Nathalie Cauchi scite author profile

Nathalie Cauchi

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5Publications

149Citation Statements Received

192Citation Statements Given

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Affiliations

University of Oxford, University of Malta, Science Oxford

Publications

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ARCH-COMP18 Category Report: Stochastic Modelling

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This report presents the results of a friendly competition for formal verification and policy synthesis of stochastic models. The friendly competition took place as part of the workshop Applied Verification for Continuous and Hybrid Systems (ARCH) in 2018. In this first edition, we present five benchmarks with different levels of complexities and stochastic flavours. We make use of six different tools and frameworks (in alphabetical order): Barrier Certificates, FAUST2, FIRM-GDTL, Modest, SDCPN modelling & MC simulation and SReachTools; and attempt to solve instances of the five different benchmark problems. Through these benchmarks, we capture a snapshot on the current state-of the art tools and frameworks within the stochastic modelling domain. We also present the challenges encountered within this domain and highlight future plans which will push forward the development of more tools and methodologies for performing formal verification and optimal policy synthesis of stochastic processes.

StocHy - automated verification and synthesis of stochastic processes

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2019

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StocHy is a software tool for the quantitative analysis of discrete-time stochastic hybrid systems (shs). StocHy accepts a high-level description of stochastic models and constructs an equivalent shs model. The tool allows to (i) simulate the shs evolution over a given time horizon; and to automatically construct formal abstractions of the shs. Abstractions are then employed for (ii) formal verification or (iii) control (policy, strategy) synthesis. StocHy allows for modular modelling, and has separate simulation, verification and synthesis engines, which are implemented as independent libraries. This allows for libraries to be easily used and for extensions to be easily built. The tool is implemented in c++ and employs manipulations based on vector calculus, the use of sparse matrices, the symbolic construction of probabilistic kernels, and multi-threading. Experiments show StocHy's markedly improved performance when compared to existing abstraction-based approaches: in particular, StocHy beats state-of-the-art tools in terms of precision (abstraction error) and computational effort, and finally attains scalability to large-sized models (12 continuous dimensions).

Certified policy synthesis for general Markov decision processes: An application in building automation systems

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2017

Performance Evaluation

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ARCH-COMP19 Category Report: Stochastic Modelling

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²

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et al.

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This report presents the results of a friendly competition for formal verification and policy synthesis of stochastic models. It also introduces new benchmarks within this category, and recommends next steps for this category towards next year's edition of the competition. The friendly competition took place as part of the workshop Applied Verification for Continuous and Hybrid Systems (ARCH) in Spring 2019.

Model-based predictive maintenance in building automation systems with user discomfort

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2017

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