS_STREAM_ON_HSUPA_SWITCH,MAP_SRB_6800_WHEN_RAB_ON_HSDSCH_SWITCH
Actual Value Range: MAP_HSUPA_TTI_2MS_SWITCH,MAP_INTER_RAT_PS_IN_CHANLE_LIMIT_SWITCH,MAP_PS_BE_ON_E_FACH_SWITCH,MAP_PS_STREAM_ON_E_FACH_SWITCH,MAP_PS_STREAM_ON_HSDPA_SWITCH,MAP_PS_STREAM_ON_HSUPA_SWITCH,MAP_SRB_6800_WHEN_RAB_ON_HSDSCH_SWITCH
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NonePsSwitch PS Rate Negotiation Switch
Meaning: PS rate negotiation switch group.
1) PS_BE_EXTRA_LOW_RATE_ACCESS_SWITCH: When the switch ison, access at a rate of 0 kbit/s or on the FACH is determinedaccording to the current connection state of the RRC if the PS BEadmission and the later preemption and queuing fail.
2) PS_BE_INIT_RATE_DYNAMIC_CFG_SWITCH: When the switch ison, the initial rate of the service should be dynamically configuredaccording to the value of Ec/No reported by the UE when the PSBE service is established.
3) PS_BE_IU_QOS_NEG_SWITCH: When the switch is on, the IuQoS Negotiation function is applied to the PS BE service ifAlternative RAB Parameter Values IE is present in the RANAP RABASSIGNMENT REQUEST or RELOCATION REQUEST message.
4) PS_RAB_DOWNSIZING_SWITCH: When the switch is on and theRAB downsizing license is activated, the initial speed is determinedon the basis of cell resources. Downsizing is implemented for BEservices.
5) PS_STREAM_IU_QOS_NEG_SWITCH: When the switch is on, theIu QoS Negotiation function is applied to the PS STREAM service ifAlternative RAB Parameter Values IE is present in the RANAP RABASSIGNMENT REQUEST or RELOCATION REQUEST message.
6) PS_BE_STRICT_IU_QOS_NEG_SWITCH: When the switch is on,the strict Iu QoS Negotiation function is applied to the PS BEservice,RNC select Iu max bit rate based on UE capacity,cellcapacity,max bitrate and alternative RAB parameter values inRANAP RAB ASSIGNMENT REQUEST or RELOCATION REQUESTmessage. When the switch is not on, the loose Iu QoS Negotiationfunction is applied to the PS BE service,RNC select Iu max bit ratebased on UE capacity,max bitrate and alternative RAB parametervalues in RANAP RAB ASSIGNMENT REQUEST or RELOCATIONREQUEST message,not consider cell capacity,this can avoid Iu QoSRenegotiation between different cell.The switch is valid whenPS_BE_IU_QOS_NEG_SWITCH is set to ON.
GUI Value Range: PS_BE_EXTRA_LOW_RATE_ACCESS_SWITCH,PS_BE_INIT_RATE_DYNAMIC_CFG_SWITCH,PS_BE_IU_QOS_NEG_SWITCH, PS_RAB_DOWNSIZING_SWITCH,PS_STREAM_IU_QOS_NEG_SWITCH,PS_BE_STRICT_IU_QOS_NEG_SWITCH
Actual Value Range: PS_BE_EXTRA_LOW_RATE_ACCESS_SWITCH,PS_BE_INIT_RATE_DYNAMIC_CFG_SWITCH,PS_BE_IU_QOS_NEG_SWITCH, PS_RAB_DOWNSIZING_SWITCH,PS_STREAM_IU_QOS_NEG_SWITCH,PS_BE_STRICT_IU_QOS_NEG_SWITCH
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NoneHoSwitch HandOver Switch
Meaning: HandOver switch group.
1) HO_ALGO_HCS_SPEED_EST_SWITCH: When the switch is on,the RNC evaluates the UE's moving speed in the HCS and initiatesfast intra-layer or slow inter-layer handover.
