Successful swarms: operator situational awareness with modelling and verification at runtime
Successful swarms: operator situational awareness with modelling and verification at runtime
Robot swarms, through redundancy, offer fault-tolerant distributed sensing and actuation, but can lack complex mission-level decision making. Pairing a human operator with the swarm can improve decision making but only if the operator maintains situational awareness—knowledge of the current state of the swarm—as well as being able to anticipate future states. We show how formal methods, in the form of probabilistic models, executed and verified at runtime alongside the system can aid situational awareness by providing valuable insight into both current and future situations. Two models, for determining task and mission success probabilities, are given, and we show that statistical model checking allows timely approximate predictions that take no more than 1s while staying within 2% of the exact solution. We highlight and implement approaches to display this information to an operator, and show how models can be used to try what-if scenarios before decisions are made.
Gu, Yue
6aba26f7-9803-4024-a4c4-82c7dfa36baf
Hunt, William
eec4ba79-8870-4657-a2ea-25511ae9dbaa
Archibald, Blair
68d001d1-5df4-414d-96ef-b2f45080b4e8
Xu, Mengwei
5ef31fce-50ed-4709-8523-8b4a90020c43
Sevegnani, Michele
f29f5049-e7a3-4086-b624-104ac94195b4
Soorati, Mohammad D.
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
13 November 2023
Gu, Yue
6aba26f7-9803-4024-a4c4-82c7dfa36baf
Hunt, William
eec4ba79-8870-4657-a2ea-25511ae9dbaa
Archibald, Blair
68d001d1-5df4-414d-96ef-b2f45080b4e8
Xu, Mengwei
5ef31fce-50ed-4709-8523-8b4a90020c43
Sevegnani, Michele
f29f5049-e7a3-4086-b624-104ac94195b4
Soorati, Mohammad D.
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Gu, Yue, Hunt, William, Archibald, Blair, Xu, Mengwei, Sevegnani, Michele and Soorati, Mohammad D.
(2023)
Successful swarms: operator situational awareness with modelling and verification at runtime.
In Proceedings of the 2023 32nd IEEE International Conference on Robot and Human Interactive Communication (RO-MAN).
IEEE.
8 pp
.
(doi:10.1109/RO-MAN57019.2023.10309626).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Robot swarms, through redundancy, offer fault-tolerant distributed sensing and actuation, but can lack complex mission-level decision making. Pairing a human operator with the swarm can improve decision making but only if the operator maintains situational awareness—knowledge of the current state of the swarm—as well as being able to anticipate future states. We show how formal methods, in the form of probabilistic models, executed and verified at runtime alongside the system can aid situational awareness by providing valuable insight into both current and future situations. Two models, for determining task and mission success probabilities, are given, and we show that statistical model checking allows timely approximate predictions that take no more than 1s while staying within 2% of the exact solution. We highlight and implement approaches to display this information to an operator, and show how models can be used to try what-if scenarios before decisions are made.
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Published date: 13 November 2023
Venue - Dates:
32nd IEEE International Conference on Robot and Human Interactive Communication, South Korea, Busan, Korea, Republic of, 2023-08-28 - 2023-08-31
Identifiers
Local EPrints ID: 485547
URI: http://eprints.soton.ac.uk/id/eprint/485547
PURE UUID: 46a9eedf-296e-4f6b-a27c-af8025770ef0
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Date deposited: 08 Dec 2023 17:46
Last modified: 18 Mar 2024 03:52
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Contributors
Author:
Yue Gu
Author:
William Hunt
Author:
Blair Archibald
Author:
Mengwei Xu
Author:
Michele Sevegnani
Author:
Mohammad D. Soorati
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