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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 computationTue, 01 May 2012 07:07:31 -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/01/t1335870459wtnv34z7kqk8b6v.htm/, Retrieved Sat, 04 May 2024 05:53:50 +0000
Statistical Computations at FreeStatistics.org, Office for Research Development and Education, URL https://freestatistics.org/blog/index.php?pk=165437, Retrieved Sat, 04 May 2024 05:53:50 +0000
QR Codes:

Original text written by user:
IsPrivate?No (this computation is public)
User-defined keywords
Estimated Impact71

Tree of Dependent Computations

Family? (F = Feedback message, R = changed R code, M = changed R Module, P = changed Parameters, D = changed Data)
-       [Data Mining] [] [2012-05-01 11:07:31] [5a15ab6cc81a4d08ac9d21b238bcb336] [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 time4 seconds
R Server'AstonUniversity' @ aston.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 & 4 seconds \tabularnewline
R Server & 'AstonUniversity' @ aston.wessa.net \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=165437&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]4 seconds[/C][/ROW]
[ROW][C]R Server[/C][C]'AstonUniversity' @ aston.wessa.net[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=165437&T=0

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=165437&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 time4 seconds
R Server'AstonUniversity' @ aston.wessa.net






Computational Result
> myoutput
$Xcor
              A1           A2         A3         A4          A5          A6
A1   1.000000000 -0.004085666 0.24853927 0.02361362  0.12948558  0.16544163
A2  -0.004085666  1.000000000 0.01734205 0.10460205  0.09291323 -0.04100682
A3   0.248539270  0.017342047 1.00000000 0.13366979  0.13764891  0.20581227
A4   0.023613618  0.104602046 0.13366979 1.00000000  0.25001939  0.15783864
A5   0.129485582  0.092913229 0.13764891 0.25001939  1.00000000  0.24670429
A6   0.165441629 -0.041006825 0.20581227 0.15783864  0.24670429  1.00000000
A7   0.087440964  0.176131658 0.03338979 0.06861048  0.12191222  0.11878350
A8   0.131567658  0.082149466 0.24586563 0.20974481  0.21293080  0.20303655
A9   0.017514101  0.236365011 0.03954936 0.18058840 -0.08857556  0.03050824
A10  0.097478620  0.039415718 0.22672728 0.15241471  0.06319722  0.12426330
            A7         A8          A9        A10
A1  0.08744096 0.13156766  0.01751410 0.09747862
A2  0.17613166 0.08214947  0.23636501 0.03941572
A3  0.03338979 0.24586563  0.03954936 0.22672728
A4  0.06861048 0.20974481  0.18058840 0.15241471
A5  0.12191222 0.21293080 -0.08857556 0.06319722
A6  0.11878350 0.20303655  0.03050824 0.12426330
A7  1.00000000 0.23410248  0.12490292 0.09954919
A8  0.23410248 1.00000000  0.07064637 0.24028519
A9  0.12490292 0.07064637  1.00000000 0.13503073
A10 0.09954919 0.24028519  0.13503073 1.00000000
$Ycor
            A11          A12         A13          A14          A15          A16
A11  1.00000000 -0.144096391 -0.11463421 -0.072863634  0.273796244  0.325603023
A12 -0.14409639  1.000000000  0.05961117  0.330845830  0.003879664  0.011903683
A13 -0.11463421  0.059611168  1.00000000  0.135871792 -0.040309598 -0.102879796
A14 -0.07286363  0.330845830  0.13587179  1.000000000  0.083663438 -0.006506429
A15  0.27379624  0.003879664 -0.04030960  0.083663438  1.000000000  0.277729860
A16  0.32560302  0.011903683 -0.10287980 -0.006506429  0.277729860  1.000000000
A17  0.05685046  0.122785032  0.07984809  0.162403765  0.160238565  0.118404959
A18  0.13774318  0.136137259  0.06809125  0.098875776  0.245551787  0.141696051
A19  0.07286152  0.122747074  0.12342505  0.218289970  0.334035427  0.056857203
A20  0.06649917  0.094976844  0.05837417  0.137069347  0.103516816  0.199042906
           A17        A18        A19        A20
A11 0.05685046 0.13774318 0.07286152 0.06649917
A12 0.12278503 0.13613726 0.12274707 0.09497684
A13 0.07984809 0.06809125 0.12342505 0.05837417
A14 0.16240377 0.09887578 0.21828997 0.13706935
A15 0.16023857 0.24555179 0.33403543 0.10351682
A16 0.11840496 0.14169605 0.05685720 0.19904291
A17 1.00000000 0.25640667 0.14841214 0.21308521
A18 0.25640667 1.00000000 0.20739518 0.14821848
A19 0.14841214 0.20739518 1.00000000 0.13292083
A20 0.21308521 0.14821848 0.13292083 1.00000000
$XYcor
              A1           A2          A3          A4           A5          A6
A1   1.000000000 -0.004085666  0.24853927  0.02361362  0.129485582  0.16544163
A2  -0.004085666  1.000000000  0.01734205  0.10460205  0.092913229 -0.04100682
