RandomProcess¶
- class probnum.randprocs.RandomProcess(input_shape, output_shape, dtype, mean=None, cov=None)¶
Bases:
Generic
[InputType
,OutputType
],ABC
Random processes represent uncertainty about a function.
Random processes generalize functions by encoding uncertainty over function values in their covariance function. They can be used to model (deterministic) functions which are not fully known or to define functions with stochastic output.
- Parameters
input_shape – Input shape of the random process.
output_shape – Output shape of the random process.
dtype – Data type of the random process evaluated at an input. If
object
will be converted tonumpy.dtype
.mean – Mean function of the random process.
cov – Covariance function of the random process.
See also
RandomVariable
Random variables.
GaussianProcess
Gaussian processes.
MarkovProcess
Random processes with the Markov property.
Notes
Random processes are assumed to have an (un-/countably) infinite domain. Random processes with a finite index set are represented by
RandomVariable
.Attributes Summary
Covariance function \(k(x_0, x_1)\) of the random process.
Data type of (elements of) the random process evaluated at an input.
Syntactic sugar for
len(input_shape)
.Shape of inputs to the random process.
Mean function \(m(x) := \mathbb{E}[f(x)]\) of the random process.
Syntactic sugar for
len(output_shape)
.Shape of the random process evaluated at an input.
Methods Summary
__call__
(args)Evaluate the random process at a set of input arguments.
marginal
(args)Batch of random variables defining the marginal distributions at the inputs.
push_forward
(args, base_measure, sample)Transform samples from a base measure into samples from the random process.
sample
(rng[, args, size])Sample paths from the random process.
std
(args)Standard deviation function.
var
(args)Variance function.
Attributes Documentation
- cov¶
Covariance function \(k(x_0, x_1)\) of the random process.
\begin{equation} k(x_0, x_1) := \mathbb{E} \left[ (f(x_0) - \mathbb{E}[f(x_0)]) (f(x_1) - \mathbb{E}[f(x_1)])^\top \right] \end{equation}
- dtype¶
Data type of (elements of) the random process evaluated at an input.
- input_ndim¶
Syntactic sugar for
len(input_shape)
.
- input_shape¶
Shape of inputs to the random process.
- mean¶
Mean function \(m(x) := \mathbb{E}[f(x)]\) of the random process.
- output_ndim¶
Syntactic sugar for
len(output_shape)
.
- output_shape¶
Shape of the random process evaluated at an input.
Methods Documentation
- abstract __call__(args)[source]¶
Evaluate the random process at a set of input arguments.
- Parameters
args (InputType) – shape=
batch_shape +
input_shape
– (Batch of) input(s) at which to evaluate the random process. Currently, we requirebatch_shape
to have at most one dimension.- Returns
shape=
batch_shape +
output_shape
– Random process evaluated at the input(s).- Return type
- marginal(args)[source]¶
Batch of random variables defining the marginal distributions at the inputs.
- Parameters
args (InputType) – shape=
batch_shape +
input_shape
– (Batch of) input(s) at which to evaluate the random process. Currently, we requirebatch_shape
to have at most one dimension.- Return type
- push_forward(args, base_measure, sample)[source]¶
Transform samples from a base measure into samples from the random process.
This function can be used to control sampling from the random process by explicitly passing samples from a base measure evaluated at the input arguments.
- Parameters
args (InputType) – Input arguments.
base_measure (Type[RandomVariable]) – Base measure. Given as a type of random variable.
sample (ndarray) – shape=
sample_shape +
input_shape
– (Batch of) input(s) at which to evaluate the random process. Currently, we requiresample_shape
to have at most one dimension.
- Return type
- sample(rng, args=None, size=())[source]¶
Sample paths from the random process.
If no inputs are provided this function returns sample paths which are callables, otherwise random variables corresponding to the input locations are returned.
- Parameters
rng (Generator) – Random number generator.
args (Optional[InputType]) – shape=
size +
input_shape
– (Batch of) input(s) at which the sample paths will be evaluated. Currently, we requiresize
to have at most one dimension. IfNone
, sample paths, i.e. callables are returned.size (ShapeLike) – Size of the sample.
- Return type
- std(args)[source]¶
Standard deviation function.
- Parameters
args (InputType) – shape=
batch_shape +
input_shape
– (Batch of) input(s) at which to evaluate the standard deviation function.- Returns
shape=
batch_shape +
output_shape
– Standard deviation of the process atargs
.- Return type
OutputType
- var(args)[source]¶
Variance function.
Returns the variance function which is the value of the covariance or kernel evaluated elementwise at
args
for each output dimension separately.- Parameters
args (InputType) – shape=
batch_shape +
input_shape
– (Batch of) input(s) at which to evaluate the variance function.- Returns
shape=
batch_shape +
output_shape
– Variance of the process atargs
.- Return type
OutputType