中級培訓(xùn)第二模塊之一參數(shù).ppt

中級培訓(xùn)第二模塊 一,參 數(shù),中國移動通信集團河南有限公司網(wǎng)優(yōu)專家小組,課程時間,08:15 開始 12:45 結(jié)束 15:00 開始 17:30 結(jié)束 約二天時間。,CHANNEL CONFIGURATIONS Contents,CHANNEL CONFIGURATIONS Time Slots and Frames,0,1,2,24,25,0,1,2,49,50,0,7,Hyperframe = 2048 Superframes,Superframe = 26x51 or 51x26 Multiframes,26 Multiframe = 120 ms,51 Multiframe = 235 ms,TDMA frame = 4.615 ms,TCH,SIGN.,CHANNEL CONFIGURATIONS Burst Period,0,7,TDMA frame = 4.615 ms = BURST PERIOD,0,0,0,f,s,CHANNEL CONFIGURATIONS Logical Channels, Downlink,BSS - MS,BCH,CCCH,FCCH,SCH,BCCH,PCH,AGCH,DCCH,TCH,SDCCH,SACCH,FACCH,TCH/F,TCH/H,COMMON CHANNELS,DEDICATED CHANNELS,CHANNEL CONFIGURATIONS Logical Channels, Uplink,MS - BSS,CCCH,RACH,DCCH,SDCCH,SACCH,FACCH,COMMON CHANNELS,DEDICATED CHANNELS,TCH,TCH/F,TCH/H,FCCH頻率校正信道：給提供一個標(biāo)志，使它們在若干之間發(fā)現(xiàn)包含廣播傳輸?shù)?，移動臺開機后，搜尋這個信號 SCH同步信道:包含基站識別碼BSIC和簡化的TDMA幀號.BSIC用于識別不同的小區(qū),TDMA幀號用于話間加密. BCCH廣播控制信道:包含了詳細的網(wǎng)絡(luò)和小區(qū)信息, 如:服務(wù)區(qū)和鄰小區(qū)的頻率. 跳頻序列,信道組合方式,COMBINE 等; 尋呼組,通常一個小區(qū)有多個尋呼信道,為了防止移動臺為了一個尋呼消息而偵聽所有的尋呼信道,尋呼信道以只有某一組移動臺偵聽某一特定的尋呼信道的方式分開;鄰小區(qū)信息,MS必須知道目前小區(qū)的鄰區(qū)是什么,以及它們廣播頻率. PCH尋呼信道:下行,尋呼用戶時用,它是由位置區(qū)的所有BTS廣播的. RACH隨機接入信道:CCCH中唯一的上行鏈路.用于MS啟動一事務(wù),主叫,或作為PCH的應(yīng)答. AGCH準(zhǔn)許接入信道;為MS指派一個SDCCH,是下行的. SDCCH獨立專用控制信道,用于呼叫建立,鑒權(quán),位置更新,TCH分配,短消息. SACCH慢隨路控制信道:SACCH伴隨著SDCCH和TCH,用于發(fā)送測量報告,功率控制,時間校準(zhǔn),MS通話時發(fā)送短信. FACCH快隨路控制信道:用于切換時,它與一個TCH對應(yīng),代替20MS的話間,工作于偷幀模式. TCH業(yè)務(wù)信道:傳送話音與數(shù)據(jù),TCHF是全速13.3Kbit/s,TCHH是半速率5.6, EFR增加型全速率,13.3,但編碼方式與全速率不同,在話音質(zhì)量上有更一步提高.,CHANNEL CONFIGURATIONS Configuration of Signalling Channels,0,7,Separated Configuration,Combined Configuration,0,7,ts0=bcch/pch/agch,ts1=sdcch/8,ts0=bcch/sdcch/4/pch/agch,CHANNEL CONFIGURATIONS Combined CCCH/SDCCH/4 Multiframe,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,t,t,t,t,t,t,t,t,f,f,t,t,t,t,t,t,t,t,f,s,f,s,s,s,s,s,s,s,s,s,t,t,t,t,r,r,s,f,s,s,s,s,s,s,r,r,r,r,r,r,r,s,f,r,r,r,r,r,r,r,r,r,r,f,r,r,r,r,t,r,t,t,t,r,f,t,t,t,r,t,r,t,t,t,Downlink,Uplink,CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH/SACCH c = CCCH t = SDCCH/4,51 TDMA frames = 235 ms,t,0,50,1.,2.,3.,4.,i,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,c,c,c,c,c,c,c,c,f,f,c,c,c,c,c,c,c,c,f,s,f,c,c,c,c,c,c,c,c,s,r,r,r,r,r,r,r,f,r,r,r,r,r,r,r,r,r,r,r,r,r,r,f,r,r,r,r,r,r,r,r,r,r,f,r,r,r,r,r,r,r,r,r,r,f,r,r,r,r,r,r,r,r,r,Downlink,Uplink,CHANNELS f = FCCH b = BCCH r = RACH i=idle s = SCH c = CCCH = PCH/AGCH,51 TDMA frames = 235 ms,r,0,50,CHANNEL CONFIGURATIONS BCCH/CCCH Multiframe,i,CHANNEL CONFIGURATIONS SDCCH/8 