A3   0.248539270  0.017342047  1.00000000  0.13366979  0.137648910  0.20581227
A4   0.023613618  0.104602046  0.13366979  1.00000000  0.250019391  0.15783864
A5   0.129485582  0.092913229  0.13764891  0.25001939  1.000000000  0.24670429
A6   0.165441629 -0.041006825  0.20581227  0.15783864  0.246704290  1.00000000
A7   0.087440964  0.176131658  0.03338979  0.06861048  0.121912221  0.11878350
A8   0.131567658  0.082149466  0.24586563  0.20974481  0.212930798  0.20303655
A9   0.017514101  0.236365011  0.03954936  0.18058840 -0.088575556  0.03050824
A10  0.097478620  0.039415718  0.22672728  0.15241471  0.063197220  0.12426330
A11  0.197866144 -0.284333565  0.17929646 -0.17194010  0.009116920  0.15120559
A12  0.025022359  0.135770308  0.01786288  0.18648735  0.098308184  0.02717179
A13 -0.013867856  0.042169299  0.02207401  0.16317676  0.096036928  0.10738276
A14  0.139018933  0.159726466  0.10180411  0.09340753  0.088887934  0.15570490
A15  0.187793385 -0.093291219  0.30660282 -0.03013613  0.094833684  0.21795075
A16  0.197000206 -0.171136212  0.13964517 -0.06631847 -0.022951644  0.07106532
A17  0.099799704  0.014116840  0.10825583  0.05999048  0.001393969  0.07334345
A18  0.060802328 -0.043382890  0.10859104  0.01775501  0.029276436  0.12598513
A19  0.145129792 -0.042890742  0.15283440  0.08015535  0.156907459  0.18873821
A20  0.148953229  0.061893832 -0.06513932  0.05951869  0.046766092  0.02137623
              A7          A8          A9        A10         A11          A12
A1   0.087440964  0.13156766  0.01751410 0.09747862  0.19786614  0.025022359
A2   0.176131658  0.08214947  0.23636501 0.03941572 -0.28433357  0.135770308
A3   0.033389789  0.24586563  0.03954936 0.22672728  0.17929646  0.017862878
A4   0.068610485  0.20974481  0.18058840 0.15241471 -0.17194010  0.186487346
A5   0.121912221  0.21293080 -0.08857556 0.06319722  0.00911692  0.098308184
A6   0.118783495  0.20303655  0.03050824 0.12426330  0.15120559  0.027171789
A7   1.000000000  0.23410248  0.12490292 0.09954919 -0.05637861  0.073069280
A8   0.234102483  1.00000000  0.07064637 0.24028519  0.07543457  0.145382952
A9   0.124902919  0.07064637  1.00000000 0.13503073 -0.21010798  0.217339743
A10  0.099549191  0.24028519  0.13503073 1.00000000  0.12178525  0.098823682
A11 -0.056378605  0.07543457 -0.21010798 0.12178525  1.00000000 -0.144096391
A12  0.073069280  0.14538295  0.21733974 0.09882368 -0.14409639  1.000000000
A13  0.146745680  0.18397325  0.10866251 0.03660199 -0.11463421  0.059611168
A14  0.155378764  0.18830250  0.14978524 0.04402874 -0.07286363  0.330845830
A15 -0.095715553  0.07802145 -0.07381383 0.17758883  0.27379624  0.003879664
A16 -0.115295562 -0.01704236 -0.08645434 0.03069989  0.32560302  0.011903683
A17  0.104629834  0.17981669  0.05625250 0.22947087  0.05685046  0.122785032
A18 -0.001326303  0.10628688  0.05783667 0.15346744  0.13774318  0.136137259
A19 -0.029464671  0.18977344  0.05320084 0.17430256  0.07286152  0.122747074
A20  0.052109188  0.01073032  0.13030019 0.12882888  0.06649917  0.094976844
            A13          A14          A15          A16         A17          A18
A1  -0.01386786  0.139018933  0.187793385  0.197000206 0.099799704  0.060802328
A2   0.04216930  0.159726466 -0.093291219 -0.171136212 0.014116840 -0.043382890
A3   0.02207401  0.101804106  0.306602822  0.139645169 0.108255828  0.108591043
A4   0.16317676  0.093407535 -0.030136128 -0.066318466 0.059990476  0.017755012
A5   0.09603693  0.088887934  0.094833684 -0.022951644 0.001393969  0.029276436
A6   0.10738276  0.155704903  0.217950748  0.071065325 0.073343451  0.125985131
A7   0.14674568  0.155378764 -0.095715553 -0.115295562 0.104629834 -0.001326303
A8   0.18397325  0.188302500  0.078021449 -0.017042359 0.179816686  0.106286876
A9   0.10866251  0.149785245 -0.073813835 -0.086454337 0.056252503  0.057836669
A10  0.03660199  0.044028736  0.177588835  0.030699889 0.229470870  0.153467444
A11 -0.11463421 -0.072863634  0.273796244  0.325603023 0.056850456  0.137743181
A12  0.05961117  0.330845830  0.003879664  0.011903683 0.122785032  0.136137259
A13  1.00000000  0.135871792 -0.040309598 -0.102879796 0.079848088  0.068091253
A14  0.13587179  1.000000000  0.083663438 -0.006506429 0.162403765  0.098875776
A15 -0.04030960  0.083663438  1.000000000  0.277729860 0.160238565  0.245551787
A16 -0.10287980 -0.006506429  0.277729860  1.000000000 0.118404959  0.141696051
A17  0.07984809  0.162403765  0.160238565  0.118404959 1.000000000  0.256406674
