Unnikrishnan Radhakrishnan scite author profile

This paper details the motivations, design, and analysis of a study using a fine motor skill training task in both VR and physical conditions. The objective of this between-subjects study was to (a) investigate the effectiveness of immersive virtual reality for training participants in the 'buzz-wire' fine motor skill task compared to physical training and (b) investigate the link between participants' arousal with their improvements in task performance. Physiological arousal levels in the form of electro-dermal activity (EDA) and ECG (Electrocardiogram) data were collected from 87 participants, randomly distributed across the two conditions. Results indicated that VR training is as good as, or even slightly better than, training in physical training in improving task performance. Moreover, the participants in the VR condition reported an increase in self-efficacy and immersion, while marginally significant differences were observed in the presence and the temporal demand (retrieved from NASA-TLX measurements). Participants in the VR condition showed on average less arousal than those in the physical condition. Though correlation analyses between performance metrics and arousal levels did not depict any statistically significant results, a closer examination of EDA values revealed that participants with lower arousal levels during training, across conditions, demonstrated better improvements in performance than those with higher arousal. These findings demonstrate the effectiveness of VR in training and the potential of using arousal and training performance data for designing adaptive VR training systems. This paper also discusses implications for researchers who consider using biosensors and VR for motor skill experiments.

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Immersive Virtual Reality Training : Three Cases from the Danish Industry

Radhakrishnan

Chinello

Koumaditis

2021

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Investigating motor skill training and user arousal levels in VR : Pilot Study and Observations

Radhakrishnan

Blindu

Chinello

et al. 2021

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Exploiting VR and AR Technologies in Education and Training to Inclusive Robotics

Pozzi

Radhakrishnan

Agustí³

et al. 2021

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Nowadays, robotics applications are no more limited to industrial rigid production cells or research laboratories and are spreading in several domains in which interaction with humans is required. In this context, educating professionals, workers, and students in the use and understanding of robotic systems is paramount to ensure the social acceptance and uptake of interactive robots. At the same time, the request for innovative training and teaching methodologies is growing, and virtual and augmented reality technologies as educational tools are gaining the attention of public institutions, companies, and healthcare facilities. In this paper, we focus on how VR/AR technologies can be exploited to teach robotics and to train in the use of specific robot platforms, providing a review of the available resources and discussing their advantages and disadvantages in the "inclusive robotics" perspective.

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