Talk of Prof. Saša V. Raković

February 4, 2020

--- Minkowski, Lyapunov, and Bellman: Inequalities and Equations for Stability and Optimal Control

Time: February 4, 2020
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Prof. Saša V. Raković
School of Automation
Beijing Institute of Technology, China  

  

Tuesday 2020-02-04 16:00
IST-Seminar-Room V9.2.255 - Pfaffenwaldring 9 - Campus Stuttgart-Vaihingen

Abstract

The algebraic Lyapunov and Bellman equations, and inequalities, are cornerstone objects in linear systems theory. These equations, and inequalities, are concerned with convex quadratic functions verifying stability in case of Lyapunov equation and providing optimality in case of Bellman equation. Rather peculiarly, very little had been known about Lyapunov and Bellman equations, and inequalities, within space of Minkowski functions of nonempty convex compact subsets containing the origin in their interior prior to my work in the area. Key results of my related research on these fundamental problems have provided characterization of solutions to both Lyapunov and Bellman equations within space of Minkowski functions, referred to as the Minkowski–Lyapunov and Minkowski–Bellman equations. The talk outlines key results underpinning these two fundamental equations and related inequalities, and draws parallel to classical results on algebraic Lyapunov and Bellman equations and inequalities.  

Biographical Information

Saša V. Raković received the PhD degree in Control Theory from Imperial College London. His PhD research was awarded the Eryl Cadwaladr Davies Prize 2005 as the best PhD thesis in the EEE Department of Imperial College. He has been affiliated with a number of universities worldwide, including, inter alia, Imperial College London, ETH Zürich and Oxford University. He is currently a professor with the School of Automation at Beijing Institute of Technology. Saša V. Raković’s main interests and contributions lie within the areas of synthesis of control systems, analysis of dynamical systems, and decision making under constraints and uncertainty.  

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