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Permanent URI for this collectionhttps://repositorio.grial.eu/handle/123456789/34
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Item Engineering Education and Technological/Professional Learning(MDPI, 2019-11-22) Viegas, C.; Marques, A.; Alves, G. R.; García-Peñalvo, F. J.The focus of this Special Issue is aimed at enhancing the discussion of Engineering Education, particularly related to technological and professional learning. It was associated with TEEM’18 (6th International Conference on Technological Ecosystems for Enhancing Multiculturality), in particular the special track (under the same nomination) [1] from which the authors of the best works were invited to submit an extension of their paper. Later, it was also associated with CASHE’19 (1st Conference on Academic Success in Higher Education). In parallel, since this special issue had an open call, several works were submitted, from different universities and countries (Australia, Canada, Japan, Portugal, Spain, United Arab Emirates, United Kingdom), creating a more global view of different, yet similar concerns.Item Didactical use of a remote lab: a qualitative reflection of a teacher(ACM, 2019-10-16) Lima, N.; Viegas, C.; García-Peñalvo, F. J.This work describes the teacher reflections about a didactical implementation using a remote laboratory and their impact on his practice. These reflections are analyzed from three different perspectives: how the literature review influenced the design of the didactical implementation (namely the first); how his reflection upon his practice influenced its modifications; how his research activity impacted and affected his teaching practices in the subsequent implementations and guided the modifications made. The remote lab was introduced in a Physics Course in an Engineering degree and was intended to be a learning space where students had the opportunity to practice before the lab class, supporting the development of experimental competences, fundamental in an engineer profile. After the first implementation in 2016/17 academic year it has undergone two subsequent editions with adjustments and modifications. Some features previously reported in literature such as: teacher’s experience with VISIR, the importance of an introductory activity and defining VISIR tasks objectives, were corroborated by the teacher during his practice and research. Others, such as the difficulty some students have in understanding the difference between simulation and remote labs appeared directly from his practice and were pursued in his research in order to deeply understand its implications.Item Active learning experiences in Engineering Education(Tempus, 2019-01-31) García-Peñalvo, F. J.; Alarcón, H.; Dominguez, A.For this special issue, we have clustered the selected eleven papers (out of the fifty-seven received contributions) around five active learning experiences: project-based learning (PBL), flip classroom, collaborative and cooperative work, active learning in pre-college and graduate courses, and faculty development on active learning.Item The VISIR+ Project – Helping Contextualize Math in an Engineering Course(IEEE, 2017-06-06) Lima, N.; Zannin, M.; Viegas, C.; Marques, A.; Alves, Gustavo R.; Felgueiras, M. C.; Costa, R.; Fidalgo, A.; da Silva, J. B.; Pozzo, M. I.; Dobboletta, E.; Gustavsson, I.; García-Peñalvo, F. J.The long-term goal of engineering education is to prepare students to work as engineers. Being a practical profession, laboratories play a crucial role in illustrating concepts and principles as well as improving technical skills. In the last decades the use of online resources (simulators and remote labs) has been growing, either as a complementary and/or as an alternative way of developing experimental competences. In the scope of the VISIR+ Project, this work presents the first results of a didactical implementation using simultaneously the remote laboratory VISIR (Virtual Instrument Systems in Reality), simulation and calculus in a Math Course at the Federal University of Santa Catarina (UFSC). The preliminary results indicate that the use of several resources increases students’ performance, boosting their learning and competence development.Item Learning from Complementary Ways of Developing Experimental Competences(Ediciones Universidad de Salamanca, 2017-03-31) Lima, N. M.; Viegas, M. C.; García-Peñalvo, F. J.Engineering education has solid needs of experimental competences development. Nowadays these competences can be worked not only in traditional laboratories (hands on) but also through the use of computer simulations and remote labs. The use of diversified methods in education and the exploration of new resources and techniques in classroom may allow teachers to motivate more students, and capture their attention due to their different learning styles. The main objective of this project is to better understand the effects on students’ learning outcomes in different contexts (country, type of institution, background, etc.). Students are subjected to similar design approaches that all use an enquiry-based teaching and learning methodology. The methodology of the didactical implementation is based on the simultaneous use of experimental resources (hands on, simulation and remote labs) together with calculus, in class and assessment. To accomplish this research, several insights must be taken into consideration, including the teachers’ mediation in class, in each case, and the didactical implementations adaptations, but also external factors, such as socio-cultural and/or political factors.Item The engineering behind the technological-based educational innovation(Tempus Publication, 2017-04-05) García-Peñalvo, F. J.; Llamas Nistal, M.The engineering behind the technological-based educational innovation