Session | ||
MS1: Distributed Control and Optimization: Theory and Applications
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Session Abstract | ||
In recent times, advancements in network technology, mobile computation, and distributed computer architectures have had a deep impact on control and decision making and, thereby, on applications such as smart mechatronic systems. Progress in theory and methods for distributed control and optimization continues to be the key enabler to exploit these technological advancements to arrive at better systems. This minisymposium gives insight into distributed control and optimization methods that navigate the tradeoffs between efficient, resilient computation, provable theoretical properties like convergence and stability of control loops, and requirements arising from physical applications. Since most applications cannot be thought of without the physical domain, e.g., mechanics for robotic systems, the minisymposium encourages discussions between the disciplines. The minisymposium brings together experts from the mathematical field of distributed control and optimization as well as from application-oriented research. Applications range from networks of mechanical systems such as robots to more abstract problems that can be solved by distributed optimization, e.g., the distributed solution of very large-scale decision-making problems. The minisymposium aims to facilitate a dialogue between applied mathematicians and engineers to develop a joint understanding of the chances presented by the current state of theoretical research and the challenges posed by today's and future applications. Hence, the minisymposium caters to an audience ranging from mechanics and robotics to control theory and mathematics. | ||
Presentations | ||
2:00pm - 2:20pm
Distributed optimal feedback control and neural networks University of Bayreuth 2:20pm - 2:40pm
NMPC for Cyber-Physical Systems – Decentralized Algorithms for Dynamic Real-Time Collaboration TU Dortmund University 2:40pm - 3:00pm
Distributed control of nonlinear constrained multi-agent systems: A tracker-planner framework using local model predictive controllers and Voronoi partitions ETH Zurich 3:00pm - 3:20pm
A Fixed-Point Iteration Scheme for Sensitivity-Based Distributed Optimal Control FAU Erlangen-Nürnberg 3:20pm - 3:40pm
Sensitivity Analysis of the Performance of a Distributed MPC Scheme on an Occupancy Grid in Combination with Priority Rules Fulda University of Applied Sciences 3:40pm - 4:00pm
Distributed Control Under Attack: Identifying Anomalous Behavior with Inverse Optimal-Control University of Stuttgart |