Difference between revisions of "Manuals/calci/MULTIPLEREGRESSIONANALYSIS"

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   1. Simple Regression.
 
   1. Simple Regression.
 
   2. Multiple Regression.
 
   2. Multiple Regression.
*1.Simple Regression:(x_1,Y_1)(x_2,Y_2).......(x_n,Y_n).
+
*1.'''Simple Regression''':<math>(x_1,Y_1)(x_2,Y_2).......(x_n,Y_n)</math>.
*2.Multiple regression:((x1)_1,(x2)_1,(x3)_1.....(xK)_1,Y_1)
+
*2.'''Multiple regression''':<math>({(x1)}_1,{(x2)}_1,{(x3)}_1.....{(xK)}_1,Y_1)
                  ((x1)_2,(x2)_2,(x3)_2....(xK)_2,Y_2).......
+
                                  ({(x1)}_2,{(x2)}_2,{(x3)}_2....{(xK)}_2,Y_2).......
                ((x1)_n,(x2)_n,(x3)_n.....(xK)_n,Y_n).
+
                                  ({(x1)}_n,{(x2)}_n,{(x3)}_n....{(xK)}_n,Y_n)</math>.
 
*The only difference between Simple Regression and Multiple Regression is there where one preditor or many.  
 
*The only difference between Simple Regression and Multiple Regression is there where one preditor or many.  
 
*i.e., The difference is depending of the x-value.
 
*i.e., The difference is depending of the x-value.
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*The Predictor x is indicated as the "Independent Variable" .
 
*The Predictor x is indicated as the "Independent Variable" .
 
*The output of a Regression statistics is of the form :
 
*The output of a Regression statistics is of the form :
*Simple Regression Y(cap)=b_0+b_1x.
+
*Simple Regression:<math>\hat Y = b_0+b_1x</math>.
*Multiple Regression Y(cap)=b_0+b_1(x1)+b_2(x2)+......+b_K(xK).  
+
*Multiple Regression:<math>\hat Y = b_0+b_1(x1)+b_2(x2)+......+b_K(xK)</math>.  
 
*This analysis give the result in three table values.
 
*This analysis give the result in three table values.
 
   1.Regression statistics table.
 
   1.Regression statistics table.
 
   2.ANOVA table.  
 
   2.ANOVA table.  
 
   3.Residual output.
 
   3.Residual output.
1.Regression statistics :  It contains multiple R, R Square, Adjusted  R Square,  Standard Error and observations. R square gives the fittness of the data with the regression line.  
+
*1.'''Regression statistics''' :  It contains multiple R, R Square, Adjusted  R Square,  Standard Error and observations. R square gives the fittness of the data with the regression line.  
 
*That value is closer to 1 is  the better the regression line  fits the data.  
 
*That value is closer to 1 is  the better the regression line  fits the data.  
 
*Standard Error refers to the estimated standard deviation of the error term.  
 
*Standard Error refers to the estimated standard deviation of the error term.  
 
*It is called the standard error of the regression.  
 
*It is called the standard error of the regression.  
*2.ANOVA table:  ANOVA is the analysis of variance. This table splits in to two components which is Residual and Regression.  
+
*2.'''ANOVA table''':  ANOVA is the analysis of variance. This table splits in to two components which is Residual and Regression.  
 
*Also this table gives the probability, T stat, significance of F and P for the each and every set of the data points.  
 
*Also this table gives the probability, T stat, significance of F and P for the each and every set of the data points.  
*3. Residual output: The residuals show you how far away the actual data points are fom the predicted data points.  
+
*3.'''Residual output''': The residuals show you how far away the actual data points are fom the predicted data points.  
 
*This table is displaying the values of Predicted data, Standard Residuals and Percentile value of the Y-value.
 
*This table is displaying the values of Predicted data, Standard Residuals and Percentile value of the Y-value.
  

Revision as of 03:19, 5 May 2014

MULTIPLEREGRESSIONANALYSIS(yRange,xRange,ConfidenceLevel,LogicalValue)


  • is the array of y-values.
  • is the array of x-values.
  • is the value betwen 0 and 1.
  • is either TRUE or FALSE.

Description

  • This function is calculating the Regression analysis of the given data for the multiple array of x values.
  • The general purpose of multiple regression is to learn more about the relationship between several independent or predictor variables and a dependent or criterion variable.
  • There are two types of Regressions.
 1. Simple Regression.
 2. Multiple Regression.
  • 1.Simple Regression:.
  • 2.Multiple regression:.
  • The only difference between Simple Regression and Multiple Regression is there where one preditor or many.
  • i.e., The difference is depending of the x-value.
  • The Y is indicated as the "Dependent variable".
  • The Predictor x is indicated as the "Independent Variable" .
  • The output of a Regression statistics is of the form :
  • Simple Regression:.
  • Multiple Regression:.
  • This analysis give the result in three table values.
 1.Regression statistics table.
 2.ANOVA table. 
 3.Residual output.
  • 1.Regression statistics : It contains multiple R, R Square, Adjusted R Square, Standard Error and observations. R square gives the fittness of the data with the regression line.
  • That value is closer to 1 is the better the regression line fits the data.
  • Standard Error refers to the estimated standard deviation of the error term.
  • It is called the standard error of the regression.
  • 2.ANOVA table: ANOVA is the analysis of variance. This table splits in to two components which is Residual and Regression.
  • Also this table gives the probability, T stat, significance of F and P for the each and every set of the data points.
  • 3.Residual output: The residuals show you how far away the actual data points are fom the predicted data points.
  • This table is displaying the values of Predicted data, Standard Residuals and Percentile value of the Y-value.

Examples

Spreadsheet
A B C
1 AGE CHOLESTROL LEVEL SUGAR LEVEL
2 58 189 136
3 69 235 149
4 43 198 165
5 39 137 140
6 63 178 162
7 52 160 152
8 47 198 142
9 31 183 129