Percorrer por autor "Zackrisson, Johan"
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- International Cooperation for Remote Laboratory UsePublication . Alves, Gustavo R.; Fidalgo, André; Marques, Maria Arcelina; Viegas, Clara; Felgueiras, Carlos; Costa, Ricardo J.; Lima, Natércia; Castro, Manuel; Díaz-Orueta, Gabriel; SanCristóbal-Ruiz, Elio; García-Loro, Felix; García-Zubía, Javier; Hernández-Jayo, Unai; Kulesza, Wlodek J.; Gustavsson, Ingvar; Nilsson, Kristian; Zackrisson, Johan; Pester, Andreas; Zutin, Danilo G.; Schlichting, Luis C.; Ferreira, Golberi; de Bona, Daniel D.; Pacheco, Fernando S.; da Silva, Juarez B.; Alves, João B.; Biléssimo, Simone; Pavani, Ana M.; Lima, Delberis A.; Temporão, Guilherme; Marchisio, Susana; Concari, Sonia B.; Lerro, Federico; de Arregui, Gaston S.; Merendino, Claudio; Plano, Miguel; Fernández, Rubén A.; Paz, Héctor R.; Soria, Mario F.; Gómez, Mario J.; de Almeida, Nival N.; de Oliveira, Vanderli F.; Pozzo, María I.; Dobboletta, Elsa; Bertramo, BrendaExperimenting is fundamental to the training process of all scientists and engineers. While experiments have been traditionally done inside laboratories, the emergence of Information and Communication Technologies added two alter-natives accessible anytime, anywhere. These two alternatives are known as virtual and remote labs, and are sometimes indistinguishably referred as online labs. Sim-ilarly to other instructional technologies, virtual and remote labs require some ef-fort from teachers in integrating them into curricula, taking into consideration sev-eral factors that affect their adoption (i.e. cost) and their educational effectiveness (i.e. benefit). This chapter analyses these two dimensions and sustains the case where only through international cooperation it is possible to serve the large num-ber of teachers and students involved in engineering education. It presents an ex-ample in the area of Electrical and Electronics Engineering, based on a remote lab named Virtual Instruments System in Reality, and it then describes how a number of European and Latin-American institutions have been cooperating under the scope of an Erasmus+ project2, for spreading its use in Brazil and Argentina.
- Lab sessions in VISIR laboratoriesPublication . Gustavsson, Ingvar; Nilsson, Kristian; Zackrisson, Johan; Alves, Gustavo R.; Fidalgo, André Vaz; Claesson, Lena; Zubía, Javier García; Jayo, Unai Hernández; Castro, Manuel; Orueta, Gabriel Diaz; Loro, Felix GarcíaExperimental activities with real components are an essential part of all courses including or devoted to electrical and electronic circuits theory and practice. The knowledge triangle composed of hand-written exercises, simulations and traditional lab experiments has been enriched with the possibility for students to conduct real experiments over the Internet, using remote labs. This tutorial is devoted to one such remote lab named Virtual Instrument Systems in Reality (VISIR). The Global Online Laboratory Consortium (GOLC) elected VISIR as the best remote controlled laboratory in the world, at the first time this distinction was awarded. At the end of this tutorial, attendees are expected to know what is VISIR, what can (not) be done with it, who is currently using it, and how can one integrate it in a given course curriculum.
- The VISIR Open Lab Platform 5.0 - an architecture of a federation of remote laboratoriesPublication . Gustavsson, Ingvar; Nilsson, Kristian; Zackrisson, Johan; García-Zubía, Javier; Alves, Gustavo R.; Hernández-Jayo, Unai; Costa, Ricardo J.This paper outlines a new laboratory learning infrastructure based on the VISIR (Virtual Instrument Systems in Reality) Open Lab Platform, which is an architecture for opening hands-on instructional laboratories for remote access 24/7 with preserved context. The aim is to embrace such laboratories in which telemanipulators can be used to remotely set up and/or start experiments and where the outcome can be observed remotely using instruments, video and/or audio transmission. As hands-on laboratories, VISIR ones can be used for exploring nature and for training laboratory workmanship. The current release (4.1) of the VISIR Open Lab platform can be used for opening electronics laboratories and laboratories for mechanical vibration experiments for remote access. Other subject fields will follow. So far, seven VISIR laboratories are online globally. The coming VISIR Open Lab Platform 5.0 will offer new functionality and will support a federation of VISIR laboratories.
- VISIR+ project - Final Technical ReportPublication . Alves, Gustavo R.; Fidalgo, André V.; Marques, Maria A.; Viegas, Maria C.; Felgueiras, Manuel C.; Costa, Ricardo J.; Lima, Natércia; Castro, Manuel; Díaz-Orueta, Gabriel; SanCristóbal-Ruiz, Elio; García-Loro, Felix; García-Zubía, Javier; Hernández-Jayo, Unai; Kulesza, Wlodek J.; Gustavsson, Ingvar; Nilsson, Kristian; Zackrisson, Johan; Pester, Andreas; Zutin, Danilo G.; Schlichting, Luis C.; Ferreira, Golberi S.; de Bona, Daniel D.; Pacheco, Fernando S.; da Silva, Juarez B.; Alves, João B.; Biléssimo, Simone; Pavani, Ana M.; Lima, Delberis A.; Temporão, Guilherme; Marchision, Susana; Concari, Sonia B.; Lerro, Federico; Arregui, Gastón S. de; Merendino, Claudio; Plano, Miguel; Fernández, Rubén A.; Paz, Héctor R.; Soria, Mario F.; Gómez, Mario J.; Almeida, Nival N. de; Oliveira, Vanderli F. de; Pozzo, María I.; Dobboletta, Elsa; Bertramo, Brenda; Alves, Gustavo; Fidalgo, André; Marques, Maria ArcelinaThis is the final technical report of the VISIR+ project.