Browsing ADORA by Author "Nordby, Kjetil"
Now showing items 1-16 of 16
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Between the tag and the screen : redesigning short-range RFID as design material
Nordby, Kjetil (CON-TEXT / Thesis;49, Book; Doctoral thesis; Peer reviewed, 2011)Industrial and interaction designers are increasingly faced with new computational technologies that may be used as materials in designing. Such materials are important in design practices because they offer conditions for ... -
BOREALIS The arctic modular bridge
Thomasgård, Lasse (Master thesis, 2018-05) -
Conceptual designing and technology : short-range RFID as design material
Nordby, Kjetil (Journal article; Peer reviewed, 2010)Short-Range Radio Frequency Identification (RFID) is an emerging technology that interaction designers are currently embracing. There are, however, few systematic efforts to utilize the technology as a tool for the development ... -
Design and Computer Simulated User Scenarios: Exploring Real-Time 3D Game Engines and Simulation in the Maritime Sector
Hjelseth, Snorre; Morrison, Andrew; Nordby, Kjetil (Journal article; Peer reviewed, 2015) -
Designing Behavior – Using Behavior Theory in Designing for Welfare Technology
Erlandsen, Hans-Martin B. (Master thesis, 2017-05) -
Designing tangible interaction using short-range RFID
Nordby, Kjetil; Morrison, Andrew (Journal article; Peer reviewed, 2010)Short-range Radio Frequency IDentification (SR-RFID) technology embedded in mobile phones offers interaction design practitioners the potential to design new forms of mobile experiences. The article presents a design ... -
Efficient Use of Virtual and Mixed Reality in Conceptual Design of Maritime Work Places
Nordby, Kjetil; Gernez, Etienne; Børresen, Stian (Conference abstract, 2016)We present a system that enables real time scanning of human avatars for use in virtual reality supported design processes. The system uses off-the-shelf 3D sensors to generate high-density 3D meshes and high resolution ... -
Glipe - kommunikasjonsflyt for tidspresset og sensitivt innhold
Hartvigsen, Pernille (Master thesis, 2022-06) -
ONSITE Design-driven field studies for safer demanding marine operations
Gernez, Etienne; Nordby, Kjetil; Schaathun, Hans Georg (Report, 2019)ONSITE is a research project that builds knowledge on how to implement human-centered design processes within ship design. The project focuses specifically on a field study methodology and the transfer of knowledge between ... -
Open user interface architecture for digital multivendor ship bridge systems
Nordby, Kjetil; Mallam, Steven; Lützhöft, Margareta Holtensdotter (Journal article; Peer reviewed, 2019) -
OpenRemote Beta
Dankrathok, Natacha (Master thesis, 2022-12) -
Serendipity in the Field. Facilitating serendipity in design-driven field studies on ship bridges
Frydenberg, Synne Geirsdatter; Eikenes, Jon Olav Husabø; Nordby, Kjetil (Peer reviewed; Journal article, 2019)Field research requires openness to unforeseen insights and opportunities, especially when designing for complex and dynamic workplaces, such as a ship bridge. In this paper, we investigate how serendipitous outcomes may ... -
Shaping Designers’ Sea Sense: A Guide for Design-Driven Field Research at Sea
Lurås, Sigrun; Nordby, Kjetil (Conference abstract, 2015-09)Designers taking on marine design projects need an in-depth understanding of the context for which they design to be able to make good design judgements. This paper suggests that such an understanding can be referred to ... -
Shifting Participatory Design Approaches For Increased Resilience
Mallam, Steven; Nordby, Kjetil; Haavardtun, Per; Nordland, Hanna; Westerberg, Tine Viveka (Peer reviewed; Journal article, 2021)Social distancing restrictions imposed by the global outbreak of COVID-19 exposed vulnerabilities in traditional User-Centered Design processes. This paper presents a shift in methodological thinking and deployment of ... -
Tailoring Information for Operating Rooms
Agerup, Rasmus (Master thesis, 2017-05) -
Voyage - Exploring interfaces for autonomous maritime systems
Johannesen, Thomas Wang (Master thesis, 2020-06)