A18  0.06809125  0.098875776  0.245551787  0.141696051 0.256406674  1.000000000
A19  0.12342505  0.218289970  0.334035427  0.056857203 0.148412137  0.207395179
A20  0.05837417  0.137069347  0.103516816  0.199042906 0.213085211  0.148218484
            A19         A20
A1   0.14512979  0.14895323
A2  -0.04289074  0.06189383
A3   0.15283440 -0.06513932
A4   0.08015535  0.05951869
A5   0.15690746  0.04676609
A6   0.18873821  0.02137623
A7  -0.02946467  0.05210919
A8   0.18977344  0.01073032
A9   0.05320084  0.13030019
A10  0.17430256  0.12882888
A11  0.07286152  0.06649917
A12  0.12274707  0.09497684
A13  0.12342505  0.05837417
A14  0.21828997  0.13706935
A15  0.33403543  0.10351682
A16  0.05685720  0.19904291
A17  0.14841214  0.21308521
A18  0.20739518  0.14821848
A19  1.00000000  0.13292083
A20  0.13292083  1.00000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
 [1] "A11" "A12" "A13" "A14" "A15" "A16" "A17" "A18" "A19" "A20"


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

> myoutput
$Xcor
              A1           A2         A3         A4          A5          A6
A1   1.000000000 -0.004085666 0.24853927 0.02361362  0.12948558  0.16544163
A2  -0.004085666  1.000000000 0.01734205 0.10460205  0.09291323 -0.04100682
A3   0.248539270  0.017342047 1.00000000 0.13366979  0.13764891  0.20581227
A4   0.023613618  0.104602046 0.13366979 1.00000000  0.25001939  0.15783864
A5   0.129485582  0.092913229 0.13764891 0.25001939  1.00000000  0.24670429
A6   0.165441629 -0.041006825 0.20581227 0.15783864  0.24670429  1.00000000
A7   0.087440964  0.176131658 0.03338979 0.06861048  0.12191222  0.11878350
A8   0.131567658  0.082149466 0.24586563 0.20974481  0.21293080  0.20303655
A9   0.017514101  0.236365011 0.03954936 0.18058840 -0.08857556  0.03050824
A10  0.097478620  0.039415718 0.22672728 0.15241471  0.06319722  0.12426330
            A7         A8          A9        A10
A1  0.08744096 0.13156766  0.01751410 0.09747862
A2  0.17613166 0.08214947  0.23636501 0.03941572
A3  0.03338979 0.24586563  0.03954936 0.22672728
A4  0.06861048 0.20974481  0.18058840 0.15241471
A5  0.12191222 0.21293080 -0.08857556 0.06319722
A6  0.11878350 0.20303655  0.03050824 0.12426330
A7  1.00000000 0.23410248  0.12490292 0.09954919
A8  0.23410248 1.00000000  0.07064637 0.24028519
A9  0.12490292 0.07064637  1.00000000 0.13503073
A10 0.09954919 0.24028519  0.13503073 1.00000000
$Ycor
            A11          A12         A13          A14          A15          A16
A11  1.00000000 -0.144096391 -0.11463421 -0.072863634  0.273796244  0.325603023
A12 -0.14409639  1.000000000  0.05961117  0.330845830  0.003879664  0.011903683
A13 -0.11463421  0.059611168  1.00000000  0.135871792 -0.040309598 -0.102879796
A14 -0.07286363  0.330845830  0.13587179  1.000000000  0.083663438 -0.006506429
A15  0.27379624  0.003879664 -0.04030960  0.083663438  1.000000000  0.277729860
A16  0.32560302  0.011903683 -0.10287980 -0.006506429  0.277729860  1.000000000
A17  0.05685046  0.122785032  0.07984809  0.162403765  0.160238565  0.118404959
A18  0.13774318  0.136137259  0.06809125  0.098875776  0.245551787  0.141696051
A19  0.07286152  0.122747074  0.12342505  0.218289970  0.334035427  0.056857203
A20  0.06649917  0.094976844  0.05837417  0.137069347  0.103516816  0.199042906
           A17        A18        A19        A20
A11 0.05685046 0.13774318 0.07286152 0.06649917
A12 0.12278503 0.13613726 0.12274707 0.09497684
A13 0.07984809 0.06809125 0.12342505 0.05837417
A14 0.16240377 0.09887578 0.21828997 0.13706935
A15 0.16023857 0.24555179 0.33403543 0.10351682
A16 0.11840496 0.14169605 0.05685720 0.19904291
A17 1.00000000 0.25640667 0.14841214 0.21308521
A18 0.25640667 1.00000000 0.20739518 0.14821848
A19 0.14841214 0.20739518 1.00000000 0.13292083
A20 0.21308521 0.14821848 0.13292083 1.00000000
$XYcor
              A1           A2          A3          A4           A5          A6
A1   1.000000000 -0.004085666  0.24853927  0.02361362  0.129485582  0.16544163
A2  -0.004085666  1.000000000  0.01734205  0.10460205  0.092913229 -0.04100682
A3   0.248539270  0.017342047  1.00000000  0.13366979  0.137648910  0.20581227
A4   0.023613618  0.104602046  0.13366979  1.00000000  0.250019391  0.15783864
A5   0.129485582  0.092913229  0.13764891  0.25001939  1.000000000  0.24670429
A6   0.165441629 -0.041006825  0.20581227  0.15783864  0.246704290  1.00000000
A7   0.087440964  0.176131658  0.03338979  0.06861048  0.121912221  0.11878350
A8   0.131567658  0.082149466  0.24586563  0.20974481  0.212930798  0.20303655
A9   0.017514101  0.236365011  0.03954936  0.18058840 -0.088575556  0.03050824
