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Continuous Actor Critic algorithm with Trajectory Optimization

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CACTO: Continuous Actor-Critic algorithm with Trajectory Optimization

Files:

  • main implements CACTO with state = [x,t]. Inputs: test-n, system-id, seed, recover-training-flag, nb-cpus, and w-S.
  • TO implements the TO problem of the selected system whose end effector has to reach a target state while avoiding an obstacle and ensuring low control effort. The TO problem is modelled in CasADi and solved with ipopt.
  • RL implements the acotr-critic RL problem of the selected system whose end effector has to reach a target state while avoiding an obstacle and ensuring low control. It creates the state trajectory and controls to initialize TO.
  • NeuralNetwork contains the functions to create the NN-models and to compute the quantities needed to update them.
  • environment contains the functions of the selected system (reset, step, and get-end-effector-position functions).
  • environment_TO contains the functions of the selected system implemented with CasADi (step, and get-end-effector-position functions).
  • replay_buffer implements a reply buffer where to store and sample transitions. It implements also a prioritized version of the replay buffer using a segment tree structure implemented in segment_tree to efficiently calculate the cumulative probability needed to sample.
  • robot_utils implements the dynamics of the selected system with Pinocchio.
  • plot contains the plot functions
  • system_conf configures the training for the selected system.
  • urdf contains system URDF file (double integrator and manipulator).

Systems: single integrator (system-id: single_integrator), double integrator (system-id: double_integrator), car (system-id: 'car'), car_park (system-id: 'car_park'), and 3 DOF planar manipulator (system-id: manipulator)

Inputs:

Argument Name Type Default Choices Help
--test-n int 0 Test number
--seed int 0 Random and tf.random seed
--system-id str 'single_integrator' single_integrator, double_integrator, car, car_park, manipulator, ur5 System-id (single_integrator, double_integrator, car, car_park, manipulator, ur5)
--recover-training-flag bool False True, False Flag to recover training
--nb-cpus int 2 Number of TO problems solved in parallel
--w-S float 0 Sobolev training - weight of the value related error

Example of usage:

python3 main.py --system-id='single_integrator' --seed=0 --nb-cpus=15 --w-S=1e-2 --test-n=0

  • The "single_integrator" system is selected;
  • All the seeds are set to 0;
  • 15 TO problems are solved in parallel (if enough resources are available);
  • The weight of the value-error is set to 1e-2 (the value-gradient-error is set to 1). Note that w-S=0 corresponds to the standard CACTO algorithm (without Sobolev-Learning);
  • The information about the test and the results are stored in the folder N_try_0.

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