************************************************************
                       Means for 03EB 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
502.03  49.49  41.30   8.19  16.59 435.95   0.73   0.83   0.77   0.75 

************************************************************
                        SDs for 03EB 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
99.69  4.09  7.26  6.25  9.04 94.88  0.11  0.13  0.08  0.09 

************************************************************
                      Means for 04EmB 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
490.70  51.22  36.27  14.95  28.05 411.43   0.59   0.71   0.63   0.59 

************************************************************
                       SDs for 04EmB 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
102.79   4.78   6.71   6.20  13.70 102.68   0.10   0.12   0.07   0.08 

************************************************************
                      Means for 05EBm 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
517.76  50.38  45.43   4.95  13.08 454.30   0.80   0.90   0.84   0.82 

************************************************************
                       SDs for 05EBm 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
90.72  4.42  6.19  4.56  9.59 92.21  0.12  0.09  0.08  0.09 

************************************************************
                      Means for 06EmBm 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
496.54  50.30  36.86  13.43  22.68 423.57   0.64   0.73   0.67   0.64 

************************************************************
                       SDs for 06EmBm 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
91.54  4.90  5.64  4.94 11.77 91.79  0.12  0.09  0.08  0.09 

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

	Quade test

data:  matrix
Quade F = 24.572, num df = 3, denom df = 108, p-value = 3.38e-12

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  8.8e-07 -       -      
05EBm  0.0379  1.4e-11 -      
06EmBm 0.0037  0.0379  5.2e-07

P value adjustment method: holm 
************************************************************
                         AMeasure P 
************************************************************
A12  03EB  VS  04EmB  =  0.81190650109569
A12  03EB  VS  05EBm  =  0.337472607742878
A12  03EB  VS  06EmBm  =  0.714390065741417
A12  04EmB  VS  05EBm  =  0.110299488677867
A12  04EmB  VS  06EmBm  =  0.358655953250548
A12  05EBm  VS  06EmBm  =  0.807158509861213
************************************************************
                        Quade for R 
************************************************************

	Quade test

data:  matrix
Quade F = 25.604, num df = 3, denom df = 108, p-value = 1.373e-12

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

       03EB    04EmB   05EBm  
04EmB  3.8e-06 -       -      
05EBm  0.058   1.7e-10 -      
06EmBm 4.4e-05 0.512   3.7e-09

P value adjustment method: holm 
************************************************************
                         AMeasure R 
************************************************************
A12  03EB  VS  04EmB  =  0.753104455807158
A12  03EB  VS  05EBm  =  0.338933528122717
A12  03EB  VS  06EmBm  =  0.722425127830533
A12  04EmB  VS  05EBm  =  0.106647187728269
A12  04EmB  VS  06EmBm  =  0.440467494521549
A12  05EBm  VS  06EmBm  =  0.886048210372535
************************************************************
                        Quade for F 
************************************************************

	Quade test

data:  matrix
Quade F = 38.372, 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  1.2e-10 -       -      
05EBm  0.0258  1.3e-15 -      
06EmBm 4.5e-05 0.0087  2.4e-09

P value adjustment method: holm 
************************************************************
                         AMeasure F 
************************************************************
A12  03EB  VS  04EmB  =  0.899926953981008
A12  03EB  VS  05EBm  =  0.27063550036523
A12  03EB  VS  06EmBm  =  0.781592403214025
A12  04EmB  VS  05EBm  =  0.0321402483564646
A12  04EmB  VS  06EmBm  =  0.347333820306793
A12  05EBm  VS  06EmBm  =  0.925127830533236
************************************************************
                       Quade for MCC 
************************************************************

	Quade test

data:  matrix
Quade F = 37.76, 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  3.8e-10 -       -      
05EBm  0.062   7.4e-15 -      
06EmBm 5.7e-06 0.062   3.8e-10

P value adjustment method: holm 
************************************************************
                        AMeasure MCC 
************************************************************
A12  03EB  VS  04EmB  =  0.902118334550767
A12  03EB  VS  05EBm  =  0.268809349890431
A12  03EB  VS  06EmBm  =  0.790357925493061
A12  04EmB  VS  05EBm  =  0.0277574872169467
A12  04EmB  VS  06EmBm  =  0.352081811541271
A12  05EBm  VS  06EmBm  =  0.929875821767714