Browsing by Author "Diaz, Gabriel"
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- Electronics remote lab integration into a MOOC – Achieving practical competences into MOOCsPublication . Loro, Felix Garcia; Sancristobal, Elio; Gil, Rosario; Diaz, Gabriel; Castro, Manuel; Albert-Gómez, Maria José; Alves, Gustavo R.Massive Open Online Courses (MOOCs) phenomenon introduces a new philosophy in educational models. Regardless of users’/students’ motivation when enrolling (lifelong learning, educational support, interest in new educational areas, etc.), MOOCs expand the ways of reaching knowledge. Flexibility is one of the key aspects of this new educational methodology. This flexibility has to be expanded/translated to all the aspects/features of the course. For educational institutions, traditional approaches must be left behind when designing courses and must provide a new approach to educational process. MOOCs fit very well to several areas of knowledge. However, they involve significant challenges for science MOOCs to be really effective, especially in developing courses. These educational challenges are highlighted in courses which need to offer practice-oriented learning in order to build successful crosscurricular capabilities and abilities. Nowadays, educational institutions trust in experimentation as one of the pillars in which learning is based. In fact, theoretical models used in books and in traditional classrooms just try to bring closer to students the actual behavior of real systems. Unfortunately, it is not possible to provide students with a laboratory in a totally/one hundred percent remote learning environment. This paper deals with the results of the integration of a remote laboratory in a MOOC; how it has been taken advantage of VISIR pros and how its cons have been solved, as well as the evolution of the global system (LMS+VISIR) in continuous improvement.
- Experimenting in PILAR Federation: a Common Path for the FuturePublication . Garcia-Loro, Felix; Macho, Alejandro; San Cristobal, Elio; Diaz, Gabriel; Castro, Manuel; Kulesza, Wlodek; Gustavsson, Ingvar; Nilsson, Kristian; Fidalgo, André; Alves, Gustavo R.; Marques, Maria Arcelina; Hernandez-Jayo, Unai; Garcia-Zubia, Javier; Kreiter, Christian; Oros, Ramona; Pester, Andreas; Garbi-Zutin, Danilo; Auer, Michael; Garcia- Hernandez, Carla; Tavio, Ricardo; Valtonen, Kati; Lehtikangas, ElinaThe PILAR (Platform Integration of Laboratories based on the Architecture of visiR) Erasmus Plus project started in September 2016 and will last three years. The core of the PILAR project is the VISIR remote laboratory —Virtual Instruments System In Reality—. The project aims for a federation of five of the existing VISIR nodes, sharing experiments, capacity and resources among partners, and to provide access to VISIR remote lab, through PILAR consortium, to students from other educational institutions. PILAR will be the framework from which management tasks will be performed and laboratories/experiments will be shared. PILAR will also foster the Special Interest Group of VISIR under the Global Online Laboratory Consortium (GOLC) of the International Association of Online Engineering (IAOE).
- First Practical Steps on the Educational Activities using VISIR and Remote Laboratories at UNSE in Partnership with UNED inside the VISIR+ ProjectPublication . Soria, Mario F; Fernández, Rubén; Gómez, Mario; Paz, Hector; Dobboletta, Elsa; Fidalgo, André; Alves, Gustavo R.; García-Loro, Félix; Sancristobal, Elio; Diaz, Gabriel; Castro, ManuelThe main goals of this paper are to present and disseminate the educational activities carried out in Higher and Medium Education in Santiago del Estero (Argentina) to provide remote access to electrical and electronics practices using remote laboratories, specifically VISIR (Virtual Instruments System In Reality), on the framework of the VISIR+ project, and the Erasmus Plus PILAR project granted by the European Union. This study shows the first data obtained after deploying several practical circuits, which shows the acceptance of the concept and the use of the VISIR remote laboratory, proceeding step by step to increase the use of the circuit for common purposes and potentially new purposes in several institutions (High and Medium Education) in the Northern part of Argentina, having as center Santiago del Estero. The data and results obtained show the feasibility of the preliminary use of the remote laboratory within those institutions
- Perspectivas de los Laboratorios Remotos en la Educación Media y Superior de Santiago del EsteroPublication . Soria, Mario F.; Fernández, Rubén; Gómez, Mario; Paz, Héctor; Pozzo, Maria; Dobboletta, Elsa; Fidalgo, André; Alves, Gustavo R.; Sancristobal, Elio; García-Loro, Félix; Castro, Manuel; Diaz, GabrielEl presente artículo tiene como principal objetivo averiguar las perspectivas de los laboratorios remotos en la educación superior y media técnica, con especialidad en electricidad y electrónica, de la ciudad de Santiago del Estero. Motiva este estudio, la instalación de un Laboratorio Remoto VISIR en la Universidad Nacional de Santiago del Estero. Argentina, puesto a disposición de las instituciones de nivel superior y media técnica de la ciudad de Santiago del Estero y con la posibilidad de brindar un servicio del más alto nivel, ajustado a las limitaciones del laboratorio remoto. La metodología utilizada es el Estudio por Encuesta y el instrumento para recolección de datos, el cuestionario. Los resultados indican una aceptación pedagógica del concepto y uso de Laboratorio Remoto. Este estudio sería un punto de partida para investigaciones posteriores que aborden temáticas cada vez más complejas, tales como, la relación entre el rendimiento académico de los alumnos y el uso de laboratorios remotos y/o el incremento en las vocaciones por el estudio de carreras de ingeniería.
