============================================================================== x x x CLASS 6/69 for STAT 3673 x x x ============================================================================== ( PP,QQ,PROB ): .77295E-01 .92271E+00 .60721E-01 and 1/KCT = 1 / 16 ============================================================================== 16 Impacted STAR EVENT Indices vs. Elt. [ 1 ] <====> 21 22 38 120 122 123 129 134 145 149 152 169 175 180 182 204 The NEXT SUCCESSFUL INTERSECTION should occur approximately 13 STAR EVENT(s) after IMPACTED STAR EVENT # 204 of 07/12/17 NEXT Projected Successful STAR EVENT : # 217 which should occur 11 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 11 , 217 } ============================================================================== Pr( SUCCESS of Elt. [L] , 11 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 6.07 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 17 ) = 14.51 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 16 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 15 <==> 100 * ( 16 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .68750E+00 .31250E+00 .14515E+00 ==> PROB = 14.51 % ============================================================================== 16 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 13 , PPP % = 14.51 % 0 1 0 0 1 1 1 1 1 1 1 0 1 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 17 ) = 14.51 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 217 ) ============================================================================== ( PP,QQ,PROB ): .10145E+00 .89855E+00 .73600E-01 and 1/KCT = 1 / 14 ============================================================================== 21 Impacted STAR EVENT Indices vs. Elt. [ 2 ] <====> 8 13 25 28 35 39 46 56 78 93 98 106 123 130 134 155 161 164 167 172 204 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 204 of 07/12/17 NEXT Projected Successful STAR EVENT : # 214 which should occur 8 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 8 , 214 } ============================================================================== Pr( SUCCESS of Elt. [L] , 8 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 7.36 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 22 ) = 13.55 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 21 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 14 <==> 100 * ( 21 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .71429E+00 .28571E+00 .13554E+00 ==> PROB = 13.55 % ============================================================================== 21 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 13.55 % 1 1 0 1 1 1 1 1 0 0 1 1 0 1 1 0 1 1 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 22 ) = 13.55 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 214 ) ============================================================================== ( PP,QQ,PROB ): .13527E+00 .86473E+00 .23647E-01 and 1/KCT = 1 / 42 ============================================================================== 28 Impacted STAR EVENT Indices vs. Elt. [ 3 ] <====> 5 13 49 52 56 63 64 67 71 75 79 80 95 100 111 117 125 130 138 140 146 149 151 152 163 189 193 195 The NEXT SUCCESSFUL INTERSECTION should occur approximately 7 STAR EVENT(s) after IMPACTED STAR EVENT # 195 of 06/10/17 NEXT Projected Successful STAR EVENT : # 202 which should occur -4 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -4 , 202 } ============================================================================== Pr( SUCCESS of Elt. [L] , -4 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 2.36 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 21 by TRIAL # 29 ) = 11.78 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 20 and The Current # of Sequential TRIALS = JMAX = 28 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 12 <==> 100 * ( 28 Choose 20 ) * ( PP(L) ** 21 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .71429E+00 .28571E+00 .11783E+00 ==> PROB = 11.78 % ============================================================================== 28 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 7 , PPP % = 11.78 % 1 0 0 1 1 1 1 1 1 1 1 1 0 1 0 1 0 1 0 1 1 1 1 1 0 0 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 29 ) = 11.78 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 202 ) ============================================================================== ( PP,QQ,PROB ): .82126E-01 .91787E+00 .75381E-01 and 1/KCT = 1 / 13 ============================================================================== 17 Impacted STAR EVENT Indices vs. Elt. [ 4 ] <====> 7 19 26 30 48 55 72 92 97 113 148 150 168 188 192 202 206 The NEXT SUCCESSFUL INTERSECTION should occur approximately 12 STAR EVENT(s) after IMPACTED STAR EVENT # 206 of 07/19/17 NEXT Projected Successful STAR EVENT : # 218 which should occur 12 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 12 , 218 } ============================================================================== Pr( SUCCESS of Elt. [L] , 12 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 7.54 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 11 by TRIAL # 18 ) = 11.39 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 10 and The Current # of Sequential TRIALS = JMAX = 17 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 17 Choose 10 ) * ( PP(L) ** 11 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .58824E+00 .41176E+00 .11389E+00 ==> PROB = 11.39 % ============================================================================== 17 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 12 , PPP % = 11.39 % 1 1 1 1 0 1 0 0 1 0 0 1 0 0 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 18 ) = 11.39 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 218 ) ============================================================================== ( PP,QQ,PROB ): .13043E+00 .86957E+00 .28036E-01 and 1/KCT = 1 / 36 ============================================================================== 27 Impacted STAR EVENT Indices vs. Elt. [ 5 ] <====> 14 16 17 31 45 50 53 56 60 68 81 85 102 103 105 114 132 160 161 162 171 179 183 189 191 194 196 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 196 of 06/14/17 NEXT Projected Successful STAR EVENT : # 204 which should occur -2 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -2 , 204 } ============================================================================== Pr( SUCCESS of Elt. [L] , -2 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 2.80 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 19 by TRIAL # 28 ) = 10.74 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 18 and The Current # of Sequential TRIALS = JMAX = 27 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 27 Choose 18 ) * ( PP(L) ** 19 ) * ( QQ(L) ** 9 )) (PP,QQ,PROB) ==> .66667E+00 .33333E+00 .10741E+00 ==> PROB = 10.74 % ============================================================================== 27 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 10.74 % 0 1 1 0 0 1 1 1 1 1 0 1 0 1 1 0 0 0 1 1 0 1 1 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 28 ) = 10.74 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 204 ) ============================================================================== ( PP,QQ,PROB ): .86957E-01 .91304E+00 .22216E-01 and 1/KCT = 1 / 45 ============================================================================== 18 Impacted STAR EVENT Indices vs. Elt. [ 6 ] <====> 6 19 32 35 40 45 49 62 69 87 96 102 109 111 159 165 181 192 