[8430] | 1 | #region License Information
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| 2 | /* HeuristicLab
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[12009] | 3 | * Copyright (C) 2002-2015 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
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[8430] | 4 | *
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| 5 | * This file is part of HeuristicLab.
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| 6 | *
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| 7 | * HeuristicLab is free software: you can redistribute it and/or modify
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| 8 | * it under the terms of the GNU General Public License as published by
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| 9 | * the Free Software Foundation, either version 3 of the License, or
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| 10 | * (at your option) any later version.
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| 11 | *
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| 12 | * HeuristicLab is distributed in the hope that it will be useful,
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| 13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 15 | * GNU General Public License for more details.
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| 16 | *
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| 17 | * You should have received a copy of the GNU General Public License
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| 18 | * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
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| 19 | */
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| 20 | #endregion
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| 21 |
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| 22 | using System;
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| 23 | using System.Linq;
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| 24 | using HeuristicLab.Common;
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| 25 | using HeuristicLab.Core;
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| 26 | using HeuristicLab.Data;
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| 27 | using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding;
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| 28 | using HeuristicLab.Optimization;
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| 29 | using HeuristicLab.Parameters;
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| 30 | using HeuristicLab.Persistence.Default.CompositeSerializers.Storable;
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| 31 | using HeuristicLab.Problems.DataAnalysis;
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| 32 | using HeuristicLab.Problems.DataAnalysis.Symbolic;
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| 33 | using HeuristicLab.Problems.DataAnalysis.Symbolic.TimeSeriesPrognosis;
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| 34 |
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| 35 | namespace HeuristicLab.Algorithms.DataAnalysis.TimeSeries {
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[13297] | 36 | [Item("Autoregressive Modeling (AR)", "Timeseries modeling algorithm that creates AR-N models.")]
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[12708] | 37 | [Creatable(CreatableAttribute.Categories.DataAnalysis, Priority = 130)]
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[8430] | 38 | [StorableClass]
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| 39 | public class AutoregressiveModeling : FixedDataAnalysisAlgorithm<ITimeSeriesPrognosisProblem> {
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| 40 | private const string TimeOffesetParameterName = "Maximum Time Offset";
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| 41 |
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| 42 | public IFixedValueParameter<IntValue> TimeOffsetParameter {
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| 43 | get { return (IFixedValueParameter<IntValue>)Parameters[TimeOffesetParameterName]; }
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| 44 | }
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| 45 |
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| 46 |
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| 47 | public int TimeOffset {
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| 48 | get { return TimeOffsetParameter.Value.Value; }
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| 49 | set { TimeOffsetParameter.Value.Value = value; }
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| 50 | }
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| 51 |
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| 52 | [StorableConstructor]
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| 53 | protected AutoregressiveModeling(bool deserializing) : base(deserializing) { }
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| 54 | protected AutoregressiveModeling(AutoregressiveModeling original, Cloner cloner) : base(original, cloner) { }
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| 55 | public override IDeepCloneable Clone(Cloner cloner) {
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| 56 | return new AutoregressiveModeling(this, cloner);
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| 57 | }
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| 58 |
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| 59 | public AutoregressiveModeling()
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| 60 | : base() {
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| 61 | Parameters.Add(new FixedValueParameter<IntValue>(TimeOffesetParameterName, "The maximum time offset for the model ranging from 1 to infinity.", new IntValue(1)));
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| 62 | Problem = new TimeSeriesPrognosisProblem();
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| 63 | }
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| 64 |
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| 65 | protected override void Run() {
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| 66 | double rmsError, cvRmsError;
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| 67 | var solution = CreateAutoRegressiveSolution(Problem.ProblemData, TimeOffset, out rmsError, out cvRmsError);
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| 68 | Results.Add(new Result("Autoregressive solution", "The autoregressive time series prognosis solution.", solution));
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| 69 | Results.Add(new Result("Root mean square error", "The root of the mean of squared errors of the autoregressive time series prognosis solution on the training set.", new DoubleValue(rmsError)));
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| 70 | Results.Add(new Result("Estimated root mean square error (cross-validation)", "The estimated root of the mean of squared errors of the autoregressive time series prognosis solution via cross validation.", new DoubleValue(cvRmsError)));
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| 71 | }
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| 72 |
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| 73 | /// <summary>
