The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.

The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.

The use of 3D visualization technologies has increased rapidly in many applied fields, including geovisualization, and has been researched from many different perspectives. However, the findings for the benefits of 3D visualization, especially in stereoscopic 3D forms, remain inconclusive and disput...

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Main Authors: Vojtěch Juřík, Lukáš Herman, Dajana Snopková, Adrianne John Galang, Zdeněk Stachoň, Jiří Chmelík, Petr Kubíček, Čeněk Šašinka
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0233353
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spelling doaj-f7c5701e9a7d4d2b99b56cd09f7d3f4b2021-03-03T21:51:24ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01155e023335310.1371/journal.pone.0233353The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.Vojtěch JuříkLukáš HermanDajana SnopkováAdrianne John GalangZdeněk StachoňJiří ChmelíkPetr KubíčekČeněk ŠašinkaThe use of 3D visualization technologies has increased rapidly in many applied fields, including geovisualization, and has been researched from many different perspectives. However, the findings for the benefits of 3D visualization, especially in stereoscopic 3D forms, remain inconclusive and disputed. Stereoscopic "real" 3D visualization was proposed as encouraging the visual perception of shapes and volume of displayed content yet criticised as problematic and limited in a number of ways, particularly in visual discomfort and increased response time in tasks. In order to assess the potential of real 3D visualization for geo-applications, 91 participants were engaged in this study to work with digital terrain models in different 3D settings. The researchers examined the effectivity of stereoscopic real 3D visualization compared to monoscopic 3D (or pseudo 3D) visualization under static and interactive conditions and applied three tasks with experimental stimuli representing different geo-related phenomena, i.e. objects in the terrain, flat areas marked in the terrain and terrain elevation profiles. The authors explored the significant effects of real 3D visualization and interactivity factors in terms of response time and correctness. Researchers observed that the option to interact (t = -10.849, p < 0.001) with a virtual terrain and its depiction with real 3D visualization (t = 4.64, p < 0.001) extended the participants' response times. Counterintuitively, the data demonstrated that the static condition increased response correctness (z = 5.38, p < 0.001). Regarding detailed analysis of data, an interactivity factor was proposed as a potential substitute for real 3D visualization in 3D geographical tasks.https://doi.org/10.1371/journal.pone.0233353
collection DOAJ
language English
format Article
sources DOAJ
author Vojtěch Juřík
Lukáš Herman
Dajana Snopková
Adrianne John Galang
Zdeněk Stachoň
Jiří Chmelík
Petr Kubíček
Čeněk Šašinka
spellingShingle Vojtěch Juřík
Lukáš Herman
Dajana Snopková
Adrianne John Galang
Zdeněk Stachoň
Jiří Chmelík
Petr Kubíček
Čeněk Šašinka
The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
PLoS ONE
author_facet Vojtěch Juřík
Lukáš Herman
Dajana Snopková
Adrianne John Galang
Zdeněk Stachoň
Jiří Chmelík
Petr Kubíček
Čeněk Šašinka
author_sort Vojtěch Juřík
title The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
title_short The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
title_full The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
title_fullStr The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
title_full_unstemmed The 3D hype: Evaluating the potential of real 3D visualization in geo-related applications.
title_sort 3d hype: evaluating the potential of real 3d visualization in geo-related applications.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description The use of 3D visualization technologies has increased rapidly in many applied fields, including geovisualization, and has been researched from many different perspectives. However, the findings for the benefits of 3D visualization, especially in stereoscopic 3D forms, remain inconclusive and disputed. Stereoscopic "real" 3D visualization was proposed as encouraging the visual perception of shapes and volume of displayed content yet criticised as problematic and limited in a number of ways, particularly in visual discomfort and increased response time in tasks. In order to assess the potential of real 3D visualization for geo-applications, 91 participants were engaged in this study to work with digital terrain models in different 3D settings. The researchers examined the effectivity of stereoscopic real 3D visualization compared to monoscopic 3D (or pseudo 3D) visualization under static and interactive conditions and applied three tasks with experimental stimuli representing different geo-related phenomena, i.e. objects in the terrain, flat areas marked in the terrain and terrain elevation profiles. The authors explored the significant effects of real 3D visualization and interactivity factors in terms of response time and correctness. Researchers observed that the option to interact (t = -10.849, p < 0.001) with a virtual terrain and its depiction with real 3D visualization (t = 4.64, p < 0.001) extended the participants' response times. Counterintuitively, the data demonstrated that the static condition increased response correctness (z = 5.38, p < 0.001). Regarding detailed analysis of data, an interactivity factor was proposed as a potential substitute for real 3D visualization in 3D geographical tasks.
url https://doi.org/10.1371/journal.pone.0233353
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