The NEXT SUCCESSFUL INTERSECTION should occur approximately 12 STAR EVENT(s) after IMPACTED STAR EVENT # 192 of 05/31/17 NEXT Projected Successful STAR EVENT : # 204 which should occur -2 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -2 , 204 } ============================================================================== Pr( SUCCESS of Elt. [L] , -2 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 2.22 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 13 by TRIAL # 19 ) = 13.08 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 12 and The Current # of Sequential TRIALS = JMAX = 18 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 13 <==> 100 * ( 18 Choose 12 ) * ( PP(L) ** 13 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .66667E+00 .33333E+00 .13085E+00 ==> PROB = 13.08 % ============================================================================== 18 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 12 , PPP % = 13.08 % 1 0 0 1 1 1 1 0 1 0 1 1 1 1 0 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 19 ) = 13.08 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 204 ) ============================================================================== ( PP,QQ,PROB ): .86957E-01 .91304E+00 .15883E-02 and 1/KCT = 1 / 630 ============================================================================== 18 Impacted STAR EVENT Indices vs. Elt. [ 7 ] <====> 1 6 7 14 27 29 38 57 58 85 91 103 115 121 136 138 140 163 The NEXT SUCCESSFUL INTERSECTION should occur approximately 12 STAR EVENT(s) after IMPACTED STAR EVENT # 163 of 02/18/17 NEXT Projected Successful STAR EVENT : # 175 which should occur -31 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -31 , 175 } ============================================================================== Pr( SUCCESS of Elt. [L] , -31 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .16 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 14 by TRIAL # 19 ) = 14.89 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 13 and The Current # of Sequential TRIALS = JMAX = 18 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 15 <==> 100 * ( 18 Choose 13 ) * ( PP(L) ** 14 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .72222E+00 .27778E+00 .14885E+00 ==> PROB = 14.89 % ============================================================================== 18 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 12 , PPP % = 14.89 % 1 1 1 1 0 1 1 0 1 0 1 1 1 1 0 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 19 ) = 14.89 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 175 ) ============================================================================== ( PP,QQ,PROB ): .10145E+00 .89855E+00 .66133E-01 and 1/KCT = 1 / 15 ============================================================================== 21 Impacted STAR EVENT Indices vs. Elt. [ 8 ] <====> 4 6 12 16 48 55 68 76 110 117 124 133 135 141 145 174 176 178 186 200 203 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 203 of 07/08/17 NEXT Projected Successful STAR EVENT : # 213 which should occur 7 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 7 , 213 } ============================================================================== Pr( SUCCESS of Elt. [L] , 7 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 6.61 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 17 by TRIAL # 22 ) = 15.30 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 16 and The Current # of Sequential TRIALS = JMAX = 21 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 15 <==> 100 * ( 21 Choose 16 ) * ( PP(L) ** 17 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .76190E+00 .23810E+00 .15297E+00 ==> PROB = 15.30 % ============================================================================== 21 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 15.30 % 1 1 1 1 0 1 0 1 0 1 1 1 1 1 1 0 1 1 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 22 ) = 15.30 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 213 ) ============================================================================== ( PP,QQ,PROB ): .14010E+00 .85990E+00 .10359E+00 and 1/KCT = 1 / 10 ============================================================================== 29 Impacted STAR EVENT Indices vs. Elt. [ 9 ] <====> 2 3 20 27 36 40 71 73 81 83 85 106 112 119 125 149 154 158 161 163 172 175 184 188 191 193 202 204 205 The NEXT SUCCESSFUL INTERSECTION should occur approximately 7 STAR EVENT(s) after IMPACTED STAR EVENT # 205 of 07/15/17 NEXT Projected Successful STAR EVENT : # 212 which should occur 6 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 6 , 212 } ============================================================================== Pr( SUCCESS of Elt. [L] , 6 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 10.36 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 21 by TRIAL # 30 ) = 10.93 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 20 and The Current # of Sequential TRIALS = JMAX = 29 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 29 Choose 20 ) * ( PP(L) ** 21 ) * ( QQ(L) ** 9 )) (PP,QQ,PROB) ==> .68966E+00 .31034E+00 .10928E+00 ==> PROB = 10.93 % ============================================================================== 29 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 7 , PPP % = 10.93 % 1 1 0 1 0 1 0 1 0 1 1 0 1 1 1 0 1 1 1 1 0 1 0 1 1 1 0 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 30 ) = 10.93 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 212 ) ============================================================================== ( PP,QQ,PROB ): .13043E+00 .86957E+00 .74577E-01 and 1/KCT = 1 / 13 ============================================================================== 27 Impacted STAR EVENT Indices vs. Elt. [ 10 ] <====> 11 26 38 40 41 45 48 61 66 92 97 99 100 104 114 118 128 141 145 151 158 164 166 191 197 199 203 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 203 of 07/08/17 NEXT Projected Successful STAR EVENT : # 211 which should occur 5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 5 , 211 } ============================================================================== Pr( SUCCESS of Elt. [L] , 5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 7.46 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 19 by TRIAL # 28 ) = 10.74 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 18 and The Current # of Sequential TRIALS = JMAX = 27 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 27 Choose 18 ) * ( PP(L) ** 19 ) * ( QQ(L) ** 9 )) (PP,QQ,PROB) ==> .66667E+00 .33333E+00 .10741E+00 ==> PROB = 10.74 % ============================================================================== 27 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 10.74 % 0 0 0 1 1 1 1 0 1 0 1 1 1 1 0 1 0 0 1 1 1 1 1 0 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 28 ) = 10.74 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 211 ) ============================================================================== ( PP,QQ,PROB ): .10145E+00 .89855E+00 .13291E-01 and 1/KCT = 1 / 75 ============================================================================== 21 Impacted STAR EVENT Indices vs. Elt. [ 11 ] <====> 2 24 46 59 61 65 67 69 84 86 93 101 103 105 106 112 118 169 174 185 188 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 188 of 05/17/17 NEXT Projected Successful STAR EVENT : # 198 which should occur -8 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -8 , 198 } ============================================================================== Pr( SUCCESS