public void ClassificationStackingEnsembleModel_Predict_Multiple()
        {
            var parser       = new CsvParser(() => new StringReader(Resources.AptitudeData));
            var observations = parser.EnumerateRows(v => v != "Pass").ToF64Matrix();
            var targets      = parser.EnumerateRows("Pass").ToF64Vector();
            var rows         = targets.Length;

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var predictions = sut.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.34615384615384615, actual, 0.0000001);
        }
        public void ClassificationStackingEnsembleModel_PredictProbability_single()
        {
            var parser       = new CsvParser(() => new StringReader(Resources.AptitudeData));
            var observations = parser.EnumerateRows(v => v != "Pass").ToF64Matrix();
            var targets      = parser.EnumerateRows("Pass").ToF64Vector();
            var rows         = targets.Length;

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var predictions = new ProbabilityPrediction[rows];

            for (int i = 0; i < rows; i++)
            {
                predictions[i] = sut.PredictProbability(observations.Row(i));
            }

            var metric = new LogLossClassificationProbabilityMetric();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.6696598716465223, actual, 0.0000001);
        }
Ejemplo n.º 3
0
        public void ClassificationStackingEnsembleLearner_CreateMetaFeatures_Then_Learn()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var parser       = new CsvParser(() => new StringReader(Resources.Glass));
            var observations = parser.EnumerateRows(v => v != "Target").ToF64Matrix();
            var targets      = parser.EnumerateRows("Target").ToF64Vector();

            var metaObservations = sut.LearnMetaFeatures(observations, targets);
            var model            = sut.LearnStackingModel(observations, metaObservations, targets);

            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.63551401869158874, actual, 0.0001);
        }
        public void ClassificationStackingEnsembleModel_GetRawVariableImportance()
        {
            var parser       = new CsvParser(() => new StringReader(Resources.AptitudeData));
            var observations = parser.EnumerateRows(v => v != "Pass").ToF64Matrix();
            var targets      = parser.EnumerateRows("Pass").ToF64Vector();

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var actual   = sut.GetRawVariableImportance();
            var expected = new double[] { 0.12545787545787546, 0, 0.16300453932032882, 0.0345479082321188, 0.15036245805476572, 0, 0, 0 };

            Assert.AreEqual(expected.Length, actual.Length);

            for (int i = 0; i < expected.Length; i++)
            {
                Assert.AreEqual(expected[i], actual[i], 0.000001);
            }
        }
Ejemplo n.º 5
0
        public void ClassificationStackingEnsembleLearner_Learn_Include_Original_Features()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), true);

            var parser       = new CsvParser(() => new StringReader(Resources.Glass));
            var observations = parser.EnumerateRows(v => v != "Target").ToF64Matrix();
            var targets      = parser.EnumerateRows("Target").ToF64Vector();

            var model       = sut.Learn(observations, targets);
            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.26168224299065418, actual, 0.0001);
        }
Ejemplo n.º 6
0
        public void ClassificationStackingEnsembleModel_PredictProbability_single()
        {
            var(observations, targets) = DataSetUtilities.LoadAptitudeDataSet();

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners,
                                                                    new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var rows        = targets.Length;
            var predictions = new ProbabilityPrediction[rows];

            for (int i = 0; i < rows; i++)
            {
                predictions[i] = sut.PredictProbability(observations.Row(i));
            }

            var metric = new LogLossClassificationProbabilityMetric();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.6696598716465223, actual, 0.0000001);
        }
Ejemplo n.º 7
0
        public void ClassificationStackingEnsembleLearner_Learn_Indexed()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var parser       = new CsvParser(() => new StringReader(Resources.Glass));
            var observations = parser.EnumerateRows(v => v != "Target").ToF64Matrix();
            var targets      = parser.EnumerateRows("Target").ToF64Vector();
            var indices      = Enumerable.Range(0, 25).ToArray();

            var model       = sut.Learn(observations, targets, indices);
            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.67289719626168221, actual, 0.0001);
        }
Ejemplo n.º 8
0
        public void ClassificationStackingEnsembleModel_Predict_Multiple()
        {
            var(observations, targets) = DataSetUtilities.LoadAptitudeDataSet();