A10  0.097478620  0.039415718  0.22672728  0.15241471  0.063197220  0.12426330
A11  0.197866144 -0.284333565  0.17929646 -0.17194010  0.009116920  0.15120559
A12  0.025022359  0.135770308  0.01786288  0.18648735  0.098308184  0.02717179
A13 -0.013867856  0.042169299  0.02207401  0.16317676  0.096036928  0.10738276
A14  0.139018933  0.159726466  0.10180411  0.09340753  0.088887934  0.15570490
A15  0.187793385 -0.093291219  0.30660282 -0.03013613  0.094833684  0.21795075
A16  0.197000206 -0.171136212  0.13964517 -0.06631847 -0.022951644  0.07106532
A17  0.099799704  0.014116840  0.10825583  0.05999048  0.001393969  0.07334345
A18  0.060802328 -0.043382890  0.10859104  0.01775501  0.029276436  0.12598513
A19  0.145129792 -0.042890742  0.15283440  0.08015535  0.156907459  0.18873821
A20  0.148953229  0.061893832 -0.06513932  0.05951869  0.046766092  0.02137623
              A7          A8          A9        A10         A11          A12
A1   0.087440964  0.13156766  0.01751410 0.09747862  0.19786614  0.025022359
A2   0.176131658  0.08214947  0.23636501 0.03941572 -0.28433357  0.135770308
A3   0.033389789  0.24586563  0.03954936 0.22672728  0.17929646  0.017862878
A4   0.068610485  0.20974481  0.18058840 0.15241471 -0.17194010  0.186487346
A5   0.121912221  0.21293080 -0.08857556 0.06319722  0.00911692  0.098308184
A6   0.118783495  0.20303655  0.03050824 0.12426330  0.15120559  0.027171789
A7   1.000000000  0.23410248  0.12490292 0.09954919 -0.05637861  0.073069280
A8   0.234102483  1.00000000  0.07064637 0.24028519  0.07543457  0.145382952
A9   0.124902919  0.07064637  1.00000000 0.13503073 -0.21010798  0.217339743
A10  0.099549191  0.24028519  0.13503073 1.00000000  0.12178525  0.098823682
A11 -0.056378605  0.07543457 -0.21010798 0.12178525  1.00000000 -0.144096391
A12  0.073069280  0.14538295  0.21733974 0.09882368 -0.14409639  1.000000000
A13  0.146745680  0.18397325  0.10866251 0.03660199 -0.11463421  0.059611168
A14  0.155378764  0.18830250  0.14978524 0.04402874 -0.07286363  0.330845830
A15 -0.095715553  0.07802145 -0.07381383 0.17758883  0.27379624  0.003879664
A16 -0.115295562 -0.01704236 -0.08645434 0.03069989  0.32560302  0.011903683
A17  0.104629834  0.17981669  0.05625250 0.22947087  0.05685046  0.122785032
A18 -0.001326303  0.10628688  0.05783667 0.15346744  0.13774318  0.136137259
A19 -0.029464671  0.18977344  0.05320084 0.17430256  0.07286152  0.122747074
A20  0.052109188  0.01073032  0.13030019 0.12882888  0.06649917  0.094976844
            A13          A14          A15          A16         A17          A18
A1  -0.01386786  0.139018933  0.187793385  0.197000206 0.099799704  0.060802328
A2   0.04216930  0.159726466 -0.093291219 -0.171136212 0.014116840 -0.043382890
A3   0.02207401  0.101804106  0.306602822  0.139645169 0.108255828  0.108591043
A4   0.16317676  0.093407535 -0.030136128 -0.066318466 0.059990476  0.017755012
A5   0.09603693  0.088887934  0.094833684 -0.022951644 0.001393969  0.029276436
A6   0.10738276  0.155704903  0.217950748  0.071065325 0.073343451  0.125985131
A7   0.14674568  0.155378764 -0.095715553 -0.115295562 0.104629834 -0.001326303
A8   0.18397325  0.188302500  0.078021449 -0.017042359 0.179816686  0.106286876
A9   0.10866251  0.149785245 -0.073813835 -0.086454337 0.056252503  0.057836669
A10  0.03660199  0.044028736  0.177588835  0.030699889 0.229470870  0.153467444
A11 -0.11463421 -0.072863634  0.273796244  0.325603023 0.056850456  0.137743181
A12  0.05961117  0.330845830  0.003879664  0.011903683 0.122785032  0.136137259
A13  1.00000000  0.135871792 -0.040309598 -0.102879796 0.079848088  0.068091253
A14  0.13587179  1.000000000  0.083663438 -0.006506429 0.162403765  0.098875776
A15 -0.04030960  0.083663438  1.000000000  0.277729860 0.160238565  0.245551787
A16 -0.10287980 -0.006506429  0.277729860  1.000000000 0.118404959  0.141696051
A17  0.07984809  0.162403765  0.160238565  0.118404959 1.000000000  0.256406674
A18  0.06809125  0.098875776  0.245551787  0.141696051 0.256406674  1.000000000
A19  0.12342505  0.218289970  0.334035427  0.056857203 0.148412137  0.207395179
A20  0.05837417  0.137069347  0.103516816  0.199042906 0.213085211  0.148218484
            A19         A20
A1   0.14512979  0.14895323
A2  -0.04289074  0.06189383
A3   0.15283440 -0.06513932
A4   0.08015535  0.05951869
A5   0.15690746  0.04676609
A6   0.18873821  0.02137623
A7  -0.02946467  0.05210919
A8   0.18977344  0.01073032
A9   0.05320084  0.13030019
A10  0.17430256  0.12882888
A11  0.07286152  0.06649917
