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Description of Statistical Computation

Author's title

Author*The author of this computation has been verified*
R Software Modulerwasp_multipleregression.wasp
Title produced by softwareMultiple Regression
Date of computationFri, 15 Dec 2017 17:28:37 +0100
Cite this page as followsStatistical Computations at FreeStatistics.org, Office for Research Development and Education, URL https://freestatistics.org/blog/index.php?v=date/2017/Dec/15/t15133706211ue06c3mqifzp04.htm/, Retrieved Wed, 15 May 2024 21:16:41 +0000
Statistical Computations at FreeStatistics.org, Office for Research Development and Education, URL https://freestatistics.org/blog/index.php?pk=309818, Retrieved Wed, 15 May 2024 21:16:41 +0000
QR Codes:

Original text written by user:
IsPrivate?No (this computation is public)
User-defined keywords
Estimated Impact75

Tree of Dependent Computations

Family? (F = Feedback message, R = changed R code, M = changed R Module, P = changed Parameters, D = changed Data)
-       [Multiple Regression] [] [2017-12-15 16:28:37] [0624292ea623603b59620a7164665963] [Current]
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Dataset

Dataseries X:
Download CSV
Histogram
Boxplots 
0	1	0.906254702
0	1	0.932174273
0	1	0.95047761
0	1	0.905040122
0	1	0.935701169
0	1	0.928122976
0	1	0.925229653
0	1	1.005198582
0	1	0.858249066
0	0	0.87390453
0	1	0.793216269
0	1	0.935246502
0	1	0.856936345
0	1	0.915428869
0	1	1.075757571
0	0	0.788143717
0	1	0.96010508
0	1	1.092140127
0	1	0.929912574
0	1	0.97910217
0	1	0.845502942
0	1	0.843280778
0	1	0.834862146
0	1	0.858438783
0	0	0.837773845
0	0	0.855699741
0	0	0.838191755
0	0	0.887797976
0	1	0.909181688
0	1	0.901979135
0	1	0.94155375
0	1	0.903287355
0	1	0.929059143
0	1	0.872655219
0	1	0.873148781
0	1	0.835310971
0	1	0.89616399
0	1	0.894831133
0	1	0.764164617
0	1	0.903043954
0	0	0.92390972
0	0	0.809695881
0	0	1.004736912
0	0	0.792395356
0	0	0.831877551
0	0	0.839677636
1	1	1.140075749
1	1	1.420117037
1	1	1.048961075
1	0	1.04496375
1	0	1.148400903
1	0	1.132816984
1	0	1.028139114
1	0	0.9576556
1	0	0.95478413
1	0	1.229013361
1	0	0.990363762
1	0	1.079649407
1	0	1.060226459
1	0	1.078958179
1	1	0.971863624
1	0	0.888589105
1	1	0.94336986
1	1	0.997000278
1	0	0.844150987
1	0	1.187277062
1	0	0.908163146
1	0	1.024194714
1	0	1.124121053
1	0	0.831834941

Tables (Output of Computation)





Summary of computational transaction
Raw Input view raw input (R code)
Raw Outputview raw output of R engine
Computing time8 seconds
R ServerBig Analytics Cloud Computing Center

\begin{tabular}{lllllllll}
\hline
Summary of computational transaction \tabularnewline
Raw Input view raw input (R code)  \tabularnewline
Raw Outputview raw output of R engine  \tabularnewline
Computing time8 seconds \tabularnewline
R ServerBig Analytics Cloud Computing Center \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=0

[TABLE]
[ROW]
Summary of computational transaction[/C][/ROW] [ROW]Raw Input[/C] view raw input (R code) [/C][/ROW] [ROW]Raw Output[/C]view raw output of R engine [/C][/ROW] [ROW]Computing time[/C]8 seconds[/C][/ROW] [ROW]R Server[/C]Big Analytics Cloud Computing Center[/C][/ROW] [/TABLE] Source: https://freestatistics.org/blog/index.php?pk=309818&T=0

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&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 Input view raw input (R code)
Raw Outputview raw output of R engine
Computing time8 seconds
R ServerBig Analytics Cloud Computing Center






Multiple Linear Regression - Estimated Regression Equation
Baby[t] = + 0.914531 + 0.172981Country[t] + 0.0523638GDP[t] -0.0961688M1[t] -0.0764253M2[t] -0.0537067M3[t] -0.0627326M4[t] -0.0648418M5[t] -0.0188947M6[t] -0.0543098M7[t] -0.00950787M8[t] -0.0685109M9[t] -0.0994787M10[t] -0.0853084M11[t] + e[t]

\begin{tabular}{lllllllll}
\hline
Multiple Linear Regression - Estimated Regression Equation \tabularnewline
Baby[t] =  +  0.914531 +  0.172981Country[t] +  0.0523638GDP[t] -0.0961688M1[t] -0.0764253M2[t] -0.0537067M3[t] -0.0627326M4[t] -0.0648418M5[t] -0.0188947M6[t] -0.0543098M7[t] -0.00950787M8[t] -0.0685109M9[t] -0.0994787M10[t] -0.0853084M11[t]  + e[t] \tabularnewline
 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=1

[TABLE]
[ROW][C]Multiple Linear Regression - Estimated Regression Equation[/C][/ROW]
[ROW][C]Baby[t] =  +  0.914531 +  0.172981Country[t] +  0.0523638GDP[t] -0.0961688M1[t] -0.0764253M2[t] -0.0537067M3[t] -0.0627326M4[t] -0.0648418M5[t] -0.0188947M6[t] -0.0543098M7[t] -0.00950787M8[t] -0.0685109M9[t] -0.0994787M10[t] -0.0853084M11[t]  + e[t][/C][/ROW]
[ROW][C][/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=1

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&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:

Multiple Linear Regression - Estimated Regression Equation
Baby[t] = + 0.914531 + 0.172981Country[t] + 0.0523638GDP[t] -0.0961688M1[t] -0.0764253M2[t] -0.0537067M3[t] -0.0627326M4[t] -0.0648418M5[t] -0.0188947M6[t] -0.0543098M7[t] -0.00950787M8[t] -0.0685109M9[t] -0.0994787M10[t] -0.0853084M11[t] + e[t]






Multiple Linear Regression - Ordinary Least Squares
VariableParameterS.D.T-STATH0: parameter = 02-tail p-value1-tail p-value
(Intercept)+0.9145 0.05168+1.7700e+01 1.337e-24 6.685e-25
Country+0.173 0.0277+6.2460e+00 6.034e-08 3.017e-08
GDP+0.05236 0.02781+1.8830e+00 0.06494 0.03247
M1-0.09617 0.05755-1.6710e+00 0.1003 0.05014
M2-0.07643 0.05829-1.3110e+00 0.1952 0.09758
M3-0.05371 0.05773-9.3020e-01 0.3562 0.1781
M4-0.06273 0.05829-1.0760e+00 0.2864 0.1432
M5-0.06484 0.05829-1.1120e+00 0.2707 0.1354
M6-0.01889 0.05829-3.2420e-01 0.747 0.3735
M7-0.05431 0.05829-9.3170e-01 0.3555 0.1777
M8-0.009508 0.05829-1.6310e-01 0.871 0.4355
M9-0.06851 0.05829-1.1750e+00 0.2448 0.1224
M10-0.09948 0.0592-1.6800e+00 0.09848 0.04924
M11-0.08531 0.06008-1.4200e+00 0.1612 0.0806

\begin{tabular}{lllllllll}
\hline
Multiple Linear Regression - Ordinary Least Squares \tabularnewline
Variable & Parameter & S.D. & T-STATH0: parameter = 0 & 2-tail p-value & 1-tail p-value \tabularnewline
(Intercept) & +0.9145 &  0.05168 & +1.7700e+01 &  1.337e-24 &  6.685e-25 \tabularnewline
Country & +0.173 &  0.0277 & +6.2460e+00 &  6.034e-08 &  3.017e-08 \tabularnewline
GDP & +0.05236 &  0.02781 & +1.8830e+00 &  0.06494 &  0.03247 \tabularnewline
M1 & -0.09617 &  0.05755 & -1.6710e+00 &  0.1003 &  0.05014 \tabularnewline
M2 & -0.07643 &  0.05829 & -1.3110e+00 &  0.1952 &  0.09758 \tabularnewline
M3 & -0.05371 &  0.05773 & -9.3020e-01 &  0.3562 &  0.1781 \tabularnewline
M4 & -0.06273 &  0.05829 & -1.0760e+00 &  0.2864 &  0.1432 \tabularnewline
M5 & -0.06484 &  0.05829 & -1.1120e+00 &  0.2707 &  0.1354 \tabularnewline
M6 & -0.01889 &  0.05829 & -3.2420e-01 &  0.747 &  0.3735 \tabularnewline
M7 & -0.05431 &  0.05829 & -9.3170e-01 &  0.3555 &  0.1777 \tabularnewline
M8 & -0.009508 &  0.05829 & -1.6310e-01 &  0.871 &  0.4355 \tabularnewline
M9 & -0.06851 &  0.05829 & -1.1750e+00 &  0.2448 &  0.1224 \tabularnewline
M10 & -0.09948 &  0.0592 & -1.6800e+00 &  0.09848 &  0.04924 \tabularnewline
M11 & -0.08531 &  0.06008 & -1.4200e+00 &  0.1612 &  0.0806 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=2

