TR2026-063
Robust Controllable Set Computation using Constrained Convex Generators
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- , "Robust Controllable Set Computation using Constrained Convex Generators", American Control Conference (ACC), May 2026.BibTeX TR2026-063 PDF
- @inproceedings{Silvestre2026may,
- author = {Silvestre, Daniel and Vinod, Abraham P.},
- title = {{Robust Controllable Set Computation using Constrained Convex Generators}},
- booktitle = {American Control Conference (ACC)},
- year = 2026,
- month = may,
- url = {https://www.merl.com/publications/TR2026-063}
- }
- , "Robust Controllable Set Computation using Constrained Convex Generators", American Control Conference (ACC), May 2026.
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Research Areas:
Abstract:
Robust Controllable (RC) sets enable safe control of dynamical systems under constraints and uncertainty. Existing approaches typically rely on polytopic representations for the computation of these sets, which suffer from conser- vativeness and scalability issues. Recently, Constrained Convex Generators (CCGs) were proposed to allow set-based control and analysis in presence of both ellipsoidal and polytopic state- input constraints. However, the computation of RC sets using CCGs is currently hindered because the Pontryagin difference set operation has not been developed for CCGs. In this paper, we provide theory and algorithms to address this challenge, and enable safe control under uncertainty using RC sets and CCGs. Specifically, we propose an inner approximation for the RC set using a CCG description. We show in simulations that the proposed approach improves accuracy and memory usage when compared to computations with polytopic approximations.
Related News & Events
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NEWS MERL researchers present 8 papers at ACC 2026 Date: May 26, 2026 - May 29, 2026
Where: New Orleans, USA
MERL Contacts: Scott A. Bortoff; Vedang M. Deshpande; Stefano Di Cairano; Christopher R. Laughman; Jordan Leung; Hongtao Qiao; Zhaolin Ren; Abraham P. Vinod; Yebin Wang
Research Areas: Control, Dynamical Systems, Optimization, RoboticsBrief- MERL researchers presented 8 papers at the recently concluded American Control Conference (ACC) 2026 in New Orleans, USA. The papers covered a wide range of topics including robust controllable set computation, vapor compression cycle calibration, task-reasoning LLM agents, Minkowski-cost stable MPC, polynomial chaos approximation, invariant-set motion planning, heat-pump MPC architectures, and relaxed barrier-function MPC. Additionally, Zhaolin Ren was an invited speaker at Multi-Agent Dynamic Games workshop, and Abraham Vinod served as a panelist at the Professional Development and Career Advice for Young Professionals session.
As a sponsor of the conference, MERL maintained a booth for open discussions with researchers and students, and hosted a special session to discuss highlights of MERL research and work philosophy.
- MERL researchers presented 8 papers at the recently concluded American Control Conference (ACC) 2026 in New Orleans, USA. The papers covered a wide range of topics including robust controllable set computation, vapor compression cycle calibration, task-reasoning LLM agents, Minkowski-cost stable MPC, polynomial chaos approximation, invariant-set motion planning, heat-pump MPC architectures, and relaxed barrier-function MPC. Additionally, Zhaolin Ren was an invited speaker at Multi-Agent Dynamic Games workshop, and Abraham Vinod served as a panelist at the Professional Development and Career Advice for Young Professionals session.
