bayespecon.SDMTobit¶

class bayespecon.SDMTobit(*args, censoring=0.0, **kwargs)[source]¶

Bayesian spatial Durbin Tobit model.

\[y^* = \rho Wy^* + X\beta + WX\theta + \varepsilon, \quad \varepsilon \sim N(0,\sigma^2 I)\]

with observed outcome y = max(c, y*). The sampled coefficient vector stacks the local and lagged-regressor blocks as \([\beta, \theta]\).

Parameters:¶

formula : str, optional

Wilkinson-style formula. Requires data.

data : pandas.DataFrame or geopandas.GeoDataFrame, optional

Data source for formula mode.

y : array-like, optional

Observed (censored) response. Required in matrix mode.

X : array-like or pandas.DataFrame, optional

Design matrix. Required in matrix mode.

W : libpysal.graph.Graph or scipy.sparse matrix

Spatial weights of shape (n, n).

censoring : float, default 0.0¶

Left-censoring threshold c.

priors : dict, optional

Override default priors. Supported keys:

rho_lower (float, default -1.0): Lower bound of Uniform prior on \(\rho\).
rho_upper (float, default 1.0): Upper bound of Uniform prior on \(\rho\).
beta_mu (float, default 0.0): Normal prior mean for \([\beta, \theta]\).
beta_sigma (float, default 1e6): Normal prior std for \([\beta, \theta]\).
sigma_sigma (float, default 10.0): HalfNormal prior std for \(\sigma\).
censor_sigma (float, default 10.0): HalfNormal scale for the latent y_cens_gap.
nu_lam (float, default 1/30): Rate of TruncExp(lower=2) prior on \(\nu\) (only used when robust=True).

logdet_method : str, optional

How to compute \(\log|I - \rho W|\); auto-selected when None (default).

robust : bool, default False

If True, replace the Normal innovation with Student-t.

w_vars : list of str, optional

Names of X columns to spatially lag. By default all non-constant columns are lagged.

Notes

Robust regression

When robust=True, the error distribution is changed from Normal to Student-t. For uncensored observations the density becomes:

\[f(y^*_i \mid \mu_i, \sigma, \nu) = \frac{1}{\sigma} \, t_\nu\!\left(\frac{y^*_i - \mu_i}{\sigma}\right)\]

and for censored observations:

\[P(y^*_i \le c) = T_\nu\!\left(\frac{c - \mu_i}{\sigma}\right)\]

where \(T_\nu\) is the Student-t CDF and \(\nu \sim \mathrm{TruncExp}(\lambda_\nu, \mathrm{lower}=2)\) with rate nu_lam (default 1/30).

__init__(*args, censoring=0.0, **kwargs)[source]¶

Methods

`__init__`(*args[, censoring])
`fit`([draws, tune, chains, target_accept, ...])	Sample posterior and attach pointwise log-likelihood for IC metrics.
`fitted_values`()	Return fitted values at posterior mean parameters.
`residuals`()	Return residuals on the observed scale.
`spatial_diagnostics`()	Run Bayesian LM specification tests and return a summary table.
`spatial_diagnostics_decision`([alpha, format])	Return a model-selection decision from Bayesian LM test results.
`spatial_effects`([return_posterior_samples])	Compute Bayesian inference for direct, indirect, and total impacts.
`summary`([var_names])	Return posterior summary table.

Attributes

`inference_data`	Return the ArviZ InferenceData from the most recent fit.
`pymc_model`	Return the PyMC model object built for the most recent fit.

fit(draws=2000, tune=1000, chains=4, target_accept=0.9, random_seed=None, idata_kwargs=None, **sample_kwargs)[source]¶

Sample posterior and attach pointwise log-likelihood for IC metrics.

The SDM Tobit model uses pm.Potential for both the residual log-likelihood and the Jacobian, so nothing is auto-captured. We compute the complete pointwise log-likelihood manually after sampling, using the Tobit censoring formula:

Uncensored: log N(y | mu, sigma^2)
Censored: log Phi((c - mu) / sigma)

where mu = rho*Wy* + Z@beta.

fitted_values()[source]¶

Return fitted values at posterior mean parameters.

Returns:¶: Posterior-mean fitted values.
Return type:¶: np.ndarray

property inference_data : arviz.data.inference_data.InferenceData | None[source]¶

Return the ArviZ InferenceData from the most recent fit.

Returns:¶: The inference data object, or None if the model has not been fit yet.
Return type:¶: arviz.InferenceData or None

property pymc_model : pymc.model.core.Model | None[source]¶

Return the PyMC model object built for the most recent fit.