[TABLE]
[ROW][C]Multiple Linear Regression - Ordinary Least Squares[/C][/ROW]
[ROW][C]Variable[/C][C]Parameter[/C][C]S.D.[/C][C]T-STATH0: parameter = 0[/C][C]2-tail p-value[/C][C]1-tail p-value[/C][/ROW]
[ROW][C](Intercept)[/C][C]+0.9145[/C][C] 0.05168[/C][C]+1.7700e+01[/C][C] 1.337e-24[/C][C] 6.685e-25[/C][/ROW]
[ROW][C]Country[/C][C]+0.173[/C][C] 0.0277[/C][C]+6.2460e+00[/C][C] 6.034e-08[/C][C] 3.017e-08[/C][/ROW]
[ROW][C]GDP[/C][C]+0.05236[/C][C] 0.02781[/C][C]+1.8830e+00[/C][C] 0.06494[/C][C] 0.03247[/C][/ROW]
[ROW][C]M1[/C][C]-0.09617[/C][C] 0.05755[/C][C]-1.6710e+00[/C][C] 0.1003[/C][C] 0.05014[/C][/ROW]
[ROW][C]M2[/C][C]-0.07643[/C][C] 0.05829[/C][C]-1.3110e+00[/C][C] 0.1952[/C][C] 0.09758[/C][/ROW]
[ROW][C]M3[/C][C]-0.05371[/C][C] 0.05773[/C][C]-9.3020e-01[/C][C] 0.3562[/C][C] 0.1781[/C][/ROW]
[ROW][C]M4[/C][C]-0.06273[/C][C] 0.05829[/C][C]-1.0760e+00[/C][C] 0.2864[/C][C] 0.1432[/C][/ROW]
[ROW][C]M5[/C][C]-0.06484[/C][C] 0.05829[/C][C]-1.1120e+00[/C][C] 0.2707[/C][C] 0.1354[/C][/ROW]
[ROW][C]M6[/C][C]-0.01889[/C][C] 0.05829[/C][C]-3.2420e-01[/C][C] 0.747[/C][C] 0.3735[/C][/ROW]
[ROW][C]M7[/C][C]-0.05431[/C][C] 0.05829[/C][C]-9.3170e-01[/C][C] 0.3555[/C][C] 0.1777[/C][/ROW]
[ROW][C]M8[/C][C]-0.009508[/C][C] 0.05829[/C][C]-1.6310e-01[/C][C] 0.871[/C][C] 0.4355[/C][/ROW]
[ROW][C]M9[/C][C]-0.06851[/C][C] 0.05829[/C][C]-1.1750e+00[/C][C] 0.2448[/C][C] 0.1224[/C][/ROW]
[ROW][C]M10[/C][C]-0.09948[/C][C] 0.0592[/C][C]-1.6800e+00[/C][C] 0.09848[/C][C] 0.04924[/C][/ROW]
[ROW][C]M11[/C][C]-0.08531[/C][C] 0.06008[/C][C]-1.4200e+00[/C][C] 0.1612[/C][C] 0.0806[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=2

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=2

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


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

Multiple Linear Regression - Ordinary Least Squares
VariableParameterS.D.T-STATH0: parameter = 02-tail p-value1-tail p-value
(Intercept)+0.9145 0.05168+1.7700e+01 1.337e-24 6.685e-25
Country+0.173 0.0277+6.2460e+00 6.034e-08 3.017e-08
GDP+0.05236 0.02781+1.8830e+00 0.06494 0.03247
M1-0.09617 0.05755-1.6710e+00 0.1003 0.05014
M2-0.07643 0.05829-1.3110e+00 0.1952 0.09758
M3-0.05371 0.05773-9.3020e-01 0.3562 0.1781
M4-0.06273 0.05829-1.0760e+00 0.2864 0.1432
M5-0.06484 0.05829-1.1120e+00 0.2707 0.1354
M6-0.01889 0.05829-3.2420e-01 0.747 0.3735
M7-0.05431 0.05829-9.3170e-01 0.3555 0.1777
M8-0.009508 0.05829-1.6310e-01 0.871 0.4355
M9-0.06851 0.05829-1.1750e+00 0.2448 0.1224
M10-0.09948 0.0592-1.6800e+00 0.09848 0.04924
M11-0.08531 0.06008-1.4200e+00 0.1612 0.0806






Multiple Linear Regression - Regression Statistics
Multiple R 0.6865
R-squared 0.4713
Adjusted R-squared 0.3485
F-TEST (value) 3.84
F-TEST (DF numerator)13
F-TEST (DF denominator)56
p-value 0.0002047
Multiple Linear Regression - Residual Statistics
Residual Standard Deviation 0.095
Sum Squared Residuals 0.5054

\begin{tabular}{lllllllll}
\hline
Multiple Linear Regression - Regression Statistics \tabularnewline
Multiple R &  0.6865 \tabularnewline
R-squared &  0.4713 \tabularnewline
Adjusted R-squared &  0.3485 \tabularnewline
F-TEST (value) &  3.84 \tabularnewline
F-TEST (DF numerator) & 13 \tabularnewline
F-TEST (DF denominator) & 56 \tabularnewline
p-value &  0.0002047 \tabularnewline
Multiple Linear Regression - Residual Statistics \tabularnewline
Residual Standard Deviation &  0.095 \tabularnewline
Sum Squared Residuals &  0.5054 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=3

[TABLE]
[ROW][C]Multiple Linear Regression - Regression Statistics[/C][/ROW]
[ROW][C]Multiple R[/C][C] 0.6865[/C][/ROW]
[ROW][C]R-squared[/C][C] 0.4713[/C][/ROW]
[ROW][C]Adjusted R-squared[/C][C] 0.3485[/C][/ROW]
[ROW][C]F-TEST (value)[/C][C] 3.84[/C][/ROW]
[ROW][C]F-TEST (DF numerator)[/C][C]13[/C][/ROW]
[ROW][C]F-TEST (DF denominator)[/C][C]56[/C][/ROW]
[ROW][C]p-value[/C][C] 0.0002047[/C][/ROW]
[ROW][C]Multiple Linear Regression - Residual Statistics[/C][/ROW]
[ROW][C]Residual Standard Deviation[/C][C] 0.095[/C][/ROW]
[ROW][C]Sum Squared Residuals[/C][C] 0.5054[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=3

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=3

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


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

Multiple Linear Regression - Regression Statistics
Multiple R 0.6865
R-squared 0.4713
Adjusted R-squared 0.3485
F-TEST (value) 3.84
F-TEST (DF numerator)13
F-TEST (DF denominator)56
p-value 0.0002047
Multiple Linear Regression - Residual Statistics
Residual Standard Deviation 0.095
Sum Squared Residuals 0.5054






Menu of Residual Diagnostics
DescriptionLink
HistogramCompute
Central TendencyCompute
QQ PlotCompute
Kernel Density PlotCompute
Skewness/Kurtosis TestCompute
Skewness-Kurtosis PlotCompute
Harrell-Davis PlotCompute
Bootstrap Plot -- Central TendencyCompute
Blocked Bootstrap Plot -- Central TendencyCompute
(Partial) Autocorrelation PlotCompute
Spectral AnalysisCompute
Tukey lambda PPCC PlotCompute
Box-Cox Normality PlotCompute
Summary StatisticsCompute

\begin{tabular}{lllllllll}
\hline
Menu of Residual Diagnostics \tabularnewline
Description & Link \tabularnewline
Histogram & Compute \tabularnewline
Central Tendency & Compute \tabularnewline
QQ Plot & Compute \tabularnewline
Kernel Density Plot & Compute \tabularnewline
Skewness/Kurtosis Test & Compute \tabularnewline
Skewness-Kurtosis Plot & Compute \tabularnewline
Harrell-Davis Plot & Compute \tabularnewline
Bootstrap Plot -- Central Tendency & Compute \tabularnewline
Blocked Bootstrap Plot -- Central Tendency & Compute \tabularnewline
(Partial) Autocorrelation Plot & Compute \tabularnewline
Spectral Analysis & Compute \tabularnewline
Tukey lambda PPCC Plot & Compute \tabularnewline
Box-Cox Normality Plot & Compute \tabularnewline
Summary Statistics & Compute \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=4

[TABLE]
[ROW][C]Menu of Residual Diagnostics[/C][/ROW]
[ROW][C]Description[/C][C]Link[/C][/ROW]
[ROW][C]Histogram[/C][C]Compute[/C][/ROW]
[ROW][C]Central Tendency[/C][C]Compute[/C][/ROW]
[ROW][C]QQ Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Kernel Density Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Skewness/Kurtosis Test[/C][C]Compute[/C][/ROW]
[ROW][C]Skewness-Kurtosis Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Harrell-Davis Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Bootstrap Plot -- Central Tendency[/C][C]Compute[/C][/ROW]
[ROW][C]Blocked Bootstrap Plot -- Central Tendency[/C][C]Compute[/C][/ROW]
[ROW][C](Partial) Autocorrelation Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Spectral Analysis[/C][C]Compute[/C][/ROW]
[ROW][C]Tukey lambda PPCC Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Box-Cox Normality Plot[/C][C]Compute[/C][/ROW]
[ROW][C]Summary Statistics[/C][C]Compute[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=4

