Using Process-Oriented Interfaces for Solving the Automation Paradox in Highly Automated Navy Vessels
Using Process-Oriented Interfaces for Solving the Automation Paradox in Highly Automated Navy Vessels
This paper describes a coherent engineering method for developing high level human machine interaction within a highly automated environment consisting of sensors, actuators, automatic situation assessors and planning devices. Our approach combines ideas from cognitive work analysis, cognitive engineering, ontology engineering, and task-based prototyping. We describe our experiences with this approach when applying this suite to develop an innovative socio-technical system for fighting the internal battle in navy vessels with a strongly reduced manning. © 2014 Springer International Publishing. Organisation: Core Technology; Dituel; Gemius; Google; Human Brain Project; IOS Press
- Radboud University Nijmegen Netherlands
- Netherlands Organisation for Applied Scientific Research Netherlands
- Delft University of Technology Netherlands
Ontology engineering, Naval vessels, Sociotechnical systems, Cognitive work analysis, Automated environments, Task-oriented programming, Human machine interaction, Automation, Human-machine interaction, Cognitive engineering, Automatic situation, Software Science, Lecture Notes in Computer Science
Ontology engineering, Naval vessels, Sociotechnical systems, Cognitive work analysis, Automated environments, Task-oriented programming, Human machine interaction, Automation, Human-machine interaction, Cognitive engineering, Automatic situation, Software Science, Lecture Notes in Computer Science
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