gemclus.gemini
.HellingerGEMINI¶
- class gemclus.gemini.HellingerGEMINI(ovo=False, epsilon=1e-12)[source]¶
Implements the one-vs-all and one-vs-one Squared Hellinger distance GEMINI.
The one-vs-all version compares the squared Hellinger distance distance between a cluster distribution and the data distribution.
\[\mathcal{I} = \mathbb{E}_{y \sim p(y)}[\text{H}^2(p(x|y)\|p(x))]\]The one-vs-one version compares the squared Hellinger distance between two cluster distributions.
\[\mathcal{I} = \mathbb{E}_{y_a,y_b \sim p(y)}[\text{H}^2(p(x|y_a)\|p(x|y_b))]\]- Parameters:
- ovo: bool, default=False
Whether to use the one-vs-all objective (False) or the one-vs-one objective (True).
- epsilon: float, default=1e-12
The precision for clipping the prediction values in order to avoid numerical instabilities.
- compute_affinity(X, y=None)¶
Unused for f-divergences.
- Returns:
- None
- evaluate(y_pred, affinity, return_grad=False)[source]¶
Compute the GEMINI objective given the predictions \($p(y|x)$\) and an affinity matrix. The computation must return as well the gradients of the GEMINI w.r.t. the predictions. Depending on the context, the affinity matrix affinity can be either a kernel matrix or a distance matrix resulting from the compute_affinity method.
- Parameters:
- y_pred: ndarray of shape (n_samples, n_clusters)
The conditional distribution (prediction) of clustering assignment per sample.
- affinity: ndarray of shape (n_samples, n_samples)
The affinity matrix resulting from the compute_affinity method. The matrix must be symmetric.
- return_grad: bool, default=False
If True, the method should return the gradient of the GEMINI w.r.t. the predictions \($p(y|x)$\).
- Returns:
- gemini: float
The gemini score of the model given the predictions and affinities.
- gradients: ndarray of shape (n_samples, n_clusters)
The derivative w.r.t. the predictions y_pred: \($\nabla_{p (y|x)} \mathcal{I} $\)