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Visible to the public Differential Radical Invariants: Safety Verification and Design of Correct Hybrid Systems

Submitted by kghorbal on Mon, 11/10/2014 - 2:49pm. Contributors:

Abstract:

The verification of hybrid systems requires ways of handling both the discrete and continuous dynamics, e.g., by proofs, abstraction, or approximation. Fundamentally, however, the study of the safety of hybrid systems can be shown to reduce constructively to the problem of generating invariants for their differ- ential equations. We recently focused on this core problem. We study the case of algebraic invariant equation, i.e. invariants described by a polynomial equation of the form p = 0 for a polynomial p.

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Visible to the public Distributed Hybrid Systems Compositionality and Reconfiguration for Distributed Hybrid Systems

Submitted by Andre Platzer on Wed, 10/23/2013 - 11:16am. Contributors:

Abstract:

The project pursues two major goals addressing the verification of cyber-physical systems. Firstly, one goal of this project is to develop theory, practice, and applications of verification techniques for distributed hybrid systems with flexible system structures that can change by reconfiguring the system.

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Visible to the public Compositionality and Reconfiguration for Distributed Hybrid Systems

Submitted by Andre Platzer on Fri, 08/06/2010 - 6:34pm. Contributors:
This research project addresses fundamental challenges in the verification and analysis of distributed hybrid systems.  In particular, we are working to minimize the mismatch between the combinations of dynamics that occur in complex physical systems and the limited kinds of dynamics currently supported in analysis.