Author
Listed:
- Vicente Román-Ibáñez
(Computer Technology and Computation Department, University of Alicante, 03690 Alicante, Spain)
- Francisco A. Pujol-López
(Computer Technology and Computation Department, University of Alicante, 03690 Alicante, Spain)
- Higinio Mora-Mora
(Computer Technology and Computation Department, University of Alicante, 03690 Alicante, Spain)
- Maria Luisa Pertegal-Felices
(Developmental and Educational Psychology Department, University of Alicante, 03690 Alicante, Spain)
- Antonio Jimeno-Morenilla
(Computer Technology and Computation Department, University of Alicante, 03690 Alicante, Spain)
Abstract
Laboratory tasks are a powerful pedagogical strategy for developing competences in science and engineering degrees, making students understand in a practical way the theoretical topics explained in the classroom. However, performing experiments in real conditions is usually expensive in terms of time, money and energy, as it requires expensive infrastructures that are generally difficult to maintain in good conditions. To overcome this problem, virtual reality has proven to be a powerful tool to achieve sustainability, making it easy to update laboratories without the need to acquire new equipment. Moreover, the ability to introduce practical knowledge into classrooms without leaving them, makes virtual laboratories capable of simulating typical operating environments as well as extreme situations in the operation of different devices. A typical subject in which students can benefit from the use of virtual laboratories is robotics. In this work we will develop an immersive virtual reality (VR) pedagogical simulator of industrial robotic arms for engineering students. With the proposed system, students will know the effects of their own designed trajectories on several different robotic arms and cell environments without having to buy all of them and being safe of damaging the cell components. The simulation will be checking for collisions of the elements in the scene and alert the student when they happen. This can be achieved with a robotic simulator, but the integration with immersive VR is intended to help students better understand robotics. Moreover, even having a real robotic arm available for students, with this proposed VR method, all the students have the opportunity to manage and learn his own version of the robotic cell, without waiting times generated by having less robotic arms than students in classroom.
Suggested Citation
Vicente Román-Ibáñez & Francisco A. Pujol-López & Higinio Mora-Mora & Maria Luisa Pertegal-Felices & Antonio Jimeno-Morenilla, 2018.
"A Low-Cost Immersive Virtual Reality System for Teaching Robotic Manipulators Programming,"
Sustainability, MDPI, vol. 10(4), pages 1-13, April.
Handle:
RePEc:gam:jsusta:v:10:y:2018:i:4:p:1102-:d:139915
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Citations
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Cited by:
- Khadija El Kharki & Khalid Berrada & Daniel Burgos, 2021.
"Design and Implementation of a Virtual Laboratory for Physics Subjects in Moroccan Universities,"
Sustainability, MDPI, vol. 13(7), pages 1-28, March.
- Elli Doukanari & Despo Ktoridou & Leonidas Efthymiou & Epaminondas Epaminonda, 2021.
"The Quest for Sustainable Teaching Praxis: Opportunities and Challenges of Multidisciplinary and Multicultural Teamwork,"
Sustainability, MDPI, vol. 13(13), pages 1-21, June.
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