The use of Eye Tracking Technology in Maritime High-Speed Craft Navigation

The change from paper charts to Electronic Navigational Charts (ENC) has been regarded as a paradigm shift in maritime navigation. The traditional navigator skills have been challenged with the introduction of integrated navigation systems, but as we have learned from the possibilities and limitations of technology, it has become clear that the craftsmanship of navigation is still needed. There have been discussions regarding the introduction of technology at the ship bridge, and it has become clear that it induces both new possibilities and challenges. The navigator has always had an important role in conducting safe navigation, and the main job related to navigation has been to find and fix the position to keep the vessel safe. With the introduction of electronic navigation, the vessel’s position is provided in more-or-less real time. The navigator’s role has changed from finding and fixing the position to monitoring the position presented in the navigation system. This has been an important move for the safety at sea, but new challenges such as ECDISassisted grounding have emerged. This led to a discussion of the role of the navigator in integrity monitoring of the navigation system, which further demands a certain level of understanding of the sensors and systems in use (system awareness). The introduction of technology has not only had a positive impact on the navigation task, and the literature reviews highlights that some electronic navigation aids can be inefficient. The literature review also highlights the need for Human-Centred Design (HCD) as a process to design or redesign equipment to the navigator’s needs. The Royal Norwegian Navy (RNoN) has been pursuing the state of electronic navigation, which primarily means no use of paper charts, since 2014. Along the way, several interesting observations have been made. This mainly involves the trust in the presentation of the position in the navigation system, and the level of system awareness of the navigators. The Navigation Simulators at the RNoN Navigation Competence Centre (NCC) has been increasingly used by the operational crews and in training of the new navigators, and there have been clear indications of the effectiveness of using navigation simulators. Especially the Skjold-Class Bridge Navigation Simulator has been extensively used by the Corvette service, and the feedback has been positive. There has been identified a need for a better understanding of these assertions. Eye Tracking Technology has rapidly evolved the last ten years, and there has been an increased interest towards the technology within the domain of Human-Computer Interaction. With the introduction of Eye Tracking Glasses (ETGs), data collection of participants’ eye movements has been made possible outside the laboratory. There has not been much use of ETGs in the maritime domain, but in the few studies eye tracking technology has been used; the value of such data has been highlighted. This thesis has used ETGs to better understand the work of the High-Speed Craft (HSC) navigator, by collecting eye tracking data both in field studies and in simulator studies. The aim of the data collection has been to gain a better understanding of the visual attention of the HSC navigator, and to analyse if the eye tracking data can be used in a maritime usability study. Two different ETGs has been used in the data collection, and the pros and cons of these are presented. Three primary data collections have been completed, and a total of more than 11.5 hours of eye tracking data has been analysed and evaluated. The data analysis has resulted in a deeper knowledge of the visual attention of the HSC navigator, having gained insight into the use of eye tracking data in a design review of the Skjold-class Corvettes. The visual attention of the HSC navigator has been compared in a field- and simulator study.