Biomedical engineering is critical in improving people's lives through innovative solutions to biological and medical challenges. In the face of today's rapidly evolving climate, the field of biomedical engineering encounters numerous pressures that demand up-to-date skills and competencies. The (re-)development of curricula aligning with industry…

While the fourth industrial revolution continues to change manufacturing enterprises all over the world, not all enabling key technologies are taught sufficiently at universities. For this purpose, a new lecture at the Montanuniversität Leoben was designed, teaching students of miscellaneous engineering disciplines, the fundamentals of…

Globally, the demand for people prepared to enter Science, Technology, Engineering and Math (STEM) careers is increasing. To help fill this demand, many formal and informal STEM educational interventions have been implemented in the K-12 domain. However, due to the lack of a clearly defined framework for documenting the nature and scope of the…

The competence to work together and co-create with others outside one's own scientific domain, culture or professional practice is a critical competence for engineers to respond to global challenges. In this context, boundary crossing (BC) competence is crucial. We reflect on a university-wide participatory action research educational innovation…

This paper reflects upon the mechanisms that enable development of curricular approaches to multidisciplinary architecture/engineering higher education. Building upon recent calls for integrated multidisciplinary building design practice, academics at UCL, industry partners and respective professional bodies embarked upon developing a new course…

The aim of this study was to explore knowledge in the context of creating a shared curriculum between research-intensive and vocationally oriented universities of applied sciences. Curriculum knowledge was explored from the accounts of 26 teachers from four institutions in Finland. Shared curriculum initiatives created an environment in which…

Background: The Next Generation Science Standards accentuate engineering design along with scientific inquiry, emphasizing the relationship between scientific investigations and engineering design in solving problems and devising new ideas and technologies. The goal is for students to realize the importance of science and engineering in innovation…

Interdisciplinary engineering programs have many perceived benefits including developing broader skills and an ability to work with complex real-life problems. However, the development of interdisciplinary programs faces many challenges including how to balance breadth and depth, how to integrate interdisciplinary learning into existing studies…

Curriculum initiatives that provide the societal context of engineering practice can contribute to justice, equity, diversity, and inclusion (JEDI) within the profession, as well as within the communities served by engineers. JEDI curriculum can foster diversity and inclusion by acknowledging and addressing social justice issues, providing a safe…

A graduate profile benchmark developed by a higher education organisation is subject to scrutiny. This occurs through the numerical parameterisation of text collected through surveys and the use of basic concepts drawn from Information Technology. The process uses data processing, analysis and evaluation to show the degree to which established an…

Although 3D printing (3DP) technology has become an increasingly popular educational tool in recent years, very little is known about the learning benefits of this technology. This systematic literature review synthesized empirical research on learning with 3DP in various educational settings, focusing on publication and study participants'…

The Autonomous Vehicles (AV) are a self-driving vehicle capable of sensing its environment and operating with minimal or no human intervention converting into a fully or partially automated vehicle. These automated vehicles have great potential to revolutionize the automotive industry and our daily lives. Thus, they are receiving a lot of…

In times of rapid transformation of society in general and domains of technology in particular, questions are raised on how to effectively organise higher engineering education. As a response, this study examines the curriculum composition of eleven engineering programs to investigate curriculum nativeness, a novel approach for assessing…

To build a sustainable future, science and engineering education programmes should emphasise scientific investigation, collaboration across traditional science topics and disciplines, and engineering design, including design and evaluation of solutions. While some research studies articulate the shifts that are needed to realise classroom learning…

Many traditional engineering schools are struggling to balance the calls to provide an innovative engineering education that meet the demands of graduates and their employers with the constraints and momentum of their existing curriculum. In this paper we present the conceptual design behind a framework that integrates existing discipline-specific…