- PILAR: a Federation of VISIR Remote Laboratory Systems for Educational Open ActivitiesPublication . Garcia-Loro, Felix; Cristobal, Elio San; Diaz, Gabriel; Macho, Alejandro; Baizan, Pablo; Blazquez, Manuel; Castro, Manuel; Plaza, Pedro; Orduna, Pablo; Auer, Michael; Kulesza, Wlodek; Gustavsson, Ingvar; Nilsson, Krostian; Fidalgo, André; Alves, Gustavo R.; Marques, Maria Arcelina; Hernandez-Jayo, Unai; Garcia-Zubia, Javier; Kreiter, Christian; Pester, Andreas; Garcia-Hernandez, Carla; Tavio, Ricardo; Valtonen, Kati; Lehtikangas, ElinaSocial demands have promoted an educational approach based on an “anywhere and anytime” premise. Remote laboratories have emerged as the answer to the demands of technical educational areas for adapting themselves to this scenario. The result has not only benefit distance learning students but has provided new learning scenarios both for teachers and students as well as allowing a flexible approach to experimental topics. However, as any other solution for providing practical scenarios (hands-on labs, virtual labs or simulators), remote labs face several constraints inherited from the subsystems of its deployment hardware (real instruments, equipment and scenario) and software (analog/digital conversions, communications, workbenches, etc.). This paper describes the Erasmus+ project Platform Integration of Laboratories based on the Architecture of visiR (PILAR) which deals with several units of the federation installed in different educational institutions and devoted to analog electronics and electrical circuits. Based on the limitations of remote labs, the need for the federation will be justified and its benefits will be described by taking advantage of its strengths. The challenges that have come up during the different stages and the different approaches to design are also going to be described and analyzed
- PILAR: Sharing VISIR Remote Labs Through a FederationPublication . Garcia-Loro, Felix; Cristobal, Elio San; Diaz, Gabriel; Castro, Manuel; Orduna, Pablo; Kulesza, Wlodek; Nilsson, Kristian; Fidalgo, André; Alves, Gustavo R.; Hernandez-Jayo, Unai; Garcia-Zubia, Javier; Kreiter, Christian; Pester, Andreas; Auer, Michael; Garcia, Carla; Tavio, Ricardo; Valtonen, Kati; Lehtikangas, ElinaSocial demands have promoted an educational approach based on an “anywhere and anytime” premise. Remote laboratories have emerged as the answer to the demands of technical educational areas for adapting themselves to this scenario. The result has not only benefit distance learning students but has provided new learning scenarios both for teachers and students as well as allowing a flexible approach to experimental topics. However, as any other solution for providing practical scenarios (hands-on labs, virtual labs or simulators), remote labs face several constraints inherited from the subsystems of its deployment -hardware (real instruments, equipment and scenario) and software (analog/digital conversions, communications, workbenches, etc.)-. This paper describes the Erasmus+ project Platform Integration of Laboratories based on the Architecture of visiR (PILAR) which deals with several units of the federation installed in different educational institutions and devoted to analog electronics and electrical circuits. Based on the limitations of remote labs, the need for the federation will be justified and its benefits will be described.
- Sharing educational experiences from in-person classroom to collaborative lab environmentsPublication . Pozzo, Maria Isabel; Dobboletta, Elsa; Fidalgo, André; Alves, Gustavo R.; Garcia-Loro, Felix; Sancristoba, Elio; Diaz, Gabriel; Castro, ManuelThis paper describes how the Spanish University for Distance Education (UNED) is currently sharing its educational experience on collaborative labs environments with an Argentinean University: the Santiago del Estero National University. This experience takes place within a wider framework provided by the VISIR+ project, which aims to define, implement and evaluate a set of educational modules following an Enquiry-based Teaching and Learning Methodology supported by the VISIR remote lab.
- VISIR deployment in undergraduate engineering practicesPublication . Tawfik, Mohamed; Sancristobal, Elio; Martin, Sergio; Gil, Charo; Pesquera, Alberto; Losada, Pablo; Diaz, Gabriel; Peire, Juan; Castro, Manuel; Garcia-Zubia, Javier; Hernández-Jayo, Unai; Orduña, Pablo; Angulo, Ignacio; Lobo, M. C. Costa; Marques, M. A.; Viegas, M.C.; Alves, Gustavo R.Practical sessions are the backbone of qualification in engineering education. It leads to a better understanding and allows mastering scientific concepts and theories. The lack of the availability of practical sessions at many universities and institutions owing to the cost and the unavailability of instructors the most of the time caused a significant decline in experimentation in engineering education over the last decades. Recently, with the progress of computer-based learning, remote laboratories have been proven to be the best alternative to the traditional ones, regarding to its low cost and ubiquity. Some universities have already started to deploy remote labs in their practical sessions. This contribution compiles diverse experiences based on the deployment of the remote laboratory, Virtual Instrument Systems in Reality (VISIR), on the practices of undergraduate engineering grades at various universities within the VISIR community. It aims to show the impact of its usage on engineering education concerning the assessments of students and teachers as well.