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source: branches/HiveProjectManagement/HeuristicLab.Algorithms.DataAnalysis/3.4/GaussianProcess/CovarianceFunctions/CovarianceSpectralMixture.cs @ 15529

Last change on this file since 15529 was 14185, checked in by swagner, 8 years ago

#2526: Updated year of copyrights in license headers

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1#region License Information
2/* HeuristicLab
3 * Copyright (C) 2002-2016 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
4 *
5 * This file is part of HeuristicLab.
6 *
7 * HeuristicLab is free software: you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation, either version 3 of the License, or
10 * (at your option) any later version.
11 *
12 * HeuristicLab is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15 * GNU General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
19 */
20#endregion
21
22using System;
23using System.Collections.Generic;
24using System.Linq;
25using HeuristicLab.Common;
26using HeuristicLab.Core;
27using HeuristicLab.Data;
28using HeuristicLab.Parameters;
29using HeuristicLab.Persistence.Default.CompositeSerializers.Storable;
30
31namespace HeuristicLab.Algorithms.DataAnalysis {
32  [StorableClass]
33  [Item(Name = "CovarianceSpectralMixture",
34    Description = "The spectral mixture kernel described in Wilson A. G. and Adams R.P., Gaussian Process Kernels for Pattern Discovery and Exptrapolation, ICML 2013.")]
35  public sealed class CovarianceSpectralMixture : ParameterizedNamedItem, ICovarianceFunction {
36    public const string QParameterName = "Number of components (Q)";
37    public const string WeightParameterName = "Weight";
38    public const string FrequencyParameterName = "Component frequency (mu)";
39    public const string LengthScaleParameterName = "Length scale (nu)";
40    public IValueParameter<IntValue> QParameter {
41      get { return (IValueParameter<IntValue>)Parameters[QParameterName]; }
42    }
43
44    public IValueParameter<DoubleArray> WeightParameter {
45      get { return (IValueParameter<DoubleArray>)Parameters[WeightParameterName]; }
46    }
47    public IValueParameter<DoubleArray> FrequencyParameter {
48      get { return (IValueParameter<DoubleArray>)Parameters[FrequencyParameterName]; }
49    }
50
51    public IValueParameter<DoubleArray> LengthScaleParameter {
52      get { return (IValueParameter<DoubleArray>)Parameters[LengthScaleParameterName]; }
53    }
54
55    private bool HasFixedWeightParameter {
56      get { return WeightParameter.Value != null; }
57    }
58    private bool HasFixedFrequencyParameter {
59      get { return FrequencyParameter.Value != null; }
60    }
61    private bool HasFixedLengthScaleParameter {
62      get { return LengthScaleParameter.Value != null; }
63    }
64
65    [StorableConstructor]
66    private CovarianceSpectralMixture(bool deserializing)
67      : base(deserializing) {
68    }
69
70    private CovarianceSpectralMixture(CovarianceSpectralMixture original, Cloner cloner)
71      : base(original, cloner) {
72    }
73
74    public CovarianceSpectralMixture()
75      : base() {
76      Name = ItemName;
77      Description = ItemDescription;
78      Parameters.Add(new ValueParameter<IntValue>(QParameterName, "The number of Gaussians (Q) to use for the spectral mixture.", new IntValue(10)));
79      Parameters.Add(new OptionalValueParameter<DoubleArray>(WeightParameterName, "The weight of the component w (peak height of the Gaussian in spectrum)."));
80      Parameters.Add(new OptionalValueParameter<DoubleArray>(FrequencyParameterName, "The inverse component period parameter mu_q (location of the Gaussian in spectrum)."));
81      Parameters.Add(new OptionalValueParameter<DoubleArray>(LengthScaleParameterName, "The length scale parameter (nu_q) (variance of the Gaussian in the spectrum)."));
82    }
83
84    public override IDeepCloneable Clone(Cloner cloner) {
85      return new CovarianceSpectralMixture(this, cloner);
86    }
87
88    public int GetNumberOfParameters(int numberOfVariables) {
89      var q = QParameter.Value.Value;
90      return
91        (HasFixedWeightParameter ? 0 : q) +
92        (HasFixedFrequencyParameter ? 0 : q * numberOfVariables) +
93        (HasFixedLengthScaleParameter ? 0 : q * numberOfVariables);
94    }
95
96    public void SetParameter(double[] p) {
97      double[] weight, frequency, lengthScale;
98      GetParameterValues(p, out weight, out frequency, out lengthScale);
99      WeightParameter.Value = new DoubleArray(weight);
100      FrequencyParameter.Value = new DoubleArray(frequency);
101      LengthScaleParameter.Value = new DoubleArray(lengthScale);
102    }
103
104
105    private void GetParameterValues(double[] p, out double[] weight, out double[] frequency, out double[] lengthScale) {
106      // gather parameter values
107      int c = 0;
108      int q = QParameter.Value.Value;
109      // guess number of elements for frequency and length (=q * numberOfVariables)
110      int n = WeightParameter.Value == null ? ((p.Length - q) / 2) : (p.Length / 2);
111      if (HasFixedWeightParameter) {
112        weight = WeightParameter.Value.ToArray();
113      } else {
114        weight = p.Skip(c).Select(Math.Exp).Take(q).ToArray();
115        c += q;
116      }
117      if (HasFixedFrequencyParameter) {
118        frequency = FrequencyParameter.Value.ToArray();
119      } else {
120        frequency = p.Skip(c).Select(Math.Exp).Take(n).ToArray();
121        c += n;
122      }
