************************************************************
                      Means for 01EBRo 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
492.32  48.92   0.65   0.76   0.70  37.08  11.84  20.24 423.16   0.66   0.65   0.76   0.70   0.66 

************************************************************
                       SDs for 01EBRo 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
101.70   5.17   0.06   0.08   0.05   5.38   3.98   5.96 102.03   0.06   0.06   0.08   0.05   0.06 

************************************************************
                     Means for 02BLiMEA 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
498.95  49.70   0.63   0.77   0.69  38.08  11.62  23.19 426.05   0.65   0.63   0.77   0.69   0.65 

************************************************************
                      SDs for 02BLiMEA 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
101.06   4.33   0.07   0.10   0.07   5.96   5.11   7.88 100.03   0.08   0.07   0.10   0.07   0.08 

************************************************************
                       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 07Rand 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
478.43  50.81   0.39   0.33   0.35  16.54  34.27  26.95 400.68   0.28   0.39   0.33   0.35   0.28 

************************************************************
                       SDs for 07Rand 
************************************************************
   MS    FS     P     R     F    TP    FN    FP    TN   MCC     P     R     F   MCC 
81.82  4.48  0.07  0.04  0.04  2.62  3.92  7.95 82.55  0.06  0.07  0.05  0.04  0.06 

************************************************************
                      Means for 08CoEB 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
523.03  50.65   0.60   0.68   0.62  34.00  16.65  24.81 447.57   0.59   0.60   0.68   0.62   0.59 

************************************************************
                       SDs for 08CoEB 
************************************************************
   MS    FS     P     R     F    TP    FN    FP    TN   MCC     P     R     F   MCC 
98.70  4.85  0.10  0.12  0.07  5.57  6.80 11.57 96.81  0.08  0.10  0.12  0.07  0.08 

************************************************************
                       Means for 10HC 
************************************************************
    MS     FS      P      R      F     TP     FN     FP     TN    MCC      P      R      F    MCC 
492.14  49.59   0.46   0.36   0.40  17.95  31.65  22.54 420.00   0.34   0.46   0.36   0.40   0.34 

************************************************************
                        SDs for 10HC 
************************************************************
   MS    FS     P     R     F    TP    FN    FP    TN   MCC     P     R     F   MCC 
90.55  5.73  0.08  0.05  0.04  3.44  4.50  9.70 91.90  0.05  0.08  0.05  0.04  0.05 

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

	Quade test

data:  matrix
Quade F = 43.244, num df = 5, denom df = 180, p-value < 2.2e-16

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

         01EBRo  02BLiMEA 03EB    07Rand  08CoEB 
02BLiMEA 0.10840 -        -       -       -      
03EB     0.15854 0.00089  -       -       -      
07Rand   < 2e-16 7.8e-13  < 2e-16 -       -      
08CoEB   0.03849 0.55986  0.00010 2.1e-11 -      
10HC     1.8e-12 1.9e-07  < 2e-16 0.09763 2.9e-06

P value adjustment method: holm 
************************************************************
                         AMeasure P 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.590942293644996
A12  01EBRo  VS  03EB  =  0.300949598246896
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.658875091307524
A12  01EBRo  VS  10HC  =  0.984660336011687
A12  02BLiMEA  VS  03EB  =  0.236669101533966
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.581446311176041
A12  02BLiMEA  VS  10HC  =  0.940832724616508
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.808619430241052
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0.0438276113951789
A12  07Rand  VS  10HC  =  0.254930606281958
A12  08CoEB  VS  10HC  =  0.850255661066472
************************************************************
                        Quade for R 
************************************************************

	Quade test

data:  matrix
Quade F = 47.16, num df = 5, denom df = 180, p-value < 2.2e-16

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

         01EBRo  02BLiMEA 03EB    07Rand  08CoEB 
02BLiMEA 0.9557  -        -       -       -      
03EB     1.0000  1.0000   -       -       -      
07Rand   < 2e-16 < 2e-16  < 2e-16 -       -      
08CoEB   0.0713  0.0045   0.0126  4.6e-12 -      
10HC     5.1e-13 1.2e-15  1.1e-14 0.1521  3.8e-07

P value adjustment method: holm 
************************************************************
                         AMeasure R 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.453615777940102
A12  01EBRo  VS  03EB  =  0.402483564645727
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.685902118334551
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.488677867056245
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.718772826880935
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.77136596055515
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.314828341855369
A12  08CoEB  VS  10HC  =  1
************************************************************
                        Quade for F 
************************************************************

	Quade test

data:  matrix
Quade F = 58.082, num df = 5, denom df = 180, p-value < 2.2e-16

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

         01EBRo  02BLiMEA 03EB    07Rand  08CoEB 
02BLiMEA 0.5798  -        -       -       -      
03EB     0.0148  0.0036   -       -       -      
07Rand   < 2e-16 < 2e-16  < 2e-16 -       -      
08CoEB   0.0036  0.0148   1.1e-08 4.7e-11 -      
10HC     8.1e-15 2.3e-13  < 2e-16 0.0891  1.7e-06

P value adjustment method: holm 
************************************************************
                         AMeasure F 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.566106647187728
A12  01EBRo  VS  03EB  =  0.284149013878744
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.79108838568298
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.275383491599708
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.723155588020453
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.909422936449963
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.20891161431702
A12  08CoEB  VS  10HC  =  0.998539079620161
************************************************************
                       Quade for MCC 
************************************************************

	Quade test

data:  matrix
Quade F = 55.728, num df = 5, denom df = 180, p-value < 2.2e-16

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

	Pairwise comparisons using posthoc-Quade test with TDist approximation 

data:  matrix 

         01EBRo  02BLiMEA 03EB    07Rand  08CoEB 
02BLiMEA 0.4278  -        -       -       -      
03EB     0.0837  0.0149   -       -       -      
07Rand   < 2e-16 < 2e-16  < 2e-16 -       -      
08CoEB   0.0017  0.0165   1.3e-07 6.2e-11 -      
10HC     3.2e-15 3.9e-13  < 2e-16 0.0875  2.2e-06

P value adjustment method: holm 
************************************************************
                        AMeasure MCC 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.538714390065742
A12  01EBRo  VS  03EB  =  0.306062819576333
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.780861943024105
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.2918188458729
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.715850986121256
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.899926953981008
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.205259313367421
A12  08CoEB  VS  10HC  =  0.993791088385683