Streamline selection for comparative visualization of 3D fluid simulation result

Shoko Sawada; Takayuki Itoh; Takashi Misaka; Shigeru Obayashi; Tobias Czauderna; Kingsley Stephens

doi:10.1109/iV.2017.60

Streamline selection for comparative visualization of 3D fluid simulation result

Shoko Sawada, Takayuki Itoh, Takashi Misaka, Shigeru Obayashi, Tobias Czauderna, Kingsley Stephens

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Fluid dynamics simulation is often repeated while changing conditions, and therefore we need to compare a large amount of results. In order to compare results under different conditions, it is effective to overlap the streamlines generated from each condition in a single 3D space. Streamline is a curved line which represents a wind flow. This paper presents a technique to automatically select and visualize important streamlines suitable for comparison of the simulation results. In addition, we present an implementation to observe the flow fields in virtual reality spaces.

Original language	English
Title of host publication	Proceedings - 2017 21st International Conference Information Visualisation, iV 2017
Editors	Malinka Ivanova, Marco Temperini, Mark W. McK. Bannatyne, Joao Moura Pires, Muhammad Sarfraz, Anna Ursyn, Weidong Huang, Sarah Kenderdine, Nuno Miguel Soares Datia, Gilles Venturini, Theodor G. Wyeld, Ebad Banissi, Dennis Groth, Fatma Bouali, Georges Grinstein, Minoru Nakayama, Jian J. Zhang
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	268-273
Number of pages	6
ISBN (Electronic)	9781538608319
DOIs	https://doi.org/10.1109/iV.2017.60
Publication status	Published - 2017 Nov 14
Event	21st International Conference Information Visualisation, iV 2017 - London, United Kingdom Duration: 2017 Jul 11 → 2017 Jul 14

Publication series

Name	Proceedings - 2017 21st International Conference Information Visualisation, iV 2017

Other

Other	21st International Conference Information Visualisation, iV 2017
Country/Territory	United Kingdom
City	London
Period	17/7/11 → 17/7/14

Keywords

Streamline
Virtual reality
Visualization

ASJC Scopus subject areas

Human-Computer Interaction
Media Technology
Computer Networks and Communications
Computer Graphics and Computer-Aided Design

Access to Document

10.1109/iV.2017.60

Cite this

Sawada, S., Itoh, T., Misaka, T., Obayashi, S., Czauderna, T., & Stephens, K. (2017). Streamline selection for comparative visualization of 3D fluid simulation result. In M. Ivanova, M. Temperini, M. W. McK. Bannatyne, J. M. Pires, M. Sarfraz, A. Ursyn, W. Huang, S. Kenderdine, N. M. S. Datia, G. Venturini, T. G. Wyeld, E. Banissi, D. Groth, F. Bouali, G. Grinstein, M. Nakayama, & J. J. Zhang (Eds.), Proceedings - 2017 21st International Conference Information Visualisation, iV 2017 (pp. 268-273). [8107981] (Proceedings - 2017 21st International Conference Information Visualisation, iV 2017). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/iV.2017.60

Streamline selection for comparative visualization of 3D fluid simulation result. / Sawada, Shoko; Itoh, Takayuki; Misaka, Takashi et al.

Proceedings - 2017 21st International Conference Information Visualisation, iV 2017. ed. / Malinka Ivanova; Marco Temperini; Mark W. McK. Bannatyne; Joao Moura Pires; Muhammad Sarfraz; Anna Ursyn; Weidong Huang; Sarah Kenderdine; Nuno Miguel Soares Datia; Gilles Venturini; Theodor G. Wyeld; Ebad Banissi; Dennis Groth; Fatma Bouali; Georges Grinstein; Minoru Nakayama; Jian J. Zhang. Institute of Electrical and Electronics Engineers Inc., 2017. p. 268-273 8107981 (Proceedings - 2017 21st International Conference Information Visualisation, iV 2017).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Sawada, S, Itoh, T, Misaka, T, Obayashi, S, Czauderna, T & Stephens, K 2017, Streamline selection for comparative visualization of 3D fluid simulation result. in M Ivanova, M Temperini, MW McK. Bannatyne, JM Pires, M Sarfraz, A Ursyn, W Huang, S Kenderdine, NMS Datia, G Venturini, TG Wyeld, E Banissi, D Groth, F Bouali, G Grinstein, M Nakayama & JJ Zhang (eds), Proceedings - 2017 21st International Conference Information Visualisation, iV 2017., 8107981, Proceedings - 2017 21st International Conference Information Visualisation, iV 2017, Institute of Electrical and Electronics Engineers Inc., pp. 268-273, 21st International Conference Information Visualisation, iV 2017, London, United Kingdom, 17/7/11. https://doi.org/10.1109/iV.2017.60

Sawada S, Itoh T, Misaka T, Obayashi S, Czauderna T, Stephens K. Streamline selection for comparative visualization of 3D fluid simulation result. In Ivanova M, Temperini M, McK. Bannatyne MW, Pires JM, Sarfraz M, Ursyn A, Huang W, Kenderdine S, Datia NMS, Venturini G, Wyeld TG, Banissi E, Groth D, Bouali F, Grinstein G, Nakayama M, Zhang JJ, editors, Proceedings - 2017 21st International Conference Information Visualisation, iV 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 268-273. 8107981. (Proceedings - 2017 21st International Conference Information Visualisation, iV 2017). doi: 10.1109/iV.2017.60

Sawada, Shoko ; Itoh, Takayuki ; Misaka, Takashi et al. / Streamline selection for comparative visualization of 3D fluid simulation result. Proceedings - 2017 21st International Conference Information Visualisation, iV 2017. editor / Malinka Ivanova ; Marco Temperini ; Mark W. McK. Bannatyne ; Joao Moura Pires ; Muhammad Sarfraz ; Anna Ursyn ; Weidong Huang ; Sarah Kenderdine ; Nuno Miguel Soares Datia ; Gilles Venturini ; Theodor G. Wyeld ; Ebad Banissi ; Dennis Groth ; Fatma Bouali ; Georges Grinstein ; Minoru Nakayama ; Jian J. Zhang. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 268-273 (Proceedings - 2017 21st International Conference Information Visualisation, iV 2017).

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author = "Shoko Sawada and Takayuki Itoh and Takashi Misaka and Shigeru Obayashi and Tobias Czauderna and Kingsley Stephens",

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Streamline selection for comparative visualization of 3D fluid simulation result

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Keywords

ASJC Scopus subject areas

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