Multiframe,Downlink,Uplink,CHANNELS t = SDCCH/8 s = SACCH/8 i=idle,51 TDMA frames = 235 ms,1.,2.,3.,5.,6.,7.,8.,4.,CHANNEL CONFIGURATION Number of Blocks for AGCH only,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,c,c,c,c,c,c,c,c,f,f,c,c,c,c,c,c,c,c,f,s,f,c,c,c,c,c,c,c,c,s,BCCH/CCCH,CHANNELS f = FCCH b = BCCH t = SDCCH/4 i=idle s = SCH/SACCH c = CCCH = PCH/AGCH,51 TDMA frames = 235 ms,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,t,t,t,t,t,t,t,t,f,f,t,t,t,t,t,t,t,t,f,s,f,s,s,s,s,s,s,s,s,s,1,2,3,4,5,6,7,8,9,1,2,3,BCCH/SDCCH/4,i,i,CHANNEL CONFIGURATIONS Full Rate Traffic Channel (TCH) Multiframe,t,t,t,t,t,t,t,f,t,t,t,t,t,t,t,t,t,t,t,f,t,t,t,t,t,Downlink and Uplink,CHANNELS t = TCH s = SACCH i=idle,t,s,26 TDMA frames = 120 ms,0,25,i,CHANNEL CONFIGURATIONS Half Rate Traffic Channel (TCH) Multiframe,Downlink and Uplink,CHANNELS t = TCH s = SACCH i=idle,26 TDMA frames = 120 ms,0,25,Downlink and Uplink,CHANNELS t = TCH s = SACCH i=idle,26 TDMA frames = 120 ms,0,25,CHANNEL CONFIGURATIONS SDCCH Capacity,Location updates,Short Message Service imsi attached/detached,Call setup,SDCCH used in,CHANNEL CONFIGURATIONS SDCCH Capacity (a),Example (Call establishment and Location Update included) Call Establishment 2 TRXs / Cell 8.11 Erl / Cell (1% Blocking probability) 1,5 min / Subs / BH = 25 mErl. / Subs 8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell Authentication and Ciphering = 7 sec = 1.94 mErl / Call (SDCCH reservation time) = 325 Calls / Cell * 1.94 mErl / Call = 0.6305 Erl / Cell (SDCCH) Location Update Location Updates once in 60 minutes ( parameter timerPeriodicUpdateMS ) 325 Subs / Cell SDCCH reservation time for Location Update = 7 sec = 1.94 mErl = 325 Calls / Cell * 1.94 mErl / Call = 0.6305 Erl / Cell (SDCCH) Call Establishment and Location Update together 0.632 Erl + 0.632 Erl = 1.261 Erl / Cell With 1% Blocking Probability ( Erlang B table ) = 5 SDCCH / Cell Combined BCCH/SDCCH channel structure is not possible in this case ! Separate Configuration (1 BCCH/CCCH and 1 SDCCH/8) is needed!,CHANNEL CONFIGURATIONS Erlang B Table,CHANNEL CONFIGURATIONS SDCCH Capacity (b),Example (Call establishment and Location Update included) Call Establishment 2 TRXs / Cell 8.11 Erl / Cell (1% Blocking probability) 1,5 min / Subs / BH = 25 mErl. / Subs 8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell Authentication and Ciphering = 7 sec = 1.94 mErl / Call (SDCCH reservation time) = 325 Calls / Cell * 1.94 mErl / Call = 0.6305 Erl / Cell (SDCCH) Location Update Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS ) 325 Subs / Cell SDCCH reservation time for Location Update = 7 sec = 1.94 mErl = 325 Calls / Cell * 1.94 mErl / Call * 1/2 = 0.31525 Erl / Cell (SDCCH) Call Establishment and Location Update together 0.6305 Erl/Cell + 0.31525 Erl/Cell = 0.94575 Erl/Cell (SDCCH) With 1% Blocking Probability ( Erlang B table ) = 4 SDCCH / Cell Combined BCCH/SDCCH channel structure is possible in this case !,CHANNEL CONFIGURATIONS SDCCH Capacity (c),Example (Call establishment and Location Update included) Call Establishment 2 TRXs / Cell 8,11 Erl / Cell (1% Blocking probability) 1,5 min / Subs / BH = 25 mErl. / Subs 8,11 Erl / Cell /25 mErl. / Subs = 325 Subs / Cell Authentication and Ciphering = 7 sec = 1,94 mErl / Call (SDCCH reservation time) = 325 Calls / Cell * 1,94 mErl / Call = 0,6305 Erl / Cell (SDCCH) Location Update Location Updates once in 120 minutes ( parameter timerPeriodicUpdateMS ) 325 Subs / Cell SDCCH reservation time for Location Update = 7 sec = 1,94 mErl = 325 Calls / Cell * 1,94 mErl / Call * 1/2 = 0,31525 Erl / Cell (SDCCH) SMS SMS traffic estimation 1.0 mErl / subscriber = 325 Calls / Cell * 1 mErl / Call = 0,325 Erl / Cell (SDCCH) Call Establishment, Location Update and SMS together 0,6305 Erl/Cell + 0,31525 Erl/Cell + 0,325 Erl/Call = 1,27075Erl/Cell (SDCCH) With 1% Blocking Probability ( Erlang B table ) = 5 SDCCH / Cell Separated channel structure is possible in this case,CHANNEL CONFIGURATIONS Paging Capacity,Example Combined BCCH / SDCCH Configuration One Block Reserved for AGCH = 2 Blocks for PCH Paged Mobile Stations per Paging_Request Message :From 2 to 4, in Average 3 In Average 2 Pages per Mobile Station 3 Pages/Blocks * 2 Blocks = 6 Pages every 51-frames Multiframe ( 235 ms. ) 2 Pages / Paged MS = 3 Paged MS every 235 ms. ( ( 3600 * 1000 ) / 235 ) * 3 = 45957 Paged MS per Hour. Worst Case All Transactions are Mobile Terminating All Cells in Location Area get the same PCH Load Capacity With one TRX 2.95 Erl. 25 mErl. / subs. = 120 subscribers,Capacity of PCH calculated for a Location Area,CHANNEL CONFIGURATION Number Of Blocks for Access Grant,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,c,c,c,c,c,c,c,c,f,f,c,c,c,c,c,c,c,c,f,s,f,c,c,c,c,c,c,c,c,s,BCCH/CCCH,CHANNELS f = FCCH b = BCCH t = SDCCH/4 s = SCH/SACCH c = CCCH = PCH/AGCH,51 TDMA frames = 235 ms,f,s,b,b,b,b,c,f,c,f,c,s,c,c,c,c,c,c,c,c,f,c,f,s,t,t,t,t,t,t,t,t,f,f,t,t,t,t,t,t,t,t,f,s,f,s,s,s,s,s,s,s,s,s,1,2,3,4,5,6,7,8,9,1,2,3,BCCH/SDCCH/4,CHANNEL CONFIGURATIONS CCCH Improvements (1),numberOfBlocksForAccessGrant (AG) = 0 , setting Pages used to have always