The VISIR+ Project - Preliminary Results of the Training Actions

Experimental competences allow engineering students to consolidate knowledge and skills. Remote labs are a powerful tool to aid students in those developments. The VISIR remote lab was considered the best remote lab in the world in 2015. The VISIR+ project main goal is to spread VISIR usage in Brazil and Argentina, providing technical and didactical support. This paper presents an analysis of the already prosecuted actions regarding this project and an assessment of their impact in terms of conditioning factors. The overall outcomes are highly positive since, in each Latin American Higher Education Institution, all training actions were successful, the first didactical implementations were designed and ongoing in the current semester. In some cases, instead of one foreseen implementation, there are several. The most statistically conditioning factors which affected the outcomes were the pre-experience with remote labs, the pre-experience with VISIR and the training actions duration. The teachers’ perceptions that most conditioned their enrollment in implementing VISIR in their courses were related to their consciousness of the VISIR effectiveness to teach and learn. The lack of time to practice and discuss their doubts and the fulfillment of their expectations in the training actions, also affected how comfortable in modifying their course curricula teachers were.

[1]  Jeffrey V. Nickerson,et al.  Hands-on, simulated, and remote laboratories: A comparative literature review , 2006, CSUR.

[2]  James R. Brinson Learning outcome achievement in non-traditional (virtual and remote) versus traditional (hands-on) laboratories: A review of the empirical research , 2015, Comput. Educ..

[3]  Albert J. Rosa,et al.  The Role of the Laboratory in Undergraduate Engineering Education , 2005 .

[4]  Jeffrey V. Nickerson,et al.  Constructing reality: A study of remote, hands-on, and simulated laboratories , 2007, TCHI.

[5]  Diego López-de-Ipiña,et al.  Using VISIR: Experiments, Subjects and Students , 2011, Int. J. Online Eng..

[6]  Ingvar Gustavsson,et al.  Improving students experimental competences using simultaneous methods in class and in assessments , 2014, TEEM '14.

[7]  Tobias Bjerregaard,et al.  A survey of research and practices of Network-on-chip , 2006, CSUR.

[8]  Ingvar Gustavsson On Remote Electronics Experiments , 2011 .

[9]  Francisco J. García-Peñalvo,et al.  VISIR's usage as an educational resource: a review of the empirical research , 2016, TEEM.

[10]  Frank E. Ritter,et al.  Model-based evaluation of expert cell phone menu interaction , 2007, TCHI.

[11]  Ingvar Gustavsson,et al.  Combined efforts to develop students experimental competences , 2015, 2015 3rd Experiment International Conference (exp.at'15).

[12]  Ingvar Gustavsson,et al.  The VISIR project - an Open Source Software Initiative for Distributed Online Laboratories , 2007 .

[13]  Ingvar Gustavsson,et al.  A System – A Community – A Federation , 2016 .

[14]  Javier García-Zubía,et al.  Development of a Remote Laboratory Management System and Integration with Social Networks , 2014, Int. J. Recent Contributions Eng. Sci. IT.

[15]  Ingvar Gustavsson,et al.  Adapting Remote Labs to Learning Scenarios: Case Studies Using VISIR and RemotElectLab , 2014, IEEE Revista Iberoamericana de Tecnologias del Aprendizaje.

[16]  Ingvar Gustavsson,et al.  How Remote Labs Impact on Course Outcomes: Various Practices Using VISIR , 2014, IEEE Transactions on Education.

[17]  Mario A. Bochicchio,et al.  Hands-On Remote Labs: Collaborative Web Laboratories as a Case Study for IT Engineering Classes , 2009, IEEE Transactions on Learning Technologies.

[18]  Luís Gomes,et al.  Current Trends in Remote Laboratories , 2009, IEEE Transactions on Industrial Electronics.

[19]  Fernando Torres Medina,et al.  Hands-on experiences of undergraduate students in Automatics and Robotics using a virtual and remote laboratory , 2011, Comput. Educ..

[20]  Ingvar Gustavsson,et al.  Simultaneous Usage of Methods for the Development of Experimental Competences , 2016, Int. J. Hum. Cap. Inf. Technol. Prof..

[21]  Javier García Zubía,et al.  Using remote labs in education: two little ducks in remote experimentation , 2011 .

[22]  Jeffrey V. Nickerson,et al.  Process and learning outcomes from remotely-operated, simulated, and hands-on student laboratories , 2011, Comput. Educ..

[23]  Ingvar Gustavsson,et al.  A Flexible Electronics Laboratory with Local and Remote Workbenches in a Grid , 2008, Int. J. Online Eng..

[24]  Lars Håkansson,et al.  Using an Online Remote Laboratory for Electrical Experiments in Upper Secondary Education , 2012, Int. J. Online Eng..

[25]  L. Cohen,et al.  Research Methods in Education , 1980 .