Bayesian Approach to Temporal Logic Control of Uncertain Systems

Oliver Schön, Birgit van Huijgevoort, Sofie Haesaert, Sadegh Soudjani

This paper addresses the problem of data-driven computation of controllers that are correct by design for safety-critical systems and can provably satisfy (complex) functional requirements. With focus on continuous-state uncertain systems, we propose a two-stage approach that decomposes the problem into a learning stage and a robust formal controller synthesis stage. The first stage utilizes available Bayesian regression results to compute robust credible sets for the true parameters of the system. For the second stage, we introduce methods for systems subject to both stochastic and parametric uncertainties. We provide for the first time simulation relations for enabling correct-by-design control refinement that are founded on coupling uncertainties of stochastic systems via sub-probability measures. The presented relations are essential for constructing abstract models that are related to not only one model but to a set of parameterized models. The results are demonstrated on a linear model and the nonlinear model of the Van der Pol Oscillator.

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