A12  0.12274707  0.09497684
A13  0.12342505  0.05837417
A14  0.21828997  0.13706935
A15  0.33403543  0.10351682
A16  0.05685720  0.19904291
A17  0.14841214  0.21308521
A18  0.20739518  0.14821848
A19  1.00000000  0.13292083
A20  0.13292083  1.00000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
 [1] "A11" "A12" "A13" "A14" "A15" "A16" "A17" "A18" "A19" "A20"

 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=165437&T=1

[TABLE]
[ROW][C]Computational Result[/C][/ROW]
[ROW][C]
> myoutput
$Xcor
              A1           A2         A3         A4          A5          A6
A1   1.000000000 -0.004085666 0.24853927 0.02361362  0.12948558  0.16544163
A2  -0.004085666  1.000000000 0.01734205 0.10460205  0.09291323 -0.04100682
A3   0.248539270  0.017342047 1.00000000 0.13366979  0.13764891  0.20581227
A4   0.023613618  0.104602046 0.13366979 1.00000000  0.25001939  0.15783864
A5   0.129485582  0.092913229 0.13764891 0.25001939  1.00000000  0.24670429
A6   0.165441629 -0.041006825 0.20581227 0.15783864  0.24670429  1.00000000
A7   0.087440964  0.176131658 0.03338979 0.06861048  0.12191222  0.11878350
A8   0.131567658  0.082149466 0.24586563 0.20974481  0.21293080  0.20303655
A9   0.017514101  0.236365011 0.03954936 0.18058840 -0.08857556  0.03050824
A10  0.097478620  0.039415718 0.22672728 0.15241471  0.06319722  0.12426330
            A7         A8          A9        A10
A1  0.08744096 0.13156766  0.01751410 0.09747862
A2  0.17613166 0.08214947  0.23636501 0.03941572
A3  0.03338979 0.24586563  0.03954936 0.22672728
A4  0.06861048 0.20974481  0.18058840 0.15241471
A5  0.12191222 0.21293080 -0.08857556 0.06319722
A6  0.11878350 0.20303655  0.03050824 0.12426330
A7  1.00000000 0.23410248  0.12490292 0.09954919
A8  0.23410248 1.00000000  0.07064637 0.24028519
A9  0.12490292 0.07064637  1.00000000 0.13503073
A10 0.09954919 0.24028519  0.13503073 1.00000000
$Ycor
            A11          A12         A13          A14          A15          A16
A11  1.00000000 -0.144096391 -0.11463421 -0.072863634  0.273796244  0.325603023
A12 -0.14409639  1.000000000  0.05961117  0.330845830  0.003879664  0.011903683
A13 -0.11463421  0.059611168  1.00000000  0.135871792 -0.040309598 -0.102879796
A14 -0.07286363  0.330845830  0.13587179  1.000000000  0.083663438 -0.006506429
A15  0.27379624  0.003879664 -0.04030960  0.083663438  1.000000000  0.277729860
A16  0.32560302  0.011903683 -0.10287980 -0.006506429  0.277729860  1.000000000
A17  0.05685046  0.122785032  0.07984809  0.162403765  0.160238565  0.118404959
A18  0.13774318  0.136137259  0.06809125  0.098875776  0.245551787  0.141696051
A19  0.07286152  0.122747074  0.12342505  0.218289970  0.334035427  0.056857203
A20  0.06649917  0.094976844  0.05837417  0.137069347  0.103516816  0.199042906
           A17        A18        A19        A20
A11 0.05685046 0.13774318 0.07286152 0.06649917
A12 0.12278503 0.13613726 0.12274707 0.09497684
A13 0.07984809 0.06809125 0.12342505 0.05837417
A14 0.16240377 0.09887578 0.21828997 0.13706935
A15 0.16023857 0.24555179 0.33403543 0.10351682
A16 0.11840496 0.14169605 0.05685720 0.19904291
A17 1.00000000 0.25640667 0.14841214 0.21308521
A18 0.25640667 1.00000000 0.20739518 0.14821848
A19 0.14841214 0.20739518 1.00000000 0.13292083
A20 0.21308521 0.14821848 0.13292083 1.00000000
$XYcor
              A1           A2          A3          A4           A5          A6
A1   1.000000000 -0.004085666  0.24853927  0.02361362  0.129485582  0.16544163
A2  -0.004085666  1.000000000  0.01734205  0.10460205  0.092913229 -0.04100682
A3   0.248539270  0.017342047  1.00000000  0.13366979  0.137648910  0.20581227
A4   0.023613618  0.104602046  0.13366979  1.00000000  0.250019391  0.15783864
A5   0.129485582  0.092913229  0.13764891  0.25001939  1.000000000  0.24670429
A6   0.165441629 -0.041006825  0.20581227  0.15783864  0.246704290  1.00000000
A7   0.087440964  0.176131658  0.03338979  0.06861048  0.121912221  0.11878350
A8   0.131567658  0.082149466  0.24586563  0.20974481  0.212930798  0.20303655
A9   0.017514101  0.236365011  0.03954936  0.18058840 -0.088575556  0.03050824
A10  0.097478620  0.039415718  0.22672728  0.15241471  0.063197220  0.12426330
A11  0.197866144 -0.284333565  0.17929646 -0.17194010  0.009116920  0.15120559
A12  0.025022359  0.135770308  0.01786288  0.18648735  0.098308184  0.02717179
A13 -0.013867856  0.042169299  0.02207401  0.16317676  0.096036928  0.10738276
A14  0.139018933  0.159726466  0.10180411  0.09340753  0.088887934  0.15570490
A15  0.187793385 -0.093291219  0.30660282 -0.03013613  0.094833684  0.21795075