of Elt. [L] , -8 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 1.33 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 22 ) = 13.55 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 21 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 14 <==> 100 * ( 21 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .71429E+00 .28571E+00 .13554E+00 ==> PROB = 13.55 % ============================================================================== 21 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 13.55 % 1 0 0 0 1 1 1 1 0 1 1 1 1 1 1 1 1 0 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 22 ) = 13.55 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 198 ) ============================================================================== ( PP,QQ,PROB ): .12077E+00 .87923E+00 .19365E-03 and 1/KCT = 1 / 5164 ============================================================================== 25 Impacted STAR EVENT Indices vs. Elt. [ 12 ] <====> 7 8 15 21 28 44 52 53 59 62 66 76 79 87 88 90 99 107 108 114 123 143 151 154 157 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 157 of 01/28/17 NEXT Projected Successful STAR EVENT : # 165 which should occur -41 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -41 , 165 } ============================================================================== Pr( SUCCESS of Elt. [L] , -41 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .02 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 21 by TRIAL # 26 ) = 15.68 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 20 and The Current # of Sequential TRIALS = JMAX = 25 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 16 <==> 100 * ( 25 Choose 20 ) * ( PP(L) ** 21 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .80000E+00 .20000E+00 .15681E+00 ==> PROB = 15.68 % ============================================================================== 25 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 15.68 % 1 1 1 1 1 0 1 1 1 1 1 0 1 1 1 1 0 1 1 1 0 0 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 26 ) = 15.68 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 165 ) ============================================================================== ( PP,QQ,PROB ): .10628E+00 .89372E+00 .38660E-01 and 1/KCT = 1 / 26 ============================================================================== 22 Impacted STAR EVENT Indices vs. Elt. [ 13 ] <====> 1 4 5 13 37 47 55 62 66 77 83 132 152 153 159 164 171 176 179 194 197 198 The NEXT SUCCESSFUL INTERSECTION should occur approximately 9 STAR EVENT(s) after IMPACTED STAR EVENT # 198 of 06/21/17 NEXT Projected Successful STAR EVENT : # 207 which should occur 1 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 1 , 207 } ============================================================================== Pr( SUCCESS of Elt. [L] , 1 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 3.87 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 17 by TRIAL # 23 ) = 13.68 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 16 and The Current # of Sequential TRIALS = JMAX = 22 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 14 <==> 100 * ( 22 Choose 16 ) * ( PP(L) ** 17 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .72727E+00 .27273E+00 .13679E+00 ==> PROB = 13.68 % ============================================================================== 22 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 9 , PPP % = 13.68 % 1 1 1 1 0 0 1 1 1 0 1 0 0 1 1 1 1 1 1 0 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 23 ) = 13.68 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 207 ) ============================================================================== ( PP,QQ,PROB ): .72464E-01 .92754E+00 .36821E-01 and 1/KCT = 1 / 27 ============================================================================== 15 Impacted STAR EVENT Indices vs. Elt. [ 14 ] <====> 2 7 31 36 39 64 73 79 94 118 119 140 160 178 198 The NEXT SUCCESSFUL INTERSECTION should occur approximately 14 STAR EVENT(s) after IMPACTED STAR EVENT # 198 of 06/21/17 NEXT Projected Successful STAR EVENT : # 212 which should occur 6 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 6 , 212 } ============================================================================== Pr( SUCCESS of Elt. [L] , 6 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 3.68 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 8 by TRIAL # 16 ) = 9.48 % <==> 1 / 11 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 7 and The Current # of Sequential TRIALS = JMAX = 15 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 9 <==> 100 * ( 15 Choose 7 ) * ( PP(L) ** 8 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .46667E+00 .53333E+00 .94753E-01 ==> PROB = 9.48 % ============================================================================== 15 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 14 , PPP % = 9.48 % 1 1 0 1 1 0 1 1 0 0 1 0 0 0 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 16 ) = 9.48 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 212 ) ============================================================================== ( PP,QQ,PROB ): .91787E-01 .90821E+00 .17864E-01 and 1/KCT = 1 / 56 ============================================================================== 19 Impacted STAR EVENT Indices vs. Elt. [ 15 ] <====> 1 3 22 29 45 57 59 68 86 100 121 124 143 144 174 177 180 182 190 The NEXT SUCCESSFUL INTERSECTION should occur approximately 11 STAR EVENT(s) after IMPACTED STAR EVENT # 190 of 05/24/17 NEXT Projected Successful STAR EVENT : # 201 which should occur -5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -5 , 201 } ============================================================================== Pr( SUCCESS of Elt. [L] , -5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 1.79 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 20 ) = 10.59 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 19 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 19 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .57895E+00 .42105E+00 .10587E+00 ==> PROB = 10.59 % ============================================================================== 19 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 11 , PPP % = 10.59 % 1 1 0 1 0 0 1 1 0 0 0 1 0 1 0 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 20 ) = 10.59 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 201 ) ============================================================================== ( PP,QQ,PROB ): .14010E+00 .85990E+00 .65868E-01 and 1/KCT = 1 / 15 ============================================================================== 29 Impacted STAR EVENT Indices vs. Elt. [ 16 ] <====> 2 9 10 11 13 29 34 38 42 47 53 59 79 112 126 128 130 137 139 145 148 150 152 159 166 170 173 201 202 The NEXT SUCCESSFUL INTERSECTION should occur approximately 7 STAR EVENT(s) after IMPACTED STAR EVENT # 202 of 07/05/17 NEXT Projected Successful STAR EVENT : # 209 which should occur 3 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 3 , 209 } ============================================================================== Pr( SUCCESS of Elt. [L] , 3 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 6.59 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 25 by TRIAL # 30 ) = 15.95 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 24 and The Current # of Sequential TRIALS = JMAX = 29 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 16 <==> 100 * ( 29 Choose 24 ) * ( PP(L) ** 25 