Andreas Pester scite author profile

Abstract-Experiments have been at the heart of scientific development and education for centuries. From the outburst of Information and Communication Technologies, virtual and remote labs have added to hands-on labs a new conception of practical experience, especially in Science, Technology, Engineering and Mathematics education. This paper aims at describing the features of a remote lab named Virtual Instruments System in Reality, embedded in a community of practice and forming the spearhead of a federation of remote labs. More particularly, it discusses the advantages and disadvantages of remote labs over virtual labs as regards to scalability constraints and development and maintenance costs. Finally, it describes an actual implementation in an international community of practice of engineering schools forming the embryo of a first world wide federation of Virtual Instruments System in Reality nodes, under the framework of a project funded by the Erasmus+ Program.

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International Cooperation for Remote Laboratory Use

Alves

Fidalgo

Marques

et al. 2018

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Experimenting 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 alternatives accessible anytime, anywhere. These two alternatives are known as virtual and remote labs, and are sometimes indistinguishably referred as online labs. Similarly to other instructional technologies, virtual and remote labs require some effort from teachers in integrating them into curricula, taking into consideration several 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 number of teachers and students involved in engineering education. It presents an example 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

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A federation of VISIR remote laboratories through the PILAR Project

Kulesza¹,

Gustavsson²,

Garbi-Zutin³

et al. 2017

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International E-PRAGMATIC network for adult engineering education

Rojko

Jezernik

Pester

2011

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Experimenting in PILAR federation: A common path for the future

García-Loro

Macho

Cristóbal

et al. 2018

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The 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).

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An online DC-motor test bench for engineering education

Baltayan

Kreiter

Pester

2018

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Object detection with Raspberry Pi3 and Movidius Neural Network Stick

Pester

Schrittesser

2019

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Andreas Pester

Distributed virtual and remote labs in engineering

Spreading remote lab usage a system — A community — A Federation

International Cooperation for Remote Laboratory Use

A federation of VISIR remote laboratories through the PILAR Project

International E-PRAGMATIC network for adult engineering education

Experimenting in PILAR federation: A common path for the future

An online DC-motor test bench for engineering education

Object detection with Raspberry Pi3 and Movidius Neural Network Stick

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