High-profile accidents in the Chemical sector across research and manufacturing scaleshave provided strong drivers to develop a new benchmark in safety training and compliance. Herein, we describe the design, implementation, and standardized psychological evaluation of virtual reality (VR) applied to process safety training. Through a specific industrial case study, we show that testable learning of complex safetyspecific tasks in VR is statistically equivalent to traditional slidebased video training. However, VR training presents a measurable positive improvement on trainees' perception of overall learning and their feeling of presence in the task during training. It has also been shown that knowledge retention from video lectures can be overestimated, if not controlled. Through these resultsand our transferable blueprint for robustly assessing any new VR training platformwe envisage a range of technologically enabled efforts to enhance safety performance in both laboratory-and plant-based activities. Implications for physical resource-saving projects are also described.
<p>High-profile
accidents in the Chemical sector – across research and manufacturing scales –
have provided strong drivers to develop a new benchmark in safety training and compliance.
Herein, we describe the design, implementation, and standardised psychological
evaluation of Virtual Reality (VR) applied to process safety training. Through
a specific industrial case study, we show that testable learning of complex
safety-specific tasks in VR is statistically equivalent to traditional
slide-based video training. However, VR training presents a measurable positive
improvement on trainees’ perception of overall learning, and their feeling of
presence in the task during training. It has also been shown that knowledge
retention from video lectures can be overestimated, if not controlled. Through
these results – and our transferable blueprint for robustly assessing any new
VR training platform – we envisage a range of technologically-enabled efforts
to enhance safety performance in both laboratory and plant-based activities.
Implications for physical resource-saving projects are also described. <b></b></p>
<p>High-profile
accidents in the Chemical sector – across research and manufacturing scales –
have provided strong drivers to develop a new benchmark in safety training and compliance.
Herein, we describe the design, implementation, and standardised psychological
evaluation of Virtual Reality (VR) applied to process safety training. Through
a specific industrial case study, we show that testable learning of complex
safety-specific tasks in VR is statistically equivalent to traditional
slide-based video training. However, VR training presents a measurable positive
improvement on trainees’ perception of overall learning, and their feeling of
presence in the task during training. It has also been shown that knowledge
retention from video lectures can be overestimated, if not controlled. Through
these results – and our transferable blueprint for robustly assessing any new
VR training platform – we envisage a range of technologically-enabled efforts
to enhance safety performance in both laboratory and plant-based activities.
Implications for physical resource-saving projects are also described. <b></b></p>
<p>High-profile
accidents in the Chemical sector – across research and manufacturing scales –
have provided strong drivers to develop a new benchmark in safety training and compliance.
Herein, we describe the design, implementation, and standardised psychological
evaluation of Virtual Reality (VR) applied to process safety training. Through
a specific industrial case study, we show that testable learning of complex
safety-specific tasks in VR is statistically equivalent to traditional
slide-based video training. However, VR training presents a measurable positive
improvement on trainees’ perception of overall learning, and their feeling of
presence in the task during training. It has also been shown that knowledge
retention from video lectures can be overestimated, if not controlled. Through
these results – and our transferable blueprint for robustly assessing any new
VR training platform – we envisage a range of technologically-enabled efforts
to enhance safety performance in both laboratory and plant-based activities.
Implications for physical resource-saving projects are also described. <b></b></p>
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