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .82759E+00 .17241E+00 .15953E+00 ==> PROB = 15.95 % ============================================================================== 29 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 7 , PPP % = 15.95 % 1 1 1 1 1 0 1 1 1 1 1 1 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 30 ) = 15.95 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 209 ) ============================================================================== ( PP,QQ,PROB ): .12077E+00 .87923E+00 .93362E-01 and 1/KCT = 1 / 11 ============================================================================== 25 Impacted STAR EVENT Indices vs. Elt. [ 17 ] <====> 5 10 15 18 28 32 46 58 78 89 94 101 105 117 120 135 139 150 157 159 161 166 184 187 205 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 205 of 07/15/17 NEXT Projected Successful STAR EVENT : # 213 which should occur 7 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 7 , 213 } ============================================================================== Pr( SUCCESS of Elt. [L] , 7 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 9.34 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 26 ) = 9.67 % <==> 1 / 10 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 25 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 10 <==> 100 * ( 25 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 10 )) (PP,QQ,PROB) ==> .60000E+00 .40000E+00 .96695E-01 ==> PROB = 9.67 % ============================================================================== 25 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 9.67 % 1 1 1 1 0 1 0 0 0 0 1 1 1 0 1 0 1 0 1 1 1 1 0 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 26 ) = 9.67 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 213 ) ============================================================================== ( PP,QQ,PROB ): .96618E-01 .90338E+00 .71232E-01 and 1/KCT = 1 / 14 ============================================================================== 20 Impacted STAR EVENT Indices vs. Elt. [ 18 ] <====> 9 11 20 30 36 53 57 61 75 98 124 132 140 144 156 167 173 182 184 204 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 204 of 07/12/17 NEXT Projected Successful STAR EVENT : # 214 which should occur 8 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 8 , 214 } ============================================================================== Pr( SUCCESS of Elt. [L] , 8 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 7.12 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 14 by TRIAL # 21 ) = 11.99 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 13 and The Current # of Sequential TRIALS = JMAX = 20 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 12 <==> 100 * ( 20 Choose 13 ) * ( PP(L) ** 14 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .65000E+00 .35000E+00 .11986E+00 ==> PROB = 11.99 % ============================================================================== 20 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 11.99 % 1 1 1 1 1 0 1 1 0 0 0 1 1 1 0 0 1 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 21 ) = 11.99 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 214 ) ============================================================================== ( PP,QQ,PROB ): .10145E+00 .89855E+00 .53395E-01 and 1/KCT = 1 / 19 ============================================================================== 21 Impacted STAR EVENT Indices vs. Elt. [ 19 ] <====> 2 11 23 36 39 47 48 51 57 63 70 77 119 131 139 162 165 167 180 187 201 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 201 of 07/01/17 NEXT Projected Successful STAR EVENT : # 211 which should occur 5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 5 , 211 } ============================================================================== Pr( SUCCESS of Elt. [L] , 5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 5.34 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 15 by TRIAL # 22 ) = 12.14 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 14 and The Current # of Sequential TRIALS = JMAX = 21 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 12 <==> 100 * ( 21 Choose 14 ) * ( PP(L) ** 15 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .66667E+00 .33333E+00 .12142E+00 ==> PROB = 12.14 % ============================================================================== 21 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 12.14 % 1 1 0 0 1 1 1 1 1 1 1 1 0 0 1 0 1 1 0 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 22 ) = 12.14 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 211 ) ============================================================================== ( PP,QQ,PROB ): .11111E+00 .88889E+00 .27035E-01 and 1/KCT = 1 / 37 ============================================================================== 23 Impacted STAR EVENT Indices vs. Elt. [ 20 ] <====> 22 25 27 28 43 57 82 89 90 91 107 113 121 127 131 135 142 157 160 163 176 187 195 The NEXT SUCCESSFUL INTERSECTION should occur approximately 9 STAR EVENT(s) after IMPACTED STAR EVENT # 195 of 06/10/17 NEXT Projected Successful STAR EVENT : # 204 which should occur -2 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -2 , 204 } ============================================================================== Pr( SUCCESS of Elt. [L] , -2 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 2.70 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 24 ) = 11.25 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 23 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 23 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .65217E+00 .34783E+00 .11251E+00 ==> PROB = 11.25 % ============================================================================== 23 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 9 , PPP % = 11.25 % 0 1 1 1 0 0 0 1 1 1 0 1 1 1 1 1 1 0 1 1 0 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 24 ) = 11.25 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 204 ) ============================================================================== ( PP,QQ,PROB ): .11594E+00 .88406E+00 .62610E-01 and 1/KCT = 1 / 16 ============================================================================== 24 Impacted STAR EVENT Indices vs. Elt. [ 21 ] <====> 7 9 18 33 34 52 60 61 66 105 111 116 131 133 137 139 143 147 181 185 193 194 197 202 The NEXT SUCCESSFUL INTERSECTION should occur approximately 9 STAR EVENT(s) after IMPACTED STAR EVENT # 202 of 07/05/17 NEXT Projected Successful STAR EVENT : # 211 which should occur 5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 5 , 211 } ============================================================================== Pr( SUCCESS of Elt. [L] , 5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 6.26 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 20 by TRIAL # 25 ) = 15.60 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 19 and The Current # of Sequential TRIALS = JMAX = 24 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 16 <==> 100 * ( 24 Choose 19 ) * ( PP(L) ** 20 ) * ( QQ(L) ** 5 )) (PP,QQ,PROB) ==> .79167E+00 .20833E+00 .15598E+00 ==> PROB = 15.60 % ============================================================================== 24 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 9 , PPP % = 15.60 % 1 1 1 0 1 0 1 1 1 0 1 1 0 1 1 1 1 1 0 1 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 25 ) = 15.60 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 211 ) ============================================================================== ( PP,QQ,PROB ): .11111E+00 .88889E+00 .43305E-01 and 1/KCT = 1 / 23 ============================================================================== 23 Impacted STAR EVENT Indices vs. Elt. [ 22 ] <====> 8 10 31 39 44 51 61 68 73 74 89 92 116 121 129 141 156 167 179 183 189 196 199 The NEXT SUCCESSFUL INTERSECTION should occur approximately 9 STAR EVENT(s) after IMPACTED STAR EVENT # 199 of 06/24/17 NEXT Projected Successful STAR EVENT : # 208 which should occur 2 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 2 , 208 } ============================================================================== Pr( SUCCESS of Elt. [L] , 2 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 4.33 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 24 ) = 11.25 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 23 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 23 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .65217E+00 .34783E+00 .11251E+00 ==> PROB = 11.25 % ============================================================================== 23 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 9 , PPP % = 11.25 % 1 1 0 1 1 1 0 1 1 1 0 1 0 1 1 0 0 0 0 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 24 ) = 11.25 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 208 ) ============================================================================== ( PP,QQ,PROB ): .13527E+00 .86473E+00 .87465E-01 and 1/KCT = 1 / 11 ============================================================================== 28 Impacted STAR EVENT Indices vs. Elt. [ 23 ] <====> 17 54 64 65 67 69 73 82 84 85 88 93 96 103 105 108 116 118 127 128 131 148 153 155 168 177 183 204 The NEXT SUCCESSFUL INTERSECTION should occur approximately 7 STAR EVENT(s) after IMPACTED STAR EVENT # 204 of 07/12/17 NEXT Projected Successful STAR EVENT : # 211 which should occur 5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 5 , 211 } ============================================================================== Pr( SUCCESS of Elt. [L] , 5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 8.75 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 19 by TRIAL # 29 ) = 10.01 % <==> 1 / 10 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 18 and The Current # of Sequential TRIALS = JMAX = 28 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 10 <==> 100 * ( 28 Choose 18 ) * ( PP(L) ** 19 ) * ( QQ(L) ** 10 )) (PP,QQ,PROB) ==> .64286E+00 .35714E+00 .10015E+00 ==> PROB = 10.01 % ============================================================================== 28 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 7 , PPP % = 10.01 % 0 0 0 1 1 1 1 0 1 1 1 1 1 1 1 1 0 1 0 1 1 0 1 1 0 0 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 29 ) = 10.01 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 211 ) ============================================================================== ( PP,QQ,PROB ): .96618E-01 .90338E+00 .31597E-01 and 1/KCT = 1 / 32 ============================================================================== 20 Impacted STAR EVENT Indices vs. Elt. [ 24 ] <====> 1 5 14 15 50 70 86 92 98 104 111 114 130 135 137 151 152 178 183 196 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 196 of 06/14/17 NEXT Projected Successful STAR EVENT : # 206 which should occur 0 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 0 , 206 } ============================================================================== Pr( SUCCESS of Elt. [L] , 0 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 3.16 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 14 by TRIAL # 21 ) = 11.99 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 13 and The Current # of Sequential TRIALS = JMAX = 20 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 12 <==> 100 * ( 20 Choose 13 ) * ( PP(L) ** 14 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .65000E+00 .35000E+00 .11986E+00 ==> PROB = 11.99 % ============================================================================== 20 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 11.99 % 1 1 1 1 0 0 0 1 1 1 1 1 0 1 1 0 1 0 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 21 ) = 11.99 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 206 ) ============================================================================== ( PP,QQ,PROB ): .12077E+00 .87923E+00 .19924E-01 and 1/KCT = 1 / 50 ============================================================================== 25 Impacted STAR EVENT Indices vs. Elt. [ 25 ] <====> 9 27 29 42 58 59 68 72 75 76 78 81 84 90 95 102 112 115 134 140 146 155 159 171 193 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 193 of 06/03/17 NEXT Projected Successful STAR EVENT : # 201 which should occur -5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -5 , 201 } ============================================================================== Pr( SUCCESS of Elt. [L] , -5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 1.99 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 17 by TRIAL # 26 ) = 10.52 % <==> 1 / 10 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 16 and The Current # of Sequential TRIALS = JMAX = 25 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 25 Choose 16 ) * ( PP(L) ** 17 ) * ( QQ(L) ** 9 )) (PP,QQ,PROB) ==> .64000E+00 .36000E+00 .10521E+00 ==> PROB = 10.52 % ============================================================================== 25 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 10.52 % 1 0 1 0 0 1 0 1 1 1 1 1 1 1 1 1 0 1 0 1 1 0 1 0 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 26 ) = 10.52 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 201 ) ============================================================================== ( PP,QQ,PROB ): .72464E-01 .92754E+00 .53635E-01 and 1/KCT = 1 / 19 ============================================================================== 15 Impacted STAR EVENT Indices vs. Elt. [ 26 ] <====> 15 19 30 54 81 85 89 101 141 144 169 179 182 195 203 The NEXT SUCCESSFUL INTERSECTION should occur approximately 14 STAR EVENT(s) after IMPACTED STAR EVENT # 203 of 07/08/17 NEXT Projected Successful STAR EVENT : # 217 which should occur 11 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 11 , 217 } ============================================================================== Pr( SUCCESS of Elt. [L] , 11 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 5.36 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 16 ) = 16.70 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 15 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 17 <==> 100 * ( 15 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 4 )) (PP,QQ,PROB) ==> .73333E+00 .26667E+00 .16696E+00 ==> PROB = 16.70 % ============================================================================== 15 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 14 , PPP % = 16.70 % 1 1 1 0 0 1 1 1 0 1 0 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 16 ) = 16.70 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 217 ) ============================================================================== ( PP,QQ,PROB ): .72464E-01 .92754E+00 .52084E-02 and 1/KCT = 1 / 192 ============================================================================== 15 Impacted STAR EVENT Indices vs. Elt. [ 27 ] <====> 13 21 37 43 48 58 63 83 91 95 106 124 135 141 172 The NEXT SUCCESSFUL INTERSECTION should occur approximately 14 STAR EVENT(s) after IMPACTED STAR EVENT # 172 of 03/22/17 NEXT Projected