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=4

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


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

Menu of Residual Diagnostics
DescriptionLink
HistogramCompute
Central TendencyCompute
QQ PlotCompute
Kernel Density PlotCompute
Skewness/Kurtosis TestCompute
Skewness-Kurtosis PlotCompute
Harrell-Davis PlotCompute
Bootstrap Plot -- Central TendencyCompute
Blocked Bootstrap Plot -- Central TendencyCompute
(Partial) Autocorrelation PlotCompute
Spectral AnalysisCompute
Tukey lambda PPCC PlotCompute
Box-Cox Normality PlotCompute
Summary StatisticsCompute






Multiple Linear Regression - Actuals, Interpolation, and Residuals
Time or IndexActualsInterpolationForecastResidualsPrediction Error
1 0.9063 0.8707 0.03553
2 0.9322 0.8905 0.0417
3 0.9505 0.9132 0.03729
4 0.905 0.9042 0.0008779
5 0.9357 0.9021 0.03365
6 0.9281 0.948-0.01988
7 0.9252 0.9126 0.01264
8 1.005 0.9574 0.04781
9 0.8582 0.8984-0.04013
10 0.8739 0.8151 0.05885
11 0.7932 0.8816-0.08837
12 0.9352 0.9669-0.03165
13 0.8569 0.8707-0.01379
14 0.9154 0.8905 0.02496
15 1.076 0.9132 0.1626
16 0.7881 0.8518-0.06365
17 0.9601 0.9021 0.05805
18 1.092 0.948 0.1441
19 0.9299 0.9126 0.01733
20 0.9791 0.9574 0.02172
21 0.8455 0.8984-0.05288
22 0.8433 0.8674-0.02414
23 0.8349 0.8816-0.04672
24 0.8584 0.9669-0.1085
25 0.8378 0.8184 0.01941
26 0.8557 0.8381 0.01759
27 0.8382 0.8608-0.02263
28 0.8878 0.8518 0.036
29 0.9092 0.9021 0.007129
30 0.902 0.948-0.04602
31 0.9416 0.9126 0.02897
32 0.9033 0.9574-0.0541
33 0.9291 0.8984 0.03068
34 0.8727 0.8674 0.005239
35 0.8731 0.8816-0.008438
36 0.8353 0.9669-0.1316
37 0.8962 0.8707 0.02544
38 0.8948 0.8905 0.004362
39 0.7642 0.9132-0.149
40 0.903 0.9042-0.001118
41 0.9239 0.8497 0.07422
42 0.8097 0.8956-0.08594
43 1.005 0.8602 0.1445
44 0.7924 0.905-0.1126
45 0.8319 0.846-0.01414
46 0.8397 0.8151 0.02463
47 1.14 1.055 0.08551
48 1.42 1.14 0.2802
49 1.049 1.044 0.005254
50 1.045 1.011 0.03388
51 1.148 1.034 0.1146
52 1.133 1.025 0.108
53 1.028 1.023 0.005469
54 0.9577 1.069-0.111
55 0.9548 1.033-0.07842
56 1.229 1.078 0.151
57 0.9904 1.019-0.02864
58 1.08 0.988 0.09162
59 1.06 1.002 0.05802
60 1.079 1.088-0.008553
61 0.9719 1.044-0.07184
62 0.8886 1.011-0.1225
63 0.9434 1.086-0.1428
64 0.997 1.077-0.08014
65 0.8442 1.023-0.1785
66 1.187 1.069 0.1187
67 0.9082 1.033-0.125
68 1.024 1.078-0.05381
69 1.124 1.019 0.1051
70 0.8318 0.988-0.1562

\begin{tabular}{lllllllll}
\hline
Multiple Linear Regression - Actuals, Interpolation, and Residuals \tabularnewline
Time or Index & Actuals & InterpolationForecast & ResidualsPrediction Error \tabularnewline
1 &  0.9063 &  0.8707 &  0.03553 \tabularnewline
2 &  0.9322 &  0.8905 &  0.0417 \tabularnewline
3 &  0.9505 &  0.9132 &  0.03729 \tabularnewline
4 &  0.905 &  0.9042 &  0.0008779 \tabularnewline
5 &  0.9357 &  0.9021 &  0.03365 \tabularnewline
6 &  0.9281 &  0.948 & -0.01988 \tabularnewline
7 &  0.9252 &  0.9126 &  0.01264 \tabularnewline
8 &  1.005 &  0.9574 &  0.04781 \tabularnewline
9 &  0.8582 &  0.8984 & -0.04013 \tabularnewline
10 &  0.8739 &  0.8151 &  0.05885 \tabularnewline
11 &  0.7932 &  0.8816 & -0.08837 \tabularnewline
12 &  0.9352 &  0.9669 & -0.03165 \tabularnewline
13 &  0.8569 &  0.8707 & -0.01379 \tabularnewline
14 &  0.9154 &  0.8905 &  0.02496 \tabularnewline
15 &  1.076 &  0.9132 &  0.1626 \tabularnewline
16 &  0.7881 &  0.8518 & -0.06365 \tabularnewline
17 &  0.9601 &  0.9021 &  0.05805 \tabularnewline
18 &  1.092 &  0.948 &  0.1441 \tabularnewline
19 &  0.9299 &  0.9126 &  0.01733 \tabularnewline
20 &  0.9791 &  0.9574 &  0.02172 \tabularnewline
21 &  0.8455 &  0.8984 & -0.05288 \tabularnewline
22 &  0.8433 &  0.8674 & -0.02414 \tabularnewline
23 &  0.8349 &  0.8816 & -0.04672 \tabularnewline
24 &  0.8584 &  0.9669 & -0.1085 \tabularnewline
25 &  0.8378 &  0.8184 &  0.01941 \tabularnewline
26 &  0.8557 &  0.8381 &  0.01759 \tabularnewline
27 &  0.8382 &  0.8608 & -0.02263 \tabularnewline
28 &  0.8878 &  0.8518 &  0.036 \tabularnewline
29 &  0.9092 &  0.9021 &  0.007129 \tabularnewline
30 &  0.902 &  0.948 & -0.04602 \tabularnewline
31 &  0.9416 &  0.9126 &  0.02897 \tabularnewline
32 &  0.9033 &  0.9574 & -0.0541 \tabularnewline
33 &  0.9291 &  0.8984 &  0.03068 \tabularnewline
34 &  0.8727 &  0.8674 &  0.005239 \tabularnewline
35 &  0.8731 &  0.8816 & -0.008438 \tabularnewline
36 &  0.8353 &  0.9669 & -0.1316 \tabularnewline
37 &  0.8962 &  0.8707 &  0.02544 \tabularnewline
38 &  0.8948 &  0.8905 &  0.004362 \tabularnewline
39 &  0.7642 &  0.9132 & -0.149 \tabularnewline
40 &  0.903 &  0.9042 & -0.001118 \tabularnewline
41 &  0.9239 &  0.8497 &  0.07422 \tabularnewline
42 &  0.8097 &  0.8956 & -0.08594 \tabularnewline
43 &  1.005 &  0.8602 &  0.1445 \tabularnewline
44 &  0.7924 &  0.905 & -0.1126 \tabularnewline
45 &  0.8319 &  0.846 & -0.01414 \tabularnewline
46 &  0.8397 &  0.8151 &  0.02463 \tabularnewline
47 &  1.14 &  1.055 &  0.08551 \tabularnewline
48 &  1.42 &  1.14 &  0.2802 \tabularnewline
49 &  1.049 &  1.044 &  0.005254 \tabularnewline
50 &  1.045 &  1.011 &  0.03388 \tabularnewline
51 &  1.148 &  1.034 &  0.1146 \tabularnewline
52 &  1.133 &  1.025 &  0.108 \tabularnewline
53 &  1.028 &  1.023 &  0.005469 \tabularnewline
54 &  0.9577 &  1.069 & -0.111 \tabularnewline
55 &  0.9548 &  1.033 & -0.07842 \tabularnewline
56 &  1.229 &  1.078 &  0.151 \tabularnewline
57 &  0.9904 &  1.019 & -0.02864 \tabularnewline
58 &  1.08 &  0.988 &  0.09162 \tabularnewline
59 &  1.06 &  1.002 &  0.05802 \tabularnewline
60 &  1.079 &  1.088 & -0.008553 \tabularnewline
61 &  0.9719 &  1.044 & -0.07184 \tabularnewline
62 &  0.8886 &  1.011 & -0.1225 \tabularnewline
63 &  0.9434 &  1.086 & -0.1428 \tabularnewline
64 &  0.997 &  1.077 & -0.08014 \tabularnewline
65 &  0.8442 &  1.023 & -0.1785 \tabularnewline
66 &  1.187 &  1.069 &  0.1187 \tabularnewline
67 &  0.9082 &  1.033 & -0.125 \tabularnewline
68 &  1.024 &  1.078 & -0.05381 \tabularnewline
69 &  1.124 &  1.019 &  0.1051 \tabularnewline
70 &  0.8318 &  0.988 & -0.1562 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=5

