Abstract Educational escape rooms (EERs) are live-action, team-based games used to teach content-related and generic knowledge and skills. Instead of students just playing the EER, we believed that giving them the opportunity to create their own EERs would augment the learning efects of this teaching method. We report on the feasibility, evaluation, and lessons learned of our assignment on an opioid epidemic-based EER. This original teaching method appealed to most students, but the workload was evaluated to be too high. Our lessons learned include the need for sufcient (extrinsic) motivation, careful explanation of the assignment, and small group sizes.
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This paper aims to present a systematic literature review on state-of-the-art Educational Escape Rooms (EERs) with the use of digital technologies. More specifically, the focus of the study is to present the current developments and trends concerning Digital Educational Escape Rooms (DEERs) and investigate how they foster learning outcomes for online learners. Additionally, the present study provides insights into the design process of such technology enhanced EERs. This review is attributed to identifying and covering research gaps since the current literature has focused on the pedagogical aspects of Escape Rooms (ERs) in education, but no studies seem to have been conducted in regard to the pedagogical implications of Digital Escape Rooms (DERs) in educational environments. Based on the exhaustive literature review, an agenda for future research is promised and the implications for designing innovative ER approaches have been highlighted. The anatomy of the fundamental components of conducting systematic literature reviews was followed. The results of the review could be addressed to multidisciplinary teams related to education, game researchers, educational researchers, faculty members, scholars, instructors, and protagonists of educational systems to encourage them to thoroughly study the core elements of DEERs and how they can be applied in virtual educational contexts to facilitate students’ learning achievements.
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Educational escape rooms (EERs) are increasingly used in education as learning innovations for non-digital and game-based learning (GBL) since EERs positively influence student motivation. They are common in educational fields where skills developments are vital such as STEM subjects and healthcare. However, EERs are marginally implemented in entrepreneurship education (EE) because there is a lack of evaluated design elements to guide the creation of EER in this context, which hampers their wider adoption. Therefore, in this study, we evaluated design elements for EERs in EE. We are particularly concerned with experiential EE since EERs are well suited for experiential learning. We used a research-through-design approach and created an EER based on 11 design elements derived from the literature on social cognitive theory, entrepreneurship competence, and gamification. We created and evaluated the EER in two cycles with two diverse groups of students at a university of applied sciences in the Netherlands. We contribute to the literature and practice of experiential EE by presenting evaluated design elements for EERs. We show which design elements work well and which do not. We also present a comprehensively designed EER that educational professionals can implement in their experiential EE programs.
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This paper focuses on utilizing the Celciushouse as an escape room in energy education. In a broader context, it also addresses the incorporation of serious gaming in education. The project is part of COVE SEED. SEED - Sustainable Energy Education, aims to develop innovative vocational education and training, working with experts from five different European regions to phase out fossil fuels and contributing to Europe becoming a fossil free energy continent. SEED is a CoVE (Centres of Vocational Excellence) programme. CoVE’s are part of the Erasmus+ program aiming to establish transnational platforms on, among others, regional development, innovation and inclusion. SEED combines education on various international levels including level 2,3,4, and 6. At this moment, the project ESCAPEROOM IN ENERGY EDUCATION is still in its initial phase. With this paper and the accompanying workshop, we aim to gather insights from other international regions involved in the SEED project collaboration. The acceleration of technological developments means that what is learned today may be outdated tomorrow. Therefore, it is essential for educational institutions to focus on developing general skills such as critical thinking, problem-solving, and the ability to quickly absorb new information. The market demands professionals with modern knowledge and skills. Techniques taught to students today may become outdated tomorrow. Therefore, the ability to learn how to learn is becoming increasingly crucial. Analytical and research skills are therefore gaining importance. It is also essential for students to utilize various learning methods. Not just learning from books but particularly learning from practical experience. Practice-oriented learning, where students gain direct experience in real situations, not only reinforces theoretical knowledge but also develops practical skills that are valuable in the job market. To tackle these problems, serious gaming or the establishment of escape rooms can be a solution.
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The following e-book was prepared as part of the Erasmus+ UNLOCK project, which has the objective of identifying the use of educational escape rooms (EERs) in higher education environments and examining the role of educators in those activities. The document presents a review of the existing body of academic literature on EERs, while capturing current approaches and practices from across the diverse line of disciplines, and challenges experienced in the adoption of EERs in the (higher) education settings. The literature review provides an overview of the status-quo of the EERs in the higher education sector, followed by UNLOCK project partner country reports (Denmark, Germany, Netherlands, Lithuania, Portugal, and Spain) for targeted insights on the adoption of EERs in the local (higher) education contexts. We also present the synthesis report provides a discussion of the major findings, along with emerging themes and recommendations for further EER research and practice.
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The pace of introduction of new technology and thus continuous change in skill needs at workplaces, especially for the engineers, has increased. While digitization induced changes in manufacturing, construction and supply chain sectors may not be felt the same in every sector, this will be hard to escape. Both young and experienced engineers will experience the change, and the need to continuously assess and close the skills gap will arise. How will we, the continuing engineering educators and administrators will respond to it? Prepared for engineering educators and administrators, this workshop will shed light on the future of continuing engineering education as we go through exponentially shortened time frames of technological revolution and in very recent time, in an unprecedented COVID-19 pandemic. S. Chakrabarti, P. Caratozzolo, E. Sjoer and B. Norgaard.
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