Document detail
ID

oai:arXiv.org:2406.17066

Topic
Electrical Engineering and Systems... Computer Science - Artificial Inte... Computer Science - Logic in Comput... Computer Science - Robotics
Author
Zhang, Changjian Kapoor, Parv Kang, Eunsuk Meira-Goes, Romulo Garlan, David Ganlath, Akila Mishra, Shatadal Ammar, Nejib
Category

Computer Science

Year

2024

listing date

7/3/2024

Keywords
novel computer system science systems
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Abstract

Cyber-physical systems (CPS) with reinforcement learning (RL)-based controllers are increasingly being deployed in complex physical environments such as autonomous vehicles, the Internet-of-Things(IoT), and smart cities.

An important property of a CPS is tolerance; i.e., its ability to function safely under possible disturbances and uncertainties in the actual operation.

In this paper, we introduce a new, expressive notion of tolerance that describes how well a controller is capable of satisfying a desired system requirement, specified using Signal Temporal Logic (STL), under possible deviations in the system.

Based on this definition, we propose a novel analysis problem, called the tolerance falsification problem, which involves finding small deviations that result in a violation of the given requirement.

We present a novel, two-layer simulation-based analysis framework and a novel search heuristic for finding small tolerance violations.

To evaluate our approach, we construct a set of benchmark problems where system parameters can be configured to represent different types of uncertainties and disturbancesin the system.

Our evaluation shows that our falsification approach and heuristic can effectively find small tolerance violations.

;Comment: arXiv admin note: text overlap with arXiv:2311.07462

Zhang, Changjian,Kapoor, Parv,Kang, Eunsuk,Meira-Goes, Romulo,Garlan, David,Ganlath, Akila,Mishra, Shatadal,Ammar, Nejib, 2024, Tolerance of Reinforcement Learning Controllers against Deviations in Cyber Physical Systems

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