Successful STAR EVENT : # 186 which should occur -20 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -20 , 186 } ============================================================================== Pr( SUCCESS of Elt. [L] , -20 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .52 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 16 ) = 16.70 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 15 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 17 <==> 100 * ( 15 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 4 )) (PP,QQ,PROB) ==> .73333E+00 .26667E+00 .16696E+00 ==> PROB = 16.70 % ============================================================================== 15 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 14 , PPP % = 16.70 % 1 1 0 1 1 1 1 0 1 1 1 0 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 16 ) = 16.70 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 186 ) ============================================================================== ( PP,QQ,PROB ): .10145E+00 .89855E+00 .18320E-01 and 1/KCT = 1 / 55 ============================================================================== 21 Impacted STAR EVENT Indices vs. Elt. [ 28 ] <====> 4 9 41 54 65 71 72 99 118 120 129 134 136 137 147 149 156 162 164 190 191 The NEXT SUCCESSFUL INTERSECTION should occur approximately 10 STAR EVENT(s) after IMPACTED STAR EVENT # 191 of 05/27/17 NEXT Projected Successful STAR EVENT : # 201 which should occur -5 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -5 , 201 } ============================================================================== Pr( SUCCESS of Elt. [L] , -5 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 1.83 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 16 by TRIAL # 22 ) = 13.55 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 15 and The Current # of Sequential TRIALS = JMAX = 21 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 14 <==> 100 * ( 21 Choose 15 ) * ( PP(L) ** 16 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .71429E+00 .28571E+00 .13554E+00 ==> PROB = 13.55 % ============================================================================== 21 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 10 , PPP % = 13.55 % 1 1 0 0 0 1 1 0 0 1 1 1 1 1 1 1 1 1 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 22 ) = 13.55 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 201 ) ============================================================================== ( PP,QQ,PROB ): .91787E-01 .90821E+00 .62450E-01 and 1/KCT = 1 / 16 ============================================================================== 19 Impacted STAR EVENT Indices vs. Elt. [ 29 ] <====> 4 9 11 16 21 22 34 45 58 96 100 116 121 124 150 172 186 200 203 The NEXT SUCCESSFUL INTERSECTION should occur approximately 11 STAR EVENT(s) after IMPACTED STAR EVENT # 203 of 07/08/17 NEXT Projected Successful STAR EVENT : # 214 which should occur 8 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 8 , 214 } ============================================================================== Pr( SUCCESS of Elt. [L] , 8 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 6.25 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 20 ) = 10.59 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 19 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 11 <==> 100 * ( 19 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 8 )) (PP,QQ,PROB) ==> .57895E+00 .42105E+00 .10587E+00 ==> PROB = 10.59 % ============================================================================== 19 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 11 , PPP % = 10.59 % 1 1 1 1 1 1 0 1 0 0 1 0 1 1 0 0 0 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 20 ) = 10.59 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 214 ) ============================================================================== ( PP,QQ,PROB ): .67633E-01 .93237E+00 .50685E-02 and 1/KCT = 1 / 197 ============================================================================== 14 Impacted STAR EVENT Indices vs. Elt. [ 30 ] <====> 10 20 24 39 41 71 74 76 80 88 122 126 148 170 The NEXT SUCCESSFUL INTERSECTION should occur approximately 15 STAR EVENT(s) after IMPACTED STAR EVENT # 170 of 03/15/17 NEXT Projected Successful STAR EVENT : # 185 which should occur -21 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -21 , 185 } ============================================================================== Pr( SUCCESS of Elt. [L] , -21 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .51 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 11 by TRIAL # 15 ) = 16.47 % <==> 1 / 6 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 10 and The Current # of Sequential TRIALS = JMAX = 14 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 16 <==> 100 * ( 14 Choose 10 ) * ( PP(L) ** 11 ) * ( QQ(L) ** 4 )) (PP,QQ,PROB) ==> .71429E+00 .28571E+00 .16472E+00 ==> PROB = 16.47 % ============================================================================== 14 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 15 , PPP % = 16.47 % 1 1 1 1 1 0 1 1 1 1 0 1 0 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 15 ) = 16.47 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 185 ) ============================================================================== ( PP,QQ,PROB ): .86957E-01 .91304E+00 .12871E-01 and 1/KCT = 1 / 78 ============================================================================== 18 Impacted STAR EVENT Indices vs. Elt. [ 31 ] <====> 14 17 22 25 53 54 55 60 92 98 118 133 134 163 173 174 185 186 The NEXT SUCCESSFUL INTERSECTION should occur approximately 12 STAR EVENT(s) after IMPACTED STAR EVENT # 186 of 05/10/17 NEXT Projected Successful STAR EVENT : # 198 which should occur -8 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -8 , 198 } ============================================================================== Pr( SUCCESS of Elt. [L] , -8 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 1.29 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 13 by TRIAL # 19 ) = 13.08 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 12 and The Current # of Sequential TRIALS = JMAX = 18 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 13 <==> 100 * ( 18 Choose 12 ) * ( PP(L) ** 13 ) * ( QQ(L) ** 6 )) (PP,QQ,PROB) ==> .66667E+00 .33333E+00 .13085E+00 ==> PROB = 13.08 % ============================================================================== 18 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 12 , PPP % = 13.08 % 0 1 1 1 0 1 1 1 0 1 0 0 1 0 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 19 ) = 13.08 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 198 ) ============================================================================== ( PP,QQ,PROB ): .12077E+00 .87923E+00 .43130E-01 and 1/KCT = 1 / 23 ============================================================================== 25 Impacted STAR EVENT Indices vs. Elt. [ 32 ] <====> 8 24 30 36 40 47 51 64 75 79 82 85 99 105 113 138 143 165 173 175 187 190 195 197 199 The NEXT SUCCESSFUL INTERSECTION should occur approximately 8 STAR EVENT(s) after IMPACTED STAR EVENT # 199 of 06/24/17 NEXT Projected Successful STAR EVENT : # 207 which should occur 1 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 1 , 207 } ============================================================================== Pr( SUCCESS of Elt. [L] , 1 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 4.31 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 19 