As future system designers and decision-makers, engineering students should be trained to anticipate and navigate the unknown. These days, engineers often operate in professional, social and societal environments characterized by volatility, uncertainty, complexity and ambiguity (VUCA). Therefore, besides traditional engineering skills, educational programs must also provide students with future skills that are needed to address VUCA situations. This requires the competence and vision to design and manage systems that are resilient to unexpected, unstable and drastic events. This paper presents, compares and discusses teaching and learning activities addressing VUCA and resilience, occurring at different curriculum levels. Key lessons include the need to integrate VUCA and resilience training in a progressive manner, from freshman level to that of professional engineers. Recommendations are made for how engineering programs can better prepare graduates through the use of effective learning methods that are aligned with specific learning outcomes. Elements to extend an educational framework are suggested with curriculum integration based on examples of authentic experiences.
VUCA AND RESILIENCE IN ENGINEERING EDUCATION – LESSONS LEARNED
Abstract
Affiliations
Authors
Siegfried Rouvrais, Ann-Kristin Winkens, Carmen Leicht-Scholten, Haraldur Audunsson, Cecile Gerwel Proches
Authors (new)
Document
CDIO 2023 Proceedings (65).pdf
(235.2 KB)
Document type
I Agree
On
Keywords
Pages
312-322
Reference Text
Proceedings of the 19th International CDIO Conference, NTNU, Trondheim, Norway, June 26-29 2023
Year
2023