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…

Contribution: Team-based learning (TBL) with a transdisciplinary (TD) approach is applied in one introductory programming course with different cohorts. The approach reduces the failure rate in the course. In addition, the approach helped students understand the application of programming to different engineering professional areas. Background:…

We have implemented a jigsaw framework in our biomedical engineering capstone design course by overlaying strategic consideration groups across our design teams. Collaboration in design courses is usually focused within a design team with some peer feedback, but opportunities to work across teams are often limited. The purpose of this teaching tip…

This article discusses a design contest where students can submit new technology designs and be judged for their creativity and unique ideas. Design contests are a wonderful way to stimulate creativity and build student confidence. In this article the author explores some of the issues of importance involved in designing and launching such a…

The design process is full of judgment, especially around successes and failures that occur through each iteration. Decisions about how to proceed when ideas do not work can be especially challenging for beginning designers. Yet, experts are able to demonstrate more natural regulation of the process. This research focused on the experiences of…

This article aims to expand our knowledge on interdisciplinary design education by focusing on team development, which has remained a less explored aspect of interdisciplinary collaboration so far. An interdisciplinary design studio course, Collaborative Design, for food engineering and industrial design students in higher education provides the…

Engineering students are expected to develop their professional skills throughout the course of their degrees. Yet, there is no clear consensus among educators of which skills are being developed or how this is done effectively. This scoping review has been produced to draw together and disseminate information on effective techniques for…

Background: In responding to the global problems facing humankind, there is great value in equipping science and engineering students with skills to function well in multidisciplinary teams. Little attention has been paid into the factors that influence multidisciplinary collaboration and teamwork of science and engineering students. Purpose: This…

The increase in digital teaching and learning methodologies creates the opportunity for new educational approaches, both in terms of pedagogical practice and in the availability of new technological tools. The flipped classroom as an active teaching methodology is one example of blended learning (b-learning), which aims to harmonize and enhance…

Development of team skills is vital to becoming a successful and productive engineer. To prepare students for successful team-based work, they need a basic understanding of the organizational psychology underpinning teamwork and an introduction to tools and techniques to develop and sustain team effectiveness. The goal of this paper is to…

Purpose: Biomedical engineers that have the ability and skill sets to comprehend and retain basic anatomy and physiology (A&P) knowledge, apply fundamental engineering principles, use critical thinking, and communicate effectively across multiple disciplines to facilitate successful development and clinical translation of medical devices. The…

Entrepreneurial minded learning (EML) is a pedagogical technique that gives students the tools to identify opportunities, focus on impact, and to create value through their solutions. The entrepreneurial mindset builds upon three key elements: curiosity, connections, and creating value (3 Cs). A biomedical engineering course was developed using…

Studio-based learning is gaining currency in university engineering education programmes. It is widely argued that this practice-oriented, collaborative approach to developing professional, teamwork and interpersonal skills is needed to prepare the future workforce. In this paper, students' expectations and perceptions of a first-year studio were…

Background: Societal challenges that call for a new type of engineer suggest the need for the implementation of interdisciplinary engineering education (IEE). The aim of IEE is to train engineering students to bring together expertise from different disciplines in a single context. This review synthesizes IEE research with a focus on…

Argumentation and metacognitive reflection are required for effective thinking and convincing argumentation in engineering co-design. This study investigated engineering students' argumentation and metacognitive reflection in their final group reports and their correlation with the quality of their work in co-design. The groups practiced and…