Add to ORKGIn this paper, we introduce operators, semantics, and conditions that, when possible, are solution-independent to guarantee basic temporal logic specifications for hybrid dynamical systems. Employing sufficient conditions for forward invariance and finite time attractivity of sets for such systems, we derive such sufficient conditions for the satisfaction of formulas involving temporal operators and atomic propositions. Furthermore, we present how to certify formulas that have more than one operator. Academic examples illustrate the results throughout the paper
International audienceIn this paper, we propose sufficient conditions to guarantee that a linear tem...
We propose a methodology for the specification, verification, and design of hybrid systems. The meth...
This paper proposes a specification language, Hybrid Projection Temporal Logic (HPTL), for the purpo...
In this paper, we introduce operators, semantics, and conditions that, when possible, are solution-i...
This paper introduces operators, semantics, characterizations, and solution-independent conditions t...
This dissertation focuses on developing tools for certifying temporal logic properties in hybrid dyn...
This dissertation focuses on developing tools for certifying temporal logic properties in hybrid dyn...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
21 pages. The technical report accompanying "Certifying the LTL Formula p Until q in Hybrid Systems"...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
International audienceIn this paper, we propose sufficient conditions to guarantee that a linear tem...
We propose a methodology for the specification, verification, and design of hybrid systems. The meth...
This paper proposes a specification language, Hybrid Projection Temporal Logic (HPTL), for the purpo...
In this paper, we introduce operators, semantics, and conditions that, when possible, are solution-i...
This paper introduces operators, semantics, characterizations, and solution-independent conditions t...
This dissertation focuses on developing tools for certifying temporal logic properties in hybrid dyn...
This dissertation focuses on developing tools for certifying temporal logic properties in hybrid dyn...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
In this paper, we introduce tools to verify the satisfaction of temporal logic specifications using ...
21 pages. The technical report accompanying "Certifying the LTL Formula p Until q in Hybrid Systems"...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
In this work we formulate the satisfaction of a (syntactically co-safe) linear temporal logic specif...
International audienceIn this paper, we propose sufficient conditions to guarantee that a linear tem...
We propose a methodology for the specification, verification, and design of hybrid systems. The meth...
This paper proposes a specification language, Hybrid Projection Temporal Logic (HPTL), for the purpo...