by TRIAL # 26 ) = 12.63 % <==> 1 / 8 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 18 and The Current # of Sequential TRIALS = JMAX = 25 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 13 <==> 100 * ( 25 Choose 18 ) * ( PP(L) ** 19 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .72000E+00 .28000E+00 .12627E+00 ==> PROB = 12.63 % ============================================================================== 25 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 8 , PPP % = 12.63 % 1 0 1 1 1 1 1 0 0 1 1 1 0 1 1 0 1 0 1 1 0 1 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 26 ) = 12.63 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 207 ) ============================================================================== ( PP,QQ,PROB ): .86957E-01 .91304E+00 .22216E-01 and 1/KCT = 1 / 45 ============================================================================== 18 Impacted STAR EVENT Indices vs. Elt. [ 33 ] <====> 19 37 74 78 87 88 92 107 110 116 129 141 146 162 163 168 190 192 The NEXT SUCCESSFUL INTERSECTION should occur approximately 12 STAR EVENT(s) after IMPACTED STAR EVENT # 192 of 05/31/17 NEXT Projected Successful STAR EVENT : # 204 which should occur -2 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -2 , 204 } ============================================================================== Pr( SUCCESS of Elt. [L] , -2 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 2.22 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 12 by TRIAL # 19 ) = 11.61 % <==> 1 / 9 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 11 and The Current # of Sequential TRIALS = JMAX = 18 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 12 <==> 100 * ( 18 Choose 11 ) * ( PP(L) ** 12 ) * ( QQ(L) ** 7 )) (PP,QQ,PROB) ==> .61111E+00 .38889E+00 .11614E+00 ==> PROB = 11.61 % ============================================================================== 18 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 12 , PPP % = 11.61 % 0 0 0 1 1 1 1 0 1 1 0 1 1 0 1 1 0 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 19 ) = 11.61 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 204 ) ============================================================================== ( PP,QQ,PROB ): .48309E-01 .95169E+00 .87538E-03 and 1/KCT = 1 / 1142 ============================================================================== 10 Impacted STAR EVENT Indices vs. Elt. [ 34 ] <====> 3 47 48 51 63 64 79 87 97 126 The NEXT SUCCESSFUL INTERSECTION should occur approximately 21 STAR EVENT(s) after IMPACTED STAR EVENT # 126 of 10/12/16 NEXT Projected Successful STAR EVENT : # 147 which should occur -59 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -59 , 147 } ============================================================================== Pr( SUCCESS of Elt. [L] , -59 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .09 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 9 by TRIAL # 11 ) = 24.16 % <==> 1 / 4 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 8 and The Current # of Sequential TRIALS = JMAX = 10 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 24 <==> 100 * ( 10 Choose 8 ) * ( PP(L) ** 9 ) * ( QQ(L) ** 2 )) (PP,QQ,PROB) ==> .80000E+00 .20000E+00 .24159E+00 ==> PROB = 24.16 % ============================================================================== 10 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 21 , PPP % = 24.16 % 1 0 1 1 1 1 1 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 11 ) = 24.16 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 147 ) ============================================================================== ( PP,QQ,PROB ): .24155E-01 .97585E+00 .18994E-02 and 1/KCT = 1 / 526 ============================================================================== 5 Impacted STAR EVENT Indices vs. Elt. [ 35 ] <====> 13 74 77 102 103 The NEXT SUCCESSFUL INTERSECTION should occur approximately 41 STAR EVENT(s) after IMPACTED STAR EVENT # 103 of 07/23/16 NEXT Projected Successful STAR EVENT : # 144 which should occur -62 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { -62 , 144 } ============================================================================== Pr( SUCCESS of Elt. [L] , -62 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = .19 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 5 by TRIAL # 6 ) = 32.77 % <==> 1 / 3 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 4 and The Current # of Sequential TRIALS = JMAX = 5 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 33 <==> 100 * ( 5 Choose 4 ) * ( PP(L) ** 5 ) * ( QQ(L) ** 1 )) (PP,QQ,PROB) ==> .80000E+00 .20000E+00 .32768E+00 ==> PROB = 32.77 % ============================================================================== 5 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 41 , PPP % = 32.77 % 1 0 1 1 1 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 6 ) = 32.77 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 144 ) ============================================================================== ( PP,QQ,PROB ): .48309E-01 .95169E+00 .32508E-01 and 1/KCT = 1 / 31 ============================================================================== 10 Impacted STAR EVENT Indices vs. Elt. [ 36 ] <====> 44 55 57 91 95 107 174 175 177 199 The NEXT SUCCESSFUL INTERSECTION should occur approximately 21 STAR EVENT(s) after IMPACTED STAR EVENT # 199 of 06/24/17 NEXT Projected Successful STAR EVENT : # 220 which should occur 14 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 14 , 220 } ============================================================================== Pr( SUCCESS of Elt. [L] , 14 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 3.25 % Utilizing a NEGATIVE-BINOMIAL PROBABILITY DISTRIBUTION ============================================================================== Pr( E has SUCCESS # 7 by TRIAL # 11 ) = 15.05 % <==> 1 / 7 (apr.) ============================================================================== Characterizing this NEGATIVE-BINOMIAL Distribution ... The Current # of SUCCESSES = M0 = 6 and The Current # of Sequential TRIALS = JMAX = 10 IDELTA = 100 * Pr ( EVENT E is [*]-Qualified ) = 15 <==> 100 * ( 10 Choose 6 ) * ( PP(L) ** 7 ) * ( QQ(L) ** 4 )) (PP,QQ,PROB) ==> .60000E+00 .40000E+00 .15049E+00 ==> PROB = 15.05 % ============================================================================== 10 Corresp. BINARY SUCCESS-FAILURE Indices with KKCT= 21 , PPP % = 15.05 % 0 1 1 0 1 1 0 1 1 0 ============================================================================== Pr( The Next BINARY SUCCESS will Occur on Trial # 11 ) = 15.05 % ( NOTE: This Pr Covers A STAR EVENT RANGE Up-To and Including # 220 ) ============================================================================== ( PP,QQ,PROB ): .57971E-01 .94203E+00 .38165E-01 and 1/KCT = 1 / 26 ============================================================================== 12 Impacted STAR EVENT Indices vs. Elt. [ 37 ] <====> 31 33 90 96 126 132 139 144 151 161 180 200 The NEXT SUCCESSFUL INTERSECTION should occur approximately 17 STAR EVENT(s) after IMPACTED STAR EVENT # 200 of 06/28/17 NEXT Projected Successful STAR EVENT : # 217 which should occur 11 STAR EVENT(s) from # 206 with { NNMAX , TTMAX } <====> { 11 , 217 } ============================================================================== Pr( SUCCESS of Elt. [L] , 11 STAR EVENT(s) from FINAL STAR EVENT # 207 of determined with PROB = 3.82 % ============================================================================== ============================================================================== x x x CLASS 6/69 for STAT 3673 x x x ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 16 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 1 1 2 2 3 4 5 5 6 6 11 16 17 20 22 82 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 2 1 "s ----- ----------------------- 2). 