Abstract
This paper discusses two experimental Augmented Reality (AR) projects conducted by collaboration between the University of North Carolina at Charlotte and the Levine Museum of the New South in the City of Charlotte, USA between 2018 and 2021. These projects employ 2D mapping, 3D procedural modeling, and marker-based mobile AR techniques for data visualization focused on social and economic issues in Charlotte on a neighborhood scale. AR offers an interactive method to expand visualization capabilities in GIS. These projects show that mobile AR applications can support local community events that are aimed at expanding overall public participation with a goal of increasing awareness of neighborhood changes over time through 3D data visualization. Surveys from the demonstration events show that a majority of event participants learned new information about the demographic and economic changes over the past two decades in their communities through the AR experiences with 3D data mapping.
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References
Azuma R (1997) A survey of augmented reality. Presence: Teleoperators Virtual Environ 6(4):355–385
Azuma R, Baillot Y, Behringer R, Feiner S, Julier S, MacIntyre B (2001) Recent advances in augmented reality. IEEE Comput Graphics Appl 21(6):34–47
Broschart D, Zeile P, Streich B (2013) Augmented reality as a communication tool in urban design processes. Proc Real Corp 2013:119–126
Carmignani J, Furht B (2011) Augmented reality: an overview. Handbook of Augmented Reality, 3–46
City Building Lab (2019) School of architecture. University of North Carolina at Charlotte. Available at: https://www.facebook.com/CityBuildingLab-158386934209297/?ref=hl
Corner J (2011) The agency of mapping: speculation, critique and invention. In: The map reader: theories of mapping practice and cartographic representation, Dodge M, Kitchin R, Perkins C (eds). Oxford, UK, Wiley, 214
Fisher-Gewirtzman D, Portman M, Natapov A, Hölscher C (2017) Special electronic issue: the use of virtual reality for environmental representations. Comput Environ Urban Syst 62:97–98
Gnat M, Leszek K, Olszewski R (2016) The use of geoinformation technology, augmented reality and gamification in the urban modeling process. ICCSA 2016. Lecture notes in computer science. Springer, Cham, Switzerland, 9787
Greengard S (2019) Virtual reality. MIT Press, Cambridge, MA, USA
van Leeuwen JP, Hermans K, Jylha A, Quanjer AJ, Nijman H (2018) Effectiveness of virtual reality in participatory urban planning. In: Proceedings of the 4th media architecture biennale conference 2018 (Mab18), 128–136
Levine Museum of the New South (2019) The Levine museum presents a variety of interactive and immersive exhibits. Available at: https://www.museumofthenewsouth.org/exhibits
Levine Museum of the New South (2019) #HomeCLT: people. Places. Promises. Available at: https://www.museumofthenewsouth.org/homeclt
Ma Y, Wright J, Gopal S, Phillips N (2020) Seeing the invisible: from imagined to virtual urban landscapes. Cities 98:102559
Maffei L, Masullo M, Pascale A, Ruggiero G, Romero VP (2016) Immersive virtual reality in community planning: acoustic and visual congruence of simulated vs real world. Sustain Cities Soc 27:338–345
Metze T (2020) Visualization in environmental policy and planning: a systematic review and research agenda. J Environ Planning Policy Manage 22(5):745–760
Reinwald F, Berger M, Stoik C, Platzer M, Damyanovic D (2014) Augmented reality at the service of participatory urban planning and community informatics—a case study from Vienna. J Commun Inf 10(3)
Ribeiro A, Duarte de Almeida J-P, Ellul C (2014) Exploring CityEngine as a visualization tool for 3D cadastre. In: 4th international workshop on FIG 3D cadastres, Dubai, United Arab Emirates, pp 197–218
Szczepańska A, Kaźmierczak R, Myszkowska M (2021) Virtual reality as a tool for public consultations in spatial planning and management. Energies 14(19):6046
van den Brink A, Van Lammeren R, Van de Velde R, Silke DÃ (2017) Imaging the future: geo-visualization for participatory spatial planning in Europe. Wageningen Academic Publishers, Wageningen, The Netherlands, p 3
Acknowledgements
These research projects were supported by the John S. and James L. Knight Foundation. The author of this paper thanks colleagues from the Levine Museum of the New South who provided insight and expertise that greatly assisted the research.
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Lee, MC. (2024). 3D Data Mapping with Augmented Reality. In: Kolbe, T.H., Donaubauer, A., Beil, C. (eds) Recent Advances in 3D Geoinformation Science. 3DGeoInfo 2023. Lecture Notes in Geoinformation and Cartography. Springer, Cham. https://doi.org/10.1007/978-3-031-43699-4_9
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