Insights Into Global Engineering Education After the Birth of Industry 5.0

Insights Into Global Engineering Education After the Birth of Industry 5.0 presents a comprehensive overview of recent developments in the fields of engineering and technology. The book comprises single chapters authored by various researchers and edited by an expert active in the engineering education research area. It provides a thorough overview of the latest research efforts by international authors on engineering education and opens potential new research paths for further novel developments

Proceedings of the 3rd international symposium for engineering education ISEE2010: Educating engineers for a changing world - leading transformation from an unsustainable global society

The twenty first century and beyond will present human society with a set of unprecedented challenges emanating from the unsustainable nature of the current societal model. Clearly society must find a transformative model to a sustainable future, and fast. Engineers, with their technical know-how and systems approach to problem solving, are well placed to lead this necessarily multidisciplinary and collaborative endeavour. However, engineering education must provide twenty first century engineers with the necessary tools to undertake the massive challenges ahead. The 3rd International Symposium of Engineering Education took place at University College Cork on 30th June - 2nd July 2010. This significant international conference explored a number of key issues pertaining to engineering education in the twenty first century. These include sustainability in engineering education, IT applications, pedagogical approaches & assessment for learning outcomes, Bologna and industry perspectives

An illustration oriented approach in statistics education

This paper explores an illustration oriented approach to assist students in learning Statistics. The importance of providing graphical insight into statistical ideas is emphasized as it helps students in many ways in their learning process. How this approach is practised at the University of Greenwich is described and students’ views, which give very positive indications, are summarised

Exploring the practical use of a collaborative robot for academic purposes

This article presents a set of experiences related to the setup and exploration of potential educational uses of a collaborative robot (cobot). The basic principles that have guided the work carried out have been three. First and foremost, study of all the functionalities offered by the robot and exploration of its potential academic uses both in subjects focused on industrial robotics and in subjects of related disciplines (automation, communications, computer vision). Second, achieve the total integration of the cobot at the laboratory, seeking not only independent uses of it but also seeking for applications (laboratory practices) in which the cobot interacts with some of the other devices already existing at the laboratory (other industrial robots and a flexible manufacturing system). Third, reuse of some available components and minimization of the number and associated cost of required new components. The experiences, carried out following a project-based learning methodology under the framework of bachelor and master subjects and thesis, have focused on the integration of mechanical, electronic and programming aspects in new design solutions (end effector, cooperative workspace, artificial vision system integration) and case studies (advanced task programming, cybersecure communication, remote access). These experiences have consolidated the students' acquisition of skills in the transition to professional life by having the close collaboration of the university faculty with the experts of the robotics company.Postprint (published version

Challenges for engineering students working with authentic complex problems

Engineers are important participants in solving societal, environmental and technical problems. However, due to an increasing complexity in relation to these problems new interdisciplinary competences are needed in engineering. Instead of students working with monodisciplinary problems, a situation where students work with authentic complex problems in interdisciplinary teams together with a company may scaffold development of new competences. The question is: What are the challenges for students structuring the work on authentic interdisciplinary problems? This study explores a three-day event where 7 students from Aalborg University (AAU) from four different faculties and one student from University College North Denmark (UCN), (6th-10th semester), worked in two groups at a large Danish company, solving authentic complex problems. The event was structured as a Hackathon where the students for three days worked with problem identification, problem analysis and finalizing with a pitch competition presenting their findings. During the event the students had workshops to support the work and they had the opportunity to use employees from the company as facilitators. It was an extracurricular activity during the summer holiday season. The methodology used for data collection was qualitative both in terms of observations and participants’ reflection reports. The students were observed during the whole event. Findings from this part of a larger study indicated, that students experience inability to transfer and transform project competences from their previous disciplinary experiences to an interdisciplinary setting