priority in CCCH blocks no matter what numberOfBlocksForAccessGrant setting was. Now ,If numberOfBlocksForAccessGrant =0 then AGCH messages would have priority over PCH messages. If numberOfBlocksForAccessGrant 0 then PCH messages would have priority over AGCH messages . Thus capacity can be dynamically shared between PCH and AGCH = better throughput for PCH especially for combined-BCCH,CHANNEL CONFIGURATIONS Number of Multiframes Between Paging(MFR),# of 51 TDMA frame multiframes (29) between transmissions of Paging_Request messages to mobiles of the same paging group. # of paging groups = numberOfBlocksForAccessGrant * noOMultiframesBetweenPaging = Page / group every 2 . 9 * 235 ms = 0.47 . 2.115 s Mobile Station calculates its Paging Group based on IMSI and on the Number of Paging Groups.,CHANNEL CONFIGURATIONS Number of Multiframes Between Paging,Affects of the # of the Paging Groups Battery Consumption of the Mobile Station 手機省電 Speed of Call Setups 呼叫速度 根據(jù)CCCH、AG和MFR的定義，可以計算出每個小區(qū)尋呼子信道的個數(shù)： 當(dāng)CCCH與SDCCH共用一個物理信道時：（3AG）MFR。 當(dāng)CCCH不與SDCCH共用物理信道時：（9AG）MFR。 當(dāng)參數(shù)MFR越大，小區(qū)的尋呼子信道數(shù)也越多，相應(yīng)屬于每個尋呼子信道的用戶數(shù)越少（參見GSM規(guī)范05.02尋呼組計算方式），因此尋呼信道的承載能力加強,上述優(yōu)點的獲得是以犧牲尋呼消息在無線信道上的平均時延為代價的，即MFR越大使尋呼消息在空間段的時間延遲增大，系統(tǒng)的平均服務(wù)性能降低。,設(shè)置MFR時建議參考下列原則： MFR的選擇以保證尋呼信道不發(fā)生過載為原則，在此前提下應(yīng)使該參數(shù)盡可能小。 一般建議：對尋呼信道負載很大的地區(qū)（通常指話務(wù)量很大的區(qū)域）， MFR設(shè)置為8或9（即以8個或9個復(fù)幀作為尋呼組的循環(huán)）；對尋呼信道負載一般的地區(qū)（通常指話務(wù)量適中的區(qū)域），MFR設(shè)置為6或7（即以6個或7個復(fù)幀作為尋呼組的循環(huán)）；對尋呼信道負載較小的地區(qū)（通常指話務(wù)量較小的區(qū)域），MFR設(shè)置為4或5（即以4個或5個復(fù)幀作為尋呼組的循環(huán)）。 在運行的網(wǎng)絡(luò)中應(yīng)定期測量尋呼信道的過載情況，并以此為根據(jù)適當(dāng)調(diào)整 MFR的數(shù)值。,CHANNEL CONFIGURATIONS RACH Controlling,RET:Number of retransmission = maxNumberRetransmission (1, 2, 4, 7) 當(dāng)對信道請求無響應(yīng)時，允許手機重發(fā)請求的最大次數(shù),SLO:window = numberOfSlotsSpreadTrans (3 . 12, 14, 16, 20, 25, 32, 50),0,0,1 RACH (Re)transmission during the window,= Total time for RACH = maxNumberRetransmission * numberOfSLotsSpreadTrans +.,TDMA-frames,三個參數(shù)，即：發(fā)送分布時隙數(shù)SLO、最大重發(fā)次數(shù)RET和與參數(shù)SLO及信道組合有關(guān)的參數(shù)S。,參數(shù)SLO越大，移動臺發(fā)送信道請求消息之間的間隔的變化范圍越大，RACH沖突的次數(shù)相應(yīng)減少。參數(shù)S越大，移動臺發(fā)送信道請求消息之間的間隔越大，RACH信道上的沖突減少，然而，參數(shù)SLO和S的增大卻會延長移動臺的接入時間，從而導(dǎo)致整個網(wǎng)絡(luò)的接入性能下降，因此必須選擇合適的SLO和S。,CHANNEL CONFIGURATIONS Parameters Related to Signalling,noOfMultiframesBetweenPaging(MFR) 2 . 9,numberOfBlocksForAccessGrant (AG) 0 . 7 (if BCCH/CCCH used) 0 . 2 (if combined BCCH/SDCCH used),maxNumberRetransmission(RET) 1, 2, 4, 7 (RACH control),numberOfSlotsSpreadTrans(SLO) 3 . 