************************************************************
                      Means for 01EBRo 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
490.86  48.78  39.41   9.38  18.22 423.86   0.69   0.81   0.74   0.71 

************************************************************
                       SDs for 01EBRo 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
96.88  4.83  5.68  3.81  6.89 97.69  0.08  0.08  0.06  0.06 

************************************************************
                     Means for 02BLiMEA 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
503.11  49.46  38.11  11.35  21.70 431.95   0.65   0.77   0.70   0.67 

************************************************************
                      SDs for 02BLiMEA 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
87.71  4.68  6.39  5.50  8.93 83.30  0.07  0.11  0.06  0.07 

************************************************************
                       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 07Rand 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
520.43  49.78  17.30  32.49  25.70 444.95   0.41   0.35   0.37   0.31 

************************************************************
                       SDs for 07Rand 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
96.52  5.40  2.80  4.02  7.73 94.45  0.07  0.04  0.04  0.04 

************************************************************
                      Means for 08CoEB 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
518.35  50.32  34.57  15.76  24.73 443.30   0.60   0.69   0.63   0.60 

************************************************************
                       SDs for 08CoEB 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
97.98  4.67  6.61  6.09 11.60 99.92  0.11  0.12  0.07  0.08 

************************************************************
                       Means for 10HC 
************************************************************
    MS     FS     TP     FN     FP     TN      P      R      F    MCC 
477.00  49.97  20.30  29.68  23.95 403.08   0.47   0.41   0.43   0.37 

************************************************************
                        SDs for 10HC 
************************************************************
   MS    FS    TP    FN    FP    TN     P     R     F   MCC 
91.81  4.81  3.19  4.64  8.98 90.47  0.09  0.06  0.05  0.06 

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

	Quade test

data:  matrix
Quade F = 38.988, 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 0.34266 -        -       -       -      
03EB     0.38534 0.06287  -       -       -      
07Rand   < 2e-16 5.1e-13  < 2e-16 -       -      
08CoEB   0.00535 0.34266  0.00024 8.3e-09 -      
10HC     3.6e-13 4.1e-09  1.7e-15 0.34266 1.8e-05

P value adjustment method: holm 
************************************************************
                         AMeasure P 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.630387143900657
A12  01EBRo  VS  03EB  =  0.394083272461651
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.735573411249087
A12  01EBRo  VS  10HC  =  0.986121256391527
A12  02BLiMEA  VS  03EB  =  0.300219138056976
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.640248356464573
A12  02BLiMEA  VS  10HC  =  0.936084733382031
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.785244704163623
A12  03EB  VS  10HC  =  0.990138787436085
A12  07Rand  VS  08CoEB  =  0.0569758948137327
A12  07Rand  VS  10HC  =  0.297662527392257
A12  08CoEB  VS  10HC  =  0.804967129291454
************************************************************
                        Quade for R 
************************************************************

	Quade test

data:  matrix
Quade F = 47.427, 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 0.58898 -        -       -       -      
03EB     0.58898 0.10281  -       -       -      
07Rand   < 2e-16 7.8e-16  < 2e-16 -       -      
08CoEB   0.03605 0.37913  0.00061 1.7e-11 -      
10HC     2.5e-15 1.9e-12  < 2e-16 0.58898 2.0e-08

P value adjustment method: holm 
************************************************************
                         AMeasure R 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.607012417823229
A12  01EBRo  VS  03EB  =  0.434258582907231
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.784149013878744
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.35390796201607
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.674579985390796
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.785609934258583
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.213659605551497
A12  08CoEB  VS  10HC  =  0.997808619430241
************************************************************
                        Quade for F 
************************************************************

	Quade test

data:  matrix
Quade F = 59.868, 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 0.1836  -        -       -       -      
03EB     0.0724  0.0028   -       -       -      
07Rand   < 2e-16 < 2e-16  < 2e-16 -       -      
08CoEB   8.0e-05 0.0078   2.6e-09 1.4e-10 -      
10HC     2.6e-16 9.5e-13  < 2e-16 0.0724  1.3e-05

P value adjustment method: holm 
************************************************************
                         AMeasure F 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.677867056245435
A12  01EBRo  VS  03EB  =  0.397005113221329
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.87436084733382
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.256756756756757
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.746895544192842
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.897735573411249
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.184806428049671
A12  08CoEB  VS  10HC  =  0.985390796201607
************************************************************
                       Quade for MCC 
************************************************************

	Quade test

data:  matrix
Quade F = 57.956, 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 0.20577 -        -       -       -      
03EB     0.08363 0.00545  -       -       -      
07Rand   < 2e-16 < 2e-16  < 2e-16 -       -      
08CoEB   0.00019 0.01234  1.6e-08 1.0e-10 -      
10HC     5.1e-16 1.2e-12  < 2e-16 0.08236 8.1e-06

P value adjustment method: holm 
************************************************************
                        AMeasure MCC 
************************************************************
A12  01EBRo  VS  02BLiMEA  =  0.670562454346238
A12  01EBRo  VS  03EB  =  0.390065741417093
A12  01EBRo  VS  07Rand  =  1
A12  01EBRo  VS  08CoEB  =  0.876552227903579
A12  01EBRo  VS  10HC  =  1
A12  02BLiMEA  VS  03EB  =  0.252739225712199
A12  02BLiMEA  VS  07Rand  =  1
A12  02BLiMEA  VS  08CoEB  =  0.731921110299489
A12  02BLiMEA  VS  10HC  =  1
A12  03EB  VS  07Rand  =  1
A12  03EB  VS  08CoEB  =  0.892987582176771
A12  03EB  VS  10HC  =  1
A12  07Rand  VS  08CoEB  =  0
A12  07Rand  VS  10HC  =  0.216581446311176
A12  08CoEB  VS  10HC  =  0.986121256391527