System-based learning (SBL) in engineering domains integrates systems thinking and engineering principles to develop a system. In software engineering, to develop software using the DevOps process, using SBL environment, students gain a comprehensive understanding of the DevOps software development process and apply theoretical concepts to…

Engineering education is pivotal in driving sustainable development forward, yet many engineers encounter hurdles stemming from insufficient preparation for sustainability challenges. A major factor contributing to this is the lack of a structured and practical framework to guide the integration of sustainability into engineering education. This…

Despite an emerging emphasis on the role of engineers in achieving the SDGs, there is still a lack of agreement on which competencies should be prioritised to prepare them to tackle future sustainability challenges. By formulating a theoretical framework of key sustainable competencies based on prior studies, this study investigated engineering…

This article proposes an approach based on experiments to teach optimization technique (OT) courses in the Systems Engineering curricula at undergraduate level. Artificial intelligence techniques in terms of nature-inspired optimization algorithms and neural networks are inserted in the lecture and laboratory parts of the syllabus. The experiments…

Nearly a decade ago, the "Framework for K-12 Science Education" argued for the need to intertwine science and engineering practices, disciplinary core ideas, and crosscutting concepts in performance expectations. However, there are few empirical examples for how intertwining three dimensions facilitates learning. In this study, we used a…

Research around problem solving in collaborative groups has made progress, but several conceptual and methodological issues remain. These issues include the appropriate choices of units of analysis; the ability of current theoretical sets of macrocognition codes to capture group dynamics; detection and identification of potentially emergent…

Collaborations and partnerships across disciplines are becoming increasingly recognized as valuable endeavors toward solving emerging global challenges in our rapidly changing world. Thus, it is crucial to create STEM educational strategies that infuse diverse and interconnected perspectives among scientists, policymakers, and the general public.…

The Department of Electrical and Computer Engineering (ECE) at Virginia Tech is in the fourth year of a large-scale change project called "Revolutionizing Engineering Departments" (NSF RED) (Lord et al., 2018). Our project has three interrelated goals: (1) broaden the range of students entering the department, (2) expand the boundaries…

Since its establishment in 1974, Aalborg University has aimed to deliver cutting-edge research and innovative practices in engineering education. However, increasing complexity related to rapid developments in digitalization and emerging societal challenges offer new opportunities, requirements, and expectations across disciplines for educational…

Biomimicry is a useful method to develop students' skills, such as design and systems thinking, particularly when complemented with inquiry-based learning. The research seeks to uncover how students engage in the biomimicry process and what types of designs they produce to reveal insights that could assist educators in teaching biomimicry. A study…

Embedded system is an interdisciplinary, profound foundation and practice-oriented course; at present, in the traditional teaching mode, embedded systems in colleges and universities generally have problems such as disconnected theory and practice, outdated assessment methods, and low enthusiasm of students. Arming to cultivate compound embedded…

Engineering design activities offer the promise of enhanced learning and teaching in pre-college science, technology, engineering, and mathematics (STEM) settings. The wide variation and lack of coherence in research and practice concerning pre-college engineering design challenges necessitates an investigation of the literature. The overarching…

Engineering thinking enhances real-world learning; it emphasises system thinking, problem finding and creative problem solving as well as visualising, improving, and adapting products and processes. Several studies have investigated how pre-service preschool teachers acquire their knowledge of technology and engineering; however, a clear…

Children are intrigued by moving objects, even more so when they can engineer the movement. This volume in the STEM for Our Youngest Learners Series uses Ramps and Pathways as a context to provide children ages 3-8 with opportunities to engage in STEM every day. Ramps and Pathways is a meaningful and fun way for children to develop engineering…

System Dynamics is a required course offered to junior Mechanical Engineering students at Penn State Erie, the Behrend College. It addresses the intercoupling dynamics of a wide range of dynamic systems: including mechanical, electrical, fluid, hydraulic, electromechanical, and biomedical systems. This course is challenging for students due to the…