Impact of Manikin Display on Perception of Spatial Planning
Authors: 
Mathew Schwartz, 
Brandon Haworth, Muhammad Usman, Petros Faloutsos, Mubbasir KapadiaAuthors Info & Claims
Mathew Schwartz, Brandon Haworth, Muhammad Usman, Petros Faloutsos, Mubbasir KapadiaAuthors Info & ClaimsArticle No.: 5, Pages 1 - 11
Abstract
The visualization of spaces, both virtual and built, has long been an important part of the environment design process. Industry tools to visualize occupancy have grown from simple drop-in stock photos post-design to real-time crowds simulations. However, while treatment of visualization and collaborative design processes has long been discussed in the HCI and Architecture communities, these inclusive design methods are infrequently seen in architecture education (e.g. studio) and practice, nor implemented in licensure requirements – leaving designers to think about the future occupants on their own. While there are strong indicators of the impact visualization modality and rendering style have on perception of scale and space, little has been explored regarding how we represent the human form with respect to these design tools and practices. We present findings from a novel online interactive space planning and estimation study that examines the effects of 3 common building visualization modalities in the design process with 3 human form modalities extracted from the architecture literature. Results indicate the type of visualization changes the number of occupants estimated, and that designers prefer integrated manikins within building models when estimating space usage, although their acceptance was equally divided between 2D and 3D. Our findings lay the foundation for new and focused design tools integrating human form and factors at building scale.
References
[1]
Victor Araujo, Julia Melgare, Bruna Dalmoro, and Soraia Raupp Musse. 2021. Is the perceived comfort with CG characters increasing with their novelty. IEEE Computer Graphics and Applications(2021), 1–1.
[2]
Sahar Aseeri, Karla Paraiso, and Victoria Interrante. 2019. Investigating the influence of virtual human entourage elements on distance judgments in virtual architectural interiors. Frontiers in Robotics and AI 6 (2019), 44.
[3]
Robert McNeel & Associates. [n.d.]. Rhinoceros 3D. Retrieved: 2021-09-10. https://www.rhino3d.com/.
[4]
Autodesk. [n.d.]a. 3DS MAX. Retrieved: 2021-09-10. https://www.autodesk.com/products/3ds-max/overview.
[5]
Autodesk. [n.d.]b. AutoCAD. Retrieved: 2021-09-10. https://www.autodesk.ca/en/products/autocad/overview.
[6]
Autodesk. [n.d.]c. Revit – Multidisciplinary BIM software for higher-quality, coordinated designs. Retrieved: 2021-09-10. https://www.autodesk.ca/en/products/revit/overview.
[7]
Bentley. [n.d.]. LEGION Simulator. https://www.bentley.com/en/products/product-line/building-design-software/legion-simulator
[8]
Peter Blanchonette. 2010. Jack human modelling tool: A review. (2010).
[9]
Bobby Bodenheimer, Jingjing Meng, Haojie Wu, Gayathri Narasimham, Bjoern Rump, Timothy P. McNamara, Thomas H. Carr, and John J. Rieser. 2007. Distance Estimation in Virtual and Real Environments Using Bisection. In Proceedings of the 4th Symposium on Applied Perception in Graphics and Visualization(Tubingen, Germany) (APGV ’07). Association for Computing Machinery, New York, NY, USA, 35–40.
[10]
Nilay Chakraborty, Brandon Haworth, Muhammad Usman, Glen Berseth, Petros Faloutsos, and Mubbasir Kapadia. 2017. Crowd sourced co-design of floor plans using simulation guided games. In Proceedings of the Tenth International Conference on Motion in Games. 1–5.
[11]
Mei Ling Chu, Paolo Parigi, Kincho Law, and Jean-Claude Latombe. 2014. Modeling social behaviors in an evacuation simulator. Computer Animation and Virtual Worlds 25, 3-4 (2014), 373–382.
[12]
Chuck Eastman, Jae-min Lee, Yeon-suk Jeong, and Jin-kook Lee. 2009. Automatic rule-based checking of building designs. Automation in Construction 18, 8 (2009), 1011–1033.
[13]
Ricardo Eiris and Masoud Gheisari. 2017. Research trends of virtual human applications in architecture, engineering and construction. Journal of Information Technology in Construction (ITcon) 22, 9(2017), 168–184.
[14]
Holly Gagnon, Sarah Creem-Regehr, and Jeanine Stefanucci. 2021a. Virtual Room Re-Creation: A New Measure of Room Size Perception. In ACM Symposium on Applied Perception 2021. 1–10.
