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"A0d? ڶ%Ʒ? <= ?#CC??#CC??\?3s@HƚK \  '' & MDCR-O. &MDCR-{  --'' &MDCR-T1;0;-1; &MDCR-F-tW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-FtttW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-Fy ty W &MDCR-T4;0;0; &MDCR-F t W &MDCR-T4;0;0; &MDCR-F& t& W &MDCR-T4;0;0; &MDCR-F}t}W &MDCR-T4;0;0; &MDCR-F*t*W &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-F/t/W &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-F3t3W &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-FtW &MDCR-T4;0;0; &MDCR-F;!t;!W &MDCR-T4;0;0; &MDCR-F"t"W &MDCR-T4;0;0; &MDCR-F "Tahoma# ww @wfH-!"ReliaSoft RENO - www.ReliaSoft.com2 &MDCR-T3;0;0; &MDCR-F &MDCR-S-' &MDCR-T2;0;0; &MDCR-F "Tahoma ww @wfH-!)Cost Per Unit Time vs. InspectionInterval &MDCR-T3;0;0; &MDCR-F &MDCR-S  "Tahoma# ww @wfH-\!Flowchart: Optimum Inspection Interval for Single Task - Simulations per run: 20000 - Sensitivity Analysis (One Way): InspectionInterval - Multiple Analyses Disabled&2 &MDCR-T3;0;0; &MDCR-F &MDCR-S-~&~&' &MDCR-T2;0;0; &MDCR-F >"Tahoma ww @wfH-!InspectionInterval0% &MDCR-T3;0;0; &MDCR-F &MDCR-S>"Tahoma# ww @wfH-!Cost Per Unit TimeF &MDCR-T3;0;0; &MDCR-F &MDCR-S$tpt &MDCR-T4;0;0; &MDCR-F\"Tahoma ww @wfH- !30.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S$WpW &MDCR-T4;0;0; &MDCR-F !70.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#rpr &MDCR-T4;0;0; &MDCR-F#qpq &MDCR-T4;0;0; &MDCR-F#ppp &MDCR-T4;0;0; &MDCR-F#opo &MDCR-T4;0;0; &MDCR-F-$npn &MDCR-T4;0;0; &MDCR-F !38.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#m pm &MDCR-T4;0;0; &MDCR-F#l pl &MDCR-T4;0;0; &MDCR-F#j pj &MDCR-T4;0;0; &MDCR-F#i pi &MDCR-T4;0;0; &MDCR-F-$h ph &MDCR-T4;0;0; &MDCR-F !46.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#gpg &MDCR-T4;0;0; &MDCR-F#fpf &MDCR-T4;0;0; &MDCR-F#epe &MDCR-T4;0;0; &MDCR-F#cpc &MDCR-T4;0;0; &MDCR-F-$bpb &MDCR-T4;0;0; &MDCR-F !54.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#apa &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-$\p\ &MDCR-T4;0;0; &MDCR-F !62.000$ &MDCR-T5;0;0; &MDCR-F &MDCR-S-#[p[ &MDCR-T4;0;0; &MDCR-F#ZpZ &MDCR-T4;0;0; &MDCR-F#YpY &MDCR-T4;0;0; &MDCR-F#XpX &MDCR-T4;0;0; &MDCR-F-#B#W &MDCR-T4;0;0; &MDCR-F !0.080R# &MDCR-T5;0;0; &MDCR-F &MDCR-SpBpW &MDCR-T4;0;0; &MDCR-F !0.400R &MDCR-T5;0;0; &MDCR-F &MDCR-S-7B7W &MDCR-T4;0;0; &MDCR-F !0.144R &MDCR-T5;0;0; &MDCR-F &MDCR-SBW &MDCR-T4;0;0; &MDCR-F !0.208R' &MDCR-T5;0;0; &MDCR-F &MDCR-SBW &MDCR-T4;0;0; &MDCR-F !0.272Rv &MDCR-T5;0;0; &MDCR-F &MDCR-S" B" W &MDCR-T4;0;0; &MDCR-F !0.336R &MDCR-T5;0;0; &MDCR-F &MDCR-S-%  ":h &MDCR-T 8;1000;0; &MDCR-F--! &&MDCR-T8;1000;1;X = 45.000 Y = 0.109 &MDCR-F  &&MDCR-T8;1000;2;X = 50.000 Y = 0.110 &MDCR-F4&&MDCR-T8;1000;3;X = 55.000 Y = 0.128 &MDCR-F"P^"&&MDCR-T8;1000;4;X = 60.000 Y = 0.093 &MDCR-F l6 &&MDCR-T8;1000;5;X = 65.000 Y = 0.305 &MDCR-F!