Ameneh Nejati scite author profile

In this paper, we propose a compositional framework for the construction of control barrier functions for networks of continuous-time stochastic hybrid systems enforcing complex logic specifications expressed by finite-state automata. The proposed scheme is based on a notion of so-called pseudo-barrier functions computed for subsystems, by employing which one can synthesize hybrid controllers for interconnected systems enforcing complex specifications over a finite-time horizon. Particularly, we first leverage sufficient small-gain type conditions to compositionally construct control barrier functions for interconnected systems based on the corresponding pseudo-barrier functions computed for subsystems. Then, using the constructed control barrier functions, we provide probabilistic guarantees on the satisfaction of given complex specifications in a bounded time horizon. In this respect, we decompose the given complex specification to simpler reachability tasks based on automata representing the complements of original finite-state automata. We then provide systematic approaches to solve those simpler reachability tasks by computing corresponding pseudo-barrier functions. Two different systematic techniques are provided based on (i) the sum-of-squares (SOS) optimization program and (ii) counterexample guided inductive synthesis (CEGIS) to search for pseudo-barrier functions of subsystems while synthesizing local controllers. We demonstrate the effectiveness of our proposed results by applying them to two large-scale physical case studies including a temperature regulation in a circular network of 1000 rooms and a fully-interconnected Kuramoto network of 100 nonlinear oscillators.

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Abstraction-based Synthesis of Continuous-Time Stochastic Control Systems

Nejati

Soudjani

2019

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Data-Driven Estimation of Infinitesimal Generators of Stochastic Systems

2021

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Ameneh Nejati

Compositional Construction of Control Barrier Functions for Networks of Continuous-Time Stochastic Systems

Compositional Construction of Control Barrier Certificates for Large-Scale Stochastic Switched Systems

Compositional abstraction-based synthesis for continuous-time stochastic hybrid systems

Abstraction-based Synthesis of Continuous-Time Stochastic Control Systems

Data-Driven Estimation of Infinitesimal Generators of Stochastic Systems

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