[15]
Holly C. Gagnon, Carlos Salas Rosales, Ryan Mileris, Jeanine K. Stefanucci, Sarah H. Creem-Regehr, and Robert E. Bodenheimer. 2021b. Estimating Distances in Action Space in Augmented Reality. ACM Trans. Appl. Percept. 18, 2, Article 7 (May 2021), 16 pages.
[16]
GmbH. 2022. Enscape. https://enscape3d.com/
[17]
Rhys Goldstein, Alex Tessier, and Azam Khan. 2010. Schedule-calibrated occupant behavior simulation. In Proceedings of the 2010 Spring Simulation Multiconference. Society for Computer Simulation International, 180.
[18]
Brandon Haworth, Muhammad Usman, Glen Berseth, Mahyar Khayatkhoei, Mubbasir Kapadia, and Petros Faloutsos. 2017. CODE: Crowd-optimized design of environments. Computer Animation and Virtual Worlds 28, 6 (2017), e1749.
[19]
Christoph Hölscher and Ruth Conroy Dalton. 2008. Comprehension of Layout Complexity: Effects of Architectural Expertise and Mode of Presentation. Springer Netherlands, Dordrecht, 159–178.
[20]
Seung Wan Hong, Jiyoung Park, and Minjung Cho. 2019. Virtual vs. actual body: applicability of anthropomorphic avatars to enhance exploratory creativity in architectural design education. Architectural Science Review 62, 6 (2019), 520–527.
[21]
Carl J Huberty and John D Morris. 1992. Multivariate analysis versus multiple univariate analyses.(1992).
[22]
Eunice Jun, Jeanine K Stefanucci, Sarah H Creem-Regehr, Michael N Geuss, and William B Thompson. 2015. Big foot: Using the size of a virtual foot to scale gap width. ACM Transactions on Applied Perception (TAP) 12, 4 (2015), 1–12.
[23]
Azam Khan, Igor Mordatch, George Fitzmaurice, Justin Matejka, and Gordon Kurtenbach. 2008. ViewCube: A 3D Orientation Indicator and Controller. In Proceedings of the 2008 Symposium on Interactive 3D Graphics and Games (Redwood City, California) (I3D ’08). Association for Computing Machinery, New York, NY, USA, 17–25.
[24]
Elena Kokkinara, Mel Slater, and Joan López-Moliner. 2015. The effects of visuomotor calibration to the perceived space and body, through embodiment in immersive virtual reality. ACM Transactions on Applied Perception (TAP) 13, 1 (2015), 1–22.
[25]
David B Lantrip. 1986. ISOKIN: A quantitative model of the kinesthetic aspects of spatial habitability. In Proceedings of the Human Factors Society Annual Meeting, Vol. 30. SAGE Publications Sage CA: Los Angeles, CA, 33–37.
[26]
Bokyung Lee, Taeil Jin, Sung-Hee Lee, and Daniel Saakes. 2019. SmartManikin: Virtual Humans with Agency for Design Tools. Association for Computing Machinery, New York, NY, USA, 1–13.
[27]
Joan Llobera, Bernhard Spanlang, Giulio Ruffini, and Mel Slater. 2010. Proxemics with multiple dynamic characters in an immersive virtual environment. ACM Transactions on Applied Perception (TAP) 8, 1 (2010), 1–12.
[28]
Luiz Morais, Yvonne Jansen, Nazareno Andrade, and Pierre Dragicevic. 2021. Can Anthropographics Promote Prosociality?A Review and Large-Sample Study. Association for Computing Machinery, New York, NY, USA.
[29]
Masahiro Mori, Karl F MacDorman, and Norri Kageki. 2012. The uncanny valley [from the field]. IEEE Robotics & Automation Magazine 19, 2 (2012), 98–100.
[30]
E. Neufert and P. Neufert. 2000. Architects’ Data. Wiley.
[31]
Oasys. [n.d.]. Crowd Simulation Software: MassMotion. Retrieved: 2021-09-09. https://www.oasys-software.com/products/pedestrian-simulation/massmotion/.
[32]
Bushra Obeidat and Esra’a Abdul Rahman Jaradat. 2022. The influence of virtual human representations on first-year architecture students’ perceptions of digitally designed spaces: a pilot study. Building Research & Information(2022), 1–14.
[33]
Xiaoshan Pan, Charles S. Han, Ken Dauber, and Kincho H. Law. 2007. A multi-agent based framework for the simulation of human and social behaviors during emergency evacuations. Ai & Society 22, 2 (2007), 113–132.
