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Elliptical Slice Sampling for Probabilistic Verification of Stochastic Systems with Signal Temporal Logic Specifications

Guy Scher, Sadra Sadraddini, Russ Tedrake, Hadas Kress‐Gazit

Year
2022
Citations
3

Abstract

Autonomous robots typically incorporate complex sensors in their decision-making and control loops. These sensors, such as cameras and lidars, have imperfections in their sensing and are influenced by environmental conditions. In this paper, we present a method for probabilistic verification of linearizable systems with Gaussian and Gaussian mixture noise models (e.g. from perception modules, machine learning components). We compute the probabilities of task satisfaction under Signal Temporal Logic (STL) specifications, using its robustness semantics, with a Markov Chain Monte-Carlo slice sampler. As opposed to other techniques, our method avoids over-approximations and double-counting of failure events. Central to our approach is a method for efficient and rejection-free sampling of signals from a Gaussian distribution that satisfy or violate a given STL formula. We show illustrative examples from applications in robot motion planning.

Keywords

Computer scienceRobustness (evolution)Probabilistic logicRobotTemporal logicGaussianAlgorithmMarkov chainSampling (signal processing)Artificial intelligence

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