Wrapper for experiments that do not have gym interface. Interfaces with custom-defined dynamics and controllers / policies. Facilitates parallelizing experiments either during training validation or testing. Inspired by Neural CLBF package from MIT REALM.

The package and its dependencies can be installed from pypi using pip install experiment-wrapper link.

Users can also fork this repository and clone it locally and install requirements from requirements.txt file or using the pip install -e . command.

The Experiment class and ExperimentSuite class provide the generic API to set up any type of experiment. An experiment is anything that tests the behavior / performance of a controller / policy. The Experiment class is used to set up one experiment and run / save / plot it. The ExperimentSuite class is used to run multiple experiments in parallel.

A single experiment consists of running multiple policies, from multiple different initial conditions, under multiple scenarios (e.g. different instantiations of the uncertain parameters), with multiple rollouts (e.g. for stochastic policies / environments / measurements / dynamics).

Running an experiment requires having a Dynamics class and a callable Controller (class or function) that takes a state and returns an action. Templates for these two classes are provided in the experiment_wrapper/__init__.py file.

Possible types of experiments include:

• Log the accumulated reward of a policy on different scenarios and different initial conditions.
• Log the failure rate of a policy on different scenarios and different initial conditions.
• Log the state space evolution of a policy on different scenarios and different initial conditions.

The rollout_trajectory.py file contains classes that log (at least) the states and controls of the dynamics and its policy over time. An example of its implementation using CBFs to solve an Adaptive Cruise Control problem is provided in the cbf_opt repository.

Aside from the specific TODOs scattered throughout the codebase, a few general TODOs:

• Test functionality with torch.Tensor()'s
• Add an example in this repo for clarification
• Think about the ExperimentSuite functionality!