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| 74 | /// Calculates an AR(p) model. For further information see http://en.wikipedia.org/wiki/Autoregressive_model
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| 75 | /// </summary>
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| 76 | /// <param name="problemData">The problem data which should be used for training</param>
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| 77 | /// <param name="timeOffset">The parameter p of the AR(p) specifying the maximum time offset [1,infinity] </param>
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| 78 | /// <returns>The times series autoregressive solution </returns>
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[8762] | 79 | public static ITimeSeriesPrognosisSolution CreateAutoRegressiveSolution(ITimeSeriesPrognosisProblemData problemData, int timeOffset) {
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[8430] | 80 | double rmsError, cvRmsError;
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| 81 | return CreateAutoRegressiveSolution(problemData, timeOffset, out rmsError, out cvRmsError);
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| 82 | }
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| 83 |
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[8762] | 84 | private static ITimeSeriesPrognosisSolution CreateAutoRegressiveSolution(ITimeSeriesPrognosisProblemData problemData, int timeOffset, out double rmsError, out double cvRmsError) {
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[8430] | 85 | string targetVariable = problemData.TargetVariable;
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| 86 |
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| 87 | double[,] inputMatrix = new double[problemData.TrainingPartition.Size, timeOffset + 1];
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[8762] | 88 | var targetValues = problemData.Dataset.GetDoubleValues(targetVariable).ToList();
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[8430] | 89 | for (int i = 0, row = problemData.TrainingPartition.Start; i < problemData.TrainingPartition.Size; i++, row++) {
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[8762] | 90 | for (int col = 0; col < timeOffset; col++) {
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| 91 | inputMatrix[i, col] = targetValues[row - col - 1];
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[8430] | 92 | }
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| 93 | }
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[8762] | 94 | // set target values in last column
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| 95 | for (int i = 0; i < inputMatrix.GetLength(0); i++)
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| 96 | inputMatrix[i, timeOffset] = targetValues[i + problemData.TrainingPartition.Start];
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[8430] | 97 |
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| 98 | if (inputMatrix.Cast<double>().Any(x => double.IsNaN(x) || double.IsInfinity(x)))
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| 99 | throw new NotSupportedException("Linear regression does not support NaN or infinity values in the input dataset.");
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| 100 |
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| 101 |
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| 102 | alglib.linearmodel lm = new alglib.linearmodel();
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| 103 | alglib.lrreport ar = new alglib.lrreport();
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| 104 | int nRows = inputMatrix.GetLength(0);
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| 105 | int nFeatures = inputMatrix.GetLength(1) - 1;
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| 106 | double[] coefficients = new double[nFeatures + 1]; // last coefficient is for the constant
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| 107 |
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| 108 | int retVal = 1;
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| 109 | alglib.lrbuild(inputMatrix, nRows, nFeatures, out retVal, out lm, out ar);
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| 110 | if (retVal != 1) throw new ArgumentException("Error in calculation of linear regression solution");
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| 111 | rmsError = ar.rmserror;
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| 112 | cvRmsError = ar.cvrmserror;
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| 113 |
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| 114 | alglib.lrunpack(lm, out coefficients, out nFeatures);
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| 115 |
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| 116 |
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| 117 | ISymbolicExpressionTree tree = new SymbolicExpressionTree(new ProgramRootSymbol().CreateTreeNode());
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| 118 | ISymbolicExpressionTreeNode startNode = new StartSymbol().CreateTreeNode();
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| 119 | tree.Root.AddSubtree(startNode);
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| 120 | ISymbolicExpressionTreeNode addition = new Addition().CreateTreeNode();
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| 121 | startNode.AddSubtree(addition);
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| 122 |
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| 123 | for (int i = 0; i < timeOffset; i++) {
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[8762] | 124 | LaggedVariableTreeNode node = (LaggedVariableTreeNode)new LaggedVariable().CreateTreeNode();
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[8430] | 125 | node.VariableName = targetVariable;
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| 126 | node.Weight = coefficients[i];
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| 127 | node.Lag = (i + 1) * -1;
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| 128 | addition.AddSubtree(node);
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| 129 | }
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| 130 |
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| 131 | ConstantTreeNode cNode = (ConstantTreeNode)new Constant().CreateTreeNode();
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| 132 | cNode.Value = coefficients[coefficients.Length - 1];
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| 133 | addition.AddSubtree(cNode);
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| 134 |
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| 135 | var interpreter = new SymbolicTimeSeriesPrognosisExpressionTreeInterpreter(problemData.TargetVariable);
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| 136 | var model = new SymbolicTimeSeriesPrognosisModel(tree, interpreter);
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| 137 | var solution = model.CreateTimeSeriesPrognosisSolution((ITimeSeriesPrognosisProblemData)problemData.Clone());
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| 138 | return solution;
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| 139 | }
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| 140 | }
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| 141 | }
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