2 2 "s ----- ----------------------- 3). 1 3 "s ----- ----------------------- 4). 1 4 "s ----- ----------------------- 5). 2 5 "s ----- ----------------------- 6). 2 6 "s ----- ----------------------- 7). 1 11 "s ----- ----------------------- 8). 1 16 "s ----- ----------------------- 9). 1 17 "s ----- ----------------------- 10). 1 20 "s ----- ----------------------- 11). 1 22 "s ----- ----------------------- 12). 1 82 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 21 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 3 3 3 4 4 5 5 5 6 7 7 7 7 8 10 12 15 17 21 22 32 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 3 3 "s ----- ----------------------- 2). 2 4 "s ----- ----------------------- 3). 3 5 "s ----- ----------------------- 4). 1 6 "s ----- ----------------------- 5). 4 7 "s ----- ----------------------- 6). 1 8 "s ----- ----------------------- 7). 1 10 "s ----- ----------------------- 8). 1 12 "s ----- ----------------------- 9). 1 15 "s ----- ----------------------- 10). 1 17 "s ----- ----------------------- 11). 1 21 "s ----- ----------------------- 12). 1 22 "s ----- ----------------------- 13). 1 32 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 28 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 1 1 1 2 2 2 3 3 3 4 4 4 4 4 4 5 5 6 6 7 8 8 8 11 11 15 26 36 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 3 1 "s ----- ----------------------- 2). 3 2 "s ----- ----------------------- 3). 3 3 "s ----- ----------------------- 4). 6 4 "s ----- ----------------------- 5). 2 5 "s ----- ----------------------- 6). 2 6 "s ----- ----------------------- 7). 1 7 "s ----- ----------------------- 8). 3 8 "s ----- ----------------------- 9). 2 11 "s ----- ----------------------- 10). 1 15 "s ----- ----------------------- 11). 1 26 "s ----- ----------------------- 12). 1 36 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 17 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 2 4 4 4 5 6 7 7 10 12 16 17 18 18 20 20 35 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 1 2 "s ----- ----------------------- 2). 3 4 "s ----- ----------------------- 3). 1 5 "s ----- ----------------------- 4). 1 6 "s ----- ----------------------- 5). 2 7 "s ----- ----------------------- 6). 1 10 "s ----- ----------------------- 7). 1 12 "s ----- ----------------------- 8). 1 16 "s ----- ----------------------- 9). 1 17 "s ----- ----------------------- 10). 2 18 "s ----- ----------------------- 11). 2 20 "s ----- ----------------------- 12). 1 35 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 27 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 1 1 1 1 2 2 2 2 3 3 3 4 4 4 5 6 8 8 9 9 13 13 14 14 17 18 28 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 4 1 "s ----- ----------------------- 2). 4 2 "s ----- ----------------------- 3). 3 3 "s ----- ----------------------- 4). 3 4 "s ----- ----------------------- 5). 1 5 "s ----- ----------------------- 6). 1 6 "s ----- ----------------------- 7). 2 8 "s ----- ----------------------- 8). 2 9 "s ----- ----------------------- 9). 2 13 "s ----- ----------------------- 10). 2 14 "s ----- ----------------------- 11). 1 17 "s ----- ----------------------- 12). 1 18 "s ----- ----------------------- 13). 1 28 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 18 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 2 3 4 5 5 5 6 6 7 7 9 11 13 13 13 16 18 48 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 1 2 "s ----- ----------------------- 2). 1 3 "s ----- ----------------------- 3). 1 4 "s ----- ----------------------- 4). 3 5 "s ----- ----------------------- 5). 2 6 "s ----- ----------------------- 6). 2 7 "s ----- ----------------------- 7). 1 9 "s ----- ----------------------- 8). 1 11 "s ----- ----------------------- 9). 3 13 "s ----- ----------------------- 10). 1 16 "s ----- ----------------------- 11). 1 18 "s ----- ----------------------- 12). 1 48 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 18 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 0 1 1 2 2 2 5 6 6 7 9 12 12 13 15 19 23 27 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 2 1 "s ----- ----------------------- 2). 3 2 "s ----- ----------------------- 3). 1 5 "s ----- ----------------------- 4). 2 6 "s ----- ----------------------- 5). 1 7 "s ----- ----------------------- 6). 1 9 "s ----- ----------------------- 7). 2 12 "s ----- ----------------------- 8). 1 13 "s ----- ----------------------- 9). 1 15 "s ----- ----------------------- 10). 1 19 "s ----- ----------------------- 11). 1 23 "s ----- ----------------------- 12). 1 27 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 21 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 2 2 2 2 3 3 4 4 6 6 7 7 7 8 8 9 13 14 29 32 34 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 4 2 "s ----- ----------------------- 2). 2 3 "s ----- ----------------------- 3). 2 4 "s ----- ----------------------- 4). 2 6 "s ----- ----------------------- 5). 3 7 "s ----- ----------------------- 6). 2 8 "s ----- ----------------------- 7). 1 9 "s ----- ----------------------- 8). 1 13 "s ----- ----------------------- 9). 1 14 "s ----- ----------------------- 10). 1 29 "s ----- ----------------------- 11). 1 32 "s ----- ----------------------- 12). 1 34 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 29 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 1 1 1 2 2 2 2 2 2 3 3 3 4 4 4 5 6 6 7 7 8 9 9 9 9 17 21 24 31 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 3 1 "s ----- ----------------------- 2). 6 2 "s ----- ----------------------- 3). 3 3 "s ----- ----------------------- 4). 3 4 "s ----- ----------------------- 5). 1 5 "s ----- ----------------------- 6). 2 6 "s ----- ----------------------- 7). 2 7 "s ----- ----------------------- 8). 1 8 "s ----- ----------------------- 9). 4 9 "s ----- ----------------------- 10). 1 17 "s ----- ----------------------- 11). 1 21 "s ----- ----------------------- 12). 1 24 "s ----- ----------------------- 13). 1 31 "s ----- ----------------------- ============================================================================== ============================================================================== The SEQUENCE in PERM.INP is a [*]-Qualifying Sequence ============================================================================== with 27 Lexicographic STAR EVENT Index Displacements: [ S(i+1) - S(i) ] 1 1 2 2 2 2 3 4 4 4 4 4 5 5 6 6 6 7 10 10 10 12 13 13 15 25 26 ============================================================================== Index Frequency/Displacement: ----- ----------------------- 1). 2 1 "s ----- ----------------------- 2). 4 2 "s ----- ----------------------- 3). 1 3 "s ----- ----------------------- 4). 5 4 "s ----- ----------------------- 5). 2 5 "s ----- ----------------------- 6). 3 6 "s ----- ----------------------- 7). 1 7 "s ----- ----------------------- 8). 3 10 "s ----- ----------------------- 9). 1 12 "s ----- ----------------------- 10). 2 13 "s ----- ----------------------- 11). 1 15 "s ----- ----------------------- 12). 1 25 "s ----- ----------------------- 13). 1 26 "s ----- ----------------------- ==============================================================================