Stefan Ratschan scite author profile

This paper deals with the problem of safety verification of nonlinear hybrid systems. We start from a classical method that uses interval arithmetic to check whether trajectories can move over the boundaries in a rectangular grid. We put this method into an abstraction refinement framework and improve it by developing an additional refinement step that employs interval-constraint propagation to add information to the abstraction without introducing new grid elements. Moreover, the resulting method allows switching conditions, initial states, and unsafe states to be described by complex constraints, instead of sets that correspond to grid elements. Nevertheless, the method can be easily implemented, since it is based on a well-defined set of constraints, on which one can run any constraint propagation-based solver. Tests of such an implementation are promising.

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Efficient solving of quantified inequality constraints over the real numbers

Ratschan

2006

TOCL

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Let a quantified inequality constraint over the reals be a formula in the first-order predicate language over the structure of the real numbers, where the allowed predicate symbols are ≤ and <. Solving such constraints is an undecidable problem when allowing function symbols such sin or cos. In the paper we give an algorithm that terminates with a solution for all, except for very special, pathological inputs. We ensure the practical efficiency of this algorithm by employing constraint programming techniques. * This is a revised and extended version of an earlier paper [42]. Please note the changed terminology that should contribute to a wider accessibility of the results.

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Efficient Solving of Large Non-linear Arithmetic Constraint Systems with Complex Boolean Structure1

Fränzle

Herde

Teige

et al. 2007

SAT

178

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In order to facilitate automated reasoning about large Boolean combinations of nonlinear arithmetic constraints involving transcendental functions, we provide a tight integration of recent SAT solving techniques with interval-based arithmetic constraint solving. Our approach deviates substantially from lazy theorem proving approaches in that it directly controls arithmetic constraint propagation from the SAT solver rather than delegating arithmetic decisions to a subordinate solver. Through this tight integration, all the algorithmic enhancements that were instrumental to the enormous performance gains recently achieved in propositional SAT solving carry over smoothly to the rich domain of non-linear arithmetic constraints. As a consequence, our approach is able to handle large constraint systems with extremely complex Boolean structure, involving Boolean combinations of multiple thousand arithmetic constraints over some thousands of variables.

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Providing a Basin of Attraction to a Target Region of Polynomial Systems by Computation of Lyapunov-Like Functions

Ratschan¹,

She²

2010

SIAM J. Control Optim.

101

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In this paper, we present a method for computing a basin of attraction to a target region for polynomial ordinary differential equations. This basin of attraction is ensured by a Lyapunov-like polynomial function that we compute using an interval based branch-and-relax algorithm. This algorithm relaxes the necessary conditions on the coefficients of the Lyapunov-like function to a system of linear interval inequalities that can then be solved exactly. It iteratively refines these relaxations in order to ensure that, whenever a non-degenerate solution exists, it will eventually be found by the algorithm. Application of an implementation to a range of benchmark problems shows the usefulness of the approach.

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Safety Verification of Hybrid Systems by Constraint Propagation Based Abstraction Refinement

Ratschan

She

2005

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Stefan Ratschan

Safety verification of hybrid systems by constraint propagation-based abstraction refinement

Efficient solving of quantified inequality constraints over the real numbers

Efficient Solving of Large Non-linear Arithmetic Constraint Systems with Complex Boolean Structure1

Providing a Basin of Attraction to a Target Region of Polynomial Systems by Computation of Lyapunov-Like Functions

Safety Verification of Hybrid Systems by Constraint Propagation Based Abstraction Refinement

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