Symbolic-Numeric Methods for Reliable and Trustworthy Problem Solving in Cyber-Physical Domains

Reflecting the fundamental role numeric and mixed symbolic-numeric arguments play in the analysis, decision making, and control of cyber-physical processes, this seminar promoted crossfertilization between the following research areas relevant to problem solving in cyber-physical domains: verification of numerical reactive systems such as embedded floating-point programs and hybrid systems, including novel means of error-propagation analysis; numerical and/or symbolic methods such as verified integrations, interval methods and arithmetic constraint solving; reactive and in-advance planning and optimization methods in complexly constrained spaces, robotics, astrodynamics and more. This combination of up to now only loosely coupled areas shed light on how advanced numerical methods can help improve the state of the art in rigorously interpreting and controlling cyber-physical phenomena. It naturally included the broad set of domain-specific solutions to the pertinent issues of performance impact of error propagation and control in various schemes of numeric and blended symbolic-numeric computation. Seminar December 4–9, 2016 – http://www.dagstuhl.de/16491 1998 ACM Subject Classification D.2.4 Software/Program Verification, F.4.1 Mathematical Logic, G.1.7 Ordinary Differential Equations