[TABLE]
[ROW][C]Multiple Linear Regression - Actuals, Interpolation, and Residuals[/C][/ROW]
[ROW][C]Time or Index[/C][C]Actuals[/C][C]InterpolationForecast[/C][C]ResidualsPrediction Error[/C][/ROW]
[ROW][C]1[/C][C] 0.9063[/C][C] 0.8707[/C][C] 0.03553[/C][/ROW]
[ROW][C]2[/C][C] 0.9322[/C][C] 0.8905[/C][C] 0.0417[/C][/ROW]
[ROW][C]3[/C][C] 0.9505[/C][C] 0.9132[/C][C] 0.03729[/C][/ROW]
[ROW][C]4[/C][C] 0.905[/C][C] 0.9042[/C][C] 0.0008779[/C][/ROW]
[ROW][C]5[/C][C] 0.9357[/C][C] 0.9021[/C][C] 0.03365[/C][/ROW]
[ROW][C]6[/C][C] 0.9281[/C][C] 0.948[/C][C]-0.01988[/C][/ROW]
[ROW][C]7[/C][C] 0.9252[/C][C] 0.9126[/C][C] 0.01264[/C][/ROW]
[ROW][C]8[/C][C] 1.005[/C][C] 0.9574[/C][C] 0.04781[/C][/ROW]
[ROW][C]9[/C][C] 0.8582[/C][C] 0.8984[/C][C]-0.04013[/C][/ROW]
[ROW][C]10[/C][C] 0.8739[/C][C] 0.8151[/C][C] 0.05885[/C][/ROW]
[ROW][C]11[/C][C] 0.7932[/C][C] 0.8816[/C][C]-0.08837[/C][/ROW]
[ROW][C]12[/C][C] 0.9352[/C][C] 0.9669[/C][C]-0.03165[/C][/ROW]
[ROW][C]13[/C][C] 0.8569[/C][C] 0.8707[/C][C]-0.01379[/C][/ROW]
[ROW][C]14[/C][C] 0.9154[/C][C] 0.8905[/C][C] 0.02496[/C][/ROW]
[ROW][C]15[/C][C] 1.076[/C][C] 0.9132[/C][C] 0.1626[/C][/ROW]
[ROW][C]16[/C][C] 0.7881[/C][C] 0.8518[/C][C]-0.06365[/C][/ROW]
[ROW][C]17[/C][C] 0.9601[/C][C] 0.9021[/C][C] 0.05805[/C][/ROW]
[ROW][C]18[/C][C] 1.092[/C][C] 0.948[/C][C] 0.1441[/C][/ROW]
[ROW][C]19[/C][C] 0.9299[/C][C] 0.9126[/C][C] 0.01733[/C][/ROW]
[ROW][C]20[/C][C] 0.9791[/C][C] 0.9574[/C][C] 0.02172[/C][/ROW]
[ROW][C]21[/C][C] 0.8455[/C][C] 0.8984[/C][C]-0.05288[/C][/ROW]
[ROW][C]22[/C][C] 0.8433[/C][C] 0.8674[/C][C]-0.02414[/C][/ROW]
[ROW][C]23[/C][C] 0.8349[/C][C] 0.8816[/C][C]-0.04672[/C][/ROW]
[ROW][C]24[/C][C] 0.8584[/C][C] 0.9669[/C][C]-0.1085[/C][/ROW]
[ROW][C]25[/C][C] 0.8378[/C][C] 0.8184[/C][C] 0.01941[/C][/ROW]
[ROW][C]26[/C][C] 0.8557[/C][C] 0.8381[/C][C] 0.01759[/C][/ROW]
[ROW][C]27[/C][C] 0.8382[/C][C] 0.8608[/C][C]-0.02263[/C][/ROW]
[ROW][C]28[/C][C] 0.8878[/C][C] 0.8518[/C][C] 0.036[/C][/ROW]
[ROW][C]29[/C][C] 0.9092[/C][C] 0.9021[/C][C] 0.007129[/C][/ROW]
[ROW][C]30[/C][C] 0.902[/C][C] 0.948[/C][C]-0.04602[/C][/ROW]
[ROW][C]31[/C][C] 0.9416[/C][C] 0.9126[/C][C] 0.02897[/C][/ROW]
[ROW][C]32[/C][C] 0.9033[/C][C] 0.9574[/C][C]-0.0541[/C][/ROW]
[ROW][C]33[/C][C] 0.9291[/C][C] 0.8984[/C][C] 0.03068[/C][/ROW]
[ROW][C]34[/C][C] 0.8727[/C][C] 0.8674[/C][C] 0.005239[/C][/ROW]
[ROW][C]35[/C][C] 0.8731[/C][C] 0.8816[/C][C]-0.008438[/C][/ROW]
[ROW][C]36[/C][C] 0.8353[/C][C] 0.9669[/C][C]-0.1316[/C][/ROW]
[ROW][C]37[/C][C] 0.8962[/C][C] 0.8707[/C][C] 0.02544[/C][/ROW]
[ROW][C]38[/C][C] 0.8948[/C][C] 0.8905[/C][C] 0.004362[/C][/ROW]
[ROW][C]39[/C][C] 0.7642[/C][C] 0.9132[/C][C]-0.149[/C][/ROW]
[ROW][C]40[/C][C] 0.903[/C][C] 0.9042[/C][C]-0.001118[/C][/ROW]
[ROW][C]41[/C][C] 0.9239[/C][C] 0.8497[/C][C] 0.07422[/C][/ROW]
[ROW][C]42[/C][C] 0.8097[/C][C] 0.8956[/C][C]-0.08594[/C][/ROW]
[ROW][C]43[/C][C] 1.005[/C][C] 0.8602[/C][C] 0.1445[/C][/ROW]
[ROW][C]44[/C][C] 0.7924[/C][C] 0.905[/C][C]-0.1126[/C][/ROW]
[ROW][C]45[/C][C] 0.8319[/C][C] 0.846[/C][C]-0.01414[/C][/ROW]
[ROW][C]46[/C][C] 0.8397[/C][C] 0.8151[/C][C] 0.02463[/C][/ROW]
[ROW][C]47[/C][C] 1.14[/C][C] 1.055[/C][C] 0.08551[/C][/ROW]
[ROW][C]48[/C][C] 1.42[/C][C] 1.14[/C][C] 0.2802[/C][/ROW]
[ROW][C]49[/C][C] 1.049[/C][C] 1.044[/C][C] 0.005254[/C][/ROW]
[ROW][C]50[/C][C] 1.045[/C][C] 1.011[/C][C] 0.03388[/C][/ROW]
[ROW][C]51[/C][C] 1.148[/C][C] 1.034[/C][C] 0.1146[/C][/ROW]
[ROW][C]52[/C][C] 1.133[/C][C] 1.025[/C][C] 0.108[/C][/ROW]
[ROW][C]53[/C][C] 1.028[/C][C] 1.023[/C][C] 0.005469[/C][/ROW]
[ROW][C]54[/C][C] 0.9577[/C][C] 1.069[/C][C]-0.111[/C][/ROW]
[ROW][C]55[/C][C] 0.9548[/C][C] 1.033[/C][C]-0.07842[/C][/ROW]
[ROW][C]56[/C][C] 1.229[/C][C] 1.078[/C][C] 0.151[/C][/ROW]
[ROW][C]57[/C][C] 0.9904[/C][C] 1.019[/C][C]-0.02864[/C][/ROW]
[ROW][C]58[/C][C] 1.08[/C][C] 0.988[/C][C] 0.09162[/C][/ROW]
[ROW][C]59[/C][C] 1.06[/C][C] 1.002[/C][C] 0.05802[/C][/ROW]
[ROW][C]60[/C][C] 1.079[/C][C] 1.088[/C][C]-0.008553[/C][/ROW]
[ROW][C]61[/C][C] 0.9719[/C][C] 1.044[/C][C]-0.07184[/C][/ROW]
[ROW][C]62[/C][C] 0.8886[/C][C] 1.011[/C][C]-0.1225[/C][/ROW]
[ROW][C]63[/C][C] 0.9434[/C][C] 1.086[/C][C]-0.1428[/C][/ROW]
[ROW][C]64[/C][C] 0.997[/C][C] 1.077[/C][C]-0.08014[/C][/ROW]
[ROW][C]65[/C][C] 0.8442[/C][C] 1.023[/C][C]-0.1785[/C][/ROW]
[ROW][C]66[/C][C] 1.187[/C][C] 1.069[/C][C] 0.1187[/C][/ROW]
[ROW][C]67[/C][C] 0.9082[/C][C] 1.033[/C][C]-0.125[/C][/ROW]
[ROW][C]68[/C][C] 1.024[/C][C] 1.078[/C][C]-0.05381[/C][/ROW]
[ROW][C]69[/C][C] 1.124[/C][C] 1.019[/C][C] 0.1051[/C][/ROW]
[ROW][C]70[/C][C] 0.8318[/C][C] 0.988[/C][C]-0.1562[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=5

