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Description of Statistical Computation

Author's title

Author*The author of this computation has been verified*
R Software Modulerwasp_im2_dm1.wasp
Title produced by softwareData Mining
Date of computationThu, 17 May 2012 07:32:50 -0400
Cite this page as followsStatistical Computations at FreeStatistics.org, Office for Research Development and Education, URL https://freestatistics.org/blog/index.php?v=date/2012/May/17/t1337254416zsgbp9eucpma8up.htm/, Retrieved Mon, 29 Apr 2024 18:25:42 +0000
Statistical Computations at FreeStatistics.org, Office for Research Development and Education, URL https://freestatistics.org/blog/index.php?pk=166586, Retrieved Mon, 29 Apr 2024 18:25:42 +0000
QR Codes:

Original text written by user:
IsPrivate?No (this computation is public)
User-defined keywords
Estimated Impact112

Tree of Dependent Computations

Family? (F = Feedback message, R = changed R code, M = changed R Module, P = changed Parameters, D = changed Data)
-     [Hierarchical Clustering] [assignment 1 Hier...] [2012-05-17 10:42:32] [d95291bc5e09a8bed20558da95617a33]
- RMP     [Data Mining] [assignment 1: cor...] [2012-05-17 11:32:50] [b24373d134d7494cf9659e5b879a54ee] [Current]
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Dataset

Tables (Output of Computation)





Summary of computational transaction
Raw Inputview raw input (R code)
Raw Outputview raw output of R engine
Computing time13 seconds
R Server'Gwilym Jenkins' @ jenkins.wessa.net

\begin{tabular}{lllllllll}
\hline
Summary of computational transaction \tabularnewline
Raw Input & view raw input (R code)  \tabularnewline
Raw Output & view raw output of R engine  \tabularnewline
Computing time & 13 seconds \tabularnewline
R Server & 'Gwilym Jenkins' @ jenkins.wessa.net \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=166586&T=0

[TABLE]
[ROW][C]Summary of computational transaction[/C][/ROW]
[ROW][C]Raw Input[/C][C]view raw input (R code) [/C][/ROW]
[ROW][C]Raw Output[/C][C]view raw output of R engine [/C][/ROW]
[ROW][C]Computing time[/C][C]13 seconds[/C][/ROW]
[ROW][C]R Server[/C][C]'Gwilym Jenkins' @ jenkins.wessa.net[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=166586&T=0

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=166586&T=0

As an alternative you can also use a QR Code:  
QR Code


The GUIDs for individual cells are displayed in the table below:

Summary of computational transaction
Raw Inputview raw input (R code)
Raw Outputview raw output of R engine
Computing time13 seconds
R Server'Gwilym Jenkins' @ jenkins.wessa.net