2) HO_ALGO_LDR_ALLOW_SHO_SWITCH: When the switch is on,the LDR inter-frequency handover is allowed during soft handover.
3) HO_ALGO_MBMS_FLC_SWITCH: When the switch is on, the UErequires that the redirection strategy be used for frequency layerconvergence.
4) HO_ALGO_OVERLAY_SWITCH: When the switch is on, theassociated receiving and mobility algorithms of the overlay networkare used. When the switch is not on, the associated algorithms arenot used. Overlay network is an UTRAN network covering presentnetwork, it supports HSPA, MBMS and other new features. Tosatisfy new requirements of operator and restrictions of presentnetwork, overlay network realizes operation distribution and loadsharing between new network and present network, also givesspecial handling for mobility management of network verge.
5) HO_INTER_FREQ_HARD_HO_SWITCH: When the switch is on, theRNC is allowed to initiate inter-frequency measure control or theload-based inter-frequency hard handover upon the handoverdecision on inter-frequency load.
6) HO_INTER_RAT_CS_OUT_SWITCH: When the switch is on, theRNC is allowed to initiate inter-frequency measure control and theCS inter-RAT hard handover from the 3G network to the 2G
7) HO_INTER_RAT_PS_3G2G_CELLCHG_NACC_SWITCH: When theswitch is on, the NACC function is supported during the PS inter-RAT handover from the 3G network to the 2G network in the cellchange order process. When the switch is not on, the NACCfunction is not supported. When PS_3G2G_RELOCATION_SWITCH isON, this switch is useless. When the NACC function is supported,the UE skips the reading procedure as the SI/PSI of the target cellis provided after the UE accesses the 2G cell. Thus, the delay ofinter-cell handover is reduced.
8) HO_INTER_RAT_PS_3G2G_RELOCATION_SWITCH: When theswitch is on, the PS inter-RAT handover from the 3G network tothe 2G network is performed in the relocation process. When theswitch is not on, the PS inter-RAT handover from the 3G networkto the 2G network is performed in the cell change order process.
9) HO_INTER_RAT_PS_OUT_SWITCH: When the switch is on, theRNC is allowed to initiate inter-frequency measure control and thePS inter-RAT hard handover from the 3G network to the 2Gnetwork.
10) HO_INTER_RAT_RNC_SERVICE_HO_SWITCH: When the switch ison, the attributes of inter-RAT handover of the services are basedon the configuration of RNC parameters. When the switch is not on,the attributes are set on the basis of the CN. If no information isprovided by the CN, the attributes are then based on the RNCparameters.
11) HO_INTRA_FREQ_DETSET_INTO_ACTSET_SWITCH: When theswitch is on, the cells in the detected set from which the RNCreceives their valid event reports can be added to the active set.The cells allowed to be added to the active set must be theneighboring cells of the cells in the active set.
12) HO_INTRA_FREQ_DETSET_RPRT_SWITCH: When the switch ison, statistics on the intra-frequency measurement reports of thedetected set are taken.
13) HO_INTRA_FREQ_HARD_HO_SWITCH: When the switch is on,the RNC is allowed to initiate the intra-frequency hard handover.
14) HO_INTRA_FREQ_RPRT_1J_SWITCH: When the switch is on, theevent 1J is included in the delivery of intra-frequency measurementcontrol if the UE version is R6.
15) HO_INTRA_FREQ_SOFT_HO_SWITCH: When the switch is on,the cells on the RNC can active the soft handover. When the RNCreceives reports on the events 1A, 1B, 1C, or 1D, associatedaddition, removal, and replacement of handover cell of the softhandover are initiated.
16) HO_MC_MEAS_BEYOND_UE_CAP_SWITCH: When the switch is
on, the neighboring cell whose frequency band is beyond the UE'scapabilities can also be delivered in the inter-frequencymeasurement list.