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=5

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


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

Multiple Linear Regression - Actuals, Interpolation, and Residuals
Time or IndexActualsInterpolationForecastResidualsPrediction Error
1 0.9063 0.8707 0.03553
2 0.9322 0.8905 0.0417
3 0.9505 0.9132 0.03729
4 0.905 0.9042 0.0008779
5 0.9357 0.9021 0.03365
6 0.9281 0.948-0.01988
7 0.9252 0.9126 0.01264
8 1.005 0.9574 0.04781
9 0.8582 0.8984-0.04013
10 0.8739 0.8151 0.05885
11 0.7932 0.8816-0.08837
12 0.9352 0.9669-0.03165
13 0.8569 0.8707-0.01379
14 0.9154 0.8905 0.02496
15 1.076 0.9132 0.1626
16 0.7881 0.8518-0.06365
17 0.9601 0.9021 0.05805
18 1.092 0.948 0.1441
19 0.9299 0.9126 0.01733
20 0.9791 0.9574 0.02172
21 0.8455 0.8984-0.05288
22 0.8433 0.8674-0.02414
23 0.8349 0.8816-0.04672
24 0.8584 0.9669-0.1085
25 0.8378 0.8184 0.01941
26 0.8557 0.8381 0.01759
27 0.8382 0.8608-0.02263
28 0.8878 0.8518 0.036
29 0.9092 0.9021 0.007129
30 0.902 0.948-0.04602
31 0.9416 0.9126 0.02897
32 0.9033 0.9574-0.0541
33 0.9291 0.8984 0.03068
34 0.8727 0.8674 0.005239
35 0.8731 0.8816-0.008438
36 0.8353 0.9669-0.1316
37 0.8962 0.8707 0.02544
38 0.8948 0.8905 0.004362
39 0.7642 0.9132-0.149
40 0.903 0.9042-0.001118
41 0.9239 0.8497 0.07422
42 0.8097 0.8956-0.08594
43 1.005 0.8602 0.1445
44 0.7924 0.905-0.1126
45 0.8319 0.846-0.01414
46 0.8397 0.8151 0.02463
47 1.14 1.055 0.08551
48 1.42 1.14 0.2802
49 1.049 1.044 0.005254
50 1.045 1.011 0.03388
51 1.148 1.034 0.1146
52 1.133 1.025 0.108
53 1.028 1.023 0.005469
54 0.9577 1.069-0.111
55 0.9548 1.033-0.07842
56 1.229 1.078 0.151
57 0.9904 1.019-0.02864
58 1.08 0.988 0.09162
59 1.06 1.002 0.05802
60 1.079 1.088-0.008553
61 0.9719 1.044-0.07184
62 0.8886 1.011-0.1225
63 0.9434 1.086-0.1428
64 0.997 1.077-0.08014
65 0.8442 1.023-0.1785
66 1.187 1.069 0.1187
67 0.9082 1.033-0.125
68 1.024 1.078-0.05381
69 1.124 1.019 0.1051
70 0.8318 0.988-0.1562






Goldfeld-Quandt test for Heteroskedasticity
p-valuesAlternative Hypothesis
breakpoint indexgreater2-sidedless
17 0.1672 0.3345 0.8328
18 0.2991 0.5983 0.7009
19 0.1751 0.3502 0.8249
20 0.09867 0.1973 0.9013
21 0.05077 0.1015 0.9492
22 0.04472 0.08944 0.9553
23 0.02505 0.0501 0.975
24 0.0195 0.03899 0.9805
25 0.009192 0.01838 0.9908
26 0.004327 0.008653 0.9957
27 0.005378 0.01076 0.9946
28 0.003938 0.007876 0.9961
29 0.002084 0.004168 0.9979
30 0.00224 0.004479 0.9978
31 0.001102 0.002204 0.9989
32 0.0008645 0.001729 0.9991
33 0.0005958 0.001192 0.9994
34 0.0002803 0.0005606 0.9997
35 0.0001552 0.0003104 0.9998
36 0.0002264 0.0004528 0.9998
37 9.61e-05 0.0001922 0.9999
38 4.566e-05 9.131e-05 1
39 0.000598 0.001196 0.9994
40 0.0002679 0.0005357 0.9997
41 0.0001875 0.000375 0.9998
42 0.0001955 0.000391 0.9998
43 0.0008051 0.00161 0.9992
44 0.001014 0.002028 0.999
45 0.0005268 0.001054 0.9995
46 0.0002241 0.0004481 0.9998
47 9.741e-05 0.0001948 0.9999
48 0.006705 0.01341 0.9933
49 0.01237 0.02473 0.9876
50 0.01471 0.02942 0.9853
51 0.007143 0.01429 0.9929
52 0.002868 0.005737 0.9971
53 0.004085 0.00817 0.9959

\begin{tabular}{lllllllll}
\hline
Goldfeld-Quandt test for Heteroskedasticity \tabularnewline
p-values & Alternative Hypothesis \tabularnewline
breakpoint index & greater & 2-sided & less \tabularnewline
17 &  0.1672 &  0.3345 &  0.8328 \tabularnewline
18 &  0.2991 &  0.5983 &  0.7009 \tabularnewline
19 &  0.1751 &  0.3502 &  0.8249 \tabularnewline
20 &  0.09867 &  0.1973 &  0.9013 \tabularnewline
21 &  0.05077 &  0.1015 &  0.9492 \tabularnewline
22 &  0.04472 &  0.08944 &  0.9553 \tabularnewline
23 &  0.02505 &  0.0501 &  0.975 \tabularnewline
24 &  0.0195 &  0.03899 &  0.9805 \tabularnewline
25 &  0.009192 &  0.01838 &  0.9908 \tabularnewline
26 &  0.004327 &  0.008653 &  0.9957 \tabularnewline
27 &  0.005378 &  0.01076 &  0.9946 \tabularnewline
28 &  0.003938 &  0.007876 &  0.9961 \tabularnewline
29 &  0.002084 &  0.004168 &  0.9979 \tabularnewline
30 &  0.00224 &  0.004479 &  0.9978 \tabularnewline
31 &  0.001102 &  0.002204 &  0.9989 \tabularnewline
32 &  0.0008645 &  0.001729 &  0.9991 \tabularnewline
33 &  0.0005958 &  0.001192 &  0.9994 \tabularnewline
34 &  0.0002803 &  0.0005606 &  0.9997 \tabularnewline
35 &  0.0001552 &  0.0003104 &  0.9998 \tabularnewline
36 &  0.0002264 &  0.0004528 &  0.9998 \tabularnewline
37 &  9.61e-05 &  0.0001922 &  0.9999 \tabularnewline
38 &  4.566e-05 &  9.131e-05 &  1 \tabularnewline
39 &  0.000598 &  0.001196 &  0.9994 \tabularnewline
40 &  0.0002679 &  0.0005357 &  0.9997 \tabularnewline
41 &  0.0001875 &  0.000375 &  0.9998 \tabularnewline
42 &  0.0001955 &  0.000391 &  0.9998 \tabularnewline
43 &  0.0008051 &  0.00161 &  0.9992 \tabularnewline
44 &  0.001014 &  0.002028 &  0.999 \tabularnewline
45 &  0.0005268 &  0.001054 &  0.9995 \tabularnewline
46 &  0.0002241 &  0.0004481 &  0.9998 \tabularnewline
47 &  9.741e-05 &  0.0001948 &  0.9999 \tabularnewline
48 &  0.006705 &  0.01341 &  0.9933 \tabularnewline
49 &  0.01237 &  0.02473 &  0.9876 \tabularnewline
50 &  0.01471 &  0.02942 &  0.9853 \tabularnewline
51 &  0.007143 &  0.01429 &  0.9929 \tabularnewline
52 &  0.002868 &  0.005737 &  0.9971 \tabularnewline
53 &  0.004085 &  0.00817 &  0.9959 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=6

