Authors:
D. Valiente
1
;
L. Payá
2
;
S. Fernández de Ávila
3
;
J. C. Ferrer
3
;
S. Cebollada
2
and
O. Reinoso
2
Affiliations:
1
Systems Engineering and Automation Department, Miguel Hernandez University, Av. Universidad sn, 03202 Elche, Spain, Communications Engineering Department, Miguel Hernandez University, Av. Universidad sn, 03202 Elche and Spain
;
2
Systems Engineering and Automation Department, Miguel Hernandez University, Av. Universidad sn, 03202 Elche and Spain
;
3
Communications Engineering Department, Miguel Hernandez University, Av. Universidad sn, 03202 Elche and Spain
Keyword(s):
Online Simulation, Electronics, Engineering Education, eLearning.
Related
Ontology
Subjects/Areas/Topics:
Case Studies
;
Computer-Supported Education
;
Education and Training
;
e-Learning
;
e-Learning Platforms
;
Health Engineering and Technology Applications
;
Laboratory Simulation Software
;
Neural Rehabilitation
;
Neurotechnology, Electronics and Informatics
;
Simulation and Modeling
;
Simulation Tools and Platforms
Abstract:
Nowadays education programs in engineering degrees have evolved towards advanced learning models and methodologies, which are either partially or entirely sustained by ICT (Information, Communication, and Technology) resources, and blended approaches. In this sense, electronics courses have become of paramount importance in most education plans within engineering degrees at university. Therefore the adaption to such novel methodologies is increasingly demanded. According to this, we propose an improved teaching program concentrated on the use of an online simulation tool, amongst other digital resources. The program is addressed to students in first levels of engineering degrees, within the framework of the Spanish public university system. In particular, the methodology has been devised through the use of an online circuit simulation applet in Java, which does not require any software installation. The main purpose is to enhance the general achievement of the students, particularizi
ng on their practical competences, digital skills, engagement and motivation towards the learning of electronics, sustained by digital resources such as simulation. A population of 258 students enrolled during the academic year 2017/2018 has been established as a sample for presenting achievement results, surveys data and comparison statistics with other digital resources. Additionally, test groups of roughly 50% out of the total population of students have been established in order to confirm the success of the approach, in contrast to the former teaching methodology. As a result, the approach proves to be an active model which allows the students to develop long-term and autonomous skills in electronics and simulation.
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