Abstract
In the future, many decisions will either be fully automated or supported by autonomous system. Consequently, it is of high importance that we understand how to integrate human preferences correctly.
This dissertation dives into the research field of multi-criteria decision making and investigates the satellite image acquisition scheduling problem and the unmanned aerial vehicle routing problem to further the research on a priori preference integration frameworks. The work will aid in the transition towards autonomous decision making in complex decision environments. A discussion on the future of pairwise and setwise preference articulation methods is also undertaken.
"Simply put, a direct consequence of the improved decision-making methods is,
that bad decisions more clearly will stand out as what they are - bad decisions."
This dissertation dives into the research field of multi-criteria decision making and investigates the satellite image acquisition scheduling problem and the unmanned aerial vehicle routing problem to further the research on a priori preference integration frameworks. The work will aid in the transition towards autonomous decision making in complex decision environments. A discussion on the future of pairwise and setwise preference articulation methods is also undertaken.
"Simply put, a direct consequence of the improved decision-making methods is,
that bad decisions more clearly will stand out as what they are - bad decisions."
Original language | English |
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Publication status | Published - 2023 |