The overall goal of this paper is to investigate the theoretical foundations of algorithmic verification techniques for first order linear logic specifications. The fragment of linear logic we consider in this paper is based on the linear logic programming language called LO (Andreoli and Pareschi, 1990) enriched with universally quantified goal formulas. Although LO was originally introduced as a theoretical foundation for extensions of logic programming languages, it can also be viewed as a very general language to specify a wide range of infinite-state concurrent systems (Andreoli, 1992; Cervesato, 1995). Our approach is based on the relation between backward reachability and provability highlighted in our previous work on propositional ...
AbstractA Linear Logic automaton is a hybrid of a finite automaton and a non-deterministic Petri net...
Model checking linear-time properties expressed in first-order logic has non-elementary complexity, ...
We present a new method for verifying Linear Temporal Logic (LTL) properties of finite state reacti...
The overall goal of this paper is to investigate the theoretical foudations of algorithmic verificat...
In this paper we investigate the theoretical foundation of a new bottom-up semantics for linear logi...
The operational semantics of linear logic programming languages is given in terms of goal-driven se...
As specifications and verifications of concurrent systems employ Linear Temporal Logic (LTL), it is ...
In this thesis, we study the close links between linear logic and on current constraint programming,...
Model checking linear-time properties expressed in first-order logic hasnon-elementary complexity, a...
Formal verification techniques such as theorem proving, runtime verification, and model checking hav...
Summary. This article provides the definition of linear temporal logic (LTL) and its properties rele...
We show that Constraint Logic Programming (CLP) can serve as a conceptual basis and as a practical i...
AbstractLoop checking mechanisms are used to detect and prune infinite SLD derivations, through run ...
In this paper we investigate the applicability of a bottom-up evaluation strategy for a first order ...
. We propose an algorithm for LTL model checking based on the classification of the automata and on ...
AbstractA Linear Logic automaton is a hybrid of a finite automaton and a non-deterministic Petri net...
Model checking linear-time properties expressed in first-order logic has non-elementary complexity, ...
We present a new method for verifying Linear Temporal Logic (LTL) properties of finite state reacti...
The overall goal of this paper is to investigate the theoretical foudations of algorithmic verificat...
In this paper we investigate the theoretical foundation of a new bottom-up semantics for linear logi...
The operational semantics of linear logic programming languages is given in terms of goal-driven se...
As specifications and verifications of concurrent systems employ Linear Temporal Logic (LTL), it is ...
In this thesis, we study the close links between linear logic and on current constraint programming,...
Model checking linear-time properties expressed in first-order logic hasnon-elementary complexity, a...
Formal verification techniques such as theorem proving, runtime verification, and model checking hav...
Summary. This article provides the definition of linear temporal logic (LTL) and its properties rele...
We show that Constraint Logic Programming (CLP) can serve as a conceptual basis and as a practical i...
AbstractLoop checking mechanisms are used to detect and prune infinite SLD derivations, through run ...
In this paper we investigate the applicability of a bottom-up evaluation strategy for a first order ...
. We propose an algorithm for LTL model checking based on the classification of the automata and on ...
AbstractA Linear Logic automaton is a hybrid of a finite automaton and a non-deterministic Petri net...
Model checking linear-time properties expressed in first-order logic has non-elementary complexity, ...
We present a new method for verifying Linear Temporal Logic (LTL) properties of finite state reacti...