A16  0.197000206 -0.171136212  0.13964517 -0.06631847 -0.022951644  0.07106532
A17  0.099799704  0.014116840  0.10825583  0.05999048  0.001393969  0.07334345
A18  0.060802328 -0.043382890  0.10859104  0.01775501  0.029276436  0.12598513
A19  0.145129792 -0.042890742  0.15283440  0.08015535  0.156907459  0.18873821
A20  0.148953229  0.061893832 -0.06513932  0.05951869  0.046766092  0.02137623
              A7          A8          A9        A10         A11          A12
A1   0.087440964  0.13156766  0.01751410 0.09747862  0.19786614  0.025022359
A2   0.176131658  0.08214947  0.23636501 0.03941572 -0.28433357  0.135770308
A3   0.033389789  0.24586563  0.03954936 0.22672728  0.17929646  0.017862878
A4   0.068610485  0.20974481  0.18058840 0.15241471 -0.17194010  0.186487346
A5   0.121912221  0.21293080 -0.08857556 0.06319722  0.00911692  0.098308184
A6   0.118783495  0.20303655  0.03050824 0.12426330  0.15120559  0.027171789
A7   1.000000000  0.23410248  0.12490292 0.09954919 -0.05637861  0.073069280
A8   0.234102483  1.00000000  0.07064637 0.24028519  0.07543457  0.145382952
A9   0.124902919  0.07064637  1.00000000 0.13503073 -0.21010798  0.217339743
A10  0.099549191  0.24028519  0.13503073 1.00000000  0.12178525  0.098823682
A11 -0.056378605  0.07543457 -0.21010798 0.12178525  1.00000000 -0.144096391
A12  0.073069280  0.14538295  0.21733974 0.09882368 -0.14409639  1.000000000
A13  0.146745680  0.18397325  0.10866251 0.03660199 -0.11463421  0.059611168
A14  0.155378764  0.18830250  0.14978524 0.04402874 -0.07286363  0.330845830
A15 -0.095715553  0.07802145 -0.07381383 0.17758883  0.27379624  0.003879664
A16 -0.115295562 -0.01704236 -0.08645434 0.03069989  0.32560302  0.011903683
A17  0.104629834  0.17981669  0.05625250 0.22947087  0.05685046  0.122785032
A18 -0.001326303  0.10628688  0.05783667 0.15346744  0.13774318  0.136137259
A19 -0.029464671  0.18977344  0.05320084 0.17430256  0.07286152  0.122747074
A20  0.052109188  0.01073032  0.13030019 0.12882888  0.06649917  0.094976844
            A13          A14          A15          A16         A17          A18
A1  -0.01386786  0.139018933  0.187793385  0.197000206 0.099799704  0.060802328
A2   0.04216930  0.159726466 -0.093291219 -0.171136212 0.014116840 -0.043382890
A3   0.02207401  0.101804106  0.306602822  0.139645169 0.108255828  0.108591043
A4   0.16317676  0.093407535 -0.030136128 -0.066318466 0.059990476  0.017755012
A5   0.09603693  0.088887934  0.094833684 -0.022951644 0.001393969  0.029276436
A6   0.10738276  0.155704903  0.217950748  0.071065325 0.073343451  0.125985131
A7   0.14674568  0.155378764 -0.095715553 -0.115295562 0.104629834 -0.001326303
A8   0.18397325  0.188302500  0.078021449 -0.017042359 0.179816686  0.106286876
A9   0.10866251  0.149785245 -0.073813835 -0.086454337 0.056252503  0.057836669
A10  0.03660199  0.044028736  0.177588835  0.030699889 0.229470870  0.153467444
A11 -0.11463421 -0.072863634  0.273796244  0.325603023 0.056850456  0.137743181
A12  0.05961117  0.330845830  0.003879664  0.011903683 0.122785032  0.136137259
A13  1.00000000  0.135871792 -0.040309598 -0.102879796 0.079848088  0.068091253
A14  0.13587179  1.000000000  0.083663438 -0.006506429 0.162403765  0.098875776
A15 -0.04030960  0.083663438  1.000000000  0.277729860 0.160238565  0.245551787
A16 -0.10287980 -0.006506429  0.277729860  1.000000000 0.118404959  0.141696051
A17  0.07984809  0.162403765  0.160238565  0.118404959 1.000000000  0.256406674
A18  0.06809125  0.098875776  0.245551787  0.141696051 0.256406674  1.000000000
A19  0.12342505  0.218289970  0.334035427  0.056857203 0.148412137  0.207395179
A20  0.05837417  0.137069347  0.103516816  0.199042906 0.213085211  0.148218484
            A19         A20
A1   0.14512979  0.14895323
A2  -0.04289074  0.06189383
A3   0.15283440 -0.06513932
A4   0.08015535  0.05951869
A5   0.15690746  0.04676609
A6   0.18873821  0.02137623
A7  -0.02946467  0.05210919
A8   0.18977344  0.01073032
A9   0.05320084  0.13030019
A10  0.17430256  0.12882888
A11  0.07286152  0.06649917
A12  0.12274707  0.09497684
A13  0.12342505  0.05837417
A14  0.21828997  0.13706935
A15  0.33403543  0.10351682
A16  0.05685720  0.19904291
A17  0.14841214  0.21308521
A18  0.20739518  0.14821848
A19  1.00000000  0.13292083
A20  0.13292083  1.00000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
 [1] "A11" "A12" "A13" "A14" "A15" "A16" "A17" "A18" "A19" "A20"

[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=165437&T=1

