コード例 #1
0
ファイル: gaussian_rbf.py プロジェクト: svestark/mushroom
    def generate(n_centers, low, high, dimensions=None):
        r"""
        Factory method to build uniformly spaced gaussian radial basis functions
        with a 25\% overlap.

        Args:
            n_centers (list): list of the number of radial basis functions to be
                used for each dimension.
            low (np.ndarray): lowest value for each dimension;
            high (np.ndarray): highest value for each dimension;
            dimensions (list, None): list of the dimensions of the input to be
                considered by the feature. The number of dimensions must match
                the number of elements in ``n_centers`` and ``low``.

        Returns:
            The list of the generated radial basis functions.

        """
        n_features = len(low)
        assert len(n_centers) == n_features
        assert len(low) == len(high)
        assert dimensions is None or n_features == len(dimensions)

        grid, b = uniform_grid(n_centers, low, high)

        basis = list()
        for i in range(len(grid)):
            v = grid[i, :]
            bf = GaussianRBF(v, b, dimensions)
            basis.append(bf)

        return basis
コード例 #2
0
    def generate(n_centers, ranges):
        """
        Factory method that generates the list of dictionaries to build the
        tensors representing a set of uniformly spaced Gaussian radial basis
        functions with a 25\% overlap.

        Args:
            n_centers (list): list of the number of radial basis functions to be
                              used for each dimension.
            ranges (list): list of two-elements lists specifying the range of
                           each state variable.

        Returns:
            The list of dictionaries as described above.

        """
        n_features = len(ranges)
        assert len(n_centers) == n_features
        assert len(ranges[0]) == 2

        grid, scale = uniform_grid(n_centers, ranges)

        tensor_list = list()
        for i in range(len(grid)):
            mu = grid[i, :]
            tensor_list.append(PyTorchGaussianRBF(mu, scale))

        return tensor_list
コード例 #3
0
    def generate(n_centers, low, high, dimensions=None):
        """
        Factory method that generates the list of dictionaries to build the
        tensors representing a set of uniformly spaced Gaussian radial basis
        functions with a 25\% overlap.

        Args:
            n_centers (list): list of the number of radial basis functions to be
                              used for each dimension;
            low (np.ndarray): lowest value for each dimension;
            high (np.ndarray): highest value for each dimension;
            dimensions (list, None): list of the dimensions of the input to be
                considered by the feature. The number of dimensions must match
                the number of elements in ``n_centers`` and ``low``.

        Returns:
            The list of dictionaries as described above.

        """
        n_features = len(low)
        assert len(n_centers) == n_features
        assert len(low) == len(high)
        assert dimensions is None or n_features == len(dimensions)

        grid, scale = uniform_grid(n_centers, low, high)

        tensor_list = list()
        for i in range(len(grid)):
            mu = grid[i, :]
            tensor_list.append(PyTorchGaussianRBF(mu, scale, dimensions))

        return tensor_list
コード例 #4
0
    def generate(n_centers, ranges, dimensions=None):
        """
        Factory method to build uniformly spaced gaussian radial basis functions
        with a 25\% overlap.

        Args:
            n_centers (list): list of the number of radial basis functions to be
                used for each dimension.
            ranges (list): list of two-elements lists specifying the range of
                each state variable;
            dimensions (list, None): list of the dimensions of the input to be
                considered by the feature. The number of dimensions must match
                the number of elements in ``n_centers`` and ``ranges``.

        Returns:
            The list of the generated radial basis functions.

        """
        n_features = len(ranges)
        assert len(n_centers) == n_features
        assert len(ranges[0]) == 2
        assert dimensions is None or n_features == len(dimensions)

        grid, b = uniform_grid(n_centers, ranges)

        basis = list()
        for i in range(len(grid)):
            v = grid[i, :]
            bf = GaussianRBF(v, b, dimensions)
            basis.append(bf)

        return basis
コード例 #5
0
def generate(n_centers, ranges):
    """
    Factory method that generates the list of dictionaries to build the tensors
    representing a set of uniformly spaced Gaussian radial basis functions with
    a 25\% overlap.

    Args:
        n_centers (list): list of the number of radial basis functions to be
            used for each dimension.
        ranges (list): list of two-elements lists specifying the range of
            each state variable.

    Returns:
        The list of dictionaries as described above.

    """
    n_features = len(ranges)
    assert len(n_centers) == n_features
    assert len(ranges[0]) == 2

    grid, b = uniform_grid(n_centers, ranges)

    tensor_list = list()
    for i in xrange(len(grid)):
        v = grid[i, :]
        bf = {'type': tensors.gaussian_tensor, 'params': [v, b]}
        tensor_list.append(bf)

    return tensor_list