Add to ORKGWe study the decidability and complexity of verification problems for infinite-state systems. A fundamental question in formal verification is if the behaviour of one process is reproducible by another. This inclusion problem can be studied for various models of computation and behavioural preorders. It is generally intractable or even undecidable already for very limited computational models. The aim of this work is to clarify the status of the decidability and complexity of some well-known inclusion problems for suitably restricted computational models. In particular, we address the problems of checking strong and weak simulation and trace inclusion for processes definable by one-counter automata (OCA), that consist of a finite co...
One-Counter Nets (OCNs) are finite-state automata equipped with a counter that is not allowed to bec...
We present a general method for proving DP-hardness of problems related to formal ver-ification of o...
Model checking is a fully-automatic formal verification method that has been extremely successful i...
One-counter nets (OCN) are finite automata equipped with a counter that can store non-negative integ...
Abstract. One-counter nets (OCN) consist of a nondeterministic finite control and a single integer c...
One-counter nets (OCN) are Petri nets with exactly one unbounded place. They are equivalent to a sub...
AbstractWe present a general method for proving DP-hardness of problems related to formal verificati...
In a one-counter automaton (OCA), one can produce a letter from some finite alphabet, increment and ...
One-counter nets (OCN) are Petri nets with exactly one unbounded place. They are equiv-alent to a su...
Theoretical and practical aspects of the verification of infinite-state systems have attracted a lot...
This thesis is about the verification problem of systems having an infinite number of states. These ...
We answer an open complexity question by Hofman, Lasota, Mayr, Totzke (LMCS 2016) for simulation pre...
We investigate the possibility of (bi)simulation-like preorder/equivalence checking on the class of ...
Model checking is a fully-automatic formal verification method that has been extremely successful in...
Abstract—One-counter processes are pushdown systems over a singleton stack alphabet (plus a stack-bo...
One-Counter Nets (OCNs) are finite-state automata equipped with a counter that is not allowed to bec...
We present a general method for proving DP-hardness of problems related to formal ver-ification of o...
Model checking is a fully-automatic formal verification method that has been extremely successful i...
One-counter nets (OCN) are finite automata equipped with a counter that can store non-negative integ...
Abstract. One-counter nets (OCN) consist of a nondeterministic finite control and a single integer c...
One-counter nets (OCN) are Petri nets with exactly one unbounded place. They are equivalent to a sub...
AbstractWe present a general method for proving DP-hardness of problems related to formal verificati...
In a one-counter automaton (OCA), one can produce a letter from some finite alphabet, increment and ...
One-counter nets (OCN) are Petri nets with exactly one unbounded place. They are equiv-alent to a su...
Theoretical and practical aspects of the verification of infinite-state systems have attracted a lot...
This thesis is about the verification problem of systems having an infinite number of states. These ...
We answer an open complexity question by Hofman, Lasota, Mayr, Totzke (LMCS 2016) for simulation pre...
We investigate the possibility of (bi)simulation-like preorder/equivalence checking on the class of ...
Model checking is a fully-automatic formal verification method that has been extremely successful in...
Abstract—One-counter processes are pushdown systems over a singleton stack alphabet (plus a stack-bo...
One-Counter Nets (OCNs) are finite-state automata equipped with a counter that is not allowed to bec...
We present a general method for proving DP-hardness of problems related to formal ver-ification of o...
Model checking is a fully-automatic formal verification method that has been extremely successful i...