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ORCIDYoungha Chang
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2020 – today
- 2024
[c22]Siwei Zhou
, Youngha Chang, Nobuhiko Mukai, Hiroaki Santo, Fumio Okura, Yasuyuki Matsushita, Shuang Zhao:
Path-Space Differentiable Rendering of Implicit Surfaces. SIGGRAPH (Conference Paper Track) 2024: 19- 2022
- [j4]Youngha Chang, Nobuhiko Mukai:
Color Feature Based Dominant Color Extraction. IEEE Access 10: 93055-93061 (2022) - [c21]Nobuhiko Mukai, Reina Arai, Youngha Chang:
Candle Flame Simulation Considering Temperature Change in the Environment. SIMULTECH 2022: 36-43 - 2021
- [c20]Nobuhiko Mukai, Ren Morooka, Takuya Natsume, Youngha Chang:
Viscoelastic Fluid Simulation based on the Combination of Viscous and Elastic Stresses. SIMULTECH 2021: 172-178 - 2020
- [c19]Nobuhiko Mukai, Kazuhiro Aoyama, Youngha Chang:
Pressure Simulation in the Heart with Valve Interlocking and Isovolumetric Contraction. SIGGRAPH Asia Posters 2020: 13:1-13:2
2010 – 2019
- 2019
- [c18]Nobuhiko Mukai, Erika Matsui, Youngha Chang:
Investigation on Viscoelastic Fluid Behavior by Modifying Deviatoric Stress Tensor. SIMULTECH 2019: 216-222 - 2018
- [c17]Nobuhiko Mukai, Taishi Nishikawa, Youngha Chang:
Evaluation of stretched thread lengths in spinnability simulations. SIGGRAPH Posters 2018: 62:1-62:2 - [c16]Nobuhiko Mukai, Yuto Hizono, Youngha Chang:
Particle based Waterfall Simulation with Spray Cloud Emerging from Basin. SIMULTECH 2018: 55-61 - 2017
- [c15]Nobuhiko Mukai, Kazuhiro Aoyama, Takuya Natsume, Youngha Chang:
Particle Based Blood Pressure Simulation in the Aorta with the Model Generated from CT Images. SIMULTECH (Selected Papers) 2017: 102-113 - [c14]Nobuhiko Mukai, Yuhei Okamoto, Kazuhiro Aoyama, Youngha Chang:
Blood Flow and Pressure Change Simulation in the Aorta with the Model Generated from CT Data. SIMULTECH 2017: 392-397 - 2016
- [c13]Nobuhiko Mukai, Tomofumi Takahashi, Youngha Chang:
Particle-based Simulation on Aortic Valve Behavior with CG Model Generated from CT. VISIGRAPP (1: GRAPP) 2016: 248-253 - [c12]Nobuhiko Mukai, Tomoki Shibamori, Youngha Chang:
Profile recognition based on co-training. SIGGRAPH Asia Posters 2016: 11 - 2015
- [c11]Nobuhiko Mukai, Kensuke Tanaka, Youngha Chang:
Crowd Simulation by Applying Individual Human Model with Vision. CW 2015: 210-215 - [c10]Nobuhiko Mukai, Naoki Mita, Youngha Chang:
Bubble rupture simulation by considering high density ratio. SIGGRAPH Posters 2015: 61:1 - 2014
- [c9]Nobuhiko Mukai, Yasuomi Sakai, Youngha Chang:
Waterfall Simulation by Using a Particle and Grid-Based Hybrid Approach. CW 2014: 23-30 - [c8]Nobuhiko Mukai, Yusuke Abe, Youngha Chang, Kiyomi Niki, Shuichiro Takanashi:
Particle Based Simulation of the Aortic Valve by Considering Heart's Pulsation. MMVR 2014: 285-289 - 2013
- [c7]Nobuhiko Mukai, