Maritime autonomous surface ships: can we learn from unmanned aerial vehicle incidents using the perceptual cycle model?
Maritime autonomous surface ships: can we learn from unmanned aerial vehicle incidents using the perceptual cycle model?
Interest in Maritime Autonomous Surface Ships (MASS) is increasing as it is predicted that they can bring improved safety, performance and operational capabilities. However, their introduction is associated with a number of enduring Human Factors challenges (e.g. difficulties monitoring automated systems) for human operators, with their ‘remoteness’ in shore-side control centres exacerbating issues. This paper aims to investigate underlying decision-making processes of operators of uncrewed vehicles using the theoretical foundation of the Perceptual Cycle Model (PCM). A case study of an Unmanned Aerial Vehicle (UAV) accident has been chosen as it bears similarities to the operation of MASS through means of a ground-based control centre. Two PCMs were developed; one to demonstrate what actually happened and one to demonstrate what should have happened. Comparing the models demonstrates the importance of operator situational awareness, clearly defined operator roles, training and interface design in making decisions when operating from remote control centres. Practitioner Summary: To investigate underlying decision-making processes of operators of uncrewed vehicles using the Perceptual Cycle Model, by using an UAV accident case study. The findings showed the importance of operator situational awareness, clearly defined operator roles, training and interface design in making decisions when monitoring uncrewed systems from remote control centres.
Decision making, UAV, maritime autonomous surface ships, perceptual cycle model, unmanned aerial vehicle
1-28
Lynch, Kirsty M.
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Banks, Victoria A.
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Roberts, Aaron P.J.
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Radcliffe, Stewart
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Plant, Katherine L.
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26 September 2022
Lynch, Kirsty M.
b0bd6d0a-9cd7-4bf7-92ab-949c9d31eb65
Banks, Victoria A.
44eaf113-4c22-42d1-9c12-9c5f1ca850e8
Roberts, Aaron P.J.
024289ac-44bb-4b7a-9c58-28f08e2bc2f9
Radcliffe, Stewart
0907c662-5e27-4aa6-b468-e18f6d07da7a
Plant, Katherine L.
3638555a-f2ca-4539-962c-422686518a78
Lynch, Kirsty M., Banks, Victoria A., Roberts, Aaron P.J., Radcliffe, Stewart and Plant, Katherine L.
(2022)
Maritime autonomous surface ships: can we learn from unmanned aerial vehicle incidents using the perceptual cycle model?
Ergonomics, .
(doi:10.1080/00140139.2022.2126896).
Abstract
Interest in Maritime Autonomous Surface Ships (MASS) is increasing as it is predicted that they can bring improved safety, performance and operational capabilities. However, their introduction is associated with a number of enduring Human Factors challenges (e.g. difficulties monitoring automated systems) for human operators, with their ‘remoteness’ in shore-side control centres exacerbating issues. This paper aims to investigate underlying decision-making processes of operators of uncrewed vehicles using the theoretical foundation of the Perceptual Cycle Model (PCM). A case study of an Unmanned Aerial Vehicle (UAV) accident has been chosen as it bears similarities to the operation of MASS through means of a ground-based control centre. Two PCMs were developed; one to demonstrate what actually happened and one to demonstrate what should have happened. Comparing the models demonstrates the importance of operator situational awareness, clearly defined operator roles, training and interface design in making decisions when operating from remote control centres. Practitioner Summary: To investigate underlying decision-making processes of operators of uncrewed vehicles using the Perceptual Cycle Model, by using an UAV accident case study. The findings showed the importance of operator situational awareness, clearly defined operator roles, training and interface design in making decisions when monitoring uncrewed systems from remote control centres.
Text
PCM Paper - Manuscript 3
- Accepted Manuscript
Text
Maritime autonomous surface ships can we learn from unmanned aerial vehicle incidents using the perceptual cycle model
- Version of Record
More information
Accepted/In Press date: 14 September 2022
e-pub ahead of print date: 26 September 2022
Published date: 26 September 2022
Additional Information:
Publisher Copyright:
© 2022 Informa UK Limited, trading as Taylor & Francis Group.
Keywords:
Decision making, UAV, maritime autonomous surface ships, perceptual cycle model, unmanned aerial vehicle
Identifiers
Local EPrints ID: 470925
URI: http://eprints.soton.ac.uk/id/eprint/470925
ISSN: 1366-5847
PURE UUID: 683b74a8-246a-4acb-a0d9-c3696274513a
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Date deposited: 21 Oct 2022 16:33
Last modified: 17 Mar 2024 07:32
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Contributors
Author:
Kirsty M. Lynch
Author:
Victoria A. Banks
Author:
Aaron P.J. Roberts
Author:
Stewart Radcliffe
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