DSdsV2 RENO_Project_`D o  CurrentTaskResource0 ? FailureTimeResource  Failure_FunctionResource aWEIBULLINV(RESET_RV(URN), Input_Data(Failure_Beta, Index), Input_Data(Failure_Eta, Index), 0)  Index Input_DataResource  200250356010010132.5310008502.521010 DTCost_PerHourInspectionCost_PerInsp PF_Interval PMCost_PerPM Failure_Beta Failure_Eta Repair_Beta Repair_EtaInspectionCosts_PUTResource ^if(CycleLenth>0,NumberOfInspections*Input_Data(InspectionCost_PerInsp, Index )/CycleLenth,0)  Index CycleLenthInspectionIntervalResourceP Y@LastInspectionResourcep NumberOfInspectionsResource`  NumberOfPartsResource@ @3Optimum Inspection Interval for Any Number of TasksDiagram%  !"#$%&'()*+,-./0123456789:;<=>@KLNYlm4` a b c ( +                       ! " # $ % & ' ( ) * + , - . / 0 1 H I J K L M N O tuvwxyz{|}~LMNO) * T <=nnnnnnn)\(4@)\(4@  )\(D@)\(D@ H@H@H@H@8@8@8&L&ZP &RKeep selection and do not ask again &P out of &N&C&ZI   Tahoma"@   Tahoma"@   Tahoma"@ ?  ƚK KJ  '' & MDCR-O. &MDCR-{  --'' &MDCR-T1;0;-1; &MDCR-F-t &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Fttt &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Fy ty &MDCR-T4;0;0; &MDCR-F t &MDCR-T4;0;0; &MDCR-F& t& &MDCR-T4;0;0; &MDCR-F}t} &MDCR-T4;0;0; &MDCR-F*t* &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-F/t/ &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-F3t3 &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-Ft &MDCR-T4;0;0; &MDCR-F;!t;! &MDCR-T4;0;0; &MDCR-F"t" &MDCR-T4;0;0; &MDCR-F "Tahoma4$ ww @wfl-!"ReliaSoft RENO - www.ReliaSoft.com2 &MDCR-T3;0;0; &MDCR-F &MDCR-S-' &MDCR-T2;0;0; &MDCR-F "Tahoma?0 Cww @wfl-!)Cost Per Unit Time vs. InspectionInterval &MDCR-T3;0;0; &MDCR-F &MDCR-S  "Tahoma4$ ww @wfl-J!Flowchart: Generic - Simulations per run: 10000 - Sensitivity Analysis (One Way): InspectionInterval - Multiple Analyses Disabled&2 &MDCR-T3;0;0; &MDCR-F &MDCR-S-~&~&' &MDCR-T2;0;0; &MDCR-F >"Tahoma?0 Eww @wfl-!InspectionInterval0% &MDCR-T3;0;0; &MDCR-F &MDCR-S>"Tahoma4$ ww @wfl-!Cost Per Unit TimeC &MDCR-T3;0;0; &MDCR-F &MDCR-S$tpt &MDCR-T4;0;0; &MDCR-F\"Tahoma?0 Gww @wfl- !35.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S$ p &MDCR-T4;0;0; &MDCR-F !65.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#p &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F#!p! &MDCR-T4;0;0; &MDCR-F-$M pM &MDCR-T4;0;0; &MDCR-F !41.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#x px &MDCR-T4;0;0; &MDCR-F# p &MDCR-T4;0;0; &MDCR-F# p &MDCR-T4;0;0; &MDCR-F# p &MDCR-T4;0;0; &MDCR-F-$&p& &MDCR-T4;0;0; &MDCR-F !47.000$i &MDCR-T5;0;0; &MDCR-F &MDCR-S-#RpR &MDCR-T4;0;0; &MDCR-F#}p} &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F-$p &MDCR-T4;0;0; &MDCR-F !53.000$C &MDCR-T5;0;0; &MDCR-F &MDCR-S-#+p+ &MDCR-T4;0;0; &MDCR-F#WpW &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F-$p &MDCR-T4;0;0; &MDCR-F !59.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#p &MDCR-T4;0;0; &MDCR-F#0p0 &MDCR-T4;0;0; &MDCR-F#[p[ &MDCR-T4;0;0; &MDCR-F#p &MDCR-T4;0;0; &MDCR-F-#B# &MDCR-T4;0;0; &MDCR-F !0.256R# &MDCR-T5;0;0; &MDCR-F &MDCR-SpBp &MDCR-T4;0;0; &MDCR-F !0.469R &MDCR-T5;0;0; &MDCR-F &MDCR-S-7B7 &MDCR-T4;0;0; &MDCR-F !0.298R &MDCR-T5;0;0; &MDCR-F &MDCR-SB &MDCR-T4;0;0; &MDCR-F !0.341R# &MDCR-T5;0;0; &MDCR-F &MDCR-SB &MDCR-T4;0;0; &MDCR-F !0.383Rr &MDCR-T5;0;0; &MDCR-F &MDCR-S" B" &MDCR-T4;0;0; &MDCR-F !0.426R &MDCR-T5;0;0; &MDCR-F &MDCR-S-%sdS3 ## p&MDCR-T 8;1000;0; &MDCR-F--3B&&MDCR-T8;1000;1;X = 35.000 Y = 0.342 &MDCR-F&!&&MDCR-T8;1000;2;X = 40.000 Y = 0.306 &MDCR-FSe  &&MDCR-T8;1000;3;X = 45.000 Y = 0.343 &MDCR-F2E&&MDCR-T8;1000;4;X = 50.000 Y = 0.306 &MDCR-FA#%"&&MDCR-T8;1000;5;X = 55.000 Y = 0.261 &MDCR-F$#&&MDCR-T8;1000;6;X = 60.000 Y = 0.256 &MDCR-F > &&MDCR-T8;1000;7;X = 65.000 Y = 0.469 &MDCR-F !GenericFpz! &MDCR-T6;0;0; &MDCR-F &MDCR-Sz!