[TABLE]
[ROW][C]Goldfeld-Quandt test for Heteroskedasticity[/C][/ROW]
[ROW][C]p-values[/C][C]Alternative Hypothesis[/C][/ROW]
[ROW][C]breakpoint index[/C][C]greater[/C][C]2-sided[/C][C]less[/C][/ROW]
[ROW][C]17[/C][C] 0.1672[/C][C] 0.3345[/C][C] 0.8328[/C][/ROW]
[ROW][C]18[/C][C] 0.2991[/C][C] 0.5983[/C][C] 0.7009[/C][/ROW]
[ROW][C]19[/C][C] 0.1751[/C][C] 0.3502[/C][C] 0.8249[/C][/ROW]
[ROW][C]20[/C][C] 0.09867[/C][C] 0.1973[/C][C] 0.9013[/C][/ROW]
[ROW][C]21[/C][C] 0.05077[/C][C] 0.1015[/C][C] 0.9492[/C][/ROW]
[ROW][C]22[/C][C] 0.04472[/C][C] 0.08944[/C][C] 0.9553[/C][/ROW]
[ROW][C]23[/C][C] 0.02505[/C][C] 0.0501[/C][C] 0.975[/C][/ROW]
[ROW][C]24[/C][C] 0.0195[/C][C] 0.03899[/C][C] 0.9805[/C][/ROW]
[ROW][C]25[/C][C] 0.009192[/C][C] 0.01838[/C][C] 0.9908[/C][/ROW]
[ROW][C]26[/C][C] 0.004327[/C][C] 0.008653[/C][C] 0.9957[/C][/ROW]
[ROW][C]27[/C][C] 0.005378[/C][C] 0.01076[/C][C] 0.9946[/C][/ROW]
[ROW][C]28[/C][C] 0.003938[/C][C] 0.007876[/C][C] 0.9961[/C][/ROW]
[ROW][C]29[/C][C] 0.002084[/C][C] 0.004168[/C][C] 0.9979[/C][/ROW]
[ROW][C]30[/C][C] 0.00224[/C][C] 0.004479[/C][C] 0.9978[/C][/ROW]
[ROW][C]31[/C][C] 0.001102[/C][C] 0.002204[/C][C] 0.9989[/C][/ROW]
[ROW][C]32[/C][C] 0.0008645[/C][C] 0.001729[/C][C] 0.9991[/C][/ROW]
[ROW][C]33[/C][C] 0.0005958[/C][C] 0.001192[/C][C] 0.9994[/C][/ROW]
[ROW][C]34[/C][C] 0.0002803[/C][C] 0.0005606[/C][C] 0.9997[/C][/ROW]
[ROW][C]35[/C][C] 0.0001552[/C][C] 0.0003104[/C][C] 0.9998[/C][/ROW]
[ROW][C]36[/C][C] 0.0002264[/C][C] 0.0004528[/C][C] 0.9998[/C][/ROW]
[ROW][C]37[/C][C] 9.61e-05[/C][C] 0.0001922[/C][C] 0.9999[/C][/ROW]
[ROW][C]38[/C][C] 4.566e-05[/C][C] 9.131e-05[/C][C] 1[/C][/ROW]
[ROW][C]39[/C][C] 0.000598[/C][C] 0.001196[/C][C] 0.9994[/C][/ROW]
[ROW][C]40[/C][C] 0.0002679[/C][C] 0.0005357[/C][C] 0.9997[/C][/ROW]
[ROW][C]41[/C][C] 0.0001875[/C][C] 0.000375[/C][C] 0.9998[/C][/ROW]
[ROW][C]42[/C][C] 0.0001955[/C][C] 0.000391[/C][C] 0.9998[/C][/ROW]
[ROW][C]43[/C][C] 0.0008051[/C][C] 0.00161[/C][C] 0.9992[/C][/ROW]
[ROW][C]44[/C][C] 0.001014[/C][C] 0.002028[/C][C] 0.999[/C][/ROW]
[ROW][C]45[/C][C] 0.0005268[/C][C] 0.001054[/C][C] 0.9995[/C][/ROW]
[ROW][C]46[/C][C] 0.0002241[/C][C] 0.0004481[/C][C] 0.9998[/C][/ROW]
[ROW][C]47[/C][C] 9.741e-05[/C][C] 0.0001948[/C][C] 0.9999[/C][/ROW]
[ROW][C]48[/C][C] 0.006705[/C][C] 0.01341[/C][C] 0.9933[/C][/ROW]
[ROW][C]49[/C][C] 0.01237[/C][C] 0.02473[/C][C] 0.9876[/C][/ROW]
[ROW][C]50[/C][C] 0.01471[/C][C] 0.02942[/C][C] 0.9853[/C][/ROW]
[ROW][C]51[/C][C] 0.007143[/C][C] 0.01429[/C][C] 0.9929[/C][/ROW]
[ROW][C]52[/C][C] 0.002868[/C][C] 0.005737[/C][C] 0.9971[/C][/ROW]
[ROW][C]53[/C][C] 0.004085[/C][C] 0.00817[/C][C] 0.9959[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=6

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=6

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


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

Goldfeld-Quandt test for Heteroskedasticity
p-valuesAlternative Hypothesis
breakpoint indexgreater2-sidedless
17 0.1672 0.3345 0.8328
18 0.2991 0.5983 0.7009
19 0.1751 0.3502 0.8249
20 0.09867 0.1973 0.9013
21 0.05077 0.1015 0.9492
22 0.04472 0.08944 0.9553
23 0.02505 0.0501 0.975
24 0.0195 0.03899 0.9805
25 0.009192 0.01838 0.9908
26 0.004327 0.008653 0.9957
27 0.005378 0.01076 0.9946
28 0.003938 0.007876 0.9961
29 0.002084 0.004168 0.9979
30 0.00224 0.004479 0.9978
31 0.001102 0.002204 0.9989
32 0.0008645 0.001729 0.9991
33 0.0005958 0.001192 0.9994
34 0.0002803 0.0005606 0.9997
35 0.0001552 0.0003104 0.9998
36 0.0002264 0.0004528 0.9998
37 9.61e-05 0.0001922 0.9999
38 4.566e-05 9.131e-05 1
39 0.000598 0.001196 0.9994
40 0.0002679 0.0005357 0.9997
41 0.0001875 0.000375 0.9998
42 0.0001955 0.000391 0.9998
43 0.0008051 0.00161 0.9992
44 0.001014 0.002028 0.999
45 0.0005268 0.001054 0.9995
46 0.0002241 0.0004481 0.9998
47 9.741e-05 0.0001948 0.9999
48 0.006705 0.01341 0.9933
49 0.01237 0.02473 0.9876
50 0.01471 0.02942 0.9853
51 0.007143 0.01429 0.9929
52 0.002868 0.005737 0.9971
53 0.004085 0.00817 0.9959






Meta Analysis of Goldfeld-Quandt test for Heteroskedasticity
Description# significant tests% significant testsOK/NOK
1% type I error level23 0.6216NOK
5% type I error level300.810811NOK
10% type I error level320.864865NOK

\begin{tabular}{lllllllll}
\hline
Meta Analysis of Goldfeld-Quandt test for Heteroskedasticity \tabularnewline
Description & # significant tests & % significant tests & OK/NOK \tabularnewline
1% type I error level & 23 &  0.6216 & NOK \tabularnewline
5% type I error level & 30 & 0.810811 & NOK \tabularnewline
10% type I error level & 32 & 0.864865 & NOK \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=7

[TABLE]
[ROW][C]Meta Analysis of Goldfeld-Quandt test for Heteroskedasticity[/C][/ROW]
[ROW][C]Description[/C][C]# significant tests[/C][C]% significant tests[/C][C]OK/NOK[/C][/ROW]
[ROW][C]1% type I error level[/C][C]23[/C][C] 0.6216[/C][C]NOK[/C][/ROW]
[ROW][C]5% type I error level[/C][C]30[/C][C]0.810811[/C][C]NOK[/C][/ROW]
[ROW][C]10% type I error level[/C][C]32[/C][C]0.864865[/C][C]NOK[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=7

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=7

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


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

Meta Analysis of Goldfeld-Quandt test for Heteroskedasticity
Description# significant tests% significant testsOK/NOK
1% type I error level23 0.6216NOK
5% type I error level300.810811NOK
10% type I error level320.864865NOK






Ramsey RESET F-Test for powers (2 and 3) of fitted values
> reset_test_fitted
	RESET test
data:  mylm
RESET = 4.0506, df1 = 2, df2 = 54, p-value = 0.02296
Ramsey RESET F-Test for powers (2 and 3) of regressors
> reset_test_regressors
	RESET test
data:  mylm
RESET = 0, df1 = 26, df2 = 30, p-value = 1
Ramsey RESET F-Test for powers (2 and 3) of principal components
> reset_test_principal_components
	RESET test
data:  mylm
RESET = 0.60549, df1 = 2, df2 = 54, p-value = 0.5495


\begin{tabular}{lllllllll}
\hline
Ramsey RESET F-Test for powers (2 and 3) of fitted values \tabularnewline

> reset_test_fitted
	RESET test
data:  mylm
RESET = 4.0506, df1 = 2, df2 = 54, p-value = 0.02296

 \tabularnewline
Ramsey RESET F-Test for powers (2 and 3) of regressors \tabularnewline

> reset_test_regressors
	RESET test
data:  mylm
RESET = 0, df1 = 26, df2 = 30, p-value = 1

 \tabularnewline
Ramsey RESET F-Test for powers (2 and 3) of principal components \tabularnewline

> reset_test_principal_components
	RESET test
data:  mylm
RESET = 0.60549, df1 = 2, df2 = 54, p-value = 0.5495

 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=8

[TABLE]
[ROW][C]Ramsey RESET F-Test for powers (2 and 3) of fitted values[/C][/ROW]
[ROW][C]
> reset_test_fitted
	RESET test
data:  mylm
RESET = 4.0506, df1 = 2, df2 = 54, p-value = 0.02296

[/C][/ROW]
[ROW][C]Ramsey RESET F-Test for powers (2 and 3) of regressors[/C][/ROW]
[ROW][C]
> reset_test_regressors
	RESET test
data:  mylm
RESET = 0, df1 = 26, df2 = 30, p-value = 1

[/C][/ROW]
[ROW][C]Ramsey RESET F-Test for powers (2 and 3) of principal components[/C][/ROW]
[ROW][C]
> reset_test_principal_components
	RESET test
data:  mylm
RESET = 0.60549, df1 = 2, df2 = 54, p-value = 0.5495

[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=8

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=8

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


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

Ramsey RESET F-Test for powers (2 and 3) of fitted values
> reset_test_fitted
	RESET test
data:  mylm
RESET = 4.0506, df1 = 2, df2 = 54, p-value = 0.02296
Ramsey RESET F-Test for powers (2 and 3) of regressors
> reset_test_regressors
	RESET test
data:  mylm
RESET = 0, df1 = 26, df2 = 30, p-value = 1
Ramsey RESET F-Test for powers (2 and 3) of principal components
> reset_test_principal_components
	RESET test
data:  mylm
RESET = 0.60549, df1 = 2, df2 = 54, p-value = 0.5495






Variance Inflation Factors (Multicollinearity)
> vif
 Country      GDP       M1       M2       M3       M4       M5       M6 
1.340380 1.469388 2.012978 2.065223 2.026039 2.065223 2.065223 2.065223 
      M7       M8       M9      M10      M11 
2.065223 2.065223 2.065223 2.130529 1.857143 


\begin{tabular}{lllllllll}
\hline
Variance Inflation Factors (Multicollinearity) \tabularnewline