Computational Result
> myoutput
$Xcor
              A1          A2         A3          A4           A5         A6
A1   1.000000000 -0.01456763 0.22902201 -0.01958045 0.0785518897 0.14186848
A2  -0.014567629  1.00000000 0.04063150  0.11874592 0.0337351744 0.01112626
A3   0.229022006  0.04063150 1.00000000  0.14425639 0.1696514232 0.23262417
A4  -0.019580448  0.11874592 0.14425639  1.00000000 0.2290508251 0.12795672
A5   0.078551890  0.03373517 0.16965142  0.22905083 1.0000000000 0.20678901
A6   0.141868482  0.01112626 0.23262417  0.12795672 0.2067890085 1.00000000
A7   0.139390110  0.19014999 0.10843907  0.06819190 0.1417798583 0.13833195
A8   0.140708399  0.12651933 0.23500200  0.15247844 0.1696980676 0.26335303
A9   0.008460045  0.18351148 0.04653308  0.16426408 0.0005923172 0.09394066
A10  0.197194844  0.04050948 0.17426396  0.06212562 0.0798494751 0.16750522
           A7        A8           A9        A10
A1  0.1393901 0.1407084 0.0084600449 0.19719484
A2  0.1901500 0.1265193 0.1835114788 0.04050948
A3  0.1084391 0.2350020 0.0465330818 0.17426396
A4  0.0681919 0.1524784 0.1642640849 0.06212562
A5  0.1417799 0.1696981 0.0005923172 0.07984948
A6  0.1383319 0.2633530 0.0939406604 0.16750522
A7  1.0000000 0.2278096 0.1626119100 0.12891833
A8  0.2278096 1.0000000 0.1421289142 0.26081027
A9  0.1626119 0.1421289 1.0000000000 0.14376296
A10 0.1289183 0.2608103 0.1437629575 1.00000000
$Ycor
             BC       NNZFG        MRT        AFL       LPM       LPC
BC    1.0000000  0.21692825 0.19508491 0.42702632 0.3044599 0.2355216
NNZFG 0.2169282  1.00000000 0.19415432 0.08305711 0.1564884 0.2618039
MRT   0.1950849  0.19415432 1.00000000 0.24751514 0.2224775 0.2079408
AFL   0.4270263  0.08305711 0.24751514 1.00000000 0.7893611 0.5317312
LPM   0.3044599  0.15648844 0.22247745 0.78936107 1.0000000 0.5490427
LPC   0.2355216  0.26180394 0.20794082 0.53173120 0.5490427 1.0000000
W     0.2723137  0.11579428 0.08797304 0.23210652 0.2347420 0.1722439
WPA   0.2120813 -0.01622033 0.08832075 0.17633039 0.1933061 0.1742469
               W         WPA
BC    0.27231371  0.21208131
NNZFG 0.11579428 -0.01622033
MRT   0.08797304  0.08832075
AFL   0.23210652  0.17633039
LPM   0.23474203  0.19330613
LPC   0.17224389  0.17424686
W     1.00000000  0.37586980
WPA   0.37586980  1.00000000
$XYcor
                A1          A2          A3           A4            A5
A1     1.000000000 -0.01456763  0.22902201 -0.019580448  0.0785518897
A2    -0.014567629  1.00000000  0.04063150  0.118745925  0.0337351744
A3     0.229022006  0.04063150  1.00000000  0.144256392  0.1696514232
A4    -0.019580448  0.11874592  0.14425639  1.000000000  0.2290508251
A5     0.078551890  0.03373517  0.16965142  0.229050825  1.0000000000
A6     0.141868482  0.01112626  0.23262417  0.127956717  0.2067890085
A7     0.139390110  0.19014999  0.10843907  0.068191897  0.1417798583
A8     0.140708399  0.12651933  0.23500200  0.152478442  0.1696980676
A9     0.008460045  0.18351148  0.04653308  0.164264085  0.0005923172
A10    0.197194844  0.04050948  0.17426396  0.062125619  0.0798494751
BC     0.079011232 -0.11073777  0.03327579 -0.101958392 -0.0237926848
NNZFG  0.008476285 -0.03881084 -0.03913428 -0.086627382 -0.0249972607
MRT    0.036923677 -0.07423100 -0.01107848  0.011831077  0.0323282727
AFL    0.152414616 -0.16636615  0.07880550 -0.098951246  0.0103075521
LPM    0.074428915 -0.01445905  0.03165409  0.015340212  0.0230872722
LPC   -0.001198829 -0.01559275 -0.02050621 -0.006509637  0.0186152462
W      0.043291156 -0.05469730  0.07491964  0.031412183  0.0480468448
WPA    0.065853603 -0.05310585  0.03535442  0.013330008  0.0194986740
                A6            A7           A8            A9         A10
A1     0.141868482  0.1393901096  0.140708399  0.0084600449  0.19719484
A2     0.011126259  0.1901499886  0.126519332  0.1835114788  0.04050948
A3     0.232624170  0.1084390729  0.235001996  0.0465330818  0.17426396
A4     0.127956717  0.0681918969  0.152478442  0.1642640849  0.06212562
A5     0.206789008  0.1417798583  0.169698068  0.0005923172  0.07984948
A6     1.000000000  0.1383319469  0.263353034  0.0939406604  0.16750522
A7     0.138331947  1.0000000000  0.227809613  0.1626119100  0.12891833
A8     0.263353034  0.2278096127  1.000000000  0.1421289142  0.26081027
A9     0.093940660  0.1626119100  0.142128914  1.0000000000  0.14376296
A10    0.167505221  0.1289183331  0.260810271  0.1437629575  1.00000000
BC    -0.007975716  0.0144219892 -0.009821503 -0.1050452692  0.04614380
NNZFG -0.053899893 -0.0332550478 -0.061310146 -0.0770104061 -0.03234152
MRT    0.067076127 -0.0235946767  0.042074609 -0.0311736148  0.05611363
AFL    0.051556718 -0.0006592947 -0.012763638 -0.1580831711  0.02679128
LPM    0.041330284  0.0028300350  0.078867472 -0.0704079613  0.07108898
LPC    0.009111126  0.0105569528  0.077031658 -0.0480269953  0.02469060
W      0.068015642  0.0151025799  0.025840107  0.0180747138  0.06177604
WPA    0.018068837  0.0585246364  0.085790996  0.0062905980  0.06445372
                BC        NNZFG         MRT           AFL          LPM
A1     0.079011232  0.008476285  0.03692368  0.1524146161  0.074428915
A2    -0.110737768 -0.038810843 -0.07423100 -0.1663661538 -0.014459045
A3     0.033275793 -0.039134284 -0.01107848  0.0788055036  0.031654087
A4    -0.101958392 -0.086627382  0.01183108 -0.0989512459  0.015340212
A5    -0.023792685 -0.024997261  0.03232827  0.0103075521  0.023087272
A6    -0.007975716 -0.053899893  0.06707613  0.0515567185  0.041330284
A7     0.014421989 -0.033255048 -0.02359468 -0.0006592947  0.002830035
A8    -0.009821503 -0.061310146  0.04207461 -0.0127636385  0.078867472
A9    -0.105045269 -0.077010406 -0.03117361 -0.1580831711 -0.070407961
A10    0.046143801 -0.032341517  0.05611363  0.0267912780  0.071088983
BC     1.000000000  0.216928247  0.19508491  0.4270263228  0.304459927
NNZFG  0.216928247  1.000000000  0.19415432  0.0830571055  0.156488436
MRT    0.195084914  0.194154316  1.00000000  0.2475151423  0.222477452
AFL    0.427026323  0.083057105  0.24751514  1.0000000000  0.789361068
LPM    0.304459927  0.156488436  0.22247745  0.7893610683  1.000000000
LPC    0.235521632  0.261803938  0.20794082  0.5317312008  0.549042739
W      0.272313712  0.115794283  0.08797304  0.2321065162  0.234742034
WPA    0.212081314 -0.016220333  0.08832075  0.1763303903  0.193306130
               LPC           W          WPA
A1    -0.001198829  0.04329116  0.065853603
A2    -0.015592749 -0.05469730 -0.053105851
A3    -0.020506206  0.07491964  0.035354423
A4    -0.006509637  0.03141218  0.013330008
A5     0.018615246  0.04804684  0.019498674
A6     0.009111126  0.06801564  0.018068837
A7     0.010556953  0.01510258  0.058524636
A8     0.077031658  0.02584011  0.085790996
A9    -0.048026995  0.01807471  0.006290598
A10    0.024690605  0.06177604  0.064453722
BC     0.235521632  0.27231371  0.212081314
NNZFG  0.261803938  0.11579428 -0.016220333
MRT    0.207940821  0.08797304  0.088320754
AFL    0.531731201  0.23210652  0.176330390
LPM    0.549042739  0.23474203  0.193306130
LPC    1.000000000  0.17224389  0.174246862
W      0.172243894  1.00000000  0.375869797
WPA    0.174246862  0.37586980  1.000000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
[1] "BC"    "NNZFG" "MRT"   "AFL"   "LPM"   "LPC"   "W"     "WPA"  


