Arithmetic-Geometric Mean Robustness for Control from Signal Temporal Logic Specifications
March 12, 2019 Β· Declared Dead Β· π American Control Conference
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Authors
Noushin Mehdipour, Cristian-Ioan Vasile, Calin Belta
arXiv ID
1903.05186
Category
cs.RO: Robotics
Citations
102
Venue
American Control Conference
Last Checked
4 months ago
Abstract
We present a new average-based robustness score for Signal Temporal Logic (STL) and a framework for optimal control of a dynamical system under STL constraints. By averaging the scores of different specifications or subformulae at different time points, our new definition highlights the frequency of satisfaction, as well as how robustly each specification is satisfied at each time point. We show that this definition provides a better score for how well a specification is satisfied. Its usefulness in monitoring and control synthesis problems is illustrated through case studies.
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