We present a distance-agnostic approach to quantitative verification. Taking as input an unspec-ified distance on system traces, or executions, we develop a game-based framework which allows us to define a spectrum of different interesting system distances corresponding to the given trace distance. Thus we extend the classic linear-time–branching-time spectrum to a quantitative set-ting, parametrized by trace distance. We also provide fixed-point characterizations of all system distances, and we prove a general transfer principle which allows us to transfer counterexamples from the qualitative to the quantitative setting, showing that all system distances are mutually topologically inequivalent
We introduce quantitative timed refinement and timed simulation (directed) metrics, incorporating ze...
Simulation and bisimulation metrics for stochastic systems provide a quantitative generalization of ...
AbstractBoolean notions of correctness are formalized by preorders on systems. Quantitative measures...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
International audienceWe present a distance-agnostic approach to quantitative verification. Taking a...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
We lay out a general method for computing branching distances between labeled transition systems. We...
We lay out a general method for computing branching distances between labeled transition systems. We...
International audienceWe develop a general framework for reasoning about distances between transitio...
We lay out a general method for computing branching distances between labeled transition systems. We...
We extend the basic system relations of trace inclusion, trace equivalence, simulation, and bisimula...
We extend the basic system relations of trace inclusion, trace equivalence, simulation, and bisimula...
We develop a general framework for reasoning about distances between transition systems with quan-ti...
We extend the classical system relations of trace inclusion, trace equivalence, simulation, and bisi...
We introduce quantitative timed refinement and timed simulation (directed) metrics, incorporating ze...
Simulation and bisimulation metrics for stochastic systems provide a quantitative generalization of ...
AbstractBoolean notions of correctness are formalized by preorders on systems. Quantitative measures...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
International audienceWe present a distance-agnostic approach to quantitative verification. Taking a...
We present a distance-agnostic approach to quantitative verification. Taking as input an unspecified...
We lay out a general method for computing branching distances between labeled transition systems. We...
We lay out a general method for computing branching distances between labeled transition systems. We...
International audienceWe develop a general framework for reasoning about distances between transitio...
We lay out a general method for computing branching distances between labeled transition systems. We...
We extend the basic system relations of trace inclusion, trace equivalence, simulation, and bisimula...
We extend the basic system relations of trace inclusion, trace equivalence, simulation, and bisimula...
We develop a general framework for reasoning about distances between transition systems with quan-ti...
We extend the classical system relations of trace inclusion, trace equivalence, simulation, and bisi...
We introduce quantitative timed refinement and timed simulation (directed) metrics, incorporating ze...
Simulation and bisimulation metrics for stochastic systems provide a quantitative generalization of ...
AbstractBoolean notions of correctness are formalized by preorders on systems. Quantitative measures...