Differentiable MPC for End-to-end Planning and Control

Brandon Amos; Ivan Jimenez; Jacob Sacks; Byron Boots; J. Zico Kolter

2018 NIPS NeurIPS 2018

Differentiable MPC for End-to-end Planning and Control

Abstract

We present foundations for using Model Predictive Control (MPC) as a differentiable policy class for reinforcement learning. This provides one way of leveraging and combining the advantages of model-free and model-based approaches. Specifically, we differentiate through MPC by using the KKT conditions of the convex approximation at a fixed point of the controller. Using this strategy, we are able to learn the cost and dynamics of a controller via end-to-end learning. Our experiments focus on imitation learning in the pendulum and cartpole domains, where we learn the cost and dynamics terms of an MPC policy class. We show that our MPC policies are significantly more data-efficient than a generic neural network and that our method is superior to traditional system identification in a setting where the expert is unrealizable.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Machine Learning and Reinforcement Learning

🐣 Hot Topic Early Bird — model predictive control

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Brandon Amos , Ivan Jimenez , Jacob Sacks , Byron Boots , J. Zico Kolter

Topics

Artificial Intelligence > Core AI > Planning Reinforcement Learning > Methods > Policy Learning Reinforcement Learning > Applications > Robotics Machine Learning > Learning Types > Reinforcement Learning Artificial Intelligence > Core AI > Robotics

Keywords

reinforcement learning imitation learning model predictive control system identification differentiable programming end-to-end learning control system

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