Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation

Dhaminda B. Abeywickrama; Suet Lee; Chris Bennett; Razanne Abu-Aisheh; Tom Didiot-Cook; Simon Jones; Sabine Hauert; Kerstin Eder

doi:10.1109/ERAS63351.2025.11135547

Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation

Dhaminda B. Abeywickrama^*, Suet Lee, Chris Bennett, Razanne Abu-Aisheh, Tom Didiot-Cook, Simon Jones, Sabine Hauert, Kerstin Eder

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

1 Citation (Scopus)

30 Downloads (Pure)

Abstract

The emergent behaviour of autonomous robotic swarms poses a significant challenge to their safety assurance. Assurance tasks encompass adherence to standards, certification processes, and the execution of verification and validation (V&V) methods, such as model checking. In this study, we propose a corroborative approach for formally verifying and validating autonomous robotic swarms, which are defined at the macroscopic formal modelling, low-fidelity simulation, high-fidelity simulation, and real-robot levels. Our formal macroscopic models, used for verification, are characterised by data derived from actual simulations to ensure both accuracy and traceability across different swarm system models. Furthermore, our work combines formal verification with simulations and experimental validation using real robots. In this way, our corroborative approach for V&V seeks to enhance confidence in the evidence, in contrast to employing these methods separately. We explore our approach through a case study focused on a swarm of robots operating within a public cloakroom.

Original language	English
Title of host publication	IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
Number of pages	8
ISBN (Electronic)	9798331513207
DOIs	https://doi.org/10.1109/ERAS63351.2025.11135547
Publication status	Published - 27 Aug 2025
Event	1st IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Worcester, United States Duration: 29 May 2025 → 30 May 2025

Publication series

Name	IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings
Publisher	IEEE

Conference

Conference	1st IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025
Country/Territory	United States
City	Worcester
Period	29/05/25 → 30/05/25

Bibliographical note

Publisher Copyright:
©2025 IEEE.

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10.1109/ERAS63351.2025.11135547

Full-text PDF (accepted manuscript)
This is the accepted author manuscript (AAM) of the article which has been made Open Access under the University of Bristol's Scholarly Works Policy. The final published version (Version of Record) can be found on the publisher's website. The copyright of any third-party content, such as images, remains with the copyright holder.
Accepted author manuscript, 9.42 MBLicence: CC BY

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UKRI Trustworthy Autonomous Systems Node In Functionality
Windsor, S. P. (Principal Investigator), Ives, J. C. S. (Co-Investigator), Downer, J. R. (Co-Investigator), Rossiter, J. M. (Co-Investigator), Eder, K. I. (Co-Investigator) & Hauert, S. (Co-Investigator)
1/11/20 → 30/04/24
Project: Research, Parent

Cite this

Abeywickrama, D. B., Lee, S., Bennett, C., Abu-Aisheh, R., Didiot-Cook, T., Jones, S., Hauert, S., & Eder, K. (2025). Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation. In IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings (IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings). Institute of Electrical and Electronics Engineers (IEEE). https://doi.org/10.1109/ERAS63351.2025.11135547

Abeywickrama, Dhaminda B. ; Lee, Suet ; Bennett, Chris et al. / Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation. IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings. Institute of Electrical and Electronics Engineers (IEEE), 2025. (IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings).

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abstract = "The emergent behaviour of autonomous robotic swarms poses a significant challenge to their safety assurance. Assurance tasks encompass adherence to standards, certification processes, and the execution of verification and validation (V\&V) methods, such as model checking. In this study, we propose a corroborative approach for formally verifying and validating autonomous robotic swarms, which are defined at the macroscopic formal modelling, low-fidelity simulation, high-fidelity simulation, and real-robot levels. Our formal macroscopic models, used for verification, are characterised by data derived from actual simulations to ensure both accuracy and traceability across different swarm system models. Furthermore, our work combines formal verification with simulations and experimental validation using real robots. In this way, our corroborative approach for V\&V seeks to enhance confidence in the evidence, in contrast to employing these methods separately. We explore our approach through a case study focused on a swarm of robots operating within a public cloakroom.",

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Abeywickrama, DB, Lee, S, Bennett, C , Abu-Aisheh, R, Didiot-Cook, T, Jones, S , Hauert, S & Eder, K 2025, Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation. in IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings. IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings, Institute of Electrical and Electronics Engineers (IEEE), 1st IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025, Worcester, United States, 29/05/25. https://doi.org/10.1109/ERAS63351.2025.11135547

Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation. / Abeywickrama, Dhaminda B.; Lee, Suet; Bennett, Chris et al.
IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings. Institute of Electrical and Electronics Engineers (IEEE), 2025. (IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

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AU - Abeywickrama, Dhaminda B.

AU - Lee, Suet

AU - Bennett, Chris

AU - Abu-Aisheh, Razanne

AU - Didiot-Cook, Tom

AU - Jones, Simon

AU - Hauert, Sabine

AU - Eder, Kerstin

PY - 2025/8/27

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N2 - The emergent behaviour of autonomous robotic swarms poses a significant challenge to their safety assurance. Assurance tasks encompass adherence to standards, certification processes, and the execution of verification and validation (V&V) methods, such as model checking. In this study, we propose a corroborative approach for formally verifying and validating autonomous robotic swarms, which are defined at the macroscopic formal modelling, low-fidelity simulation, high-fidelity simulation, and real-robot levels. Our formal macroscopic models, used for verification, are characterised by data derived from actual simulations to ensure both accuracy and traceability across different swarm system models. Furthermore, our work combines formal verification with simulations and experimental validation using real robots. In this way, our corroborative approach for V&V seeks to enhance confidence in the evidence, in contrast to employing these methods separately. We explore our approach through a case study focused on a swarm of robots operating within a public cloakroom.

AB - The emergent behaviour of autonomous robotic swarms poses a significant challenge to their safety assurance. Assurance tasks encompass adherence to standards, certification processes, and the execution of verification and validation (V&V) methods, such as model checking. In this study, we propose a corroborative approach for formally verifying and validating autonomous robotic swarms, which are defined at the macroscopic formal modelling, low-fidelity simulation, high-fidelity simulation, and real-robot levels. Our formal macroscopic models, used for verification, are characterised by data derived from actual simulations to ensure both accuracy and traceability across different swarm system models. Furthermore, our work combines formal verification with simulations and experimental validation using real robots. In this way, our corroborative approach for V&V seeks to enhance confidence in the evidence, in contrast to employing these methods separately. We explore our approach through a case study focused on a swarm of robots operating within a public cloakroom.

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ER -

Abeywickrama DB, Lee S, Bennett C , Abu-Aisheh R, Didiot-Cook T, Jones S et al. Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation. In IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings. Institute of Electrical and Electronics Engineers (IEEE). 2025. (IEEE International Conference on Engineering Reliable Autonomous Systems, ERAS 2025 - Proceedings). doi: 10.1109/ERAS63351.2025.11135547

Autonomous Robotic Swarms: A Corroborative Approach for Verification and Validation

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UKRI Trustworthy Autonomous Systems Node In Functionality

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