\begin{tabular}{lllllllll}
\hline
Computational Result \tabularnewline

> myoutput
$Xcor
              A1          A2         A3          A4           A5         A6
A1   1.000000000 -0.01456763 0.22902201 -0.01958045 0.0785518897 0.14186848
A2  -0.014567629  1.00000000 0.04063150  0.11874592 0.0337351744 0.01112626
A3   0.229022006  0.04063150 1.00000000  0.14425639 0.1696514232 0.23262417
A4  -0.019580448  0.11874592 0.14425639  1.00000000 0.2290508251 0.12795672
A5   0.078551890  0.03373517 0.16965142  0.22905083 1.0000000000 0.20678901
A6   0.141868482  0.01112626 0.23262417  0.12795672 0.2067890085 1.00000000
A7   0.139390110  0.19014999 0.10843907  0.06819190 0.1417798583 0.13833195
A8   0.140708399  0.12651933 0.23500200  0.15247844 0.1696980676 0.26335303
A9   0.008460045  0.18351148 0.04653308  0.16426408 0.0005923172 0.09394066
A10  0.197194844  0.04050948 0.17426396  0.06212562 0.0798494751 0.16750522
           A7        A8           A9        A10
A1  0.1393901 0.1407084 0.0084600449 0.19719484
A2  0.1901500 0.1265193 0.1835114788 0.04050948
A3  0.1084391 0.2350020 0.0465330818 0.17426396
A4  0.0681919 0.1524784 0.1642640849 0.06212562
A5  0.1417799 0.1696981 0.0005923172 0.07984948
A6  0.1383319 0.2633530 0.0939406604 0.16750522
A7  1.0000000 0.2278096 0.1626119100 0.12891833
A8  0.2278096 1.0000000 0.1421289142 0.26081027
A9  0.1626119 0.1421289 1.0000000000 0.14376296
A10 0.1289183 0.2608103 0.1437629575 1.00000000
$Ycor
             BC       NNZFG        MRT        AFL       LPM       LPC
BC    1.0000000  0.21692825 0.19508491 0.42702632 0.3044599 0.2355216
NNZFG 0.2169282  1.00000000 0.19415432 0.08305711 0.1564884 0.2618039
MRT   0.1950849  0.19415432 1.00000000 0.24751514 0.2224775 0.2079408
AFL   0.4270263  0.08305711 0.24751514 1.00000000 0.7893611 0.5317312
LPM   0.3044599  0.15648844 0.22247745 0.78936107 1.0000000 0.5490427
LPC   0.2355216  0.26180394 0.20794082 0.53173120 0.5490427 1.0000000
W     0.2723137  0.11579428 0.08797304 0.23210652 0.2347420 0.1722439
WPA   0.2120813 -0.01622033 0.08832075 0.17633039 0.1933061 0.1742469
               W         WPA
BC    0.27231371  0.21208131
NNZFG 0.11579428 -0.01622033
MRT   0.08797304  0.08832075
AFL   0.23210652  0.17633039
LPM   0.23474203  0.19330613
LPC   0.17224389  0.17424686
W     1.00000000  0.37586980
WPA   0.37586980  1.00000000
$XYcor
                A1          A2          A3           A4            A5
A1     1.000000000 -0.01456763  0.22902201 -0.019580448  0.0785518897
A2    -0.014567629  1.00000000  0.04063150  0.118745925  0.0337351744
A3     0.229022006  0.04063150  1.00000000  0.144256392  0.1696514232
A4    -0.019580448  0.11874592  0.14425639  1.000000000  0.2290508251
A5     0.078551890  0.03373517  0.16965142  0.229050825  1.0000000000
A6     0.141868482  0.01112626  0.23262417  0.127956717  0.2067890085
A7     0.139390110  0.19014999  0.10843907  0.068191897  0.1417798583
A8     0.140708399  0.12651933  0.23500200  0.152478442  0.1696980676
A9     0.008460045  0.18351148  0.04653308  0.164264085  0.0005923172
A10    0.197194844  0.04050948  0.17426396  0.062125619  0.0798494751
BC     0.079011232 -0.11073777  0.03327579 -0.101958392 -0.0237926848
NNZFG  0.008476285 -0.03881084 -0.03913428 -0.086627382 -0.0249972607
MRT    0.036923677 -0.07423100 -0.01107848  0.011831077  0.0323282727
AFL    0.152414616 -0.16636615  0.07880550 -0.098951246  0.0103075521
LPM    0.074428915 -0.01445905  0.03165409  0.015340212  0.0230872722
LPC   -0.001198829 -0.01559275 -0.02050621 -0.006509637  0.0186152462
W      0.043291156 -0.05469730  0.07491964  0.031412183  0.0480468448
WPA    0.065853603 -0.05310585  0.03535442  0.013330008  0.0194986740
                A6            A7           A8            A9         A10
A1     0.141868482  0.1393901096  0.140708399  0.0084600449  0.19719484
A2     0.011126259  0.1901499886  0.126519332  0.1835114788  0.04050948
A3     0.232624170  0.1084390729  0.235001996  0.0465330818  0.17426396
A4     0.127956717  0.0681918969  0.152478442  0.1642640849  0.06212562
A5     0.206789008  0.1417798583  0.169698068  0.0005923172  0.07984948
A6     1.000000000  0.1383319469  0.263353034  0.0939406604  0.16750522
A7     0.138331947  1.0000000000  0.227809613  0.1626119100  0.12891833
A8     0.263353034  0.2278096127  1.000000000  0.1421289142  0.26081027
A9     0.093940660  0.1626119100  0.142128914  1.0000000000  0.14376296
A10    0.167505221  0.1289183331  0.260810271  0.1437629575  1.00000000
BC    -0.007975716  0.0144219892 -0.009821503 -0.1050452692  0.04614380
NNZFG -0.053899893 -0.0332550478 -0.061310146 -0.0770104061 -0.03234152
MRT    0.067076127 -0.0235946767  0.042074609 -0.0311736148  0.05611363
AFL    0.051556718 -0.0006592947 -0.012763638 -0.1580831711  0.02679128
LPM    0.041330284  0.0028300350  0.078867472 -0.0704079613  0.07108898
LPC    0.009111126  0.0105569528  0.077031658 -0.0480269953  0.02469060
W      0.068015642  0.0151025799  0.025840107  0.0180747138  0.06177604
WPA    0.018068837  0.0585246364  0.085790996  0.0062905980  0.06445372
                BC        NNZFG         MRT           AFL          LPM
A1     0.079011232  0.008476285  0.03692368  0.1524146161  0.074428915
A2    -0.110737768 -0.038810843 -0.07423100 -0.1663661538 -0.014459045
A3     0.033275793 -0.039134284 -0.01107848  0.0788055036  0.031654087
A4    -0.101958392 -0.086627382  0.01183108 -0.0989512459  0.015340212
A5    -0.023792685 -0.024997261  0.03232827  0.0103075521  0.023087272
A6    -0.007975716 -0.053899893  0.06707613  0.0515567185  0.041330284
A7     0.014421989 -0.033255048 -0.02359468 -0.0006592947  0.002830035
A8    -0.009821503 -0.061310146  0.04207461 -0.0127636385  0.078867472
A9    -0.105045269 -0.077010406 -0.03117361 -0.1580831711 -0.070407961
A10    0.046143801 -0.032341517  0.05611363  0.0267912780  0.071088983
BC     1.000000000  0.216928247  0.19508491  0.4270263228  0.304459927
NNZFG  0.216928247  1.000000000  0.19415432  0.0830571055  0.156488436
MRT    0.195084914  0.194154316  1.00000000  0.2475151423  0.222477452
AFL    0.427026323  0.083057105  0.24751514  1.0000000000  0.789361068
LPM    0.304459927  0.156488436  0.22247745  0.7893610683  1.000000000
LPC    0.235521632  0.261803938  0.20794082  0.5317312008  0.549042739
W      0.272313712  0.115794283  0.08797304  0.2321065162  0.234742034
WPA    0.212081314 -0.016220333  0.08832075  0.1763303903  0.193306130
               LPC           W          WPA
A1    -0.001198829  0.04329116  0.065853603
A2    -0.015592749 -0.05469730 -0.053105851
A3    -0.020506206  0.07491964  0.035354423
A4    -0.006509637  0.03141218  0.013330008
A5     0.018615246  0.04804684  0.019498674
A6     0.009111126  0.06801564  0.018068837
A7     0.010556953  0.01510258  0.058524636
A8     0.077031658  0.02584011  0.085790996
A9    -0.048026995  0.01807471  0.006290598
A10    0.024690605  0.06177604  0.064453722
BC     0.235521632  0.27231371  0.212081314
NNZFG  0.261803938  0.11579428 -0.016220333
MRT    0.207940821  0.08797304  0.088320754
AFL    0.531731201  0.23210652  0.176330390
LPM    0.549042739  0.23474203  0.193306130
LPC    1.000000000  0.17224389  0.174246862
W      0.172243894  1.00000000  0.375869797
WPA    0.174246862  0.37586980  1.000000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
[1] "BC"    "NNZFG" "MRT"   "AFL"   "LPM"   "LPC"   "W"     "WPA"  

