Journal is indexed in following databases:
- SCOPUS
- Web of Science Core Collection - Journal Citation Reports
- EBSCOhost
- Directory of Open Access Journals
- TRID Database - Transportation Research Board
- Index Copernicus Journals Master List
- BazTech
- Google Scholar
2022 Journal Impact Factor - 0.6
2022 CiteScore - 1.7
ISSN 2083-6473
ISSN 2083-6481 (electronic version)
Editor-in-Chief
Associate Editor
Prof. Tomasz Neumann
Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
e-mail transnav@umg.edu.pl
Modelling the Processes of Taking Over the Watch From an Autonomous Navigation System
ABSTRACT: The maritime industry is striving towards increasing levels of autonomy within the field of navigation. However, fully autonomous vessel navigation requires an extraordinarily complex system. As a step towards full autonomy and to reduce system complexity, nautical officers should still be available on board to take over the watch from the autonomous system in situations, in which human intervention is required. Therefore, a highly advanced human-machine interface (HMI) is essential, which supports nautical officers in retrieving all necessary information in order to manage the takeover. The implementation of the autonomous system and introduction of an HMI creates new processes, which need to be defined. In this paper, we portray our approach to define the processes for watch handovers from the autonomous system to nautical officers by investigating current watch handover processes. Subsequently, the resulting process models are described and discussed.
KEYWORDS: Officer of the Watch (OOW), Navigation System, Human Machine Interface (HMI), Operational Design Domain (ODD), Autonomous Vessels, Autonomous Navigation System, Taking Over the Watch, AutoOOW
REFERENCES
Abilio Ramos, M., Utne, I.B., Mosleh, A.: Collision avoidance on maritime autonomous surface ships: Operators’ tasks and human failure events. Safety Science. 116, 33–44 (2019). - doi:10.1016/j.ssci.2019.02.038
Allweyer, T.: Business process management: strategy, design, implementation, controlling. W3l GmbH, Witten, Germany (2007).
Best, E., Weth, M.: Optimising business processes: the practical guide for successful reorganisation. Gabler | GWV Fachverlage GmbH, Wiesbaden, Germany (2007).
Colwell, I., Phan, B., Saleem, S., Salay, R., Czarnecki, K.: An Automated Vehicle Safety Concept Based on Runtime Restriction of the Operational Design Domain. In: 2018 IEEE Intelligent Vehicles Symposium (IV). pp. 1910–1917 (2018). - doi:10.1109/IVS.2018.8500530
Endsley, M.R.: Situation awareness global assessment technique (SAGAT). In: Proceedings of the IEEE 1988 National Aerospace and Electronics Conference. pp. 789–795 , Dayton, OH, USA (1988). - doi:10.1109/NAECON.1988.195097
Endsley, M.R., Kiris, E.O.: The Out-of-the-Loop Performance Problem and Level of Control in Automation. Hum Factors. 37, 2, 381–394 (1995). - doi:10.1518/001872095779064555
Ergonomics of human-system interaction - Part 210: Human centred design for interactive systems. ISO, Geneva, Switzerland (2019).
Feiser, D.: Development and investigation of a concept to capture work processes. Shaker-Verlag, Aachen, Germany (2015).
Kim, M., Joung, T.-H., Jeong, B., Park, H.-S.: Autonomous shipping and its impact on regulations, technologies, and industries. null. 4, 2, 17–25 (2020). - doi:10.1080/25725084.2020.1779427
Leittechnik; Regelungstechnik und Steuerungstechnik; Allgemeine Grundbegriffe: DIN 19226-1 - 1994-02 - Beuth.de. Deutsches Institut für Normung e.V., Berlin, Germany (1994).
Meurn, R.J.: Watchstanding Guide for the Merchant Officer. Schiffer Publishing.
Object Management Group (OMG): Business Process Model and Notation (BPMN). (2013).
Ørnulf, J.R.: Defining Ship Autonomy by Characteristic Factors. In: Proceedings of the 1st International Conference on Maritime Autonomous Surface Ships. pp. 19–26 , Busan, Korea (2018).
Parasuraman, R., Sheridan, T.B., Wickens, C.D.: A model for types and levels of human interaction with automation. IEEE Transactions on Systems, Man, and Cybernetics - Part A: Systems and Humans. 30, 3, 286–297 (2000). - doi:10.1109/3468.844354
Porathe, T., Hoem, Å., Rødseth, Ø., Fjørtoft, K., Johnsen, S.O.: At least as safe as manned shipping? Autonomous shipping, safety and “human error.” In: Haugen, S., Barros, A., van Gulijk, C., Kongsvik, T., and Vinnem, J.E. (eds.) Proceedings of ESREL 2018,. pp. 417–425 CRC Press, Trondheim, Norway (2018). - doi:10.1201/9781351174664-52
Rødseth, Ø.J., Nordahl, H.: Definitions for autonomous merchant ships, https://nfas.autonomous-ship.org/wp-content/uploads/2020/09/autonom-defs.pdf, last accessed 2021/03/27.
Sarter, N.B., Woods, D.D., Billings, C.E.: Automation Surprices. In: Salvendy, G. (ed.) Handbook of Human Factors & Ergonomics. Wiley (1997).
Seppelt, B.D., Victor, T.W.: Potential Solutions to Human Factors Challenges in Road Vehicle Automation. In: Meyer, G. and Beiker, S. (eds.) Road Vehicle Automation 3. pp. 131–148 Springer International Publishing, Cham (2016). - doi:10.1007/978-3-319-40503-2_11
Volz, K., Yang, E., Dudley, R., Lynch, E., Dropps, M., Dorneich, M.C.: An Evaluation of Cognitive Skill Degradation in Information Automation. Proceedings of the Human Factors and Ergonomics Society Annual Meeting. 60, 1, 191–195 (2016). - doi:10.1177/1541931213601043
Wróbel, K., Gil, M., Chae, C.-J.: On the Influence of Human Factors on Safety of Remotely-Controlled Merchant Vessels. Applied Sciences. 11, 3, (2021). - doi:10.3390/app11031145
Citation note:
Hochgeschurz S., Dalinger E., Motz F.: Modelling the Processes of Taking Over the Watch From an Autonomous Navigation System. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 15, No. 1, doi:10.12716/1001.15.01.11, pp. 117-124, 2021
Other publications of authors:
File downloaded 209 times
