BAB III PENGUMPULAN DATA PERFORMANCE 3.1 Diagram Alur Load Balancing Multicarrier Strategic Planning Pengumpulan data Pengambilan raw data Before KPI Reporting, Mobility Reporting, & Traffic Payload Reporting Change request by parameter loadbalancing Eksekusi by OSS Team Pengumpulan Data Pengambilan raw data target balancing (end) Analisa parameter KPI KPI Reporting, Mobility Reporting, & Traffic Payload Reporting After selesai Gambar 3.1 Diagram Alur Load Balancing Multicarrier Strategic [2] 33
34 3.2 Proses pengambilan data Berikut adalah langkah-langkah proses pengambilan raw data KPI RNC yang dimana nodeb sudah terimplementasi 3rd carrier dalam penelitian ini: 1. Pilih RNC yang telah memiliki Node B dan terimplementasi 3rd carrier Tabel 3.1 Tabel Plan RNC Date Execution Batch RNC Executed March 28,2014 Batch0 (Trial) Meruya2, TBS4 Monday, April 14, 2014 Batch1 Bogor, Cikupamas,Buaran2 Wednesday, April 16, 2014 Batch2 Buaran3, Buaran5, Buaran4 Tuesday, April 24, 2014 Batch3 TBS1, Buaran1, BuaranMetro Thursday, April 29, 2014 Batch4 TTC BSD1, TTC BSD2, TBSMetro,Meruya 2. Buka NMS Server U2000 Huawei Gambar 3.2 Login U2000 3. Login dengan user dan password ke server 10.2.160.123 4. Setelah login, counter-counter raw data dimasukkan ke query data U2000 sesuai tabel formula di bawah ini:
35 Tabel 3.2 Tabel Counter & Formula KPI Formula Counter Level [RRC SR ([RRCSuccConnEstabOrgConvCall]+[RRCSuccConnEstabOrgStrCall]+[RRCSuccConn EstabOrgInterCall]+[RRCSuccConnEstabOrgBkgCall]+[RRCSuccConnEstabOrgSubCa ll]+[rrcsuccconnestabtmconvcall]+[rrcsuccconnestabtmstrcall]+[rrcsuccco nnestabtmitrcall]+[rrcsuccconnestabtmbkgcall]+[rrcsuccconnestaborghhprsi g]+[rrcsuccconnestaborglwprsig]+[rrcsuccconnestabcallreest]+[rrcsucccon nestabtmhhprsig]+[rrcsuccconnestabtmlwprsig]) [RRC SR ([RRCAttConnEstabOrgConvCall]+[RRCAttConnEstabOrgStrCall]+[RRCAttConnEsta borgintercall]+[rrcattconnestaborgbkgcall]+[rrcattconnestaborgsubcall]+[rr CAttConnEstabTmConvCall]+[RRCAttConnEstabTmStrCall]+[RRCAttConnEstabTmI ntercall]+[rrcattconnestabtmbkgcall]+[rrcattconnestaborghhprsig]+[rrcatt ConnEstabOrgLwPrSig]+[RRCAttConnEstabCallReEst]+[RRCAttConnEstabTmHhPrSi g]+[rrcattconnestabtmlwprsig]) [RAB SR Voice [RAB SR Voice [RAB SR PS [VSRABSuccEstabCSAMR] [VSRABAttEstabAMR] [VSRABSuccEstabPSInt]+[VSRABSuccEstabPSBkg]+[VSRABSuccEstabPSStr]+[VSR ABSuccEstabPSConv] [RAB SR PS [VSRABAttEstabPSInt]+[VSRABAttEstabPSBkg]+[VSRABAttEstabPSStr]+[VSRAB AttEstabPSConv] [RAB SR HSDPA [RAB SR HSDPA [CDR Voice [CDR Voice [VSHSDPARABSuccEstab] [VSHSDPARABAttEstab] [VSRABAbnormRelAMR] [VSRABAbnormRelAMR]+[VSRABNormRelAMR] [SHO SR [VSSHOSuccRLAdd]+[VSSHOSuccRLDel] [SHO SR [VSSHOAttRLAdd]+[VSSHOAttRLDel] [ISHO SR [IRATHOSuccOutCS] [ISHO SR [RAB SR Video [RAB SR Video [CDR Video [CDR Video [ISHO PS SR [ISHO PS SR [HSDPAUEMean ] [IRATHOAttOutCS] [VSRABSuccEstCSConv64] [VSRABAttEstCSConv64] [VSRABAbnormRelCS64] [VSRABAbnormRelCS64]+[VSRABNormRelCS64] [IRATHOSuccOutPSUTRAN] [IRATHOAttOutPSUTRAN] [VSHSDPAUEMean]