 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=166586&T=1

[TABLE]
[ROW][C]Computational Result[/C][/ROW]
[ROW][C]
> myoutput
$Xcor
              A1          A2         A3          A4           A5         A6
A1   1.000000000 -0.01456763 0.22902201 -0.01958045 0.0785518897 0.14186848
A2  -0.014567629  1.00000000 0.04063150  0.11874592 0.0337351744 0.01112626
A3   0.229022006  0.04063150 1.00000000  0.14425639 0.1696514232 0.23262417
A4  -0.019580448  0.11874592 0.14425639  1.00000000 0.2290508251 0.12795672
A5   0.078551890  0.03373517 0.16965142  0.22905083 1.0000000000 0.20678901
A6   0.141868482  0.01112626 0.23262417  0.12795672 0.2067890085 1.00000000
A7   0.139390110  0.19014999 0.10843907  0.06819190 0.1417798583 0.13833195
A8   0.140708399  0.12651933 0.23500200  0.15247844 0.1696980676 0.26335303
A9   0.008460045  0.18351148 0.04653308  0.16426408 0.0005923172 0.09394066
A10  0.197194844  0.04050948 0.17426396  0.06212562 0.0798494751 0.16750522
           A7        A8           A9        A10
A1  0.1393901 0.1407084 0.0084600449 0.19719484
A2  0.1901500 0.1265193 0.1835114788 0.04050948
A3  0.1084391 0.2350020 0.0465330818 0.17426396
A4  0.0681919 0.1524784 0.1642640849 0.06212562
A5  0.1417799 0.1696981 0.0005923172 0.07984948
A6  0.1383319 0.2633530 0.0939406604 0.16750522
A7  1.0000000 0.2278096 0.1626119100 0.12891833
A8  0.2278096 1.0000000 0.1421289142 0.26081027
A9  0.1626119 0.1421289 1.0000000000 0.14376296
A10 0.1289183 0.2608103 0.1437629575 1.00000000
$Ycor
             BC       NNZFG        MRT        AFL       LPM       LPC
BC    1.0000000  0.21692825 0.19508491 0.42702632 0.3044599 0.2355216
NNZFG 0.2169282  1.00000000 0.19415432 0.08305711 0.1564884 0.2618039
MRT   0.1950849  0.19415432 1.00000000 0.24751514 0.2224775 0.2079408
AFL   0.4270263  0.08305711 0.24751514 1.00000000 0.7893611 0.5317312
LPM   0.3044599  0.15648844 0.22247745 0.78936107 1.0000000 0.5490427
LPC   0.2355216  0.26180394 0.20794082 0.53173120 0.5490427 1.0000000
W     0.2723137  0.11579428 0.08797304 0.23210652 0.2347420 0.1722439
WPA   0.2120813 -0.01622033 0.08832075 0.17633039 0.1933061 0.1742469
               W         WPA
BC    0.27231371  0.21208131
NNZFG 0.11579428 -0.01622033
MRT   0.08797304  0.08832075
AFL   0.23210652  0.17633039
LPM   0.23474203  0.19330613
LPC   0.17224389  0.17424686
W     1.00000000  0.37586980
WPA   0.37586980  1.00000000
$XYcor
                A1          A2          A3           A4            A5
A1     1.000000000 -0.01456763  0.22902201 -0.019580448  0.0785518897
A2    -0.014567629  1.00000000  0.04063150  0.118745925  0.0337351744
A3     0.229022006  0.04063150  1.00000000  0.144256392  0.1696514232
A4    -0.019580448  0.11874592  0.14425639  1.000000000  0.2290508251
A5     0.078551890  0.03373517  0.16965142  0.229050825  1.0000000000
A6     0.141868482  0.01112626  0.23262417  0.127956717  0.2067890085
A7     0.139390110  0.19014999  0.10843907  0.068191897  0.1417798583
A8     0.140708399  0.12651933  0.23500200  0.152478442  0.1696980676
A9     0.008460045  0.18351148  0.04653308  0.164264085  0.0005923172
A10    0.197194844  0.04050948  0.17426396  0.062125619  0.0798494751
BC     0.079011232 -0.11073777  0.03327579 -0.101958392 -0.0237926848
NNZFG  0.008476285 -0.03881084 -0.03913428 -0.086627382 -0.0249972607
MRT    0.036923677 -0.07423100 -0.01107848  0.011831077  0.0323282727
AFL    0.152414616 -0.16636615  0.07880550 -0.098951246  0.0103075521
LPM    0.074428915 -0.01445905  0.03165409  0.015340212  0.0230872722
LPC   -0.001198829 -0.01559275 -0.02050621 -0.006509637  0.0186152462
W      0.043291156 -0.05469730  0.07491964  0.031412183  0.0480468448
WPA    0.065853603 -0.05310585  0.03535442  0.013330008  0.0194986740
                A6            A7           A8            A9         A10
A1     0.141868482  0.1393901096  0.140708399  0.0084600449  0.19719484
A2     0.011126259  0.1901499886  0.126519332  0.1835114788  0.04050948
A3     0.232624170  0.1084390729  0.235001996  0.0465330818  0.17426396
A4     0.127956717  0.0681918969  0.152478442  0.1642640849  0.06212562
A5     0.206789008  0.1417798583  0.169698068  0.0005923172  0.07984948
A6     1.000000000  0.1383319469  0.263353034  0.0939406604  0.16750522
A7     0.138331947  1.0000000000  0.227809613  0.1626119100  0.12891833
A8     0.263353034  0.2278096127  1.000000000  0.1421289142  0.26081027
A9     0.093940660  0.1626119100  0.142128914  1.0000000000  0.14376296
A10    0.167505221  0.1289183331  0.260810271  0.1437629575  1.00000000
BC    -0.007975716  0.0144219892 -0.009821503 -0.1050452692  0.04614380
NNZFG -0.053899893 -0.0332550478 -0.061310146 -0.0770104061 -0.03234152
MRT    0.067076127 -0.0235946767  0.042074609 -0.0311736148  0.05611363
AFL    0.051556718 -0.0006592947 -0.012763638 -0.1580831711  0.02679128
LPM    0.041330284  0.0028300350  0.078867472 -0.0704079613  0.07108898
LPC    0.009111126  0.0105569528  0.077031658 -0.0480269953  0.02469060
W      0.068015642  0.0151025799  0.025840107  0.0180747138  0.06177604
WPA    0.018068837  0.0585246364  0.085790996  0.0062905980  0.06445372
                BC        NNZFG         MRT           AFL          LPM
A1     0.079011232  0.008476285  0.03692368  0.1524146161  0.074428915
A2    -0.110737768 -0.038810843 -0.07423100 -0.1663661538 -0.014459045
A3     0.033275793 -0.039134284 -0.01107848  0.0788055036  0.031654087
A4    -0.101958392 -0.086627382  0.01183108 -0.0989512459  0.015340212
A5    -0.023792685 -0.024997261  0.03232827  0.0103075521  0.023087272
A6    -0.007975716 -0.053899893  0.06707613  0.0515567185  0.041330284
A7     0.014421989 -0.033255048 -0.02359468 -0.0006592947  0.002830035
A8    -0.009821503 -0.061310146  0.04207461 -0.0127636385  0.078867472
A9    -0.105045269 -0.077010406 -0.03117361 -0.1580831711 -0.070407961
A10    0.046143801 -0.032341517  0.05611363  0.0267912780  0.071088983
BC     1.000000000  0.216928247  0.19508491  0.4270263228  0.304459927
NNZFG  0.216928247  1.000000000  0.19415432  0.0830571055  0.156488436
MRT    0.195084914  0.194154316  1.00000000  0.2475151423  0.222477452
AFL    0.427026323  0.083057105  0.24751514  1.0000000000  0.789361068
LPM    0.304459927  0.156488436  0.22247745  0.7893610683  1.000000000
LPC    0.235521632  0.261803938  0.20794082  0.5317312008  0.549042739
W      0.272313712  0.115794283  0.08797304  0.2321065162  0.234742034
WPA    0.212081314 -0.016220333  0.08832075  0.1763303903  0.193306130
               LPC           W          WPA
A1    -0.001198829  0.04329116  0.065853603
A2    -0.015592749 -0.05469730 -0.053105851
A3    -0.020506206  0.07491964  0.035354423
A4    -0.006509637  0.03141218  0.013330008
A5     0.018615246  0.04804684  0.019498674
A6     0.009111126  0.06801564  0.018068837
A7     0.010556953  0.01510258  0.058524636
A8     0.077031658  0.02584011  0.085790996
A9    -0.048026995  0.01807471  0.006290598
A10    0.024690605  0.06177604  0.064453722
BC     0.235521632  0.27231371  0.212081314
NNZFG  0.261803938  0.11579428 -0.016220333
MRT    0.207940821  0.08797304  0.088320754
AFL    0.531731201  0.23210652  0.176330390
LPM    0.549042739  0.23474203  0.193306130
LPC    1.000000000  0.17224389  0.174246862
W      0.172243894  1.00000000  0.375869797
WPA    0.174246862  0.37586980  1.000000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
[1] "BC"    "NNZFG" "MRT"   "AFL"   "LPM"   "LPC"   "W"     "WPA"  

