Gamma EPCA
Math
| Name | GammaEPCA or ItakuraSaitoEPCA |
|---|---|
| $G(\theta)$ | $-\log(-\theta)$ |
| $g(\theta)$ | $-\frac{1}{\theta}$ |
| $\mu$ Space[1] | $\mathbb{R} \setminus \{ 0 \}$ |
| $\Theta$ Space | negative |
| Appropriate Data | positive |
Documentation
ExpFamilyPCA.GammaEPCA — FunctionGammaEPCA(indim::Integer, outdim::Integer; options::Options = Options(A_init_value = -2, A_upper = -eps(), V_lower = eps()))Gamma EPCA.
Arguments
indim::Integer: The dimension of the input space.outdim::Integer: The dimension of the latent (output) space.options::Options: Optional configuration parameters for the EPCA model.A_init_value: Initial fill value for matrixA(default:-2).A_upper: The upper bound for the matrixA, default is-eps().V_lower: The lower bound for the matrixV, default iseps().
Try using options = NegativeDomain() if you encounter domain errors when calling fit! or compress.
Returns
epca: An instance of anEPCAsubtype.
ExpFamilyPCA.ItakuraSaitoEPCA — FunctionAlias for GammaEPCA.
- 1$\mu$ space refers to the space of valid regularization parameters, not to the expectation parameter space.