SHIELD: Scalable Optimal Control with Certification using Duality and Convexity

Abstract

We present SHIELD, a hierarchical algorithm that reduces both the decision-variable dimension and the constraint set in 1-regularized convex programs. From strong convexity and Lagrangian duality, we derive certificates that safely discard constraints and decision variables while guaranteeing that all removed constraints remain satisfied and all removed variables are null. To further accelerate the proposed algorithm, we propose a transformer-based deep neural network to guide the dual certificate inference. We validate SHIELD on stochastic model predictive control (SMPC) in complex, multi-modal traffic scenarios, comparing against a full-dimensional SMPC policy. Numerical simulations demonstrate order-of-magnitude computational speedups while preserving feasibility and closed-loop safety, highlighting the practicality of certifiably safe, lightweight MPC in complex driving scenes.