[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=166586&T=1

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=166586&T=1

As an alternative you can also use a QR Code:  
QR Code


The GUIDs for individual cells are displayed in the table below:

Computational Result
> myoutput
$Xcor
              A1          A2         A3          A4           A5         A6
A1   1.000000000 -0.01456763 0.22902201 -0.01958045 0.0785518897 0.14186848
A2  -0.014567629  1.00000000 0.04063150  0.11874592 0.0337351744 0.01112626
A3   0.229022006  0.04063150 1.00000000  0.14425639 0.1696514232 0.23262417
A4  -0.019580448  0.11874592 0.14425639  1.00000000 0.2290508251 0.12795672
A5   0.078551890  0.03373517 0.16965142  0.22905083 1.0000000000 0.20678901
A6   0.141868482  0.01112626 0.23262417  0.12795672 0.2067890085 1.00000000
A7   0.139390110  0.19014999 0.10843907  0.06819190 0.1417798583 0.13833195
A8   0.140708399  0.12651933 0.23500200  0.15247844 0.1696980676 0.26335303
A9   0.008460045  0.18351148 0.04653308  0.16426408 0.0005923172 0.09394066
A10  0.197194844  0.04050948 0.17426396  0.06212562 0.0798494751 0.16750522
           A7        A8           A9        A10
A1  0.1393901 0.1407084 0.0084600449 0.19719484
A2  0.1901500 0.1265193 0.1835114788 0.04050948
A3  0.1084391 0.2350020 0.0465330818 0.17426396
A4  0.0681919 0.1524784 0.1642640849 0.06212562
A5  0.1417799 0.1696981 0.0005923172 0.07984948
A6  0.1383319 0.2633530 0.0939406604 0.16750522
A7  1.0000000 0.2278096 0.1626119100 0.12891833
A8  0.2278096 1.0000000 0.1421289142 0.26081027
A9  0.1626119 0.1421289 1.0000000000 0.14376296
A10 0.1289183 0.2608103 0.1437629575 1.00000000
$Ycor
             BC       NNZFG        MRT        AFL       LPM       LPC
BC    1.0000000  0.21692825 0.19508491 0.42702632 0.3044599 0.2355216
NNZFG 0.2169282  1.00000000 0.19415432 0.08305711 0.1564884 0.2618039
MRT   0.1950849  0.19415432 1.00000000 0.24751514 0.2224775 0.2079408
AFL   0.4270263  0.08305711 0.24751514 1.00000000 0.7893611 0.5317312
LPM   0.3044599  0.15648844 0.22247745 0.78936107 1.0000000 0.5490427
LPC   0.2355216  0.26180394 0.20794082 0.53173120 0.5490427 1.0000000
W     0.2723137  0.11579428 0.08797304 0.23210652 0.2347420 0.1722439
WPA   0.2120813 -0.01622033 0.08832075 0.17633039 0.1933061 0.1742469
               W         WPA
BC    0.27231371  0.21208131
NNZFG 0.11579428 -0.01622033
MRT   0.08797304  0.08832075
AFL   0.23210652  0.17633039
LPM   0.23474203  0.19330613
LPC   0.17224389  0.17424686
W     1.00000000  0.37586980
WPA   0.37586980  1.00000000
$XYcor
                A1          A2          A3           A4            A5
A1     1.000000000 -0.01456763  0.22902201 -0.019580448  0.0785518897
A2    -0.014567629  1.00000000  0.04063150  0.118745925  0.0337351744
A3     0.229022006  0.04063150  1.00000000  0.144256392  0.1696514232
A4    -0.019580448  0.11874592  0.14425639  1.000000000  0.2290508251
A5     0.078551890  0.03373517  0.16965142  0.229050825  1.0000000000
A6     0.141868482  0.01112626  0.23262417  0.127956717  0.2067890085
A7     0.139390110  0.19014999  0.10843907  0.068191897  0.1417798583
A8     0.140708399  0.12651933  0.23500200  0.152478442  0.1696980676
A9     0.008460045  0.18351148  0.04653308  0.164264085  0.0005923172
A10    0.197194844  0.04050948  0.17426396  0.062125619  0.0798494751
BC     0.079011232 -0.11073777  0.03327579 -0.101958392 -0.0237926848
NNZFG  0.008476285 -0.03881084 -0.03913428 -0.086627382 -0.0249972607
MRT    0.036923677 -0.07423100 -0.01107848  0.011831077  0.0323282727
AFL    0.152414616 -0.16636615  0.07880550 -0.098951246  0.0103075521
LPM    0.074428915 -0.01445905  0.03165409  0.015340212  0.0230872722
LPC   -0.001198829 -0.01559275 -0.02050621 -0.006509637  0.0186152462
W      0.043291156 -0.05469730  0.07491964  0.031412183  0.0480468448
WPA    0.065853603 -0.05310585  0.03535442  0.013330008  0.0194986740
                A6            A7           A8            A9         A10
A1     0.141868482  0.1393901096  0.140708399  0.0084600449  0.19719484
A2     0.011126259  0.1901499886  0.126519332  0.1835114788  0.04050948
A3     0.232624170  0.1084390729  0.235001996  0.0465330818  0.17426396
A4     0.127956717  0.0681918969  0.152478442  0.1642640849  0.06212562
A5     0.206789008  0.1417798583  0.169698068  0.0005923172  0.07984948
A6     1.000000000  0.1383319469  0.263353034  0.0939406604  0.16750522
A7     0.138331947  1.0000000000  0.227809613  0.1626119100  0.12891833
A8     0.263353034  0.2278096127  1.000000000  0.1421289142  0.26081027
A9     0.093940660  0.1626119100  0.142128914  1.0000000000  0.14376296
A10    0.167505221  0.1289183331  0.260810271  0.1437629575  1.00000000
BC    -0.007975716  0.0144219892 -0.009821503 -0.1050452692  0.04614380
NNZFG -0.053899893 -0.0332550478 -0.061310146 -0.0770104061 -0.03234152
MRT    0.067076127 -0.0235946767  0.042074609 -0.0311736148  0.05611363
AFL    0.051556718 -0.0006592947 -0.012763638 -0.1580831711  0.02679128
LPM    0.041330284  0.0028300350  0.078867472 -0.0704079613  0.07108898
LPC    0.009111126  0.0105569528  0.077031658 -0.0480269953  0.02469060
W      0.068015642  0.0151025799  0.025840107  0.0180747138  0.06177604
WPA    0.018068837  0.0585246364  0.085790996  0.0062905980  0.06445372
                BC        NNZFG         MRT           AFL          LPM
A1     0.079011232  0.008476285  0.03692368  0.1524146161  0.074428915
A2    -0.110737768 -0.038810843 -0.07423100 -0.1663661538 -0.014459045
A3     0.033275793 -0.039134284 -0.01107848  0.0788055036  0.031654087
A4    -0.101958392 -0.086627382  0.01183108 -0.0989512459  0.015340212
A5    -0.023792685 -0.024997261  0.03232827  0.0103075521  0.023087272
A6    -0.007975716 -0.053899893  0.06707613  0.0515567185  0.041330284
A7     0.014421989 -0.033255048 -0.02359468 -0.0006592947  0.002830035
A8    -0.009821503 -0.061310146  0.04207461 -0.0127636385  0.078867472
A9    -0.105045269 -0.077010406 -0.03117361 -0.1580831711 -0.070407961
A10    0.046143801 -0.032341517  0.05611363  0.0267912780  0.071088983
BC     1.000000000  0.216928247  0.19508491  0.4270263228  0.304459927
NNZFG  0.216928247  1.000000000  0.19415432  0.0830571055  0.156488436
MRT    0.195084914  0.194154316  1.00000000  0.2475151423  0.222477452
AFL    0.427026323  0.083057105  0.24751514  1.0000000000  0.789361068
LPM    0.304459927  0.156488436  0.22247745  0.7893610683  1.000000000
LPC    0.235521632  0.261803938  0.20794082  0.5317312008  0.549042739
W      0.272313712  0.115794283  0.08797304  0.2321065162  0.234742034
WPA    0.212081314 -0.016220333  0.08832075  0.1763303903  0.193306130
               LPC           W          WPA
A1    -0.001198829  0.04329116  0.065853603
A2    -0.015592749 -0.05469730 -0.053105851
A3    -0.020506206  0.07491964  0.035354423
A4    -0.006509637  0.03141218  0.013330008
A5     0.018615246  0.04804684  0.019498674
A6     0.009111126  0.06801564  0.018068837
A7     0.010556953  0.01510258  0.058524636
A8     0.077031658  0.02584011  0.085790996
A9    -0.048026995  0.01807471  0.006290598
A10    0.024690605  0.06177604  0.064453722
BC     0.235521632  0.27231371  0.212081314
NNZFG  0.261803938  0.11579428 -0.016220333
MRT    0.207940821  0.08797304  0.088320754
AFL    0.531731201  0.23210652  0.176330390
LPM    0.549042739  0.23474203  0.193306130
LPC    1.000000000  0.17224389  0.174246862
W      0.172243894  1.00000000  0.375869797
WPA    0.174246862  0.37586980  1.000000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
[1] "BC"    "NNZFG" "MRT"   "AFL"   "LPM"   "LPC"   "W"     "WPA"