123      if (HasFixedLengthScaleParameter) {
124        lengthScale = LengthScaleParameter.Value.ToArray();
125      } else {
126        lengthScale = p.Skip(c).Select(Math.Exp).Take(n).ToArray();
127        c += n;
128      }
129      if (p.Length != c) throw new ArgumentException("The length of the parameter vector does not match the number of free parameters for CovarianceSpectralMixture", "p");
130    }
131
132    public ParameterizedCovarianceFunction GetParameterizedCovarianceFunction(double[] p, int[] columnIndices) {
133      double[] weight, frequency, lengthScale;
134      GetParameterValues(p, out weight, out frequency, out lengthScale);
135      var fixedWeight = HasFixedWeightParameter;
136      var fixedFrequency = HasFixedFrequencyParameter;
137      var fixedLengthScale = HasFixedLengthScaleParameter;
138      // create functions
139      var cov = new ParameterizedCovarianceFunction();
140      cov.Covariance = (x, i, j) => {
141        return GetCovariance(x, x, i, j, QParameter.Value.Value, weight, frequency,
142                             lengthScale, columnIndices);
143      };
144      cov.CrossCovariance = (x, xt, i, j) => {
145        return GetCovariance(x, xt, i, j, QParameter.Value.Value, weight, frequency,
146                             lengthScale, columnIndices);
147      };
148      cov.CovarianceGradient = (x, i, j) => GetGradient(x, i, j, QParameter.Value.Value, weight, frequency,
149                             lengthScale, columnIndices, fixedWeight, fixedFrequency, fixedLengthScale);
150      return cov;
151    }
152
153    private static double GetCovariance(double[,] x, double[,] xt, int i, int j, int maxQ, double[] weight, double[] frequency, double[] lengthScale, int[] columnIndices) {
154      // tau = x - x' (only for selected variables)
155      double[] tau =
156        Util.GetRow(x, i, columnIndices).Zip(Util.GetRow(xt, j, columnIndices), (xi, xj) => xi - xj).ToArray();
157      int numberOfVariables = lengthScale.Length / maxQ;
158      double k = 0;
159      // for each component
160      for (int q = 0; q < maxQ; q++) {
161        double kc = weight[q]; // weighted kernel component
162
163        int idx = 0; // helper index for tau
164        // for each selected variable
165        for (int c = 0; c < columnIndices.Length; c++) {
166          var col = columnIndices[c];
167          kc *= f1(tau[idx], lengthScale[q * numberOfVariables + col]) * f2(tau[idx], frequency[q * numberOfVariables + col]);
168          idx++;
169        }
170        k += kc;
171      }
172      return k;
173    }
174
175    public static double f1(double tau, double lengthScale) {
176      return Math.Exp(-2 * Math.PI * Math.PI * tau * tau * lengthScale);
177    }
178    public static double f2(double tau, double frequency) {
179      return Math.Cos(2 * Math.PI * tau * frequency);
180    }
181
182    // order of returned gradients must match the order in GetParameterValues!
183    private static IList<double> GetGradient(double[,] x, int i, int j, int maxQ, double[] weight, double[] frequency, double[] lengthScale, int[] columnIndices,
184      bool fixedWeight, bool fixedFrequency, bool fixedLengthScale) {
185      double[] tau = Util.GetRow(x, i, columnIndices).Zip(Util.GetRow(x, j, columnIndices), (xi, xj) => xi - xj).ToArray();
186      int numberOfVariables = lengthScale.Length / maxQ;
187
188      var g = new List<double>((!fixedWeight ? maxQ : 0) + (!fixedFrequency ? maxQ * columnIndices.Length : 0) + (!fixedLengthScale ? maxQ * columnIndices.Length : 0));
189      if (!fixedWeight) {
190        // weight
191        // for each component
192        for (int q = 0; q < maxQ; q++) {
193          double k = weight[q];
194          int idx = 0; // helper index for tau
195          // for each selected variable
196          for (int c = 0; c < columnIndices.Length; c++) {
197            var col = columnIndices[c];
198            k *= f1(tau[idx], lengthScale[q * numberOfVariables + col]) * f2(tau[idx], frequency[q * numberOfVariables + col]);
199            idx++;
200          }
201          g.Add(k);
202        }
203      }
204
205      if (!fixedFrequency) {
206        // frequency
207        // for each component
208        for (int q = 0; q < maxQ; q++) {
209          int idx = 0; // helper index for tau
210          // for each selected variable
211          foreach (var c in columnIndices) {
212            double k = f1(tau[idx], lengthScale[q * numberOfVariables + c]) *
213                       -2 * Math.PI * tau[idx] * frequency[q * numberOfVariables + c] *
214                       Math.Sin(2 * Math.PI * tau[idx] * frequency[q * numberOfVariables + c]);
215            idx++;
216            g.Add(weight[q] * k);
217          }
218        }
219      }
220
221      if (!fixedLengthScale) {
222        // length scale
223        // for each component
224        for (int q = 0; q < maxQ; q++) {
225          int idx = 0; // helper index for tau
226          // for each selected variable
227          foreach (var c in columnIndices) {
228            double k = -2 * Math.PI * Math.PI * tau[idx] * tau[idx] * lengthScale[q * numberOfVariables + c] *
229                       f1(tau[idx], lengthScale[q * numberOfVariables + c]) *
230                       f2(tau[idx], frequency[q * numberOfVariables + c]);
231            idx++;
232            g.Add(weight[q] * k);
233          }
234        }
235      }
236
237      return g;
238    }
239  }
240}
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