wdtw_alignment_path#
- wdtw_alignment_path(x: ndarray, y: ndarray, window: float = None, g: float = 0.05, itakura_max_slope: float = None) Tuple[List[Tuple[int, int]], float] [source]#
Compute the WDTW alignment path between two time series.
- Parameters:
- xnp.ndarray, of shape (n_channels, n_timepoints) or (n_timepoints,)
First time series.
- ynp.ndarray, of shape (m_channels, m_timepoints) or (m_timepoints,)
Second time series.
- windowfloat, default=None
The window to use for the bounding matrix. If None, no bounding matrix is used.
- gfloat, default=0.05
Constant that controls the level of penalisation for the points with larger phase difference. Default is 0.05.
- itakura_max_slopefloat, default=None
Maximum slope as a proportion of the number of time points used to create Itakura parallelogram on the bounding matrix. Must be between 0. and 1.
- Returns:
- List[Tuple[int, int]]
The alignment path between the two time series where each element is a tuple of the index in x and the index in y that have the best alignment according to the cost matrix.
- float
The WDTW distance betweeen the two time series.
- Raises:
- ValueError
If x and y are not 1D or 2D arrays.
Examples
>>> import numpy as np >>> from aeon.distances import wdtw_alignment_path >>> x = np.array([[1, 2, 3, 6]]) >>> y = np.array([[1, 2, 3, 4]]) >>> path, dist = wdtw_alignment_path(x, y) >>> path [(0, 0), (1, 1), (2, 2), (3, 3)]