This paper examines the interplay between sustainability transitions and industrial demands within Taiwanese engineering education. Taiwan, a newly industrialized economy, faces unique challenges in integrating sustainability into its engineering programs while maintaining economic growth. Based on 34 interviews with professors, deans, and…

Nanoscience and Technology (NST) have revolutionized the world. It has led to many innovations since it entered our lives. Meanwhile, the number and quality of people trained in this field gained importance. Currently, initiatives are being taken to integrate this field into the primary education curriculum in many countries. This study focuses on…

The underwater robot (UR) is an embodiment of interdisciplinary technologies, integrating underwater communication, machinery, marine science, computer science, and robotics. Although URs enable a highly engaging and exploratory construction that can foster children's engineering education and ocean literacy, little work has explored UR design and…

Building Information Modelling (BIM) has changed the way many civil engineers organise and execute their job in recent years. Many universities around the world have been adapting their curricula to include BIM education. However, this adaptation has been incomplete, occurring only in a small number of subjects. To fill this gap, this paper…

This paper describes integrated STEM (iSTEM) education in middle school learning environments. Using an instrumental case study approach, five STEM teachers from four mid-west schools were observed and qualitative field notes were made using Reformed Teaching Observation Protocol (RTOP) (Pibum et al., 2000). The observations were systematically…

Today, problems such as climate change, drought, food crises, and pandemics have once again brought the effective use of natural resources back on the agenda. With STEM + based activities, an interdisciplinary learning approach, students are expected to design a product that will solve a problem from daily life and add value to it. Based on these…

The curriculum for undergraduate Agricultural Engineering does not usually include much laboratory practice. In order to address this, here we propose the design of a practical class on legume-rhizobia symbiosis, using an interdisciplinary approach that takes elements from botany, agriculture, and microbiology. The students perform an assay to…

Problem- and project-based learning (PBL) is often highlighted as a valuable approach for addressing the need for interdisciplinarity in engineering education. However, studies indicate that applied projects in engineering education tend to be limited to a single discipline. This article presents a new project typology which can be applied in…

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:…

Contribution: A multidisciplinary computational framework to support undergraduate engineering education is introduced. It is posed as an open-source tool that students can use to understand and apply computational methods commonly required in engineering problems. Background: This framework development is motivated by past experiences of teaching…

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…

Background: Engineering problems are open-ended and complex, involving technical and social aspects, yet engineering education focuses on technical training and closed-ended problems. To prepare engineering students, curricula should foster sociotechnical thinking--the ability to consider the interplay of technical and social factors during…

Vertically integrated project courses (VIPs) are successful models for embedding long-term research participation into engineering curricula. Whether this model can be translated into gains for laboratory-based projects in biological sciences is unknown. Most biological sciences course-based undergraduate research experiences (CUREs) are a single…

Quantum information science and engineering (QISE) is rapidly gaining interest from those within many disciplines, and higher education needs to adapt to the changing landscape. Although QISE education still has a strong presence and roots in physics, the field is becoming increasingly interdisciplinary. There is a need to understand the presence…

In response to the criticism that theory-driven researcher-developed learning tools lack scalability and sustainability in the real world, the design-based implementation research (DBIR) approach was proposed. However, few empirical studies actually describe what a DBIR study looks like and how it can inform readers about learning tool design. We…