Mining Specifications for Predictive Safety Monitoring

Eleonora Nesterini; Ezio Bartocci; Alessio Gambi; Dejan Nickovic; Sanjit A. Seshia; Hazem Torfah

Mining Specifications for Predictive Safety Monitoring

Eleonora Nesterini (Author and Speaker)
, Ezio Bartocci
, Alessio Gambi
, Dejan Nickovic
, Sanjit A. Seshia
, Hazem Torfah

TU Wien
University of California at Berkeley
University of Gothenburg

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

Abstract

Safety-critical autonomous systems must reliably predict unsafe behavior to take timely corrective actions. Safety properties are often defined over variables that are not directly observable at runtime, making prediction and detection of violations hard. We present a new approach for learning interpretable monitors characterized by concise Signal Temporal Logic (STL) formulas that can predict safety property violations from the observable sensor data. We train these monitors from synthetic, possibly highly unbalanced data generated in a simulation environment. Our specification mining procedure combines a grammar-based method and two novel ensemble techniques. Our approach outperforms the existing solutions by enhancing accuracy and explainability, as demonstrated in two autonomous driving case studies.

Original language	English
Title of host publication	ICCPS '25: Proceedings of the ACM/IEEE 16th International Conference on Cyber-Physical Systems (with CPS-IoT Week 2025
Place of Publication	New York
Publisher	Association for Computing Machinery
Pages	1-11
Number of pages	11
ISBN (Print)	979-8-4007-1498-6
Publication status	Published - 6 May 2025
Event	ICCPS '25: ACM/IEEE 16th International Conference on Cyber-Physical Systems - Irvine , Irvine , United States Duration: 6 May 2025 → 9 May 2025

Conference

Conference	ICCPS '25: ACM/IEEE 16th International Conference on Cyber-Physical Systems
Country/Territory	United States
City	Irvine
Period	6/05/25 → 9/05/25

Research Field

Dependable Systems Engineering

Keywords

Specification Mining
Runtime Monitoring
Signal Temporal Logic

Cite this

@inproceedings{1e8e3ee4a8bf41c9a7366382d54e5969,

title = "Mining Specifications for Predictive Safety Monitoring",

abstract = "Safety-critical autonomous systems must reliably predict unsafe behavior to take timely corrective actions. Safety properties are often defined over variables that are not directly observable at runtime, making prediction and detection of violations hard. We present a new approach for learning interpretable monitors characterized by concise Signal Temporal Logic (STL) formulas that can predict safety property violations from the observable sensor data. We train these monitors from synthetic, possibly highly unbalanced data generated in a simulation environment. Our specification mining procedure combines a grammar-based method and two novel ensemble techniques. Our approach outperforms the existing solutions by enhancing accuracy and explainability, as demonstrated in two autonomous driving case studies.",

keywords = "Specification Mining, Runtime Monitoring, Signal Temporal Logic",

author = "Eleonora Nesterini and Ezio Bartocci and Alessio Gambi and Dejan Nickovic and Seshia, \{Sanjit A.\} and Hazem Torfah",

year = "2025",

month = may,

day = "6",

language = "English",

isbn = "979-8-4007-1498-6",

pages = "1--11",

booktitle = "ICCPS '25: Proceedings of the ACM/IEEE 16th International Conference on Cyber-Physical Systems (with CPS-IoT Week 2025",

publisher = "Association for Computing Machinery",

address = "United States",

note = "ICCPS '25: ACM/IEEE 16th International Conference on Cyber-Physical Systems ; Conference date: 06-05-2025 Through 09-05-2025",

}

Nesterini, E, Bartocci, E, Gambi, A , Nickovic, D, Seshia, SA & Torfah, H 2025, Mining Specifications for Predictive Safety Monitoring. in ICCPS '25: Proceedings of the ACM/IEEE 16th International Conference on Cyber-Physical Systems (with CPS-IoT Week 2025., 6, Association for Computing Machinery, New York, pp. 1-11, ICCPS '25: ACM/IEEE 16th International Conference on Cyber-Physical Systems, Irvine , California, United States, 6/05/25.

Mining Specifications for Predictive Safety Monitoring. / Nesterini, Eleonora (Author and Speaker); Bartocci, Ezio; Gambi, Alessio et al.
ICCPS '25: Proceedings of the ACM/IEEE 16th International Conference on Cyber-Physical Systems (with CPS-IoT Week 2025. New York: Association for Computing Machinery, 2025. p. 1-11 6.

Research output: Chapter in Book or Conference Proceedings › Conference Proceedings with Oral Presentation › peer-review

TY - GEN

T1 - Mining Specifications for Predictive Safety Monitoring

AU - Bartocci, Ezio

AU - Gambi, Alessio

AU - Nickovic, Dejan

AU - Seshia, Sanjit A.

AU - Torfah, Hazem

A2 - Nesterini, Eleonora

PY - 2025/5/6

Y1 - 2025/5/6

N2 - Safety-critical autonomous systems must reliably predict unsafe behavior to take timely corrective actions. Safety properties are often defined over variables that are not directly observable at runtime, making prediction and detection of violations hard. We present a new approach for learning interpretable monitors characterized by concise Signal Temporal Logic (STL) formulas that can predict safety property violations from the observable sensor data. We train these monitors from synthetic, possibly highly unbalanced data generated in a simulation environment. Our specification mining procedure combines a grammar-based method and two novel ensemble techniques. Our approach outperforms the existing solutions by enhancing accuracy and explainability, as demonstrated in two autonomous driving case studies.

AB - Safety-critical autonomous systems must reliably predict unsafe behavior to take timely corrective actions. Safety properties are often defined over variables that are not directly observable at runtime, making prediction and detection of violations hard. We present a new approach for learning interpretable monitors characterized by concise Signal Temporal Logic (STL) formulas that can predict safety property violations from the observable sensor data. We train these monitors from synthetic, possibly highly unbalanced data generated in a simulation environment. Our specification mining procedure combines a grammar-based method and two novel ensemble techniques. Our approach outperforms the existing solutions by enhancing accuracy and explainability, as demonstrated in two autonomous driving case studies.

KW - Specification Mining

KW - Runtime Monitoring

KW - Signal Temporal Logic

UR - https://doi.org/10.1145/3716550.3722021

M3 - Conference Proceedings with Oral Presentation

SN - 979-8-4007-1498-6

SP - 1

EP - 11

BT - ICCPS '25: Proceedings of the ACM/IEEE 16th International Conference on Cyber-Physical Systems (with CPS-IoT Week 2025

PB - Association for Computing Machinery

CY - New York

T2 - ICCPS '25: ACM/IEEE 16th International Conference on Cyber-Physical Systems

Y2 - 6 May 2025 through 9 May 2025

ER -

Mining Specifications for Predictive Safety Monitoring

Abstract

Conference

Research Field

Keywords

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