Human factor issues during remote ship monitoring tasks: An ecological lesson for system design in a distributed context
Journal article, 2018

In recent years there has been increasing research and commercial activities regarding the development of remotely monitored and controlled unmanned ships. Much of this focus is related to the intended migration of operators from ship to shore and the integration of a decision support system to maintain safety of navigation. For this reason, the centralized context onboard could shift to a distributed context characterized as a ¨ship-shore system¨. Although there is substantial research on situation awareness (SA), most tend to view operators as both physically and cognitively situated in the field in a centralized system. Few are paying attention to how SA might be influenced in distributed working domains and their implications on interface design, particularly possible adaptation of those technologies used in a centralized system. In this paper, we developed a remote supervisory control prototype on top of a fully-fledged ship bridge system to support monitoring and controlling of remote simulated unmanned cargo vessels. Six participants were invited to conduct scenario-based simulation trials as proposed shore based operators. Their objective performance and subjective SA assessment was collected and analyzed. The results suggest human factor issues could remain in systems assembled by assumed reliable technological components. Prominent challenges include psychophysical and perceptual limitation for the operators, decision making latencies and automation bias which is applicable to usability issues of interfaces, deprivation of ship sense and lack of current regulatory oversight. The results have important relevance to socio-technical system and interface design that the design also needs to take the context and work domain constraints into account via an ecological approach. As socio-technical systems become less centralized and more globalized, our study suggest the necessity to incorporate the ecological concerns in design to shape the technological artefacts in a way that can truly support the operators to deal with complexity in the field.

Autonomous maritime vessels

Ecology

Interface design

Situation awareness

Human factors

Automation

Author

Yemao Man

Chalmers, Mechanics and Maritime Sciences (M2), Maritime Studies

Reto Weber

Technical and maritime management

Johan Cimbritz

Technical and maritime management

Monica Lundh

Chalmers, Mechanics and Maritime Sciences (M2), Maritime Studies

Scott MacKinnon

Chalmers, Mechanics and Maritime Sciences (M2), Maritime Studies

International Journal of Industrial Ergonomics

0169-8141 (ISSN) 18728219 (eISSN)

Vol. 68 2018 231-244

Maritime Unmanned Navigation through Intelligence in Networks (MUNIN)

European Commission (EC) (EC/FP7/314286), 2012-09-01 -- 2015-08-31.

Subject Categories

Physiotherapy

Production Engineering, Human Work Science and Ergonomics

Environmental Health and Occupational Health

Areas of Advance

Transport

DOI

10.1016/j.ergon.2018.08.005

More information

Latest update

3/23/2021