statsmodels.tsa.statespace.simulation_smoother.SimulationSmoother.simulate

SimulationSmoother.simulate(nsimulations, measurement_shocks=None, state_shocks=None, initial_state=None, pretransformed_measurement_shocks=True, pretransformed_state_shocks=True, pretransformed_initial_state=True, simulator=None, return_simulator=False, random_state=None)

Simulate a new time series following the state space model

Parameters:
nsimulationsint

The number of observations to simulate. If the model is time-invariant this can be any number. If the model is time-varying, then this number must be less than or equal to the number

measurement_shocksarray_like, optional

If specified, these are the shocks to the measurement equation, \(\varepsilon_t\). If unspecified, these are automatically generated using a pseudo-random number generator. If specified, must be shaped nsimulations x k_endog, where k_endog is the same as in the state space model.

state_shocksarray_like, optional

If specified, these are the shocks to the state equation, \(\eta_t\). If unspecified, these are automatically generated using a pseudo-random number generator. If specified, must be shaped nsimulations x k_posdef where k_posdef is the same as in the state space model.

initial_statearray_like, optional

If specified, this is the state vector at time zero, which should be shaped (k_states x 1), where k_states is the same as in the state space model. If unspecified, but the model has been initialized, then that initialization is used. If unspecified and the model has not been initialized, then a vector of zeros is used. Note that this is not included in the returned simulated_states array.

pretransformed_measurement_shocksbool, optional

If measurement_shocks is provided, this flag indicates whether it should be directly used as the shocks. If False, then it is assumed to contain draws from the standard Normal distribution that must be transformed using the obs_cov covariance matrix. Default is True.

pretransformed_state_shocksbool, optional

If state_shocks is provided, this flag indicates whether it should be directly used as the shocks. If False, then it is assumed to contain draws from the standard Normal distribution that must be transformed using the state_cov covariance matrix. Default is True.

pretransformed_initial_statebool, optional

If initial_state is provided, this flag indicates whether it should be directly used as the initial_state. If False, then it is assumed to contain draws from the standard Normal distribution that must be transformed using the initial_state_cov covariance matrix. Default is True.

return_simulatorbool, optional

Whether or not to return the simulator object. Typically used to improve performance when performing repeated sampling. Default is False.

random_state{None, int, Generator, RandomState}, optionall

If seed is None (or np.random), the numpy.random.RandomState singleton is used. If seed is an int, a new RandomState instance is used, seeded with seed. If seed is already a Generator or RandomState instance then that instance is used.

Returns:
simulated_obsndarray

An (nsimulations x k_endog) array of simulated observations.

simulated_statesndarray

An (nsimulations x k_states) array of simulated states.

simulatorSimulationSmoothResults

If return_simulator=True, then an instance of a simulator is returned, which can be reused for additional simulations of the same size.


Last update: Dec 23, 2024