12, 14, 16, 20, 25, 32, 50 (RACH control),Parameters,Value,IDLE MODE,什么是 手機開機 沒有專用連接 會選擇一個最適合的小區(qū)接入以收聽下行上的系統(tǒng)信息，需要時可發(fā)起呼叫，當(dāng)被叫時可被網(wǎng)絡(luò)定位 的三個任務(wù)： 選網(wǎng) 小區(qū)選擇和小區(qū)重選 位置更新,locationAreaId,ncc (Network Colour Code) 0 7 bcc (BTS Colour Code) 0 7,bsIdentityCode,cell-ID 0 65535,Parameter,Value,trainingSequenceCode 0 7,IDLE MODE OPERATION IDs and ID Codes,mcc (Mobile Country Code) 0 999 mnc (Mobile Network Code) 0 99 lac (Location Area Code) 0 65535,Cell Global Identity(CGI) MCC + MNC + LAC + CI,IDLE MODE OPERATION BaseStation Identity Code (BSIC),BSIC is a combination of NCC and BCC Reported in Measurement Results to BSC Can be listed in Hex or Decimal,IDLE MODE OPERATION Base Station Colour Code,MNC = Operator,MCC = Country e.g Finland,LAC 1 = Helsinki,LAC 2,LAC 3,LAC 4,f1,f2,f3,f1,f1,bcc = 1,bcc = 2,bcc = 3,Neighbour list of f3: f1 f2 .,Location Area Code,BSC,BTS,BTS,BTS,1,2,n,initialFrequency 1 . 124 GSM 900 512 885 GSM 1800 512 810 GSM 1900,Parameter,Value,bCCHAllocation-ID 1 . 128(660) in GSM bCCHAllocationList 1 . 124 in GSM ( max. 32 freq. for all bands),(IDLE)idleStateBCCHAllocation(空閑模式) 0 (BCCH list is taken from the adjacent cell) 1 . 128(660) (number of the BCCH list used) (ACT)measurementBCCHAllocation(占用模式)ADJ (BCCH frequency list taken from adj. cell) IDLE (active MS uses the same list as MS in IDLE mode),IDLE MODE OPERATION Frequencies,plmnpermitted(PLMN) 0 . 7,Parameter Value,IDLE MODE OPERATION PLMN Selection,Two Modes（手機設(shè)置，自動還是手動設(shè)置PLMN的選擇） Automatic Manual,該參數(shù)的設(shè)置不當(dāng)可能是引起掉話的主要原因之一。,IDLE MODE OPERATION Cell Selection in Idle Mode,Two methods: a) Normal cell selection b) Stored list cell selection (opt),If no suitable cell found with with method b) then a) is tried. b)搜尋上次關(guān)機時,手機中存的那個頻點,如果沒有進行a)所有頻點全聽, 找一個最好的。,IDLE MODE OPERATION Suitable cell to camp on,Cell is in the selected PLMN Cell is not barred It is not in a forbidden location area for national roaming 位置區(qū)是允許的 C1 0,IDLE MODE OPERATION Cell Barred,Existing Layer Barred, No,New Microcell Layer Barred, Yes,Call setup on macro,GPS-satellite,Measurement System,cellBarQualify(QUA) Y cell bar can be overridden不考慮CELLBAR N cell bar can not be overridden 要聽CELLBAR,Example,cellBarred(BAR) Y cell is barred N cell is not barred,IDLE MODE OPERATION Cell Selection in Idle Mode- Implementation,Radio Criteria C1 = (A - Max(B,0) A = Received Level Average - p1 B = p2 - Maximum RF Output Power of the Mobile Station p1 = rxLevelAccessMin Min. received level at the MS required