36 [ Unavailable Time(m)] [VSUnavailTime]/60 [PS DL Payload(Mb)] ([VSPSBkgDL16Traffic]+[VSPSBkgDL32Traffic]+[VSPSBkgDL64Traffic]+[VSPSBk gdl128traffic]+[vspsbkgdl144traffic]+[vspsbkgdl256traffic]+[vspsbkgdl38 4Traffic]+[VSPSIntDL8Traffic]+[VSPSIntDL16Traffic]+[VSPSIntDL32Traffic]+[VSP SIntDL64Traffic]+[VSPSIntDL128Traffic]+[VSPSIntDL144Traffic]+[VSPSIntDL256T raffic]+[vspsintdl384traffic]+[vspsstrdl32traffic]+[vspsstrdl64traffic]+[vsp SStrDL128Traffic]+[VSPSStrDL144Traffic])/(1024*1024) [PS UL Payload(Mb)] ([VSPSBkgUL16Traffic]+[VSPSBkgUL32Traffic]+[VSPSBkgUL64Traffic]+[VSPSBk gul128traffic]+[vspsbkgul144traffic]+[vspsbkgul256traffic]+[vspsbkgul38 4Traffic]+[VSPSIntUL8Traffic]+[VSPSIntUL16Traffic]+[VSPSIntUL32Traffic]+[VSP SIntUL64Traffic]+[VSPSIntUL128Traffic]+[VSPSIntUL144Traffic]+[VSPSIntUL256T raffic]+[vspsintul384traffic]+[vspsstrul16traffic]+[vspsstrul32traffic]+[vsp SStrUL64Traffic])/(1024*1024) [HSPDA DL Payload(Mb)] ([VSHSDPAMeanChThroughputTotalBytes]*8)/(1024*1024) [IFHO SR [VSHHOSuccInterFreqOut] [IFHO SR [VSHHOAttInterFreqOut] [DRD SR [VSDRDRBSetupSuccOut] [DRD SR [RAB SR CS [RAB SR CS [VSDRDRBSetupAttOut] [VSRABSuccEstabCSAMR]+[VSRABSuccEstCSConv64] [VSRABAttEstabAMR]+[VSRABAttEstCSConv64] [CDR CS [VSRABAbnormRelAMR]+[VSRABAbnormRelCS64] [CDR CS [VSRABAbnormRelAMR]+[VSRABNormRelAMR]+[VSRABAbnormRelCS64]+[VS RABNormRelCS64] [CDR HSDPA [VSHSDPARABAbnormRel] [CDR HSDPA [VSHSDPARABAbnormRel]+[VSHSDPARABnormRel]+[VSHSDPARABNormRelUs rinact])+[vshsdpah2dsucc])+[vshsdpahhoh2dsuccoutintrafreq])+[vshsdp AHHOH2DSuccOutInterFreq]) [CDR PS [VSRABAbnormRelPS] [CDR PS [VSRABAbnormRelPS]+[VSRABNormRelPS]
37 5. Formula tersebut dimasukkan juga ke tools Ms. Access untuk diolah Gambar 3.3 Input formula di tools 6. Setelah selesai memasukkan counter-counter tersebut lalu query data berdasarkan tanggal yang diiinginkan. Dalam implementasi ini saya mulai ambil data dari awal tahun 2014, kemudian save data dari server ke komputer/laptop. Gambar 3.4 Raw data dari server
38 3.3 Proses pengolahan data 1. Buka tools Ms. Access kemudian klik Browse File untuk memilih raw data yang akan diolah Gambar 3.5 Browse File 2. Klik import setelah file yang terpilih sudah ada di list Gambar 3.6 Import
39 3. Setelah selesai import kemudian Compile Raw untuk menggabungkan antar raw data 4. Setelah itu ctrl+f pada tools, lalu ketik 3G_KPI Hourly, klik kanan di query 3G_KPI Hourly_Selected pilih design view. Gambar 3.7 Query data 5. Klik View / Run untuk menampilkan data kpi yang sudah diproses Gambar 3.8 Hasil pengolahan data 6. Copy data tersebut ke Ms. Excel untuk dianalisa lebih lanjut