부산대학교 도서관

In-company training is facing new challenges in preparing employees for the demands of digitalized and automated manufacturing. New training concepts like microlearning are necessary to support work-process-related learning. To handle the limitations of microlearning, we develop a 360-degree learning system to demonstrate a realistic work environment and overcome the lack of design knowledge supporting the motivation and performance of employees using such systems. Based on a systematic literature review and semistructured interviews, we have developed design requirements for interactive 360-degree learning environments. We used a workshop-based mixed-method approach with interviews, concept maps, and video analysis to evaluate the motivation and performance of precision mechanics within a prototypical work-process-oriented learning environment in an intercompany vocational training center. The results show a positive effect on learning outcomes and motivation. In addition, the ease of use and sense of presence while using the learning environment are rated as high. We contribute to theory by shedding new light on learners’ motivation and performance within work-process-oriented interactive 360-degree learning environments. Furthermore, we offer guidelines for developing interactive 360-degree learning environments against the background of the current metaverse discussion.