For the FIW wargame. Counters for ambushes and concealed movement.
let
The purpose of this procedure is to teach or to help the GSM RF Engineers to effectively optimize the TCH Drop Rate. There different reason of TCH Drop Rate. In this procedure it tries to explain ...
Description and analysis on SD-TCH Congestion
ANRFull description
LTEFull description
Deskripsi lengkap
Descripción completa
problematica
Full description
TD-LTE/FD-LTEFull description
H// 3G Counters
Full description
Counter ID Counter Name 1526727083 L.RRC.SetupFail.ResFail
1526727084 L.RRC.SetupFail.NoReply
1526728269 L.RRC.SetupFail.Rej
1526728485 L.RRC.SetupFail.ResFail.SRS
1526728486 L.RRC.SetupFail.ResFail.PUCCH
1526728489 L.RRC.ConnReq.Msg.disc.FlowCtrl
1526728489 L.RRC.ConnReq.Msg.disc.FlowCtrl
1526728490 L.RRC.SetupFail.Rej.FlowCtrl
1526729949 L.RRC.SetupFail.ResFail.UserSpec
1526732044 L.RRC.SetupFail.Rej.MMEOverload
Counter Description Number of RRC connection setup failures due to resource allocation failures
Number of RRC connection setup failures due to no responses from the UE
Number of RRC Connection Reject messages sent to UEs in a cell
Number of RRC connection setup failures due to SRS resource allocation failure
Number of RRC connection setup failures due to PUCCH resource allocation failure
Number of times the RRC Connection Request message is discarded due to flow control
Number of times the RRC Connection Request message is discarded due to flow control
Number of times the eNodeB sends an RRC Connection Reject message to the UE due to flow control
Number of RRC connection setup failures because of limitation of UE number specification
Number of times the eNodeB sends an RRC Connection Reject message to the UE due to MME overloa
Original Release BTS3900: V100R008C00 BTS3900 LTE: version earlier than V100R003C00 BTS3900: V100R008C00 BTS3900 LTE: version earlier than V100R003C00 BTS3900: V100R008C00 BTS3900 LTE: V100R003C00 BTS3900: V100R008C00 BTS3900 LTE: V100R008C00 BTS3900: V100R008C00 BTS3900 LTE: V100R008C00 BTS3900: V100R008C00
Counter Description Number of E-RAB setup failures due to no responses from the UE in a cell
Number of E-RAB setup failures triggered by the MME
Number of E-RAB setup failures due to faults at the transport network layer
Number of E-RAB setup failures due to faults at the radio network layer
Number of E-RAB setup failures due to insufficient radio resources
Number of E-RAB setup failures due to security mode configuration failures
Number of E-RAB setup failures due to insufficient SRS resources
Number of E-RAB setup failures due to insufficient PUCCH resources
Number of E-RAB setup failures because the RLC PDU for an SRB has been retransmitted for the m number of times Number of E-RAB setup failures because of insufficient downlink transport resources
Number of E-RAB setup failures because of insufficient uplink transport resources
Number of E-RAB setup failures because of insufficient licensed downlink traffic volume
Number of E-RAB setup failures because of insufficient licensed uplink traffic volume
Number of E-RAB setup failures because of a low downlink satisfaction rate
Number of E-RAB setup failures because of a low uplink satisfaction rate
Number of setup failures of E-RABs for voice services because of no responses from the UE in a cel
Number of MME-triggered setup failures of E-RABs for voice services
Number of setup failures of E-RABs for voice services because of faults at the transport network lay
Number of setup failures of E-RABs for voice services because of faults at the radio network layer
Number of setup failures of E-RABs for voice services because of insufficient radio resources
Number of setup failures of E-RABs for voice services because of security mode configuration failur