for access to the system p2 = msTxPowerMaxCCH Max. Tx power level an MS may use when accessing the system,rxLevelAccessMin(RXP) -110 . -47 msTxPowerMaxCCH(TXP1) 5 39,Parameter Value,IDLE MODE OPERATION Cell Re-selection in Idle Mode,Cell re-selection is needed if Path Loss criterion C1 最大重傳次數(shù),MS will calculate the C1 and C2 for the serving cell, every 5 s MS will calculate the C1 and C2 for the neighbour cells, every 5 s,cellReselectParamInd(PI) Y C2 reselection parameters are broadcast N C2 reselection parameters are not broadcast,cellReselectOffset (REO) 0 . 126 (dB) 2 dB step penaltyTime(PET) 20 . 640 (s) 20 s step temporaryOffset(TEO) 0 . 70(dB) 10 dB step (the value is negative),Parameter Value,C1 + cellReselectOffset - temporaryOffset*H(penaltyTime-T) penaltyTime,IDLE MODE OPERATION Cell Re-selection with C2, continues,IDLE MODE OPERATION Cell Re-selection,cellReselectHysteresis(HYS) (0 14 dB) (mentioned in RR Management in IDLE mode Control).,A = 4 dB,B = 6 dB,C = 8 dB,A,B,C,1,2,1,2,MS Moving,A,B,C,LA1,LA2,IDLE MODE OPERATION Cell Re-selection,cellReselectHysteresis (0 14 dB),cellReselectHysteresis,The nominal LA border,The real LA border,L1,L2,timerPeriodicUpdateMS(PER) 0.0 . 25.5 (hours) allowIMSIAttachDetach (ATT) Yes/No,Parameter Value,IDLE MODE OPERATION Location Update,MS = MSC / VLR Mobile Station switched ON No IMSI Attach / Detach Same Location Area = No Location Update Different Location Area = Location Update Change of the Location Area Location Area under the same MSC / VLR Location Area under another MSC /VLR = HLR will be updated Service is rejected (MS unknown in VLR) Time Periodic (MS - MSC/VLR),GSM系統(tǒng)中發(fā)生位置更新的原因主要有兩類，一種是移動臺發(fā)現(xiàn)其所在的位置區(qū)發(fā)生變化（LAC不同）；另一種是網(wǎng)絡(luò)規(guī)定移動臺周期地進行位置更新。周期位置更新的頻度是由網(wǎng)絡(luò)控制的，周期長度由參數(shù)PER確定。 PER的取值范圍為6分鐘25小時30分，以6分鐘為步長。 PER設(shè)置為0表示小區(qū)中不用周期的位置更新。 周期位置更新是網(wǎng)絡(luò)與移動用戶保持緊密聯(lián)系的一種重要手段，因此周期時間越短，網(wǎng)絡(luò)的總體服務(wù)性能越好。但頻繁的周期更新有兩個負作用：一是網(wǎng)絡(luò)的信令流量大大增加，對無線資源的利用率降低，在嚴重時會直接影響系統(tǒng)中各個實體的處理能力（包括MSC、BSC和BTS）；另一方面則使移動臺的功耗增大，使系統(tǒng)中移動臺的平均待機時間大大縮短。因此PER的設(shè)置需權(quán)衡網(wǎng)絡(luò)各方面的資源利用情況而定。,IMSI分離過程是指移動臺向網(wǎng)絡(luò)通告它正從工作狀態(tài)進入非工作狀態(tài)（通常指關(guān)機過程），或SIM卡已從移動臺中取出的過程。網(wǎng)絡(luò)在收到移動臺的通告后將指示該IMSI用戶處于非工作狀態(tài)，因此以該用戶作為被叫的接續(xù)請求將被拒絕。與分離過程相應(yīng)的是IMSI結(jié)合過程，它是指移動臺向網(wǎng)絡(luò)通告它已進入工作狀態(tài)（通常指開機過程），或SIM卡再次被插入移動臺。移動臺重新進入工作狀態(tài)后將檢測當(dāng)前所在位置區(qū)（LAI）是否和最后記錄在移動臺中的LAI相同，若相同則移動臺啟動IMSI結(jié)合過程，否則移動臺啟動位置更新過程（代替IMSI結(jié)合過程）。網(wǎng)絡(luò)接收到位置更新或IMSI結(jié)合過程后，將指示該IMSI用戶正處于工作狀態(tài)。 