Figures (Output of Computation)

Input Parameters & R Code

Parameters (Session):
par1 = correlation matrix ; par2 = ATTLES connected ; par3 = Learning Activities ; par4 = all ; par5 = all ; par6 = all ;
Parameters (R input):
par1 = correlation matrix ; par2 = ATTLES connected ; par3 = Learning Activities ; par4 = all ; par5 = all ; par6 = all ;
R code (references can be found in the software module):
myxlabs <- 'NA'
image.plot <- function (..., add = FALSE, nlevel = 64, horizontal = FALSE,
legend.shrink = 0.9, legend.width = 1.2, legend.mar = ifelse(horizontal,
3.1, 5.1), legend.lab = NULL, graphics.reset = FALSE,
bigplot = NULL, smallplot = NULL, legend.only = FALSE, col = tim.colors(nlevel),
lab.breaks = NULL, axis.args = NULL, legend.args = NULL,
midpoint = FALSE)
{
old.par <- par(no.readonly = TRUE)
info <- image.plot.info(...)
if (add) {
big.plot <- old.par$plt
}
if (legend.only) {
graphics.reset <- TRUE
}
if (is.null(legend.mar)) {
legend.mar <- ifelse(horizontal, 3.1, 5.1)
}
temp <- image.plot.plt(add = add, legend.shrink = legend.shrink,
legend.width = legend.width, legend.mar = legend.mar,
horizontal = horizontal, bigplot = bigplot, smallplot = smallplot)
smallplot <- temp$smallplot
bigplot <- temp$bigplot
if (!legend.only) {
if (!add) {
par(plt = bigplot)
}
if (!info$poly.grid) {
image(..., add = add, col = col)
}
else {
poly.image(..., add = add, col = col, midpoint = midpoint)
}
big.par <- par(no.readonly = TRUE)
}
if ((smallplot[2] < smallplot[1]) | (smallplot[4] < smallplot[3])) {
par(old.par)
stop('plot region too small to add legend
')
}
ix <- 1
minz <- info$zlim[1]
maxz <- info$zlim[2]
binwidth <- (maxz - minz)/nlevel
midpoints <- seq(minz + binwidth/2, maxz - binwidth/2, by = binwidth)
iy <- midpoints
iz <- matrix(iy, nrow = 1, ncol = length(iy))
breaks <- list(...)$breaks
par(new = TRUE, pty = 'm', plt = smallplot, err = -1)
if (is.null(breaks)) {
axis.args <- c(list(side = ifelse(horizontal, 1, 4),
mgp = c(3, 1, 0), las = ifelse(horizontal, 0, 2)),
axis.args)
}
else {
if (is.null(lab.breaks)) {
lab.breaks <- format(breaks)
}
axis.args <- c(list(side = ifelse(horizontal, 1, 4),
mgp = c(3, 1, 0), las = ifelse(horizontal, 0, 2),
at = breaks, labels = lab.breaks), axis.args)
}
if (!horizontal) {
if (is.null(breaks)) {
image(ix, iy, iz, xaxt = 'n', yaxt = 'n', xlab = '',
ylab = '', col = col)
}
else {
image(ix, iy, iz, xaxt = 'n', yaxt = 'n', xlab = '',
ylab = '', col = col, breaks = breaks)
}
}
else {
if (is.null(breaks)) {
image(iy, ix, t(iz), xaxt = 'n', yaxt = 'n', xlab = '',
ylab = '', col = col)
}
else {
image(iy, ix, t(iz), xaxt = 'n', yaxt = 'n', xlab = '',
ylab = '', col = col, breaks = breaks)
}
}
box()
if (!is.null(legend.lab)) {
legend.args <- list(text = legend.lab, side = ifelse(horizontal,
1, 4), line = legend.mar - 2)
}
if (!is.null(legend.args)) {
}
mfg.save <- par()$mfg
if (graphics.reset | add) {
par(old.par)
par(mfg = mfg.save, new = FALSE)
invisible()
}
else {
par(big.par)
par(plt = big.par$plt, xpd = FALSE)
par(mfg = mfg.save, new = FALSE)
invisible()
}
}
image.plot.plt <- function (x, add = FALSE, legend.shrink = 0.9, legend.width = 1,
horizontal = FALSE, legend.mar = NULL, bigplot = NULL, smallplot = NULL,
...)
{
old.par <- par(no.readonly = TRUE)
if (is.null(smallplot))
stick <- TRUE
else stick <- FALSE
if (is.null(legend.mar)) {
legend.mar <- ifelse(horizontal, 3.1, 5.1)
}
char.size <- ifelse(horizontal, par()$cin[2]/par()$din[2],
par()$cin[1]/par()$din[1])
offset <- char.size * ifelse(horizontal, par()$mar[1], par()$mar[4])
legend.width <- char.size * legend.width
legend.mar <- legend.mar * char.size
if (is.null(smallplot)) {
smallplot <- old.par$plt
if (horizontal) {
smallplot[3] <- legend.mar
smallplot[4] <- legend.width + smallplot[3]
pr <- (smallplot[2] - smallplot[1]) * ((1 - legend.shrink)/2)
smallplot[1] <- smallplot[1] + pr