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=165437&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 -0.004085666 0.24853927 0.02361362  0.12948558  0.16544163
A2  -0.004085666  1.000000000 0.01734205 0.10460205  0.09291323 -0.04100682
A3   0.248539270  0.017342047 1.00000000 0.13366979  0.13764891  0.20581227
A4   0.023613618  0.104602046 0.13366979 1.00000000  0.25001939  0.15783864
A5   0.129485582  0.092913229 0.13764891 0.25001939  1.00000000  0.24670429
A6   0.165441629 -0.041006825 0.20581227 0.15783864  0.24670429  1.00000000
A7   0.087440964  0.176131658 0.03338979 0.06861048  0.12191222  0.11878350
A8   0.131567658  0.082149466 0.24586563 0.20974481  0.21293080  0.20303655
A9   0.017514101  0.236365011 0.03954936 0.18058840 -0.08857556  0.03050824
A10  0.097478620  0.039415718 0.22672728 0.15241471  0.06319722  0.12426330
            A7         A8          A9        A10
A1  0.08744096 0.13156766  0.01751410 0.09747862
A2  0.17613166 0.08214947  0.23636501 0.03941572
A3  0.03338979 0.24586563  0.03954936 0.22672728
A4  0.06861048 0.20974481  0.18058840 0.15241471
A5  0.12191222 0.21293080 -0.08857556 0.06319722
A6  0.11878350 0.20303655  0.03050824 0.12426330
A7  1.00000000 0.23410248  0.12490292 0.09954919
A8  0.23410248 1.00000000  0.07064637 0.24028519
A9  0.12490292 0.07064637  1.00000000 0.13503073
A10 0.09954919 0.24028519  0.13503073 1.00000000
$Ycor
            A11          A12         A13          A14          A15          A16
A11  1.00000000 -0.144096391 -0.11463421 -0.072863634  0.273796244  0.325603023
A12 -0.14409639  1.000000000  0.05961117  0.330845830  0.003879664  0.011903683
A13 -0.11463421  0.059611168  1.00000000  0.135871792 -0.040309598 -0.102879796
A14 -0.07286363  0.330845830  0.13587179  1.000000000  0.083663438 -0.006506429
A15  0.27379624  0.003879664 -0.04030960  0.083663438  1.000000000  0.277729860
A16  0.32560302  0.011903683 -0.10287980 -0.006506429  0.277729860  1.000000000
A17  0.05685046  0.122785032  0.07984809  0.162403765  0.160238565  0.118404959
A18  0.13774318  0.136137259  0.06809125  0.098875776  0.245551787  0.141696051
A19  0.07286152  0.122747074  0.12342505  0.218289970  0.334035427  0.056857203
A20  0.06649917  0.094976844  0.05837417  0.137069347  0.103516816  0.199042906
           A17        A18        A19        A20
A11 0.05685046 0.13774318 0.07286152 0.06649917
A12 0.12278503 0.13613726 0.12274707 0.09497684
A13 0.07984809 0.06809125 0.12342505 0.05837417
A14 0.16240377 0.09887578 0.21828997 0.13706935
A15 0.16023857 0.24555179 0.33403543 0.10351682
A16 0.11840496 0.14169605 0.05685720 0.19904291
A17 1.00000000 0.25640667 0.14841214 0.21308521
A18 0.25640667 1.00000000 0.20739518 0.14821848
A19 0.14841214 0.20739518 1.00000000 0.13292083
A20 0.21308521 0.14821848 0.13292083 1.00000000
$XYcor
              A1           A2          A3          A4           A5          A6
A1   1.000000000 -0.004085666  0.24853927  0.02361362  0.129485582  0.16544163
A2  -0.004085666  1.000000000  0.01734205  0.10460205  0.092913229 -0.04100682
A3   0.248539270  0.017342047  1.00000000  0.13366979  0.137648910  0.20581227
A4   0.023613618  0.104602046  0.13366979  1.00000000  0.250019391  0.15783864
A5   0.129485582  0.092913229  0.13764891  0.25001939  1.000000000  0.24670429
A6   0.165441629 -0.041006825  0.20581227  0.15783864  0.246704290  1.00000000
A7   0.087440964  0.176131658  0.03338979  0.06861048  0.121912221  0.11878350
A8   0.131567658  0.082149466  0.24586563  0.20974481  0.212930798  0.20303655
A9   0.017514101  0.236365011  0.03954936  0.18058840 -0.088575556  0.03050824
A10  0.097478620  0.039415718  0.22672728  0.15241471  0.063197220  0.12426330
A11  0.197866144 -0.284333565  0.17929646 -0.17194010  0.009116920  0.15120559
A12  0.025022359  0.135770308  0.01786288  0.18648735  0.098308184  0.02717179
A13 -0.013867856  0.042169299  0.02207401  0.16317676  0.096036928  0.10738276
A14  0.139018933  0.159726466  0.10180411  0.09340753  0.088887934  0.15570490
A15  0.187793385 -0.093291219  0.30660282 -0.03013613  0.094833684  0.21795075
A16  0.197000206 -0.171136212  0.13964517 -0.06631847 -0.022951644  0.07106532
A17  0.099799704  0.014116840  0.10825583  0.05999048  0.001393969  0.07334345
A18  0.060802328 -0.043382890  0.10859104  0.01775501  0.029276436  0.12598513
A19  0.145129792 -0.042890742  0.15283440  0.08015535  0.156907459  0.18873821
A20  0.148953229  0.061893832 -0.06513932  0.05951869  0.046766092  0.02137623
              A7          A8          A9        A10         A11          A12