參數(shù)ATT用于通知移動臺，在本小區(qū)內(nèi)是否允許進行IMSI結(jié)合和分離過程。 ATT的取值有2種，即是或否（YES/NO）。NO表示不允許移動臺啟動IMSI結(jié)合和分離過程；YES則表示移動臺必須啟用結(jié)合和分離過程。ATT標(biāo)志通常應(yīng)設(shè)置為YES，以便在移動臺關(guān)機后網(wǎng)絡(luò)不再處理以該用戶為被叫的接續(xù)過程，這樣不僅節(jié)約了網(wǎng)絡(luò)各個實體的處理時間，還可以大大節(jié)約網(wǎng)絡(luò)的許多資源（如尋呼信道等）。 ATT的設(shè)置必須注意：在同一位置區(qū)的不同小區(qū)其ATT設(shè)置必須相同。因為，移動臺在ATT為YES的小區(qū)中關(guān)機時啟動IMSI分離過程，網(wǎng)絡(luò)將記錄該用戶處于非工作狀態(tài)并拒絕所有以該用戶為被叫的接續(xù)請求。若移動臺再次開機時處于它關(guān)機時的同一位置區(qū)（因此不啟動位置更新過程）但不同的小區(qū)，而該小區(qū)ATT設(shè)置為NO，因此移動臺也不啟動IMSI結(jié)合過程。在這種情況下，該用戶將無法正常成為被叫直到它啟動位置更新過程。,MEASUREMENTS Contents,1. Coding Level and Quality 2. MS Measurements in Idle Mode 3. MS Measurements in Dedicated Mode,MEASUREMENTS Coding of Level and Quality,LEVEL,QUALITY,P (dBm) FS (dBuV/m) LEV -110 27 0 -109 28 1 -108 29 2 . . . . . . . . . -49 88 61 -48 89 62 -47 90 63,BER (%) BER (%) QUAL RANGE MEAN 12.8 18.1 7,900 MHz,P=Power FS= Field Strength LEV= Level,BSC,BSC,MEASUREMENTS MS Measurements in IDLE Mode(GSM Specs),MS has to decode BCCH of serving (camped) cell every 30 s MS has to decode BCCH of adjacent cells at least every 5 min Pre-synchronization（預(yù)同步） and BSIC-decoding of neighbours Once in 30 s List of 6 best neighbours is updated every 60 s New neighbour BCCH decoding in 30 s,MEASUREMENTS MS Measurements in DEDICATED Mode (1),Measures the Lev and Qual of the Server,Detects whether DTX is used,26-FRAME MULTIFRAME 120 ms,TDMA FRAMES:,TCH,SACCH,IDLE,Measures the BA frequencies (System Info 5),BSIC decoding of at least one neighbour,Pre-Synchronization on SCH,TDMA FRAME 4.615 ms,SACCH PERIOD = 480 ms,RX,TX,RX,TX,RX,TX,MEAS,MEAS,MEAS,MEASUREMENTS MS Measurements in DEDICATED Mode (2) (GSM specs),Pre-synchronization and BSIC-decoding of adjacent cells Once in 10 s New neighbour 5 s decoding BSIC + Pre-synchronization If not succesfull Old neighbour list + New try Measurement results of 6 best neighbours will be sent to BSC Every SACCH period 480 msec.,MEASUREMENT PROCESSING Contents,1. Pre-Processing in BTS 2. Averaging and Sampling 3. DTX and Weighting 4. Processing in BSC 5. Bookkeeping 6. Parameters related to Measurements and Measurement Processing,btsMeasAver(BMA) 1 . 4 (SACCH Period),Parameter Value,MEASUREMENT PROCESSING Pre-processing in BTS,For MS and BTS measurements Average measurements over 1, 2, 3 or 4 SACCH-period Cause a delay (btsMeasAver-1) x 480 ms Reduce a transmission load and a processing load in BSC,BTS和MS必須對處于激活狀態(tài)的無線信道進行測量（包括接收電平和接收質(zhì)量的測量）。MS需將測量結(jié)果以測量報告的形式通過SACCH報告給BTS。BTS則需對由BTS測量的上行結(jié)果和由MS測量的下行結(jié)果進行平均統(tǒng)計，以此為功率控制和越區(qū)切換的依據(jù)。對