For Gibbs-fitted models the PyMC model is not constructed during sampling; it is built lazily on first access so that downstream consumers (e.g. bridge sampling for marginal likelihoods) can evaluate logp and the prior under the same model definition used by the NUTS path.

Returns:¶: The model object used by fit(), or None if the instance has not been fit yet.
Return type:¶: pymc.Model or None

residuals()[source]¶

Return residuals on the observed scale.

Returns:¶: Residual vector y - fitted_values.
Return type:¶: np.ndarray

spatial_diagnostics()[source]¶

Run Bayesian LM specification tests and return a summary table.

Looks up the diagnostic suite registered for this model class and calls each test function on this fitted model, collecting the results into a tidy DataFrame. The set of tests depends on the model type — for example, an OLS model runs LM-Lag, LM-Error, LM-SDM-Joint, and LM-SLX-Error-Joint, while an SAR model runs LM-Error, LM-WX, and Robust-LM-WX.

Requires the model to have been fit (.fit() called) and a spatial weights matrix W to have been supplied at construction time.

Returns:¶

DataFrame indexed by test name with columns:

Column	Description
statistic	Posterior mean of the LM statistic
median	Posterior median of the LM statistic
df	Degrees of freedom for the \(\chi^2\) reference
p_value	Bayesian p-value: `1 - chi2.cdf(mean, df)`
ci_lower	Lower bound of 95% credible interval (2.5%)
ci_upper	Upper bound of 95% credible interval (97.5%)

The DataFrame has attrs["model_type"] (class name) and attrs["n_draws"] (total posterior draws) metadata.

Return type:¶

pandas.DataFrame

Raises:¶

RuntimeError – If the model has not been fit yet.
ValueError – If no spatial weights matrix W was supplied.

See also

spatial_diagnostics_decision: Model-selection decision based on the test results.
spatial_effects: Posterior inference for direct/indirect/total impacts.

Examples

>>> ols = OLS(formula="price ~ income + crime", data=df, W=w)
>>> ols.fit()
>>> ols.spatial_diagnostics()
                 statistic  median  df  p_value  ci_lower  ci_upper
LM-Lag                3.21    2.98   1    0.073      0.12      8.54
LM-Error              5.67    5.34   1    0.017      0.34     12.10
LM-SDM-Joint          7.89    7.12   4    0.096      1.23     18.32
LM-SLX-Error-Joint    6.45    5.98   4    0.168      0.89     15.67

spatial_diagnostics_decision(alpha=0.05, format='graphviz')[source]¶

Return a model-selection decision from Bayesian LM test results.

Implements the decision tree from Koley and Bera [2024] (the Bayesian analogue of the classical stge_kb procedure in Anselin et al. [1996]). The decision logic depends on the current model type and the pattern of significant tests:

From OLS (6-test decision tree):

If only LM-Lag is significant → SAR.
If only LM-Error is significant → SEM.
If both are significant → use the Anselin–Florax / Koley–Bera robust pair: Robust-LM-Lag → SAR, Robust-LM-Error → SEM, both → SARAR. If neither robust test is significant, fall back to the lower raw p-value.
If neither naive test is significant → OLS.

From SAR (3-test decision tree):

LM-Error significant → SARAR; LM-WX significant → SDM; Robust-LM-WX significant → SDM.

From SEM (2-test decision tree):

LM-Lag significant → SARAR; LM-WX significant → SDEM.

From SLX (4-test decision tree):

Robust-LM-Lag-SDM significant → SDM; Robust-LM-Error-SDEM significant → SDEM; both → MANSAR; neither → SLX.

From SDM: LM-Error-SDM significant → MANSAR; else SDM.

From SDEM: LM-Lag-SDEM significant → MANSAR; else SDEM.

Parameters:¶

alpha : float, default 0.05¶: Significance level for the Bayesian p-values.
format : {"graphviz", "ascii", "model"}, default "graphviz"¶: Output format. "model" returns the recommended-model name string. "ascii" returns an indented box-drawing rendering of the full decision tree with the chosen path highlighted. "graphviz" returns a graphviz.Digraph object that renders inline in Jupyter; if the optional graphviz package is not installed a UserWarning is issued and the ASCII rendering is returned instead.

Returns:¶

Recommended model name when format="model", an ASCII tree string when format="ascii", or a graphviz.Digraph when format="graphviz" (with ASCII fallback on missing dep).

Return type:¶

str or graphviz.Digraph