Teaching electronics-ICT : from focus and structure to practical realizations

We present a four-year electronics-ICT educational master program at Ghent University in Belgium. The students develop knowledge and skills from novice to experienced electronic circuit designers. In the corresponding topics, the immersion into engineering problems is deepened. The horizontal and vertical alignment of courses in the four-year master program at our university is discussed. The curriculum of the four-year master program is highly projectoriented and all topics are clustered around a well-considered set of standards. This clustering supports the logical structure of the program, with students gradually acquiring the necessary competences. All standards and their mutual interaction are extensively discussed in the paper. We also focus on four design-implement projects included in the electronics-ICT program, explicitly following CDIO-guidelines. Whereas the first-year project has a limited level of difficulty, the challenges increase significantly in the course of the next years. Students learn that product design is an iterative process on different levels, where the design strategy can be changed continuously based on important and crucial feedback. Different evaluations have demonstrated that our students are not only aware of CDIO-principles, but are also convinced of the quality of the results obtained by following the standards

Middle school students' perceptions of engineering

This paper focuses on implementing engineering education in middle school classrooms (grade levels 7-9). One of the aims of the study was to foster students’ and teachers’ knowledge and understanding of engineering in society. Given the increasing importance of engineering in shaping our daily lives, it is imperative that we foster in students an interest and drive to participate in engineering education, increase their awareness of engineering as a career path, and inform them of the links between engineering and the enabling subjects, mathematics, science, and technology. Data for the study are drawn from five classes across three schools. Grade 7 students’ responded to initial whole class discussions on what is an engineer, what is engineering, what characteristics engineers require, engineers (family/friends) that they know, and subjects that may facilitate an engineering career. Students generally viewed engineers as creative, future-oriented, and artistic problem finders and solvers; planners and designers; “seekers” and inventors; and builders of constructions. Students also viewed engineers as adventurous, decisive, community-minded, reliable, and “smart.” In addition to a range of mathematics and science topics, students identified business studies, ICT, graphics, art, and history as facilitating careers in engineering. Although students displayed a broadened awareness of engineering than the existing research suggests, there was limited knowledge of various engineering fields and a strong perception of engineering as large construction

Sustainable international experience: A collaborative teaching project

Within engineering education, there is an increasing need for providing our students with international experiences. This is most often done by exchange studies abroad. However, a majority of the students on engineering programs do not engage in any international exchange. This paper presents insights from a collaborative cross-disciplinary international project to give students international experience without having to travel. From both a sustainability perspective and a situation where e.g. a global virus outbreak stop students from travelling, solutions that give engineering students experience of working in an international setting are becoming increasingly important. Initial challenges, for the teachers involved in the project, that were addressed before the project started, included the assessment of students, the use of online collaborative tools, assessment of students and the dependence between the two courses. The learnings from the first and second iteration of the collaborative project were mainly focused around transparency, introduction of students to each other, communication, real-time issues and deadlines. By gradually remove these peripheral challenges for the students, resulting in making the students focus on the actual challenges surrounding the actual collaborative project. Even though this project is ongoing, the initial results clearly show that by integrating courses between different countries and disciplines, it is possible to create an environment that strengthens the students’ ability in teamwork, communication and addresses the cultural and professional aspects of working as an engineer in an international context

Developing innovation competences in engineering education through project-based and challenge-based learning

