Virtual humans as co-workers: A novel methodology to study peer effects

Virtual humans as co-workers: A novel methodology to study peer effects

•In an immersive virtual environment, we embed a virtual human (VH) as co-worker.•Human subjects perform a sorting task observing a low or highly productive VH.•Competitive subjects perform better when working with a highly productive peer.•Using hand and head-tracking data, we define a measure of c...

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Bibliographic Details
Published in:Journal of behavioral and experimental economics Vol. 78; pp. 17 - 29
Main Authors: Gürerk, Özgür, Bönsch, Andrea, Kittsteiner, Thomas, Staffeldt, Andreas
Format: Journal Article
Language:English
Published: Elsevier Inc 01-02-2019
Subjects:
Immersive virtual environment
Peer effects
Real effort
Reflection problem
Virtual human
Virtual reality
Immersive virtual environment
Reflection problem
Peer effects
Virtual reality
Real effort
M50
C91
Virtual human
J24
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Summary:•In an immersive virtual environment, we embed a virtual human (VH) as co-worker.•Human subjects perform a sorting task observing a low or highly productive VH.•Competitive subjects perform better when working with a highly productive peer.•Using hand and head-tracking data, we define a measure of careful work.•We investigate the extent to which careful work affects performance. We introduce a novel methodology to study peer effects. Using virtual reality technology, we create a naturalistic work setting in an immersive virtual environment where we embed a computer-generated virtual human as the co-worker of a human subject, both performing a sorting task at a conveyor belt. In our setup, subjects observe the virtual peer, while the virtual human is not observing them. In two treatments, human subjects observe either a low productive or a highly productive virtual peer. We find that human subjects rate their presence feeling of “being there” in the immersive virtual environment as natural. Subjects also recognize that virtual peers in our two treatments showed different productivities. We do not find a general treatment effect on productivity. However, we find that competitive subjects display higher performance when they are in the presence of a highly productive peer - compared to when they observe a low productive peer. We use tracking data to learn about the subjects’ body movements. Analyzing hand and head data, we show that competitive subjects are more careful in the sorting task than non-competitive subjects. We also discuss some VR related methodological issues.
ISSN:2214-8043
2214-8051
DOI:10.1016/j.socec.2018.11.003