AbstractModal and mixed transition systems are formalisms that allow mixing of over- and under-approximation in a single specification. We show EXPTIME-completeness of three fundamental decision problems for such specifications: whether a set of modal or mixed specifications has a common implementation, whether a sole mixed specification has an implementation, and whether all implementations of one mixed specification are implementations of another mixed or modal one. These results are obtained by a chain of reductions starting with the acceptance problem for linearly bounded alternating Turing machines
Abstract. Almost 20 years after the original conception, we revisit sev-eral fundamental questions a...
The modal mu-calculus is an expressive logic that can be used to specify safety and liveness propert...
Partial specifications allow approximate models of systems such as Kripke structures, or labeled tr...
Modal and mixed transition systems are formalisms that allow mixing of over- and under-approximation...
Abstract. Mixed and modal transition systems are formalisms allow-ing mixing of over- and under-appr...
AbstractModal and mixed transition systems are formalisms that allow mixing of over- and under-appro...
Modal and mixed transition systems are specification formalisms that allow mixing ofover- and under-...
Abstract. We consider decision problems for modal and mixed transi-tion systems used as specificatio...
Twenty years ago, modal and mixed specifications were proposed as abstract models of system behavior...
Modal transition systems (MTS), a specification formalism introduced more than 20 years ago, has rec...
Modal transition systems (MTS), a specification formalism introduced more than 20 years ago, has rec...
This chapter analyzes the development of modal logic within the research framework formulated for a ...
We propose weighted modal transition systems, an extension to the well-studied specification formali...
AbstractWe propose weighted modal transition systems, an extension to the well-studied specification...
We present a new proof-theoretic approach to bounding the complexity of the decision problem for pr...
Abstract. Almost 20 years after the original conception, we revisit sev-eral fundamental questions a...
The modal mu-calculus is an expressive logic that can be used to specify safety and liveness propert...
Partial specifications allow approximate models of systems such as Kripke structures, or labeled tr...
Modal and mixed transition systems are formalisms that allow mixing of over- and under-approximation...
Abstract. Mixed and modal transition systems are formalisms allow-ing mixing of over- and under-appr...
AbstractModal and mixed transition systems are formalisms that allow mixing of over- and under-appro...
Modal and mixed transition systems are specification formalisms that allow mixing ofover- and under-...
Abstract. We consider decision problems for modal and mixed transi-tion systems used as specificatio...
Twenty years ago, modal and mixed specifications were proposed as abstract models of system behavior...
Modal transition systems (MTS), a specification formalism introduced more than 20 years ago, has rec...
Modal transition systems (MTS), a specification formalism introduced more than 20 years ago, has rec...
This chapter analyzes the development of modal logic within the research framework formulated for a ...
We propose weighted modal transition systems, an extension to the well-studied specification formali...
AbstractWe propose weighted modal transition systems, an extension to the well-studied specification...
We present a new proof-theoretic approach to bounding the complexity of the decision problem for pr...
Abstract. Almost 20 years after the original conception, we revisit sev-eral fundamental questions a...
The modal mu-calculus is an expressive logic that can be used to specify safety and liveness propert...
Partial specifications allow approximate models of systems such as Kripke structures, or labeled tr...