Shebanova 2002

Performance0-Rank  0-Score1-Rank  1-Score2-Rank  2-Score3-Rank  3-Score3R-Rank  3R-Score4-Rank  4-Score  NED
Ashkenazy 1981   48  0.5338  0.0048  0.0730  0.0742  0.0642  0.06
Bacha 1997   40  0.6433  0.0043  0.0733  0.0728  0.0929  0.08
Barbosa 1983   28  0.6849  0.0026  0.0926  0.0930  0.0831  0.08
Biret 1990   32  0.6717  0.0016  0.1119  0.2522  0.1916  0.22
Block 1995   49  0.4641  0.0049  0.0636  0.0628  0.0740  0.06
Brailowsky 1960   31  0.6743  0.0029  0.0544  0.0532  0.0735  0.06
Chiu 1999   27  0.6825  0.0038  0.0637  0.0635  0.0636  0.06
Clidat 1994   3  0.772  0.152  0.236  0.5211  0.398  0.45
Cohen 1997   30  0.6834  0.0028  0.0731  0.0736  0.0643  0.06
Cortot 1951   39  0.6411  0.0114  0.0921  0.2312  0.4410  0.32
Csalog 1996   11  0.7510  0.0113  0.1113  0.3447  0.0524  0.13
Czerny 1990   18  0.7115  0.0115  0.0914  0.3421  0.1915  0.25
Ezaki 2006   16  0.737  0.0212  0.129  0.4325  0.1514  0.25
Ferenczy 1958   20  0.7136  0.0022  0.0722  0.2141  0.0625  0.11
Fliere 1977   19  0.7137  0.0023  0.0820  0.2427  0.1021  0.15
Fou 1978   17  0.7230  0.0021  0.0918  0.2530  0.1119  0.17
Francois 1956   42  0.6129  0.0027  0.0635  0.067  0.4220  0.16
Grinberg 1951   43  0.6123  0.0032  0.0546  0.0534  0.0739  0.06
Hatto 1993   29  0.6827  0.0030  0.0542  0.0536  0.0648  0.05
Hatto 1997   25  0.7013  0.0125  0.1123  0.2031  0.0822  0.13
Indjic 2001   33  0.6747  0.0039  0.0827  0.0831  0.0734  0.07
Jonas 1947   37  0.6519  0.0042  0.0545  0.0549  0.0451  0.04
Kapell 1951   7  0.768  0.028  0.225  0.5422  0.1811  0.31
Kiepura 1999   46  0.5431  0.0044  0.0728  0.0737  0.0732  0.07
Kushner 1989   36  0.6620  0.0017  0.0924  0.1733  0.0727  0.11
Luisada 1991   47  0.5332  0.0045  0.0639  0.0627  0.0833  0.07
Lushtak 2004   15  0.7324  0.0020  0.1017  0.2734  0.0623  0.13
Magaloff 1978   26  0.6939  0.0024  0.0825  0.1731  0.0726  0.11
Meguri 1997   1  0.841  0.501  0.491  0.824  0.521  0.65
Milkina 1970   22  0.7046  0.0037  0.0729  0.0742  0.0544  0.06
Mohovich 1999   24  0.7018  0.0033  0.0640  0.0637  0.0641  0.06
Niedzielski 1931   35  0.6735  0.0036  0.0734  0.0730  0.0930  0.08
Ohlsson 1999   5  0.775  0.045  0.222  0.6133  0.0817  0.22
Olejniczak 1990   34  0.6740  0.0040  0.0548  0.0540  0.0650  0.05
Osinska 1989   14  0.749  0.0110  0.128  0.461  0.613  0.53
Rangell 2001   2  0.784  0.067  0.193  0.609  0.426  0.50
Richter 1976   44  0.5751  0.0046  0.0549  0.0534  0.0845  0.06
Rubinstein 1938   4  0.776  0.024  0.194  0.562  0.612  0.58
Rubinstein 1952   6  0.763  0.063  0.217  0.475  0.604  0.53
Rubinstein 1961   10  0.7516  0.0111  0.1312  0.383  0.577  0.47
Rubinstein 1966   9  0.7512  0.019  0.1210  0.432  0.605  0.51
Shebanova 2002   target  targettarget  targettarget  targettarget  targettarget  targettarget  target
Smidowicz 1948   12  0.7521  0.0018  0.1015  0.3119  0.3112  0.31
Smidowicz 1948b   13  0.7422  0.0019  0.1316  0.2820  0.2613  0.27
Smith 1975   38  0.6514  0.0141  0.0547  0.0529  0.0837  0.06
Sofronitsky 1949   45  0.5628  0.0047  0.0732  0.0738  0.0638  0.06
Sztompka 1959   23  0.7026  0.0031  0.0638  0.064  0.6718  0.20
Tomsic 1995   41  0.6344  0.0035  0.0543  0.0532  0.0647  0.05
Uninsky 1971   21  0.7145  0.0034  0.0541  0.0532  0.0649  0.05
Wasowski 1980   8  0.7542  0.006  0.1611  0.4217  0.379  0.39
Random 1   50  0.0648  0.0050  0.0350  0.0318  0.2628  0.09
Random 2   51  0.0050  0.0051  0.0251  0.0222  0.1346  0.05
Random 3   52  -0.0452  0.0052  0.0252  0.0245  0.0452  0.03

