Abstract
This article presents findings from an ongoing research project aiming to study the future of shipping operations with a specific focus on issues related to human roles, responsibilities and the organization of work. A focus group with representatives for the Swedish shipping cluster (n = 6) and academia (n = 2) has been conducted to explore potential strengths, weaknesses, opportunities and threats (SWOT) with the developments towards autonomous shipping. The results show an overall concern for how to realize the transition between today’s maritime traffic and a future setting where vessels may be operated from shore. Technology to automate navigational tasks and increase the degree of autonomy in shipping are developing, but more attention needs to be paid to the transition of work that may accompany the ongoing developments. Clear roles, responsibilities and a definition of potential operator competences need to be formulated to ensure a human-centered development for safer shipping.
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References
Lambou, M.A., Masaharu, O.: Shipping 4.0: technology stack and digital innovation challenges. In: IAME 2017, Kyoto, Japan (2017)
Thieme, C.A., Utne, I.B., Haugen, S.: Assessing ship risk model applicability to marine autonomous surface ships. Ocean Eng. 165, 140–154 (2018)
Vertdal, B.J., Skjong, R., St Clair, A.L.: Remote-controlled and autonomous ships in the maritime domain (2018)
Parasuranam, R., Riley, V.: Humans and automation: use, misuse, disuse and abuse. Hum. Factors 39, 230–253 (1997)
Sheridan, T.B., Verplank, W.L.: Human and computer control of undersea teleoperators (Technical report), MIT, Man Machine Systems Library, Cambridge, MA (1978)
Onnasch, L., Wickens, C.D., Manzey, D.: Human performance consequences of stages and levels of automation: an integrated meta-analysis. Hum. Factors 56(3), 476–488 (2014)
Oxford Living Dictionary. https://en.oxforddictionaries.com/definition/autonomy
Endsley, M.R.: From here to autonomy: lessons learned from human-automation research. Hum. Factors 59(1), 5–27 (2017)
Lloyd’s Register: Cyber enabled ships: Deploying information and communications technology in shipping - Lloyds Register’s approach to assurance. Lloyds Register, London (2016)
Baldauf, M., Kitada, M., Mehdi, R.A., Delaklis, D.: E-Navigation, digitalization and unmanned ships: challenges for future maritime education and training. In: Proceedings of INTED 2018 Conference, Valencia, Spain (2018)
Man, Y., Weber, R., Cimbritz, J., Lundh, M., MacKinnon, S.N.: Human factor issues during remote ship monitoring tasks: an ecological lesson for system design in a distributed context. Int. J. Ind. Ergon. 68, 231–244 (2018)
Statheros, T., Howells, G., McDonald-Maier, K.: Autonomus ship collision avoidance navigation concepts, technologies and techniques. J. Navig. 61, 129–142 (2008)
Thieme, C.A., Utne, I.B.: Safety performance monitoring of autonomous marine systems. Reliab. Eng. Syst. Saf. 2017(159), 264–275 (2017)
Utne, I.B., Schjolberg, I., Roe, E.: High reliability management and control operator risks in autonomous marine systems and operations. Ocean Eng. 171, 399–416 (2019)
Rodseth, O.J., Burmeister, H.-C.: Developments towards the unmanned ship (2012)
MUNIN: Maritime Unmanned Navigation through Intelligence in Networks (2016). www.unmanned-ship.org/munin/
Burmeister, H.-C., Bruhn, W., Rodseth, O.J., Porathe, T.: Autonomous unmanned merchant vessel and its contribution towards the e-Navigation implementation: the MUNIN perspective. Int. J. e-Navig. Marit. Econo. 1, 1–13 (2014)
STM Sea Traffic Management. https://www.stmvalidation.eu/about-stm/
Porathe, T., Prison, J., Man, Y.: Situation awareness in remote control centres for unmanned ships. In: Human Factors in Ship Design & Operation. The Royal Institution of Naval Architects London, UK (2014)
Kretschmann, L., Burmeister, H.-C., Jahn, C.: Analyzing the economic benefit of unmanned autonomous ships: an exploratory cost-comparison between an autonomous and a conventional bulk carrier. Res. Transp. Bus. Manag. 25, 76–86 (2017)
Relling, T., Lützhöft, M., Ostnes, R., Hildre, H.P.: A human perspective on maritime autonomy. In: AC 2018. LNAI, vol. 10916, pp. 350–362. Springer, Cham (2018)
Mallam, S.C., Nazir, S., Sharma, A., Veie, S.: Perspectives on autonomy - exploring future applications and implementations for safety critical domains. In: IEA 2018. AISC, vol. 821, pp. 396–405. Springer, Cham (2019)
Amanatidou, E., Butter, M., Carabias, V., Könnölä, T., Leis, M., Saritas, O., Schaper-Rinkel, P., van Rij, V.: On concepts and methods in horizon scanning: lessons from initiating policy dialogues on emerging issues. Sci. Public Policy 39(2), 208–221 (2012)
Bell, G.G., Rochford, L.: Rediscovering SWOT’s integrative nature: a new understanding of an old framework. Int. J. Manag. Educ. 14(3), 310–326 (2016)
Porathe, T., Hoem, Å.S., Rodseth, O.J., Fjortoft, K.E., Johnsen, S.: At least as safe as manned shipping? Autonomous shipping, safety and “human error”. In: ESREL 2018, Trondheim, Norway (2018)
Perrow, C.: Normal Accidents. Living with High-Risk Technologies. Princeton University Press, Princeton (1999)
Wróbel, K., Montewka, J., Kujala, P.: Towards the development of a system-theoretic model for safety assessment of autonomous merchant vessels. Reliab. Eng. Syst. Saf. 178, 209–224 (2018)
Chauvin, C., Lardjane, S., Morel, G., Clostermann, J.-P., Langard, B.: Human and organisational factors in maritime accidents: analysis of collisions at sea using the HFACS. Accid. Anal. Prev. 59, 26–37 (2013)
Kataria, A., Praetorius, G., Schröder-Hinrichs, J.U., Baldauf, M.: Making the case for Crew-Centered Design (CCD) in merchant shipping. In: 19th Triennial Congress of the IEA, Melbourne (2015)
Strauch, B.: The Automation-by-expertise-by-training interaction: why automation-related accidents continue to occur in sociotechnical systems. Hum. Factors 59(2), 204–228 (2017)
Acknowledgments
This project has been funded by the Swedish Transport Administration. We would also like to acknowledge the participants of the SWOT-analysis group. Their input has been invaluable for the research presented here.
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Praetorius, G., Hult, C., Sandberg, C. (2020). Towards Autonomous Shipping – Exploring Potential Threats and Opportunities in Future Maritime Operations. In: Stanton, N. (eds) Advances in Human Factors of Transportation. AHFE 2019. Advances in Intelligent Systems and Computing, vol 964. Springer, Cham. https://doi.org/10.1007/978-3-030-20503-4_57
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