+Optimum Inspection Interval for Single Taskp &MDCR-T6;0;0; &MDCR-F &MDCR-S& &MDCR-T6;0;0; &MDCR-F66& &MDCR-T6;0;0; &MDCR-FRQ&MDCR-T 7;1000;0; &MDCR-F-&MDCR-T 7;1000;0; &MDCR-F!Cost Per Unit Time&K&MDCR-T 7;1000;0; &MDCR-F &MDCR-S ! User Name#! &MDCR-T6;0;0; &MDCR-F &MDCR-S !CompanyS! &MDCR-T6;0;0; &MDCR-F &MDCR-S ! 12/3/2008" &MDCR-T6;0;0; &MDCR-F &MDCR-S ! 12:33:56 PM;8# &MDCR-T6;0;0; &MDCR-F &MDCR-S-##& &MDCR-T6;0;0; &MDCR-F &MDCR-}Y--"SystemHfH !- #?IFž?{Gz?T?eX?ǘ?y):?v<?333333?TahomaTahoma|Tahoma|TahomaDBTahomaDBTahomaDBTahomaDBTahomaDBTahomaDBTahoma`Tahoma`TahomaDBTahoma|ZThis file provides a simple flowchart model that can be used to determine the optimum interval for on-condition inspections, considering a single task only. 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)F@@P@Y@@$@ @h㈵>$@x@@@@ @@@@v@v@TahomaDBTahomaDB JIABMinimumMinimumMinimumMinimumMinimumd@ Data PointsCost Per Unit TimeCost Per Unit Timed? Analysis 2Cost Per Unit Time Analysis 2d?  Analysis 3 Total Costs Analysis 3*d? Analysis 4 Total Costs Analysis 4od? Analysis 5 Total Costs Analysis 5d?  GF>@Q@{Gz???d+Optimum Inspection Interval for Single Task*User Name Company 12/3/2008 12:33:56 PM"ReliaSoft RENO - www.ReliaSoft.comFlowchart: Optimum Inspection Interval for Single Task - Simulations per run: 20000 - 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 WV Data PointsCost Per Unit TimeCost Per Unit Timed?F@$?I@.?K@"A0d?N@ڶ%Ʒ?@P@<= ? ?Cost Per Unit Time`:bb    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  mThis simple flowchart model can be used to determine the optimum interval for on-condition inspections, considering a single item only. 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.               0.3047 Sum]:: bb    Tahoma"@    +  2Add Inspection Cost of A@Add Inspection Cost of A@  5@6@                       0.0552   Failure Costs A+N:       '(RepairA*DowntimeCostPerHourA)/FailureA                              Add Inspection Cost of AN:        IN+InspectionCostA_PUT(FailureA)                               ,Did last inspection catch potential failure? ~::       <=   ID:25165824  1  1  0  0                 TRUE True Path: 1.0000   F T Start of Wearout A::        6if(FailureA>PFIntervalA,FailureA-PFIntervalA,FailureA)                            1052.8007   Add Inspection Cost of A,N:       )IN+InspectionCostA_PUT(Last_Inspection_A)                           0.0552   Perform Preventive Maintenance+,N:       PMCost_A/Last_Inspection_A                           0.0090    PFIntervalAResource N@PMCost_AResource $@RepairAResource   $@2.5  $@10  $@0  $@  $@  $@  $@              aAa_Main ProjectData d|OHBZKCW-EECBBBB-BCFBCBSA;YNJOQKW-LJKJJJJ-JKNJKJAI;RPJBRKD-LZKJJJJ-JKNJKJAI;YNJOQKW-LJKJJJJ-JKNJKJAI;RPJBRKD-LZKJJJJ-JKNJKJAI.