A1   0.087440964  0.13156766  0.01751410 0.09747862  0.19786614  0.025022359
A2   0.176131658  0.08214947  0.23636501 0.03941572 -0.28433357  0.135770308
A3   0.033389789  0.24586563  0.03954936 0.22672728  0.17929646  0.017862878
A4   0.068610485  0.20974481  0.18058840 0.15241471 -0.17194010  0.186487346
A5   0.121912221  0.21293080 -0.08857556 0.06319722  0.00911692  0.098308184
A6   0.118783495  0.20303655  0.03050824 0.12426330  0.15120559  0.027171789
A7   1.000000000  0.23410248  0.12490292 0.09954919 -0.05637861  0.073069280
A8   0.234102483  1.00000000  0.07064637 0.24028519  0.07543457  0.145382952
A9   0.124902919  0.07064637  1.00000000 0.13503073 -0.21010798  0.217339743
A10  0.099549191  0.24028519  0.13503073 1.00000000  0.12178525  0.098823682
A11 -0.056378605  0.07543457 -0.21010798 0.12178525  1.00000000 -0.144096391
A12  0.073069280  0.14538295  0.21733974 0.09882368 -0.14409639  1.000000000
A13  0.146745680  0.18397325  0.10866251 0.03660199 -0.11463421  0.059611168
A14  0.155378764  0.18830250  0.14978524 0.04402874 -0.07286363  0.330845830
A15 -0.095715553  0.07802145 -0.07381383 0.17758883  0.27379624  0.003879664
A16 -0.115295562 -0.01704236 -0.08645434 0.03069989  0.32560302  0.011903683
A17  0.104629834  0.17981669  0.05625250 0.22947087  0.05685046  0.122785032
A18 -0.001326303  0.10628688  0.05783667 0.15346744  0.13774318  0.136137259
A19 -0.029464671  0.18977344  0.05320084 0.17430256  0.07286152  0.122747074
A20  0.052109188  0.01073032  0.13030019 0.12882888  0.06649917  0.094976844
            A13          A14          A15          A16         A17          A18
A1  -0.01386786  0.139018933  0.187793385  0.197000206 0.099799704  0.060802328
A2   0.04216930  0.159726466 -0.093291219 -0.171136212 0.014116840 -0.043382890
A3   0.02207401  0.101804106  0.306602822  0.139645169 0.108255828  0.108591043
A4   0.16317676  0.093407535 -0.030136128 -0.066318466 0.059990476  0.017755012
A5   0.09603693  0.088887934  0.094833684 -0.022951644 0.001393969  0.029276436
A6   0.10738276  0.155704903  0.217950748  0.071065325 0.073343451  0.125985131
A7   0.14674568  0.155378764 -0.095715553 -0.115295562 0.104629834 -0.001326303
A8   0.18397325  0.188302500  0.078021449 -0.017042359 0.179816686  0.106286876
A9   0.10866251  0.149785245 -0.073813835 -0.086454337 0.056252503  0.057836669
A10  0.03660199  0.044028736  0.177588835  0.030699889 0.229470870  0.153467444
A11 -0.11463421 -0.072863634  0.273796244  0.325603023 0.056850456  0.137743181
A12  0.05961117  0.330845830  0.003879664  0.011903683 0.122785032  0.136137259
A13  1.00000000  0.135871792 -0.040309598 -0.102879796 0.079848088  0.068091253
A14  0.13587179  1.000000000  0.083663438 -0.006506429 0.162403765  0.098875776
A15 -0.04030960  0.083663438  1.000000000  0.277729860 0.160238565  0.245551787
A16 -0.10287980 -0.006506429  0.277729860  1.000000000 0.118404959  0.141696051
A17  0.07984809  0.162403765  0.160238565  0.118404959 1.000000000  0.256406674
A18  0.06809125  0.098875776  0.245551787  0.141696051 0.256406674  1.000000000
A19  0.12342505  0.218289970  0.334035427  0.056857203 0.148412137  0.207395179
A20  0.05837417  0.137069347  0.103516816  0.199042906 0.213085211  0.148218484
            A19         A20
A1   0.14512979  0.14895323
A2  -0.04289074  0.06189383
A3   0.15283440 -0.06513932
A4   0.08015535  0.05951869
A5   0.15690746  0.04676609
A6   0.18873821  0.02137623
A7  -0.02946467  0.05210919
A8   0.18977344  0.01073032
A9   0.05320084  0.13030019
A10  0.17430256  0.12882888
A11  0.07286152  0.06649917
A12  0.12274707  0.09497684
A13  0.12342505  0.05837417
A14  0.21828997  0.13706935
A15  0.33403543  0.10351682
A16  0.05685720  0.19904291
A17  0.14841214  0.21308521
A18  0.20739518  0.14821848
A19  1.00000000  0.13292083
A20  0.13292083  1.00000000
> myxlabs
 [1] "A1"  "A2"  "A3"  "A4"  "A5"  "A6"  "A7"  "A8"  "A9"  "A10"
> myylabs
 [1] "A11" "A12" "A13" "A14" "A15" "A16" "A17" "A18" "A19" "A20"


Figures (Output of Computation)

Input Parameters & R Code

Parameters (Session):
par1 = correlation matrix ; par2 = ATTLES connected ; par3 = ATTLES separate ; par4 = female ; par5 = bachelor ; par6 = all ;
Parameters (R input):
par1 = correlation matrix ; par2 = ATTLES connected ; par3 = ATTLES separate ; par4 = female ; par5 = bachelor ; par6 = all ;
R code (references can be found in the software module):
par6 <- 'all'
par5 <- 'bachelor'
par4 <- 'female'
par3 <- 'ATTLES connected'
par2 <- 'ATTLES connected'
par1 <- 'correlation matrix'
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')