1. An Implicit and Explicit Dual Model Predictive Control Formulation for a Steel Recycling Process
- Author
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Ghezzi, Andrea, Messerer, Florian, Balocco, Jacopo, Manzoni, Vincenzo, and Diehl, Moritz
- Subjects
Mathematics - Optimization and Control - Abstract
We present a formulation for both implicit and explicit dual model predictive control for a steel recycling process. The process consists in the production of new steel by choosing a combination of several different steel scraps with unknown pollutant content. The pollutant content can only be measured after a scrap combination is molten, allowing for inference on the pollutants in the different scrap heaps. The production cost should be minimized while ensuring high quality of the product through constraining the maximum amount of pollutant. The dual control formulation allows to achieve the optimal explore-exploit trade-off between uncertainty reduction and cost minimization for the examined problem. Specifically, the dual effect is obtained by considering the dependence of the future pollutant uncertainties on the scrap selection in the predictions. The implicit formulation promotes uncertainty reduction indirectly via the impact of active constraints on the objective, while the explicit formulation adds a heuristic cost on uncertainty to encourage active exploration. We compare the formulations by numerical simulations of a simplified but representative industrial steel recycling process. The results demonstrate the superiority of the two dual formulations with respect to a robustified but non-dual formulation., Comment: Rejected by IEEE Conference on Decision and Control 2022 (CDC 22) Submitted after major changes based on reviewers indications to IEEE European Control Conference 2023 (ECC23)
- Published
- 2022