Example #1
0
void PCATestCase::decorrelation()
{
  OpenANN::RandomNumberGenerator rng;
  const int N = 100;
  const int D = 2;
  Eigen::MatrixXd X(N, D);
  rng.fillNormalDistribution(X);

  // Linear transformation (correlation)
  Eigen::MatrixXd A(D, D);
  A << 1.0, 0.5, 0.5, 2.0;
  Eigen::MatrixXd Xt = X * A.transpose();
  // Decorrelation (without dimensionality reduction)
  OpenANN::PCA pca(D);
  pca.fit(Xt);
  Eigen::MatrixXd Y = pca.transform(Xt);

  // Covariance matrix should be identity matrix
  Eigen::MatrixXd cov = Y.transpose() * Y;
  ASSERT_EQUALS_DELTA(cov(0, 0), (double) N, 1e-5);
  ASSERT_EQUALS_DELTA(cov(1, 1), (double) N, 1e-5);
  ASSERT_EQUALS_DELTA(cov(0, 1), 0.0, 1e-5);
  ASSERT_EQUALS_DELTA(cov(1, 0), 0.0, 1e-5);

  Eigen::VectorXd evr = pca.explainedVarianceRatio();
  double evrSum = evr.sum();
  ASSERT_EQUALS_DELTA(evrSum, 1.0, 1e-5);
}
Example #2
0
void KMeansTestCase::clustering()
{
    const int N = 1000;
    const int D = 10;
    Eigen::MatrixXd X(N, D);
    OpenANN::RandomNumberGenerator rng;
    rng.fillNormalDistribution(X);

    OpenANN::KMeans kmeans(D, 5);
    const int batchSize = 200;
    double averageDistToCenter = std::numeric_limits<double>::max();
    for(int i = 0; i < N/batchSize; i++)
    {
        // Data points will be closer to centers after each update
        Eigen::MatrixXd Y = kmeans.fitPartial(X.block(i*batchSize, 0, batchSize, D)).transform(X);
        const double newDistance = Y.array().rowwise().maxCoeff().sum();
        ASSERT(newDistance < averageDistToCenter);
        averageDistToCenter = newDistance;
    }
}
Example #3
0
void PCATestCase::dimensionalityReduction()
{
  OpenANN::RandomNumberGenerator rng;
  const int N = 100;
  const int D = 5;
  Eigen::MatrixXd X(N, D);
  rng.fillNormalDistribution(X);

  // Strong correlation
  Eigen::MatrixXd A = Eigen::MatrixXd::Identity(D, D) * 0.5 +
      Eigen::MatrixXd::Ones(D, D);
  Eigen::MatrixXd Xt = X * A.transpose();
  // Dimensionality reduction
  OpenANN::PCA pca(1);
  pca.fit(Xt);
  Eigen::MatrixXd Y = pca.transform(Xt);
  ASSERT_EQUALS(Y.rows(), N);
  ASSERT_EQUALS(Y.cols(), 1);
  ASSERT_EQUALS(pca.explainedVarianceRatio().rows(), 1);
  ASSERT(pca.explainedVarianceRatio().sum() > 0.9);
}
Example #4
0
void RBMTestCase::setUp()
{
    OpenANN::RandomNumberGenerator rng;
    rng.seed(2);
}
void EvaluationTestCase::setUp()
{
  OpenANN::RandomNumberGenerator rng;
  rng.seed(0);
}