International audienceWe introduce a new method to compute non-convex invariants of numerical programs, which includes the class of switched affine systems with affine guards. We obtain disjunctive and non-convex invariants by associating different partial execution traces with different ellipsoids. A key ingredient is the solution of non-monotone fixed points problems over the space of ellipsoids with a reduction to small size linear matrix inequalities. This allows us to analyze instances that are inaccessible in terms of expressivity or scale by earlier methods based on semi-definite programming
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral (robustly) positiv...
International audienceWe introduce a new method to compute non-convex invariants of numerical progra...
International audienceWe present a new numerical abstract domain based on ellip-soids designed for t...
Program invariants are important for defect detection, pro-gram verification, and program repair. Ho...
A method for computing invariant sets of piecewise affine systems is presented. The method is based ...
Computing control invariant sets is paramount in many applications. The families of sets commonly us...
Computing control invariant sets is paramount in many applications. The families of sets commonly us...
We exhibit an algorithm to compute the strongest polynomial (or algebraic) invariants that hold at e...
We study the problem of computing the maximal admissible positively invariant set for discrete time ...
We consider the problem of computing the maximal invariant set of discrete-time linear systems subje...
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral (robustly) positiv...
International audienceWe introduce a new method to compute non-convex invariants of numerical progra...
International audienceWe present a new numerical abstract domain based on ellip-soids designed for t...
Program invariants are important for defect detection, pro-gram verification, and program repair. Ho...
A method for computing invariant sets of piecewise affine systems is presented. The method is based ...
Computing control invariant sets is paramount in many applications. The families of sets commonly us...
Computing control invariant sets is paramount in many applications. The families of sets commonly us...
We exhibit an algorithm to compute the strongest polynomial (or algebraic) invariants that hold at e...
We study the problem of computing the maximal admissible positively invariant set for discrete time ...
We consider the problem of computing the maximal invariant set of discrete-time linear systems subje...
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral positively invaria...
This paper presents a new (geometrical) approach to the computation of polyhedral (robustly) positiv...