sts_local_level_state_space_model | R Documentation |
A state space model (SSM) posits a set of latent (unobserved) variables that
evolve over time with dynamics specified by a probabilistic transition model
p(z[t+1] | z[t])
. At each timestep, we observe a value sampled from an
observation model conditioned on the current state, p(x[t] | z[t])
. The
special case where both the transition and observation models are Gaussians
with mean specified as a linear function of the inputs, is known as a linear
Gaussian state space model and supports tractable exact probabilistic
calculations; see tfd_linear_gaussian_state_space_model
for
details.
The local level model is a special case of a linear Gaussian SSM, in which the
latent state posits a level
evolving via a Gaussian random walk:
level[t] = level[t-1] + Normal(0., level_scale)
sts_local_level_state_space_model( num_timesteps, level_scale, initial_state_prior, observation_noise_scale = 0, initial_step = 0, validate_args = FALSE, allow_nan_stats = TRUE, name = NULL )
num_timesteps |
Scalar |
level_scale |
Scalar (any additional dimensions are treated as batch
dimensions) |
initial_state_prior |
instance of |
observation_noise_scale |
Scalar (any additional dimensions are
treated as batch dimensions) |
initial_step |
Optional scalar |
validate_args |
|
allow_nan_stats |
|
name |
string name prefixed to ops created by this class. Default value: "LocalLevelStateSpaceModel". |
The latent state is [level]
and [level]
is observed (with noise) at each timestep.
The parameters level_scale
and observation_noise_scale
are each (a batch
of) scalars. The batch shape of this Distribution
is the broadcast batch
shape of these parameters and of the initial_state_prior
.
Mathematical Details
The local level model implements a tfp$distributions$LinearGaussianStateSpaceModel
with
latent_size = 1
and observation_size = 1
, following the transition model:
transition_matrix = [[1]] transition_noise ~ N(loc = 0, scale = diag([level_scale]))
which implements the evolution of level
described above, and the observation model:
observation_matrix = [[1]] observation_noise ~ N(loc = 0, scale = observation_noise_scale)
an instance of LinearGaussianStateSpaceModel
.
Other sts:
sts_additive_state_space_model()
,
sts_autoregressive_state_space_model()
,
sts_autoregressive()
,
sts_constrained_seasonal_state_space_model()
,
sts_dynamic_linear_regression_state_space_model()
,
sts_dynamic_linear_regression()
,
sts_linear_regression()
,
sts_local_level()
,
sts_local_linear_trend_state_space_model()
,
sts_local_linear_trend()
,
sts_seasonal_state_space_model()
,
sts_seasonal()
,
sts_semi_local_linear_trend_state_space_model()
,
sts_semi_local_linear_trend()
,
sts_smooth_seasonal_state_space_model()
,
sts_smooth_seasonal()
,
sts_sparse_linear_regression()
,
sts_sum()
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