Virtual Reality System for training in the detection and solution of failures in induction motors

Gustavo Caiza; Marco Riofrio-Morales; C. Veronica Gallo; T. Santiago Alvarez; Wilson O. Lopez; Marcelo V. Garcia

doi:10.46354/i3m.2021.emss.027

Virtual Reality System for training in the detection and solution of failures in induction motors

Gustavo Caiza
, Marco Riofrio-Morales
, C. Veronica Gallo
, T. Santiago Alvarez
, Wilson O. Lopez
, Marcelo V. Garcia

Grupo de Investigación en Electrónica Control y Automatización (GIECA)

Producción científica: Contribución a una revista › Artículo de la conferencia › revisión exhaustiva

7 Citas (Scopus)

Resumen

The changing industrial world in which we find ourselves has forced companies to evolve technologically, restructuring their processes and improving their human resources skills. The acceptance by management of a fourth industrial revolution in transition to a fifth has led them to look for an economical way to stay updated and with the necessary skills to optimize their production chain. This work presents the development of virtual reality (VR) system for training in detecting faults in three-phase electric motors. A sample of 30 people was used, homogeneously divided into a control group and an experimental group. To evaluate the VR systems usability, the System Usability Scale (SUS) was used, obtaining an average value of 73.33, classifying the system as efficient for the proposed task. On the other hand, in terms of time and knowledge retention, the performance of this system was compared with the execution of a conventional one. For the training time, an optimization of 57.73% was obtained, while through a p-value of 0.000003, it was confirmed that this VR system provides a novel teaching methodology for the instruction and retention of technical knowledge.

Idioma original	Inglés
Páginas (desde-hasta)	199-207
Número de páginas	9
Publicación	European Modeling and Simulation Symposium, EMSS
DOI	https://doi.org/10.46354/i3m.2021.emss.027
Estado	Publicada - 2021
Evento	33rd European Modeling and Simulation Symposium, EMSS 2021 - Virtual, Online Duración: 15 sep. 2021 → 17 sep. 2021

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Publisher Copyright:
© 2021 The Authors.

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10.46354/i3m.2021.emss.027

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title = "Virtual Reality System for training in the detection and solution of failures in induction motors",

abstract = "The changing industrial world in which we find ourselves has forced companies to evolve technologically, restructuring their processes and improving their human resources skills. The acceptance by management of a fourth industrial revolution in transition to a fifth has led them to look for an economical way to stay updated and with the necessary skills to optimize their production chain. This work presents the development of virtual reality (VR) system for training in detecting faults in three-phase electric motors. A sample of 30 people was used, homogeneously divided into a control group and an experimental group. To evaluate the VR systems usability, the System Usability Scale (SUS) was used, obtaining an average value of 73.33, classifying the system as efficient for the proposed task. On the other hand, in terms of time and knowledge retention, the performance of this system was compared with the execution of a conventional one. For the training time, an optimization of 57.73\% was obtained, while through a p-value of 0.000003, it was confirmed that this VR system provides a novel teaching methodology for the instruction and retention of technical knowledge.",

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AU - Caiza, Gustavo

AU - Riofrio-Morales, Marco

AU - Veronica Gallo, C.

AU - Santiago Alvarez, T.

AU - Lopez, Wilson O.

AU - Garcia, Marcelo V.

PY - 2021

Y1 - 2021

N2 - The changing industrial world in which we find ourselves has forced companies to evolve technologically, restructuring their processes and improving their human resources skills. The acceptance by management of a fourth industrial revolution in transition to a fifth has led them to look for an economical way to stay updated and with the necessary skills to optimize their production chain. This work presents the development of virtual reality (VR) system for training in detecting faults in three-phase electric motors. A sample of 30 people was used, homogeneously divided into a control group and an experimental group. To evaluate the VR systems usability, the System Usability Scale (SUS) was used, obtaining an average value of 73.33, classifying the system as efficient for the proposed task. On the other hand, in terms of time and knowledge retention, the performance of this system was compared with the execution of a conventional one. For the training time, an optimization of 57.73% was obtained, while through a p-value of 0.000003, it was confirmed that this VR system provides a novel teaching methodology for the instruction and retention of technical knowledge.

AB - The changing industrial world in which we find ourselves has forced companies to evolve technologically, restructuring their processes and improving their human resources skills. The acceptance by management of a fourth industrial revolution in transition to a fifth has led them to look for an economical way to stay updated and with the necessary skills to optimize their production chain. This work presents the development of virtual reality (VR) system for training in detecting faults in three-phase electric motors. A sample of 30 people was used, homogeneously divided into a control group and an experimental group. To evaluate the VR systems usability, the System Usability Scale (SUS) was used, obtaining an average value of 73.33, classifying the system as efficient for the proposed task. On the other hand, in terms of time and knowledge retention, the performance of this system was compared with the execution of a conventional one. For the training time, an optimization of 57.73% was obtained, while through a p-value of 0.000003, it was confirmed that this VR system provides a novel teaching methodology for the instruction and retention of technical knowledge.

KW - Induction Motors

KW - Industrial training

KW - Optimization

KW - System Usability Scale (SUS)

KW - Virtual reality

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