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners,
                                                                    new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var predictions = sut.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.34615384615384615, actual, 0.0000001);
        }
Ejemplo n.º 9
0
        public void ClassificationStackingEnsembleModel_GetRawVariableImportance()
        {
            var(observations, targets) = DataSetUtilities.LoadAptitudeDataSet();

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners,
                                                                    new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var actual   = sut.GetRawVariableImportance();
            var expected = new double[] { 0.12545787545787546, 0, 0.16300453932032882, 0.0345479082321188, 0.15036245805476572, 0, 0, 0 };

            Assert.AreEqual(expected.Length, actual.Length);

            for (int i = 0; i < expected.Length; i++)
            {
                Assert.AreEqual(expected[i], actual[i], 0.000001);
            }
        }
Ejemplo n.º 10
0
        public void ClassificationStackingEnsembleLearner_Learn_Indexed()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var(observations, targets) = DataSetUtilities.LoadGlassDataSet();

            var indices = Enumerable.Range(0, 25).ToArray();

            var model       = sut.Learn(observations, targets, indices);
            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.67289719626168221, actual, 0.0001);
        }
Ejemplo n.º 11
0
        public void ClassificationStackingEnsembleLearner_CreateMetaFeatures_Then_Learn()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var(observations, targets) = DataSetUtilities.LoadGlassDataSet();

            var metaObservations = sut.LearnMetaFeatures(observations, targets);
            var model            = sut.LearnStackingModel(observations, metaObservations, targets);

            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.63551401869158874, actual, 0.0001);
        }
        public void ClassificationStackingEnsembleModel_GetVariableImportance()
        {
            var parser             = new CsvParser(() => new StringReader(Resources.AptitudeData));
            var observations       = parser.EnumerateRows(v => v != "Pass").ToF64Matrix();
            var targets            = parser.EnumerateRows("Pass").ToF64Vector();
            var featureNameToIndex = new Dictionary <string, int> {
                { "AptitudeTestScore", 0 },
                { "PreviousExperience_month", 1 }
            };

            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var learner = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                    new RandomCrossValidation <ProbabilityPrediction>(5, 23), false);

            var sut = learner.Learn(observations, targets);

            var actual = sut.GetVariableImportance(featureNameToIndex);

            WriteImportances(actual);
            var expected = new Dictionary <string, double> {
                { "ClassificationDecisionTreeModel_1_Class_Probability_0", 100 }, { "ClassificationDecisionTreeModel_2_Class_Probability_0", 92.2443379072288 }, { "ClassificationDecisionTreeModel_0_Class_Probability_0", 76.9658783620323 }, { "ClassificationDecisionTreeModel_1_Class_Probability_1", 21.1944454897829 }, { "ClassificationDecisionTreeModel_0_Class_Probability_1", 0 }, { "ClassificationDecisionTreeModel_2_Class_Probability_1", 0 }, { "ClassificationDecisionTreeModel_3_Class_Probability_0", 0 }, { "ClassificationDecisionTreeModel_3_Class_Probability_1", 0 }
            };

            Assert.AreEqual(expected.Count, actual.Count);
            var zip = expected.Zip(actual, (e, a) => new { Expected = e, Actual = a });

            foreach (var item in zip)
            {
                Assert.AreEqual(item.Expected.Key, item.Actual.Key);
                Assert.AreEqual(item.Expected.Value, item.Actual.Value, 0.000001);
            }
        }
Ejemplo n.º 13
0
        public void ClassificationStackingEnsembleLearner_Learn_Include_Original_Features()
        {
            var learners = new IIndexedLearner <ProbabilityPrediction>[]
            {
                new ClassificationDecisionTreeLearner(2),
                new ClassificationDecisionTreeLearner(5),
                new ClassificationDecisionTreeLearner(7),
                new ClassificationDecisionTreeLearner(9)
            };

            var sut = new ClassificationStackingEnsembleLearner(learners, new ClassificationDecisionTreeLearner(9),
                                                                new RandomCrossValidation <ProbabilityPrediction>(5, 23), true);

            var(observations, targets) = DataSetUtilities.LoadGlassDataSet();

            var model       = sut.Learn(observations, targets);
            var predictions = model.Predict(observations);

            var metric = new TotalErrorClassificationMetric <double>();
            var actual = metric.Error(targets, predictions);

            Assert.AreEqual(0.26168224299065418, actual, 0.0001);
        }