> vif
 Country      GDP       M1       M2       M3       M4       M5       M6 
1.340380 1.469388 2.012978 2.065223 2.026039 2.065223 2.065223 2.065223 
      M7       M8       M9      M10      M11 
2.065223 2.065223 2.065223 2.130529 1.857143 

 \tabularnewline
\hline
\end{tabular}
%Source: https://freestatistics.org/blog/index.php?pk=309818&T=9

[TABLE]
[ROW][C]Variance Inflation Factors (Multicollinearity)[/C][/ROW]
[ROW][C]
> vif
 Country      GDP       M1       M2       M3       M4       M5       M6 
1.340380 1.469388 2.012978 2.065223 2.026039 2.065223 2.065223 2.065223 
      M7       M8       M9      M10      M11 
2.065223 2.065223 2.065223 2.130529 1.857143 

[/C][/ROW]
[/TABLE]
Source: https://freestatistics.org/blog/index.php?pk=309818&T=9

Globally Unique Identifier (entire table): ba.freestatistics.org/blog/index.php?pk=309818&T=9

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


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

Variance Inflation Factors (Multicollinearity)
> vif
 Country      GDP       M1       M2       M3       M4       M5       M6 
1.340380 1.469388 2.012978 2.065223 2.026039 2.065223 2.065223 2.065223 
      M7       M8       M9      M10      M11 
2.065223 2.065223 2.065223 2.130529 1.857143


Figures (Output of Computation)

Figure 1
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Figure 10
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Input Parameters & R Code

