Data-driven and Model-based Verification: a Bayesian Identification Approach

S. Haesaert; P.M.J. Van den Hof; A. Abate

Data-driven and Model-based Verification: a Bayesian Identification Approach

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Abstract

This work develops a measurement-driven and model-based formal verification approach, applicable to systems with partly unknown dynamics. We provide a principled method, grounded on reachability analysis and on Bayesian inference, to compute the confidence that a physical system driven by external inputs and accessed under noisy measurements, verifies a temporal logic property. A case study is discussed, where we investigate the bounded- and unbounded-time safety of a partly unknown linear time invariant system.

Original language	English
Journal	arXiv
Volume	abs/1509.03347
Publication status	Published - 10 Sept 2015

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title = "Data-driven and Model-based Verification: a Bayesian Identification Approach",

abstract = "This work develops a measurement-driven and model-based formal verification approach, applicable to systems with partly unknown dynamics. We provide a principled method, grounded on reachability analysis and on Bayesian inference, to compute the confidence that a physical system driven by external inputs and accessed under noisy measurements, verifies a temporal logic property. A case study is discussed, where we investigate the bounded- and unbounded-time safety of a partly unknown linear time invariant system.",

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author = "S. Haesaert and \{Van den Hof\}, P.M.J. and A. Abate",

year = "2015",

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language = "English",

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T1 - Data-driven and Model-based Verification

T2 - a Bayesian Identification Approach

AU - Haesaert, S.

AU - Van den Hof, P.M.J.

AU - Abate, A.

PY - 2015/9/10

Y1 - 2015/9/10

N2 - This work develops a measurement-driven and model-based formal verification approach, applicable to systems with partly unknown dynamics. We provide a principled method, grounded on reachability analysis and on Bayesian inference, to compute the confidence that a physical system driven by external inputs and accessed under noisy measurements, verifies a temporal logic property. A case study is discussed, where we investigate the bounded- and unbounded-time safety of a partly unknown linear time invariant system.

AB - This work develops a measurement-driven and model-based formal verification approach, applicable to systems with partly unknown dynamics. We provide a principled method, grounded on reachability analysis and on Bayesian inference, to compute the confidence that a physical system driven by external inputs and accessed under noisy measurements, verifies a temporal logic property. A case study is discussed, where we investigate the bounded- and unbounded-time safety of a partly unknown linear time invariant system.

KW - cs.SY

UR - http://arxiv.org/abs/1509.03347

M3 - Article

SN - 2331-8422

VL - abs/1509.03347

JO - arXiv

JF - arXiv

ER -

Data-driven and Model-based Verification: a Bayesian Identification Approach

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