[34]
Julius Panero and Martin Zelnik. 1979. Human dimension & interior space: a source book of design reference standards. Watson-Guptill.
[35]
PDS Parametric Design Studio. [n.d.]. PedSim Pro. https://www.pedsim.net/
[36]
Cary B. Phillips and Norman I. Badler. 1988. JACK: A Toolkit for Manipulating Articulated Figures. In Proceedings of the 1st Annual ACM SIGGRAPH Symposium on User Interface Software (Alberta, Canada) (UIST ’88). Association for Computing Machinery, New York, NY, USA, 221–229.
[37]
PTV Group. [n.d.]. PTV Viswalk. https://www.ptvgroup.com/en/solutions/products/ptv-viswalk/
[38]
R Core Team. 2022. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/
[39]
SAVANNAH SIMULATIONS AG. [n.d.]. SimWalk PRO. https://www.simwalk.com/simwalk_pro/index.html
[40]
Davide Schaumann, Simon Breslav, Rhys Goldstein, Azam Khan, and Yehuda E. Kalay. 2017. Simulating use scenarios in hospitals using multi-agent narratives. Journal of Building Performance Simulation 10, 5-6 (Nov. 2017), 636–652.
[41]
The AnyLogic Company. [n.d.]. AnyLogic Pedestrian Library. https://www.anylogic.com/features/libraries/pedestrian-library/
[42]
Muhammad Usman, Davide Schaumann, Brandon Haworth, Glen Berseth, Mubbasir Kapadia, and Petros Faloutsos. 2018. Interactive spatial analytics for human-aware building design. In Proceedings of the 11th Annual International Conference on Motion, Interaction, and Games. ACM, 13.
[43]
Wei Yan and Yehuda E. Kalay. 2004. Simulating the behavior of users in built environments. Journal of Architectural and Planning Research (2004), 371–384.
[44]
Catherine Amine Zanbaka, Amy Catherine Ulinski, Paula Goolkasian, and Larry F. Hodges. 2007. Social Responses to Virtual Humans: Implications for Future Interface Design. Association for Computing Machinery, New York, NY, USA, 1561–1570.
[45]
Jingjing Zhang, Thammathip Piumsomboon, Ze Dong, Xiaoliang Bai, Simon Hoermann, and Rob Lindeman. 2020. Exploring Spatial Scale Perception in Immersive Virtual Reality for Risk Assessment in Interior Design. In Extended Abstracts of the 2020 CHI Conference on Human Factors in Computing Systems (Honolulu, HI, USA) (CHI EA ’20). Association for Computing Machinery, New York, NY, USA, 1–8.
[46]
Katja Zibrek, Sean Martin, and Rachel McDonnell. 2019. Is Photorealism Important for Perception of Expressive Virtual Humans in Virtual Reality?ACM Trans. Appl. Percept. 16, 3, Article 14 (Sept. 2019), 19 pages.
Index Terms
- Impact of Manikin Display on Perception of Spatial Planning
Recommendations
Human Factors in Visualization Research
Abstract--Visualization can provide valuable assistance for data analysis and decision making tasks. However, how people perceive and interact with a visualization tool can strongly influence their understanding of the data as well as the system's ...
Topology-based catalogue exploration framework for identifying view-enhanced tower designs
There is a growing expectation for high performance design in architecture which negotiates between the requirements of the client and the physical constraints of a building site. Clients for building projects often challenge architects to maximize view ...
A Model and Framework for Visualization Exploration
Visualization exploration is the process of extracting insight from data via interaction with visual depictions of that data. Visualization exploration is more than presentation; the interaction with both the data and its depiction is as important as ...
Comments
Information & Contributors
Information
Published In
September 2022
86 pages
ISBN:9781450394550
DOI:10.1145/3548814
Copyright © 2022 ACM.
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].
Sponsors
Publisher
Association for Computing Machinery
New York, NY, United States
Publication History
Published: 22 September 2022
Check for updates
Author Tags
Qualifiers
- Research-article
- Research
- Refereed limited
Funding Sources
Conference
SAP '22
Sponsor:
Acceptance Rates
Overall Acceptance Rate 43 of 94 submissions, 46%
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 334Total Downloads
- Downloads (Last 12 months)172
- Downloads (Last 6 weeks)24
Reflects downloads up to 18 Feb 2025
Other Metrics
Citations
Cited By
View allView Options
View options
View or Download as a PDF file.
PDFeReader
View online with eReader.
eReaderHTML Format
View this article in HTML Format.
HTML FormatLogin options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in