Parameters (Session):
Parameters (R input):
par1 = 3 ; par2 = Include Seasonal Dummies ; par3 = No Linear Trend ; par4 = 0 ; par5 = 0 ; par6 = 12 ;
R code (references can be found in the software module):
library(lattice)
library(lmtest)
library(car)
library(MASS)
n25 <- 25 #minimum number of obs. for Goldfeld-Quandt test
mywarning <- ''
par6 <- as.numeric(par6)
if(is.na(par6)) {
par6 <- 12
mywarning = 'Warning: you did not specify the seasonality. The seasonal period was set to s = 12.'
}
par1 <- as.numeric(par1)
if(is.na(par1)) {
par1 <- 1
mywarning = 'Warning: you did not specify the column number of the endogenous series! The first column was selected by default.'
}
if (par4=='') par4 <- 0
par4 <- as.numeric(par4)
if (!is.numeric(par4)) par4 <- 0
if (par5=='') par5 <- 0
par5 <- as.numeric(par5)
if (!is.numeric(par5)) par5 <- 0
x <- na.omit(t(y))
k <- length(x[1,])
n <- length(x[,1])
x1 <- cbind(x[,par1], x[,1:k!=par1])
mycolnames <- c(colnames(x)[par1], colnames(x)[1:k!=par1])
colnames(x1) <- mycolnames #colnames(x)[par1]
x <- x1
if (par3 == 'First Differences'){
(n <- n -1)
x2 <- array(0, dim=c(n,k), dimnames=list(1:n, paste('(1-B)',colnames(x),sep='')))
for (i in 1:n) {
for (j in 1:k) {
x2[i,j] <- x[i+1,j] - x[i,j]
}
}
x <- x2
}
if (par3 == 'Seasonal Differences (s)'){
(n <- n - par6)
x2 <- array(0, dim=c(n,k), dimnames=list(1:n, paste('(1-Bs)',colnames(x),sep='')))
for (i in 1:n) {
for (j in 1:k) {
x2[i,j] <- x[i+par6,j] - x[i,j]
}
}
x <- x2
}
if (par3 == 'First and Seasonal Differences (s)'){
(n <- n -1)
x2 <- array(0, dim=c(n,k), dimnames=list(1:n, paste('(1-B)',colnames(x),sep='')))
for (i in 1:n) {
for (j in 1:k) {
x2[i,j] <- x[i+1,j] - x[i,j]
}
}
x <- x2
(n <- n - par6)
x2 <- array(0, dim=c(n,k), dimnames=list(1:n, paste('(1-Bs)',colnames(x),sep='')))
for (i in 1:n) {
for (j in 1:k) {
x2[i,j] <- x[i+par6,j] - x[i,j]
}
}
x <- x2
}
if(par4 > 0) {
x2 <- array(0, dim=c(n-par4,par4), dimnames=list(1:(n-par4), paste(colnames(x)[par1],'(t-',1:par4,')',sep='')))
for (i in 1:(n-par4)) {
for (j in 1:par4) {
x2[i,j] <- x[i+par4-j,par1]
}
}
x <- cbind(x[(par4+1):n,], x2)
n <- n - par4
}
if(par5 > 0) {
x2 <- array(0, dim=c(n-par5*par6,par5), dimnames=list(1:(n-par5*par6), paste(colnames(x)[par1],'(t-',1:par5,'s)',sep='')))
for (i in 1:(n-par5*par6)) {
for (j in 1:par5) {
x2[i,j] <- x[i+par5*par6-j*par6,par1]
}
}
x <- cbind(x[(par5*par6+1):n,], x2)
n <- n - par5*par6
}
if (par2 == 'Include Seasonal Dummies'){
x2 <- array(0, dim=c(n,par6-1), dimnames=list(1:n, paste('M', seq(1:(par6-1)), sep ='')))
for (i in 1:(par6-1)){
x2[seq(i,n,par6),i] <- 1
}
x <- cbind(x, x2)
}
if (par2 == 'Include Monthly Dummies'){
x2 <- array(0, dim=c(n,11), dimnames=list(1:n, paste('M', seq(1:11), sep ='')))
for (i in 1:11){
x2[seq(i,n,12),i] <- 1
}
x <- cbind(x, x2)
}
if (par2 == 'Include Quarterly Dummies'){
x2 <- array(0, dim=c(n,3), dimnames=list(1:n, paste('Q', seq(1:3), sep ='')))
for (i in 1:3){
x2[seq(i,n,4),i] <- 1
}
x <- cbind(x, x2)
}
(k <- length(x[n,]))
if (par3 == 'Linear Trend'){
x <- cbind(x, c(1:n))
colnames(x)[k+1] <- 't'
}
print(x)
(k <- length(x[n,]))
head(x)
df <- as.data.frame(x)
(mylm <- lm(df))
(mysum <- summary(mylm))
if (n > n25) {
kp3 <- k + 3
nmkm3 <- n - k - 3
gqarr <- array(NA, dim=c(nmkm3-kp3+1,3))
numgqtests <- 0
numsignificant1 <- 0
numsignificant5 <- 0
numsignificant10 <- 0
for (mypoint in kp3:nmkm3) {
j <- 0
numgqtests <- numgqtests + 1
for (myalt in c('greater', 'two.sided', 'less')) {
j <- j + 1
gqarr[mypoint-kp3+1,j] <- gqtest(mylm, point=mypoint, alternative=myalt)$p.value
}
if (gqarr[mypoint-kp3+1,2] < 0.01) numsignificant1 <- numsignificant1 + 1
if (gqarr[mypoint-kp3+1,2] < 0.05) numsignificant5 <- numsignificant5 + 1
if (gqarr[mypoint-kp3+1,2] < 0.10) numsignificant10 <- numsignificant10 + 1
}
gqarr
}
bitmap(file='test0.png')
plot(x[,1], type='l', main='Actuals and Interpolation', ylab='value of Actuals and Interpolation (dots)', xlab='time or index')
points(x[,1]-mysum$resid)
grid()
dev.off()
bitmap(file='test1.png')
plot(mysum$resid, type='b', pch=19, main='Residuals', ylab='value of Residuals', xlab='time or index')
grid()
dev.off()
bitmap(file='test2.png')
sresid <- studres(mylm)
hist(sresid, freq=FALSE, main='Distribution of Studentized Residuals')
xfit<-seq(min(sresid),max(sresid),length=40)
yfit<-dnorm(xfit)
lines(xfit, yfit)
grid()
dev.off()
bitmap(file='test3.png')
densityplot(~mysum$resid,col='black',main='Residual Density Plot', xlab='values of Residuals')
dev.off()
bitmap(file='test4.png')
qqPlot(mylm, main='QQ Plot')
grid()
dev.off()
(myerror <- as.ts(mysum$resid))
bitmap(file='test5.png')
dum <- cbind(lag(myerror,k=1),myerror)
dum
dum1 <- dum[2:length(myerror),]
dum1
z <- as.data.frame(dum1)
print(z)
plot(z,main=paste('Residual Lag plot, lowess, and regression line'), ylab='values of Residuals', xlab='lagged values of Residuals')
lines(lowess(z))
abline(lm(z))
grid()
dev.off()
bitmap(file='test6.png')
acf(mysum$resid, lag.max=length(mysum$resid)/2, main='Residual Autocorrelation Function')
grid()
dev.off()
bitmap(file='test7.png')
pacf(mysum$resid, lag.max=length(mysum$resid)/2, main='Residual Partial Autocorrelation Function')
grid()
dev.off()
bitmap(file='test8.png')
opar <- par(mfrow = c(2,2), oma = c(0, 0, 1.1, 0))
plot(mylm, las = 1, sub='Residual Diagnostics')
par(opar)
dev.off()
if (n > n25) {
bitmap(file='test9.png')
plot(kp3:nmkm3,gqarr[,2], main='Goldfeld-Quandt test',ylab='2-sided p-value',xlab='breakpoint')
grid()
dev.off()
}
load(file='createtable')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a, 'Multiple Linear Regression - Estimated Regression Equation', 1, TRUE)
a<-table.row.end(a)
myeq <- colnames(x)[1]
myeq <- paste(myeq, '[t] = ', sep='')
for (i in 1:k){
if (mysum$coefficients[i,1] > 0) myeq <- paste(myeq, '+', '')
myeq <- paste(myeq, signif(mysum$coefficients[i,1],6), sep=' ')
if (rownames(mysum$coefficients)[i] != '(Intercept)') {
myeq <- paste(myeq, rownames(mysum$coefficients)[i], sep='')
if (rownames(mysum$coefficients)[i] != 't') myeq <- paste(myeq, '[t]', sep='')
}
}
myeq <- paste(myeq, ' + e[t]')
a<-table.row.start(a)
a<-table.element(a, myeq)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, mywarning)
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable1.tab')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Multiple Linear Regression - Ordinary Least Squares', 6, TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'Variable',header=TRUE)
a<-table.element(a,'Parameter',header=TRUE)
a<-table.element(a,'S.D.',header=TRUE)
a<-table.element(a,'T-STAT
H0: parameter = 0',header=TRUE)
a<-table.element(a,'2-tail p-value',header=TRUE)
a<-table.element(a,'1-tail p-value',header=TRUE)
a<-table.row.end(a)
for (i in 1:k){
a<-table.row.start(a)
a<-table.element(a,rownames(mysum$coefficients)[i],header=TRUE)
a<-table.element(a,formatC(signif(mysum$coefficients[i,1],5),format='g',flag='+'))
a<-table.element(a,formatC(signif(mysum$coefficients[i,2],5),format='g',flag=' '))
a<-table.element(a,formatC(signif(mysum$coefficients[i,3],4),format='e',flag='+'))
a<-table.element(a,formatC(signif(mysum$coefficients[i,4],4),format='g',flag=' '))
a<-table.element(a,formatC(signif(mysum$coefficients[i,4]/2,4),format='g',flag=' '))
a<-table.row.end(a)
}
a<-table.end(a)
table.save(a,file='mytable2.tab')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a, 'Multiple Linear Regression - Regression Statistics', 2, TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Multiple R',1,TRUE)
a<-table.element(a,formatC(signif(sqrt(mysum$r.squared),6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'R-squared',1,TRUE)
a<-table.element(a,formatC(signif(mysum$r.squared,6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Adjusted R-squared',1,TRUE)
a<-table.element(a,formatC(signif(mysum$adj.r.squared,6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'F-TEST (value)',1,TRUE)
a<-table.element(a,formatC(signif(mysum$fstatistic[1],6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'F-TEST (DF numerator)',1,TRUE)
a<-table.element(a, signif(mysum$fstatistic[2],6))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'F-TEST (DF denominator)',1,TRUE)
a<-table.element(a, signif(mysum$fstatistic[3],6))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'p-value',1,TRUE)
a<-table.element(a,formatC(signif(1-pf(mysum$fstatistic[1],mysum$fstatistic[2],mysum$fstatistic[3]),6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Multiple Linear Regression - Residual Statistics', 2, TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Residual Standard Deviation',1,TRUE)
a<-table.element(a,formatC(signif(mysum$sigma,6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Sum Squared Residuals',1,TRUE)
a<-table.element(a,formatC(signif(sum(myerror*myerror),6),format='g',flag=' '))
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable3.tab')
myr <- as.numeric(mysum$resid)
myr
a <-table.start()
a <- table.row.start(a)
a <- table.element(a,'Menu of Residual Diagnostics',2,TRUE)
a <- table.row.end(a)
a <- table.row.start(a)
a <- table.element(a,'Description',1,TRUE)
a <- table.element(a,'Link',1,TRUE)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Histogram',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_histogram.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Central Tendency',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_centraltendency.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'QQ Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_fitdistrnorm.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Kernel Density Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_density.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Skewness/Kurtosis Test',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_skewness_kurtosis.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Skewness-Kurtosis Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_skewness_kurtosis_plot.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Harrell-Davis Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_harrell_davis.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Bootstrap Plot -- Central Tendency',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_bootstrapplot1.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Blocked Bootstrap Plot -- Central Tendency',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_bootstrapplot.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'(Partial) Autocorrelation Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_autocorrelation.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Spectral Analysis',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_spectrum.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Tukey lambda PPCC Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_tukeylambda.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <-table.element(a,'Box-Cox Normality Plot',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_boxcoxnorm.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a <- table.row.start(a)
a <- table.element(a,'Summary Statistics',1,header=TRUE)
a <- table.element(a,hyperlink( paste('https://supernova.wessa.net/rwasp_summary1.wasp?convertgetintopost=1&data=',paste(as.character(mysum$resid),sep='',collapse=' '),sep='') ,'Compute','Click here to examine the Residuals.'),1)
a <- table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable7.tab')
if(n < 200) {
a<-table.start()
a<-table.row.start(a)
a<-table.element(a, 'Multiple Linear Regression - Actuals, Interpolation, and Residuals', 4, TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a, 'Time or Index', 1, TRUE)
a<-table.element(a, 'Actuals', 1, TRUE)
a<-table.element(a, 'Interpolation
Forecast', 1, TRUE)
a<-table.element(a, 'Residuals
Prediction Error', 1, TRUE)
a<-table.row.end(a)
for (i in 1:n) {
a<-table.row.start(a)
a<-table.element(a,i, 1, TRUE)
a<-table.element(a,formatC(signif(x[i],6),format='g',flag=' '))
a<-table.element(a,formatC(signif(x[i]-mysum$resid[i],6),format='g',flag=' '))
a<-table.element(a,formatC(signif(mysum$resid[i],6),format='g',flag=' '))
a<-table.row.end(a)
}
a<-table.end(a)
table.save(a,file='mytable4.tab')
if (n > n25) {
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Goldfeld-Quandt test for Heteroskedasticity',4,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'p-values',header=TRUE)
a<-table.element(a,'Alternative Hypothesis',3,header=TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'breakpoint index',header=TRUE)
a<-table.element(a,'greater',header=TRUE)
a<-table.element(a,'2-sided',header=TRUE)
a<-table.element(a,'less',header=TRUE)
a<-table.row.end(a)
for (mypoint in kp3:nmkm3) {
a<-table.row.start(a)
a<-table.element(a,mypoint,header=TRUE)
a<-table.element(a,formatC(signif(gqarr[mypoint-kp3+1,1],6),format='g',flag=' '))
a<-table.element(a,formatC(signif(gqarr[mypoint-kp3+1,2],6),format='g',flag=' '))
a<-table.element(a,formatC(signif(gqarr[mypoint-kp3+1,3],6),format='g',flag=' '))
a<-table.row.end(a)
}
a<-table.end(a)
table.save(a,file='mytable5.tab')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Meta Analysis of Goldfeld-Quandt test for Heteroskedasticity',4,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'Description',header=TRUE)
a<-table.element(a,'# significant tests',header=TRUE)
a<-table.element(a,'% significant tests',header=TRUE)
a<-table.element(a,'OK/NOK',header=TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'1% type I error level',header=TRUE)
a<-table.element(a,signif(numsignificant1,6))
a<-table.element(a,formatC(signif(numsignificant1/numgqtests,6),format='g',flag=' '))
if (numsignificant1/numgqtests < 0.01) dum <- 'OK' else dum <- 'NOK'
a<-table.element(a,dum)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'5% type I error level',header=TRUE)
a<-table.element(a,signif(numsignificant5,6))
a<-table.element(a,signif(numsignificant5/numgqtests,6))
if (numsignificant5/numgqtests < 0.05) dum <- 'OK' else dum <- 'NOK'
a<-table.element(a,dum)
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'10% type I error level',header=TRUE)
a<-table.element(a,signif(numsignificant10,6))
a<-table.element(a,signif(numsignificant10/numgqtests,6))
if (numsignificant10/numgqtests < 0.1) dum <- 'OK' else dum <- 'NOK'
a<-table.element(a,dum)
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable6.tab')
}
}
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Ramsey RESET F-Test for powers (2 and 3) of fitted values',1,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
reset_test_fitted <- resettest(mylm,power=2:3,type='fitted')
a<-table.element(a,paste('
',RC.texteval('reset_test_fitted'),'
',sep=''))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'Ramsey RESET F-Test for powers (2 and 3) of regressors',1,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
reset_test_regressors <- resettest(mylm,power=2:3,type='regressor')
a<-table.element(a,paste('
',RC.texteval('reset_test_regressors'),'
',sep=''))
a<-table.row.end(a)
a<-table.row.start(a)
a<-table.element(a,'Ramsey RESET F-Test for powers (2 and 3) of principal components',1,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
reset_test_principal_components <- resettest(mylm,power=2:3,type='princomp')
a<-table.element(a,paste('
',RC.texteval('reset_test_principal_components'),'
',sep=''))
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable8.tab')
a<-table.start()
a<-table.row.start(a)
a<-table.element(a,'Variance Inflation Factors (Multicollinearity)',1,TRUE)
a<-table.row.end(a)
a<-table.row.start(a)
vif <- vif(mylm)
a<-table.element(a,paste('
',RC.texteval('vif'),'
',sep=''))
a<-table.row.end(a)
a<-table.end(a)
table.save(a,file='mytable9.tab')