Note: To load data table give above into Excel, copy and paste the data into a text editor (such as WordPad) first, then copy the text in the editor and past into Excel. You should remove the "target" line from the data before pasting into Excel so that plotting graphs of the data is done properly.

Column descriptions

  • Performance:
  • 0-Rank/0-Score: 0-Score is equivalent to Pearson correlation of the entire data sequence between the reference performance and a test performance. 0-Rank is the sorting order of the 0-scores (highest score has a rank of 1).
  • 1-Rank/1-Score: 1-Score is the area fraction covered by a particular performance in the scape plot (see image above). These values should not be taken literally, since they are sensitive to the Hatto Effect.
  • 2-Rank/2-Score: 2-Score values are equivalent to 1-Score values with all higher-ranking performances removed before the calculation of the area of coverage in the scape is calculated. Improvment over the 1-Rank scores, but still somewhat sensitive to the Hatto Effect.
  • 3-Rank/3-Score: Similar to 2-Rank calculations. The bottom 1/2 of the 2-rank performances are kept constant as a noise floor for the similarity measurement. Then one-by-one the top 1/2 of the 2-rank performances are superimposed with the noise-floor performances, and a 3-score is measured as the area covered in the scape. This measure is not sentisive to the Hatto Effect.
  • 3R-Rank/3R-Score: Reverse 3-rank/3-scores. 3-rankings and scores are not symmetric (A->B values are different from B->A values). So this column represents similarity measures in the opposite direction.
  • 4-Rank/4-Score: The geometric mean between 3-scores and 3R-scores. This column gives the best overall similarity ranking between the various performances (see color codes below).
  • NED: Noise Equivalient Distance (not yet implemented)

Color codes for 3-rank listings:

  • red = strongly similar performance to target
  • orange = moderately similar performance
  • yellow = weakly similar performance
  • green = marginally similar/dissimilar performance
  • white = dissimilar to target
  • blue = false positive (has high 3-rank score but low 3R-rank score)

3-rank/scores are not symmetric, so the 3R-rank/score columns give the 3-rank/scores going in the opposite direction. More matches in the 3-rank column than in the 3R-rank column indicates an individualistic performance, while more matches in the 3R-rank column indicates a mainstream performance.

If a 3-rank and a 3R-rank are both marked as similar to each other, then there is a possible direct relation between the performances. If one is similar to the other but not in the reverse direction, then the similarity is more likely to be by chance (performers randomly chose a similar interpretation).