Difference between revisions of "Two Way ANOVA"
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Latest revision as of 00:48, 19 January 2007
/* July 2006. Annie Che <chea@stat.ucla.edu>. UCLA Statistics. Source of example data: An Introduction to Computational Statitics by Robert I Jennrich, Page 207, example of regression on time for coins to reach bottom of fountains. */ package edu.ucla.stat.SOCR.analyses.example; import java.util.HashMap; import edu.ucla.stat.SOCR.analyses.data.Data; import edu.ucla.stat.SOCR.analyses.data.DataType; import edu.ucla.stat.SOCR.analyses.result.AnovaTwoWayResult; public class AnovaTwoWayExample { public static void main(String args[]) { String[] group1 = {"1","1","1","2","2","2"}; String[] group2 = {"1","2","3","1","2","3"}; double[] score = {93,136,198,88,148,279}; // you'll need to instantiate a data instance first. Data data = new Data(); /********************************************************************* then put the data into the Data Object. append the predictor data using method "addPredictor". append the response data using method "addResponse". **********************************************************************/ data.addPredictor("I", group1, DataType.FACTOR); data.addPredictor("J", group2, DataType.FACTOR); data.addResponse("Y", score, DataType.QUANTITATIVE); try { AnovaTwoWayResult result = data.modelAnovaTwoWay(); System.out.println("result = " + result); if (result != null) { // Getting the model's parameter estiamtes and statistics. int dfCTotal = result.getDFTotal(); int dfModel = result.getDFModel(); int dfError = result.getDFError(); System.out.println("dfCTotal = " + dfCTotal); System.out.println("dfModel = " + dfModel); System.out.println("dfError = " + dfError); double rssTotal = result.getRSSTotal(); double rssModel = result.getRSSModel(); double rssError = result.getRSSError(); System.out.println("rssTotal = " + rssTotal); System.out.println("rssModel = " + rssModel); System.out.println("rssError = " + rssError); double mssModel = result.getMSSModel(); double mssError = result.getMSSError(); System.out.println("mssModel = " + mssModel); System.out.println("mssError = " + mssError); double fValue = result.getFValue(); String pValue = result.getPValue(); System.out.println("fValue = " + fValue); System.out.println("pValue = " + pValue); String[] varList = result.getVariableList(); int[] dfGroup = result.getDFGroup(); double[] rssGourp = result.getRSSGroup(); double[] mseGourp = result.getMSEGroup(); double[] fValueGroup = result.getFValueGroup(); String[] pValueGroup = result.getPValueGroup(); double[] residuals = result.getResiduals(); double[] predicted = result.getPredicted(); // residuals after being sorted ascendantly. double[] sortedResiduals = result.getSortedResiduals(); // sortedResiduals after being standardized. double[] sortedStandardizedResiduals = result.getSortedStandardizedResiduals(); // the original index of sortedResiduals, stored as integer array. int[] sortedResidualsIndex = result.getSortedResidualsIndex(); // the normal quantiles of sortedResiduals. double[] sortedNormalQuantiles = result.getSortedNormalQuantiles(); // sortedNormalQuantiles after being standardized. double[] sortedStandardizedNormalQuantiles = result.getSortedStandardizedNormalQuantiles(); System.out.println("dfCTotal = " + dfCTotal); System.out.println("dfModel = " + dfModel); System.out.println("dfError = " + dfError); System.out.println("rssTotal = " + rssTotal); System.out.println("rssModel = " + rssModel); System.out.println("rssError = " + rssError); System.out.println("mssModel = " + mssModel); System.out.println("mssError = " + mssError); System.out.println("fValue = " + fValue); System.out.println("pValue = " + pValue); for (int i = 0; i < varList.length; i++) { System.out.println("varList["+i+"] = " + varList[i]); } for (int i = 0; i < residuals.length; i++) { System.out.println("residuals["+i+"] = " + residuals[i]); } } } catch (Exception e) { System.out.println(e); } } }
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