Contribution: This article proposes the systematic integration of embedded systems into training hardware to bridge the gap in structured troubleshooting education. Traditional methods often rely on manual explanations, virtual simulations, or on-the-job training, which lack structured learning experiences. The proof-of-work module, developed…

Background: Service learning has been studied and applied in diverse educational settings for the past seven decades. While several research reviews have explored service learning from varied perspectives, none have employed bibliometric methods to investigate its evolution as a "knowledge base." Purpose: This review documents the…

Higher engineering education programmes increasingly include courses characterised by real-world problems and student collaboration in multidisciplinary teams. Research findings demonstrate that students remain limited in perceiving and meaningfully bridging disciplinary differences in these course contexts. Drawing on the literature on boundaries…

The 1950s saw the emergence of the science-driven model of engineering education. In the following decades, the model has been continuously challenged to incorporate aspects such as liberal arts, information & communication technology, design, entrepreneurship, innovation, sustainability, industry 4.0, and more recently, online-learning. This…

The purpose of this qualitative case study was to explore how youth's engineering identity has changed in the process of productive struggle in Making activities in the Midwestern U.S in a summer program. The researchers conducted focus-group interviews, and also administered an Engineering Identity survey as well as the Draw an Engineer Test to…

Experiential learning (EL) is a process of learning through doing, while experiential education incorporates the pedagogies and structures that support this process. As the benefits of EL have become more evident, experiential engineering education (EEE) efforts like design courses, have increasingly been integrated into undergraduate curricula.…

The long history of experiential learning in construction engineering shows the significant potential of cognitive development through direct experience. Recent advancements in gamification, especially digital serious games, can help educators develop novel pedagogical strategies to promote active and experiential learning in controlled settings.…

This study presents a structured hybrid framework integrating Design Thinking (DT), the Conceive-Design-Implement-Operate (CDIO) methodology, and Root Assessment (RA) to enhance project-based learning (PBL) in engineering education. The framework addresses limitations in conventional PBL by embedding iterative ideation, structured engineering…

The University of Toronto's Troost ILead helps all engineering students blend research and experiential education to find the leader within.

Background: The evolving transformations of our society at large, academic institutions, and engineering discipline in the 21st century have profound implications for the nature of experiential learning being offered in engineering education. However, what is experiential learning in the context of engineering education? Purpose: The introduction…

Biomedical engineering (BME) is a multidisciplinary, constantly advancing field; as such, undergraduate programs in BME must continually adapt. Elective courses provide opportunities for students to select topic areas relevant to their interests or future careers. Specifically, laboratory courses allow experiential learning in specialized topics…

Road design education faces challenges in effectively bridging theoretical knowledge with realworld applications. Traditional classroom-based teaching methods often fall short in preparing engineering students for the complexities encountered in practical scenarios. To address this gap, innovative pedagogical strategies, such as micro-field trips,…

There is a need for novel teaching approaches to train biomedical engineers that are conversant across disciplines and have the technical skills to address interdisciplinary scientific and technological challenges. Here, we describe a graduate-level miniaturized biomedical device engineering course that has been taught over the last decade in…

Purpose: Problem solving skills (PSS), an important component of learning outcomes, is one of the desirable skills in engineering graduates as stated by many employers, researchers and government bodies in India for a strong foothold in professional world. There is a need to develop comprehensive understanding and integration of theory (concept)…

With the rapid growth of the technology era, the conventional teaching approach is not sufficient for students of the millennial generation. With this in mind, this article presents the justification for incorporating Kolb's experiential learning, based on laboratory practices with an environment supported by simulation software, combined with…