& &MDCR-T6;0;0; &MDCR-F6z!6& &MDCR-T6;0;0; &MDCR-F"R!&MDCR-T 7;1000;0; &MDCR-F-z!B"&MDCR-T 7;1000;0; &MDCR-F!Cost Per Unit Time""&MDCR-T 7;1000;0; &MDCR-F &MDCR-S ! User Name#!z! &MDCR-T6;0;0; &MDCR-F &MDCR-S !User's Company!z! &MDCR-T6;0;0; &MDCR-F &MDCR-S ! 12/1/2008"z! &MDCR-T6;0;0; &MDCR-F &MDCR-S ! 7:10:37 PM8#z! &MDCR-T6;0;0; &MDCR-F &MDCR-S-#z!#& &MDCR-T6;0;0; &MDCR-F &MDCR-}[--"Systemlfl !- #?IFž?{Gz?T?eX?ǘ?y):?Nz1?333333?TahomaTahoma|Tahoma|TahomaDBTahomaDBTahomaDBTahomaDBTahomaDBTahomaDBTahoma`Tahoma`TahomaDBTahoma|Z|This file provides a flowchart model that can be used to determine the optimum interval for any number of on-condition inspections, packaged together. The model was prepared by David Sada of Andromeda Systems and Arai Monteforte of ReliaSoft Corporation and the logic is described in detail in the attached article from Volume 9 Issue 2 of ReliaSoft's Reliability Edge newsletter.  ? )\(T@)\(D@ +@InspectionInterval(None)A@@P@Y@@$@ 0-C6?Y@+@@@ @@@@v@v@TahomaDBTahomaDB JIABMinimumMinimumMinimumMinimumMinimumd@ Data PointsCost Per Unit TimeCost Per Unit Timed? Analysis 2 Total Costs Analysis 2d?  Analysis 3 Total Costs Analysis 3*d? Analysis 4 Total Costs Analysis 4od? Analysis 5 Total Costs Analysis 5d?  GFA@@P@=_\?4fi??dGeneric0User Name User's Company 12/1/2008 7:10:37 PM"ReliaSoft RENO - www.ReliaSoft.comFlowchart: Generic - Simulations per run: 10000 - Sensitivity Analysis (One Way): InspectionInterval - Multiple Analyses Disabled)Cost Per Unit Time vs. InspectionIntervalInspectionIntervalCost Per Unit TimeColorColor = Size = X = Y =  Starts at:  Ends at:  Duration: ???*****Z a` Data PointsCost Per Unit TimeCost Per Unit Timed?A@hu?D@H?F@wo?I@jݍ?K@6E"?N@=_\?@P@4fi? ?SumB:: @    Tahoma"@    +  2Add Inspection Cost of A@Add Inspection Cost of A@  5@6@                           Failure CostswH:       RRepair_Function(CurrentTask) * Input_Data(DTCost_PerHour, CurrentTask)/FailureTime                              Add Inspection CostXwH:       0IN+InspectionCosts_PUT(CurrentTask, FailureTime)                               ,Did last inspection catch potential failure? B::       <=   ID:7340032  1  1  0  0                    F T Find Start of WearoutBH:        wif(FailureTime > Input_Data(PF_Interval, CurrentTask), FailureTime - Input_Data(PF_Interval, CurrentTask), FailureTime)                              Add Inspection CostX H:       3IN+InspectionCosts_PUT(CurrentTask, LastInspection)                              PM Costs H:       4Input_Data(PMCost_PerPM, CurrentTask)/LastInspection                               Get FailuretH:       Failure_Function(CurrentTask)                      A         Next Task ::        0  1                    HA         Done? t::       >   ID:4194304   ID:8388608  0  0  0                    F T Start%9:                                       Go to Start $((      Start                             Find InspectionsH:       #INT(FailureTime/InspectionInterval)                      XA        Find Last InspectionH:        &NumberOfInspections*InspectionInterval                      \A        Cost Per Unit Timet^:@    Tahoma"@     0@=@0@1@65280   0@=@0@1@65535   0@=@0@1@255  0@=@0@1@16711680  0@=@0@1@16776960  0@=@0@1@16711935            `A       Sum of CostsBH:  @    Tahoma"@    IN + SumOfCosts                      `A        Repair_FunctionResource ^WEIBULLINV(RESET_RV(URN), Input_Data(Repair_Beta, Index), Input_Data(Repair_Eta, Index), 0)  Index SumOfCostsResource URNResource   $@  $@  $@  $@0  $@1  $@  $@               aAa_Main ProjectData dJOHBZKCW-EECBBBB-BCFBCBSA;YNJOQKW-LJKJJJJ-JKNJKJAI;RPJBRKD-LZKJJJJ-JKNJKJAI.