smallplot[2] <- smallplot[2] - pr
}
else {
smallplot[2] <- 1 - legend.mar
smallplot[1] <- smallplot[2] - legend.width
pr <- (smallplot[4] - smallplot[3]) * ((1 - legend.shrink)/2)
smallplot[4] <- smallplot[4] - pr
smallplot[3] <- smallplot[3] + pr
}
}
if (is.null(bigplot)) {
bigplot <- old.par$plt
if (!horizontal) {
bigplot[2] <- min(bigplot[2], smallplot[1] - offset)
}
else {
bottom.space <- old.par$mar[1] * char.size
bigplot[3] <- smallplot[4] + offset
}
}
if (stick & (!horizontal)) {
dp <- smallplot[2] - smallplot[1]
smallplot[1] <- min(bigplot[2] + offset, smallplot[1])
smallplot[2] <- smallplot[1] + dp
}
return(list(smallplot = smallplot, bigplot = bigplot))
}
image.plot.info <- function (...)
{
temp <- list(...)
xlim <- NA
ylim <- NA
zlim <- NA
poly.grid <- FALSE
if (is.list(temp[[1]])) {
xlim <- range(temp[[1]]$x, na.rm = TRUE)
ylim <- range(temp[[1]]$y, na.rm = TRUE)
zlim <- range(temp[[1]]$z, na.rm = TRUE)
if (is.matrix(temp[[1]]$x) & is.matrix(temp[[1]]$y) &
is.matrix(temp[[1]]$z)) {
poly.grid <- TRUE
}
}
if (length(temp) >= 3) {
if (is.matrix(temp[[1]]) & is.matrix(temp[[2]]) & is.matrix(temp[[3]])) {
poly.grid <- TRUE
}
}
if (is.matrix(temp[[1]]) & !poly.grid) {
xlim <- c(0, 1)
ylim <- c(0, 1)
zlim <- range(temp[[1]], na.rm = TRUE)
}
if (length(temp) >= 3) {
if (is.matrix(temp[[3]])) {
xlim <- range(temp[[1]], na.rm = TRUE)
ylim <- range(temp[[2]], na.rm = TRUE)
zlim <- range(temp[[3]], na.rm = TRUE)
}
}
if (is.matrix(temp$x) & is.matrix(temp$y) & is.matrix(temp$z)) {
poly.grid <- TRUE
}
xthere <- match('x', names(temp))
ythere <- match('y', names(temp))
zthere <- match('z', names(temp))
if (!is.na(zthere))
zlim <- range(temp$z, na.rm = TRUE)
if (!is.na(xthere))
xlim <- range(temp$x, na.rm = TRUE)
if (!is.na(ythere))
ylim <- range(temp$y, na.rm = TRUE)
if (!is.null(temp$zlim))
zlim <- temp$zlim
if (!is.null(temp$xlim))
xlim <- temp$xlim
if (!is.null(temp$ylim))
ylim <- temp$ylim
list(xlim = xlim, ylim = ylim, zlim = zlim, poly.grid = poly.grid)
}
matcor <- function (X, Y, method='kendall') {
matcorX = cor(X, use = 'pairwise', method=method)
matcorY = cor(Y, use = 'pairwise', method=method)
matcorXY = cor(cbind(X, Y), use = 'pairwise', method=method)
return(list(Xcor = matcorX, Ycor = matcorY, XYcor = matcorXY))
}
matcor.p <- function (X, Y, method='kendall') {
lx <- length(X[1,])
ly <- length(Y[1,])
myretarr <- array(NA,dim=c(lx,ly))
mymetaarr.x <- array(0,dim=c(lx,10))
mymetaarr.y <- array(0,dim=c(ly,10))
mymetaarr.xp <- array(0,dim=c(lx,10))
mymetaarr.yp <- array(0,dim=c(ly,10))
for (xi in 1:lx) {
for (yi in 1:ly) {
myretarr[xi,yi] <- cor.test(X[,xi],Y[,yi],method=method)$p.value
for (myp in (1:10)) {
if (myretarr[xi,yi] < myp/1000) {
mymetaarr.x[xi,myp] = mymetaarr.x[xi,myp] + 1
mymetaarr.y[yi,myp] = mymetaarr.y[yi,myp] + 1
}
}
}
}
mymetaarr.xp = mymetaarr.x / ly
mymetaarr.yp = mymetaarr.y / lx
return(list(XYcor = myretarr, Xmeta = mymetaarr.x, Ymeta = mymetaarr.y, Xmetap = mymetaarr.xp, Ymetap = mymetaarr.yp))
}
tim.colors <- function (n = 64) {
orig <- c('#00008F', '#00009F', '#0000AF', '#0000BF', '#0000CF',
'#0000DF', '#0000EF', '#0000FF', '#0010FF', '#0020FF',
'#0030FF', '#0040FF', '#0050FF', '#0060FF', '#0070FF',
'#0080FF', '#008FFF', '#009FFF', '#00AFFF', '#00BFFF',
'#00CFFF', '#00DFFF', '#00EFFF', '#00FFFF', '#10FFEF',
'#20FFDF', '#30FFCF', '#40FFBF', '#50FFAF', '#60FF9F',
'#70FF8F', '#80FF80', '#8FFF70', '#9FFF60', '#AFFF50',
'#BFFF40', '#CFFF30', '#DFFF20', '#EFFF10', '#999999',
'#FFEF00', '#FFDF00', '#FFCF00', '#FFBF00', '#FFAF00',
'#FF9F00', '#FF8F00', '#FF8000', '#FF7000', '#FF6000',
'#FF5000', '#FF4000', '#FF3000', '#FF2000', '#FF1000',
'#FF0000', '#EF0000', '#DF0000', '#CF0000', '#BF0000',
'#AF0000', '#9F0000', '#8F0000', '#800000')
if (n == 64)
return(orig)
rgb.tim <- t(col2rgb(orig))
temp <- matrix(NA, ncol = 3, nrow = n)
x <- seq(0, 1, , 64)