Number of setup failures of E-RABs for voice services because the RLC PDU for an SRB has been re for the maximum number of times Number of setup failures of E-RABs for voice services because of insufficient SRS resources
Number of setup failures of E-RABs for voice services because of insufficient PUCCH resources
Number of setup failures of E-RABs for voice services because of insufficient licensed downlink traffi
Number of setup failures of E-RABs for voice services because of insufficient licensed uplink traffic
Number of setup failures of E-RABs for voice services because of a low downlink satisfaction rate
Number of setup failures of E-RABs for voice services because of a low uplink satisfaction rate
Number of setup failures of E-RABs for voice services because of insufficient downlink transport res
Number of setup failures of E-RABs for voice services because of insufficient uplink transport resou
Number of E-RAB setup failures due to normal release initiated by eNodeB
Number of E-RAB setup failures due to abnormal release initiated by eNodeB
Counter ID Counter Name 1526727089 L.RRC.ReEst.ReconfFail.Rej
1526727092 L.RRC.ReEst.HoFail.Rej
1526727093 L.RRC.ReEstFail.ResFail
1526727094 L.RRC.ReEstFail.NoReply
1526727094 L.RRC.ReEstFail.NoReply
1526728270 L.RRC.ReEstFail.Rej
1526728271 L.RRC.ReEstFail.NoCntx
1526730857 L.RRC.ReEstFail.NoCntx.PreProcFail
Counter Description Number of rejected RRC connection reestablishment attempts triggered by reconfiguration failures
Number of rejected RRC connection reestablishment attempts triggered by handover failures
Number of RRC connection reestablishment failures due to failed resource allocations
Number of RRC connection reestablishment failures due to no responses from the UE
Number of RRC connection reestablishment failures due to no responses from the UE
Total number of RRC connection reestablishment rejections
Number of RRC connection reestablishment failures due to UE context unavailability
Number of RRC connection reestablishment failures due to UE context unavailability caused by the pre
Original Release BTS3900: V100R008C00 BTS3900 LTE: version earlier than V100R003C00 BTS3900: V100R008C00 BTS3900 LTE: version earlier than V100R003C00 BTS3900: V100R008C00 BTS3900 LTE: V100R003C00 BTS3900: V100R008C00
Dengan hormat bapak bapak, dalam 3 minggu kedepan saya coba share sebanyak mungkin tentang L
Untuk topik 7 kali ini, kita akan membahas tentang CQI. Dan dimana (hampir sama dengan HSPA) CQI which modulation could be used”.
Tidak seperti HSPA yang mempunyai 5 bit nilai CQI (dimana 2 Pangkat 5, maximum = 32 data , dari 0 (dimana 2 pangkat 4 = 16, dari 0 sampai 15).
Dan untuk evaluasi CQI di Huawei system, dapat diambil dari counter berikut (dan di rata rata) à L.Ch
è Contoh kasus :
Di West Java LTE Area, terdapat satu site “L_Cimindi” mempunyani worst average CQI (dibawah 10), la tetangga yang overshoot. Dan hasilnya adalah improve nilai CQI (yang bergaris biru) dari rata rata se average throughput yang meningkat.
ntuk topik ke 6 kali ini, kita akan membahas QOS di LTE. Seperti kita ketahui di 3G QOS nya adalah Ba Conversational.
Sedangkan untuk di LTE adalah seperti “snapshot dibawah”, dimana kita juga bisa check / verify langs umunya counter counter Huawei yang terkait ke user, attempt dan payload dan lain lain sudah bisa d QOS 6, contoh ada dibawah
PCI PSS SSS
PCI Planning In PCI planning we usually consider the Primary Sync Signal (PSS) and Secondary Sync Signal (SSS) where every cell has a unique PCI. A PCI is a combination of one of the three unique (orthogonal) PSS sequences and one of 168 cell group identity (or SSS) sequences that make a range of 0 to 503 unique identities. To minimize interference, the thumb rule is to ensure that neighboring cells shall not transmit the same PSS. This ensures that sync signal and reference signals do not interfere with each other.
Physical Cell Identity Primary Sync Signal Secondary Sync Signal