************************************************************
                       Means for 03EB 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
513.97  50.54   0.70   0.78   0.74  39.24  11.30  17.11 446.32   0.70   0.70   0.78   0.74   0.70 

************************************************************
                        SDs for 03EB 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
101.72   5.24   0.06   0.06   0.05   4.95   2.99   5.24 101.85   0.06   0.06   0.05   0.05   0.06 

************************************************************
                      Means for 04EmB 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
514.22  50.78   0.58   0.68   0.62  34.51  16.27  27.14 436.30   0.58   0.58   0.68   0.62   0.58 

************************************************************
                       SDs for 04EmB 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
102.21   4.54   0.11   0.11   0.09   6.14   6.25  13.02 101.76   0.11   0.11   0.11   0.09   0.11 

************************************************************
                      Means for 05EBm 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
497.46  49.46   0.78   0.87   0.82  42.97   6.49  12.30 435.70   0.80   0.78   0.87   0.82   0.80 

************************************************************
                       SDs for 05EBm 
************************************************************
   MS    FS     P     R     F    TP    FN    FP    TN   MCC     P     R     F   MCC 
93.59  5.22  0.07  0.10  0.07  7.23  4.59  4.94 95.59  0.08  0.07  0.10  0.07  0.08 

************************************************************
                      Means for 06EmBm 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
499.35  50.05   0.61   0.72   0.66  36.05  14.00  24.43 424.86   0.62   0.61   0.72   0.66   0.62 

************************************************************
                       SDs for 06EmBm 
************************************************************
   MS    FS     P     R     F    TP    FN    FP    TN   MCC     P     R     F   MCC 
87.53  5.13  0.10  0.08  0.07  5.30  4.16 11.32 88.33  0.08  0.10  0.08  0.07  0.08 

************************************************************
                        Quade for P 
************************************************************

	Quade test

data:  matrix
Quade F = 28.152, num df = 3, denom df = 108, p-value = 1.581e-13

************************************************************
                    Quade PostHOC for P 
************************************************************

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  7.5e-05 -       -      
05EBm  0.0002  3.6e-13 -      
06EmBm 0.0167  0.0763  2.5e-09

P value adjustment method: holm 
************************************************************
                         AMeasure P 
************************************************************
A12  03EB  VS  04EmB  =  0.787436084733382
A12  03EB  VS  05EBm  =  0.216216216216216
A12  03EB  VS  06EmBm  =  0.742878013148283
A12  04EmB  VS  05EBm  =  0.0672023374726078
A12  04EmB  VS  06EmBm  =  0.401022644265888
A12  05EBm  VS  06EmBm  =  0.897735573411249
************************************************************
                        Quade for R 
************************************************************

	Quade test

data:  matrix
Quade F = 22.078, num df = 3, denom df = 108, p-value = 3.174e-11

************************************************************
                    Quade PostHOC for R 
************************************************************

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  0.00066 -       -      
05EBm  0.00066 3.0e-11 -      
06EmBm 0.10110 0.10110 2.3e-07

P value adjustment method: holm 
************************************************************
                         AMeasure R 
************************************************************
A12  03EB  VS  04EmB  =  0.744338933528123
A12  03EB  VS  05EBm  =  0.231555880204529
A12  03EB  VS  06EmBm  =  0.711468224981738
A12  04EmB  VS  05EBm  =  0.127830533235939
A12  04EmB  VS  06EmBm  =  0.388604821037253
A12  05EBm  VS  06EmBm  =  0.857560262965668
************************************************************
                        Quade for F 
************************************************************

	Quade test

data:  matrix
Quade F = 39.156, num df = 3, denom df = 108, p-value < 2.2e-16

************************************************************
                    Quade PostHOC for F 
************************************************************

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  2.9e-06 -       -      
05EBm  2.9e-06 < 2e-16 -      
06EmBm 0.0229  0.0077  8.8e-11

P value adjustment method: holm 
************************************************************
                         AMeasure F 
************************************************************
A12  03EB  VS  04EmB  =  0.844411979547115
A12  03EB  VS  05EBm  =  0.173849525200877
A12  03EB  VS  06EmBm  =  0.814463111760409
A12  04EmB  VS  05EBm  =  0.0511322132943754
A12  04EmB  VS  06EmBm  =  0.367421475529584
A12  05EBm  VS  06EmBm  =  0.940832724616508
************************************************************
                       Quade for MCC 
************************************************************

	Quade test

data:  matrix
Quade F = 39.198, num df = 3, denom df = 108, p-value < 2.2e-16

************************************************************
                   Quade PostHOC for MCC 
************************************************************

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  3.4e-06 -       -      
05EBm  5.7e-06 < 2e-16 -      
06EmBm 0.0087  0.0226  9.6e-12

P value adjustment method: holm 
************************************************************
                        AMeasure MCC 
************************************************************
A12  03EB  VS  04EmB  =  0.840759678597516
A12  03EB  VS  05EBm  =  0.177136596055515
A12  03EB  VS  06EmBm  =  0.809715120525931
A12  04EmB  VS  05EBm  =  0.0489408327246165
A12  04EmB  VS  06EmBm  =  0.376186997808619
A12  05EBm  VS  06EmBm  =  0.948137326515705