17) HO_MC_NCELL_COMBINE_SWITCH: When the switch is on, theneighboring cell combined algorithm is used during the delivery ofthe objects to be measured. When the switch is not on, theoptimal cell algorithm is used.
18) HO_MC_SIGNAL_IUR_INTRA_SWITCH: When the switch is on,intra-frequency handover is allowed over the Iur interface if the UEhas only signaling.
19) HO_MC_SIGNAL_SWITCH: When the switch is on, qualitymeasurement on the active set is delivered after signaling setupbut before service setup. If the UE is at the cell verge or receivesweak signals after accessing the network, the RNC can triggerinter-frequency or inter-RAT handover when the UE sets up theRRC.
20) HO_MC_SNA_RESTRICTION_SWITCH: When the switch is on,the RNC controls the UEs in the connected state based on theconfigurations on the CN. The UEs can only access and move inauthorized cells.
GUI Value Range: HO_ALGO_HCS_SPEED_EST_SWITCH,HO_ALGO_LDR_ALLOW_SHO_SWITCH,HO_ALGO_MBMS_FLC_SWITCH, HO_ALGO_OVERLAY_SWITCH,HO_INTER_FREQ_HARD_HO_SWITCH,HO_INTER_RAT_CS_OUT_SWITCH,HO_INTER_RAT_PS_3G2G_CELLCHG_NACC_SWITCH,HO_INTER_RAT_PS_3G2G_RELOCATION_SWITCH,HO_INTER_RAT_PS_OUT_SWITCH,HO_INTER_RAT_RNC_SERVICE_HO_SWITCH,HO_INTRA_FREQ_DETSET_INTO_ACTSET_SWITCH,HO_INTRA_FREQ_DETSET_RPRT_SWITCH,HO_INTRA_FREQ_HARD_HO_SWITCH,HO_INTRA_FREQ_RPRT_1J_SWITCH,HO_INTRA_FREQ_SOFT_HO_SWITCH,HO_MC_MEAS_BEYOND_UE_CAP_SWITCH,HO_MC_NCELL_COMBINE_SWITCH,HO_MC_SIGNAL_IUR_INTRA_SWITCH, HO_MC_SIGNAL_SWITCH,HO_MC_SNA_RESTRICTION_SWITCH
Actual Value Range: HO_ALGO_HCS_SPEED_EST_SWITCH,HO_ALGO_LDR_ALLOW_SHO_SWITCH,HO_ALGO_MBMS_FLC_SWITCH, HO_ALGO_OVERLAY_SWITCH,HO_INTER_FREQ_HARD_HO_SWITCH,HO_INTER_RAT_CS_OUT_SWITCH,HO_INTER_RAT_PS_3G2G_CELLCHG_NACC_SWITCH,HO_INTER_RAT_PS_3G2G_RELOCATION_SWITCH,HO_INTER_RAT_PS_OUT_SWITCH,HO_INTER_RAT_RNC_SERVICE_HO_SWITCH,HO_INTRA_FREQ_DETSET_INTO_ACTSET_SWITCH,HO_INTRA_FREQ_DETSET_RPRT_SWITCH,HO_INTRA_FREQ_HARD_HO_SWITCH,HO_INTRA_FREQ_RPRT_1J_SWITCH,HO_INTRA_FREQ_SOFT_HO_SWITCH,
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NoneSrnsrSwitch SRNSR Algorithm Switch
Meaning: SRNSR algorithm switch group.
1) SRNSR_DSCR_IUR_RESRCE_SWITCH: When the switch is on,relocation for transmission optimization over the Iur interface isallowed. When there is congestion over the Iur interface, the UEmay be selected to initiate relocation or DSCR if the UE has only aradio link over the Iur interface and the link have the sameattributes as the congested link. Based on PsBeProcType of ADDUNRNC, the RNC decides whether to initiate relocation or DSCR.When the RRC CONN REL message with the cause value "DirectedSignalling Connection re-establishment" is sent to the UE, the UEinitiates RRC reestablishment and updates the routing area onceimmediately.