xg <- seq(0, 1, , n)
for (k in 1:3) {
hold <- splint(x, rgb.tim[, k], xg)
hold[hold < 0] <- 0
hold[hold > 255] <- 255
temp[, k] <- round(hold)
}
rgb(temp[, 1], temp[, 2], temp[, 3], maxColorValue = 255)
}
img.matcor <- function (correl, title='XY correlation') {
matcorX = correl$Xcor
matcorY = correl$Ycor
matcorXY = correl$XYcor
lX = ncol(matcorX)
lY = ncol(matcorY)
def.par <- par(no.readonly = TRUE)
par(mfrow = c(1, 1), pty = 's')
image(1:(lX + lY), 1:(lX + lY), t(matcorXY[nrow(matcorXY):1,]), zlim = c(-1, 1), main = title,
col = tim.colors(64), axes = FALSE, , xlab = '', ylab = '')
box()
abline(h = lY + 0.5, v = lX + 0.5, lwd = 2, lty = 2)
image.plot(legend.only = TRUE, zlim = c(-1, 1), col = tim.colors(64), horizontal = TRUE)
par(def.par)
}
x <- as.data.frame(read.table(file='https://automated.biganalytics.eu/download/utaut.csv',sep=',',header=T))
x$U25 <- 6-x$U25
if(par4 == 'female') x <- x[x$Gender==0,]
if(par4 == 'male') x <- x[x$Gender==1,]
if(par5 == 'prep') x <- x[x$Pop==1,]
if(par5 == 'bachelor') x <- x[x$Pop==0,]
if(par6 != 'all') {
x <- x[x$Year==as.numeric(par6),]
}
cAc <- with(x,cbind( A1, A2, A3, A4, A5, A6, A7, A8, A9,A10))
cAs <- with(x,cbind(A11,A12,A13,A14,A15,A16,A17,A18,A19,A20))
cA <- cbind(cAc,cAs)
cCa <- with(x,cbind(C1,C3,C5,C7, C9,C11,C13,C15,C17,C19,C21,C23,C25,C27,C29,C31,C33,C35,C37,C39,C41,C43,C45,C47))
cCp <- with(x,cbind(C2,C4,C6,C8,C10,C12,C14,C16,C18,C20,C22,C24,C26,C28,C30,C32,C34,C36,C38,C40,C42,C44,C46,C48))
cC <- cbind(cCa,cCp)
cU <- with(x,cbind(U1,U2,U3,U4,U5,U6,U7,U8,U9,U10,U11,U12,U13,U14,U15,U16,U17,U18,U19,U20,U21,U22,U23,U24,U25,U26,U27,U28,U29,U30,U31,U32,U33))
cE <- with(x,cbind(BC,NNZFG,MRT,AFL,LPM,LPC,W,WPA))
cX <- with(x,cbind(X1,X2,X3,X4,X5,X6,X7,X8,X9,X10,X11,X12,X13,X14,X15,X16,X17,X18))
if (par2=='ATTLES connected') myX <- cAc
if (par3=='ATTLES connected') myY <- cAc
if (par2=='ATTLES separate') myX <- cAs
if (par3=='ATTLES separate') myY <- cAs
if (par2=='ATTLES all') myX <- cA
if (par3=='ATTLES all') myY <- cA
if (par2=='COLLES actuals') myX <- cCa
if (par3=='COLLES actuals') myY <- cCa
if (par2=='COLLES preferred') myX <- cCp
if (par3=='COLLES preferred') myY <- cCp
if (par2=='COLLES all') myX <- cC
if (par3=='COLLES all') myY <- cC
if (par2=='CSUQ') myX <- cU
if (par3=='CSUQ') myY <- cU
if (par2=='Learning Activities') myX <- cE
if (par3=='Learning Activities') myY <- cE
if (par2=='Exam Items') myX <- cX
if (par3=='Exam Items') myY <- cX
bitmap(file='pic1.png')
if (par1=='correlation matrix') {
correl <- with(x,matcor(myX,myY))
myoutput <- correl
myxlabs <- colnames(myX)
myylabs <- colnames(myY)
img.matcor(correl, title=paste(par2,' and ',par3,sep=''))
dev.off()
}
if (par1=='meta analysis (separate)') {
myl <- length(myY[1,])
nr <- round(sqrt(myl))
nc <- nr
if (nr*nr < myl) nc = nc +1
r <- matcor.p(myX,myY)
myoutput <- r$Ymetap
myylabs <- colnames(myY)
op <- par(mfrow=c(nr,nc))
for (i in 1:myl) {
plot((1:10)/1000,r$Ymetap[i,],xlab='type I error',ylab='#sign./#corr.',main=colnames(myY)[i], type='b',ylim=c(0,max(r$Ymetap[i,])))
abline(0,1)
grid()
}
par(op)
dev.off()
}
if (par1=='meta analysis (overlay)') {
myl <- length(myY[1,])
r <- matcor.p(myX,myY)
myoutput <- r$Ymetap
myylabs <- colnames(myY)
plot((1:10)/1000,r$Ymetap[1,], xlab='type I error', ylab='#sign./#corr.', main=par3, type='b', ylim=c(0,max(r$Ymetap)), xlim=c(0.001,0.01+ (myl+1)*0.0002))
abline(0,1)
grid()
for (i in 2:myl) {
lines((1:10)/1000,r$Ymetap[i,],type='b',lty=i)
}
for (i in 1:myl) text(0.0105+0.0002*i, r$Ymetap[i,10], labels = colnames(myY)[i], cex=0.7)
dev.off()
}
load(file='createtable')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Computational Result',1,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,paste('
',RC.texteval('myoutput; myxlabs; myylabs'),'
',sep=''))
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable.tab')