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arxiv: 2001.02244 · v1 · pith:3TIE3ISF · submitted 2020-01-07 · math.OC · cs.LG· cs.SY· eess.SY

Infinite-Horizon Differentiable Model Predictive Control

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classification math.OC cs.LGcs.SYeess.SY
keywords learningcontributioncontrolcontrollercostdaredifferentiableensures
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This paper proposes a differentiable linear quadratic Model Predictive Control (MPC) framework for safe imitation learning. The infinite-horizon cost is enforced using a terminal cost function obtained from the discrete-time algebraic Riccati equation (DARE), so that the learned controller can be proven to be stabilizing in closed-loop. A central contribution is the derivation of the analytical derivative of the solution of the DARE, thereby allowing the use of differentiation-based learning methods. A further contribution is the structure of the MPC optimization problem: an augmented Lagrangian method ensures that the MPC optimization is feasible throughout training whilst enforcing hard constraints on state and input, and a pre-stabilizing controller ensures that the MPC solution and derivatives are accurate at each iteration. The learning capabilities of the framework are demonstrated in a set of numerical studies.

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