There is a gap between industry needs and engineering graduates’ competences that since the past two decades has been under discussion. Engineering graduates are perceived as “too theoretical” by the industry and face difficulties when adapting to the practical working context. This gap is being mostly tackled by project-based courses. Furthermore, the expected competences of the future engineers go beyond the purely technical skills. Competences like creativity, innovativeness, business skills, sense of responsibility, problem-based thinking, collaboration, ability to communicate and effectively dealing with stress and uncertainty, among others, will be increasingly important in the future. Innovation competences in particular are key to tackle current societal challenges, but there is limited understanding about what innovation competences are developed through different types of project-based courses. An education that remains only in the scope of technical skills traditionally expected from engineers will eventually limit the capabilities of the engineers to influence strategy and management decisions, as well as concept definition for new products and services. Institutions like ABET, CDIO and ENAEE – EUR-ACE®, highlight these demands for future engineers’ competences. Ultimately, the more engineers master the innovation process beyond the technical aspects, the more impact they can have in shaping the society of the future, and the greater chances they have to position themselves as decision makers. This study discusses what are the innovation competences needed for engineering students and pedagogical approaches to develop those competences, with the aim of understanding how to better design educational strategies to improve innovation competences in future engineering graduates. A broad literature review was developed on existing innovation competences models and pedagogical approaches to develop innovation competences, going from problem-based to project-based learning to challenge-based education, from New Product Development to Design Thinking, and through different strategies to measure innovation competences. Through a mixed method approach, combining quantitative analysis of surveys and qualitative content analysis of project results, we compared two experiential learning courses developed at the UPC Telecom school: a project-based course and a challenge- based course. We compared self-perception on innovation competences using the INCODE (Innovation Competences Development) Barometer and we developed a qualitative content analysis of project results and self-reflection documents of two groups of engineering students from Telecom Engineering school from UPC going through CBI (Challenge Based Innovation) course versus PDP (Product Development Project) course. CBI is an innovative learning experience carried out by three institutions: Telecom Engineering School of UPC, ESADE Business School and IED Instituto Europeo di Design in collaboration with CERN, where mixed teams of students from the three institutions face open innovation challenges through Design Thinking, with the objective of designing solutions to complex societal problems, considering the use of CERN technologies if suitable. PDP is the “standard” capstone course taken by Telecom engineering students following a classical project management approach based on the CDIO framework. Results shows that experiential learning approaches like project-based and challenge-based education are good educational strategies for developing competences and, explicitly, innovation competences in engineering education, but each strategy emphasizes some competences more than others. Project-based courses demonstrates better results in Planning and Managing Projects. Creativity, Leadership and Entrepreneurship are more developed through a challenge-based approach combined with Design Thinking.Existe una brecha entre las necesidades de la industria y las competencias de los graduados en ingeniería que se ha estado debatiendo desde las últimas dos décadas. Los graduados en ingeniería son percibidos como "demasiado teóricos" por la industria y encuentran dificultades para adaptarse al contexto laboral real. Esta brecha se aborda principalmente mediante cursos basados en proyectos, desarrollando las competencias esperadas de los futuros ingenieros, que van más allá de las habilidades puramente técnicas. Competencias como la creatividad, la innovación, las habilidades empresariales, el sentido de la responsabilidad, el pensamiento basado en problemas, la colaboración, la capacidad para comunicarse y afrontar eficazmente el estrés y la incertidumbre, entre otras, serán cada vez más importantes en el futuro. Las competencias de innovación en particular son clave para abordar los desafíos sociales actuales. Pero hay una comprensión limitada sobre qué competencias de innovación se desarrollan a través de diferentes tipos de cursos basados en proyectos. Instituciones como ABET, CDIO y ENAEE - EUR-ACE®, destacan estas demandas de competencias de los futuros ingenieros. Este estudio analiza cuáles son las competencias de innovación necesarias para los estudiantes de ingeniería y los enfoques pedagógicos para desarrollar estas competencias, con el objetivo de comprender cómo diseñar mejores estrategias educativas para el desarrollo de competencias de innovación en los futuros graduados en ingeniería. Se desarrolló una extensa revisión de la literatura incluyendo modelos de competencias de innovación y enfoques pedagógicos existentes para desarrollar competencias de innovación, pasando del aprendizaje basado en problemas al aprendizaje basado en proyectos y la educación basada en retos. También se estudió el desarrollo de nuevos productos (NPD) y el pensamiento de diseño (Design Thinking), así como diferentes estrategias para medir competencias de innovación. A través de un enfoque de métodos mixto, combinando el análisis cuantitativo de encuestas y el análisis de contenido cualitativo de resultados de proyectos, se compararon dos cursos de aprendizaje experiencial desarrollados en la escuela Telecomunicaciones de la UPC: un curso basado en proyectos PDP (Proyecto de desarrollo de producto) y un curso basado en retos (CBI-Challenge Based Innovation). Se analizó la autopercepción sobre competencias de innovación utilizando el Barómetro INCODE (Innovation Competences Development), y se desarrolló un análisis de contenido cualitativo de los resultados de proyectos y documentos de autorreflexión. CBI es una experiencia de aprendizaje innovadora llevada a cabo por tres instituciones: Escuela de Ingeniería de Telecomunicaciones de la UPC, ESADE Business School e IED Istituto Europeo di Design en colaboración con CERN, donde equipos mixtos de estudiantes de las tres instituciones enfrentan desafíos de innovación abierta a través del Design Thinking, con el objetivo de diseñar soluciones a problemas sociales complejos, considerando el uso de tecnologías CERN (si es apropiado). PDP es el curso final ¿estándar¿ que toman los estudiantes de ingeniería de telecomunicaciones siguiendo un enfoque clásico de gestión de proyectos basado en el marco CDIO. Los resultados muestran que los enfoques de aprendizaje experiencial como la educación basada en proyectos y la educación basada en retos son buenas estrategias educativas para desarrollar competencias y, específicamente, competencias de innovación en la educación en ingeniería. Pero cada estrategia enfatiza algunas competencias más que otras. Los cursos basados en proyectos demuestran mejores resultados en la planificación y gestión de proyectos. La creatividad, el liderazgo y el espíritu empresarial se desarrollan más a través de un enfoque basado en retos combinado con Design Thinking.Postprint (published version

A bibliometric and classification study of Project-based Learning in engineering education

Engineering education has been the subject of studies in search of approaches that provide better results in terms of learning. The Project Based Learning approach (PBL) is the subject of this study from the point of view of its application in Engineering. The objective is to present a classification and bibliometric analysis of PBL in Engineering. Publications on the subject were identified through queries at the journal databases at ISI Web of Science and Scopus SCImago between 2000 and 2016. The results highlight the benefits from the use of the PBL approach to learning in Engineering showing increased absorption of technical content by students and the development of soft and multi-disciplinary skills. The bibliometric analysis revealed the most relevant journals in the subject, authors and the most cited papers and keywords. New horizons to advance the use of PBL in engineering education are discussed

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