2) SRNSR_DSCR_LOC_SEPRAT_SWITCH: When the switch is on, theRNC initiates static relocation or DSCR if the optimal cell and theintra-frequency neighboring cell of the optimal cell are not on the
SRNC (the SRNC and the CRNC are separated). Based onPsBeProcType of ADD UNRNC, the RNC decides whether to initiaterelocation or DSCR.
3) SRNSR_DSCR_PROPG_DELAY_SWITCH: When the switch is on,the RNC initiates static relocation or DSCR if the delay over a linkcannot meet QoS requirements (the SRNC and the CRNC areseparated). Thus, delay over the link is reduced on the networkside and the QoS is enhanced. Based on PsBeProcType of ADDUNRNC, the RNC decides whether to initiate relocation or DSCR.
4) SRNSR_DSCR_SEPRAT_DUR_SWITCH: When the switch is on, theRNC initiates static relocation or DSCR if the duration of separationbetween the SRNC and the CRNC exceeds a configured threshold.Based on PsBeProcType of ADD UNRNC, the RNC decides whetherto initiate relocation or DSCR.
GUI Value Range: SRNSR_DSCR_IUR_RESRCE_SWITCH,SRNSR_DSCR_LOC_SEPRAT_SWITCH,SRNSR_DSCR_PROPG_DELAY_SWITCH,SRNSR_DSCR_SEPRAT_DUR_SWITCH
Actual Value Range: SRNSR_DSCR_IUR_RESRCE_SWITCH,SRNSR_DSCR_LOC_SEPRAT_SWITCH,SRNSR_DSCR_PROPG_DELAY_SWITCH,SRNSR_DSCR_SEPRAT_DUR_SWITCH
3) CMCF_UL_PRECFG_TOLERANCE_SWITCH: When the switch is on,the compressed mode of the UE in the compressed mode pre-configuration state can be different from that required by currenttraffic.
4) CMCF_WITHOUT_UE_CAP_REPORT_SWITCH: When the RNCstarts inter-frequency or inter-RAT measurement, the RNC checksthe information of whether the compressed mode is required formeasurement on the frequency band of the cells in measurementlist. The information should be reported by the UE in RRC connectsetup complete message. When the switch is on and no suchinformation has been reported, the RNC starts the compressedmode and then delivers the measurement.
GUI Value Range: CMCF_DL_HLS_SWITCH, CMCF_UL_HLS_SWITCH,CMCF_UL_PRECFG_TOLERANCE_SWITCH,CMCF_WITHOUT_UE_CAP_REPORT_SWITCH
Actual Value Range: CMCF_DL_HLS_SWITCH,CMCF_UL_HLS_SWITCH, CMCF_UL_PRECFG_TOLERANCE_SWITCH,CMCF_WITHOUT_UE_CAP_REPORT_SWITCH
Service Interrupted After Modification : No (No impact on the UE inidle mode)
Impact on Network Performance: NoneExample
To set a connection-oriented algorithm switch of an RNC (Powercontrol switch = PC_OLPC_SWITCH-1), run the following command:SET UCORRMALGOSWITCH: PcSwitch=PC_OLPC_SWITCH-1;
2012-10-08, 10:44 PM
0
Re: iPhone Issues on Call Set-up
Thank you for very detailed explanation but is is still not clear whatRESERVED_SWITCH_0_BIT9 means and what it does in uppercommand.
#9
Join Date:
Posts:
2010-04-30
85
banisha
Member
2012-10-09, 03:19 PM
0
Re: iPhone Issues on Call Set-up
So below are the NAS protocol cause codes from that I'm looking tounderstand from a device perspective, the network is 4G LTE andI'm interested to find any device issues related with Alcatel Lucentand Ericsson 4G networks from these cause codes....does any onehave any experience of specific case studies relating to devicesproblems in LTE for Ericsson and Alcatel Lucent with NAS protocolcause codes?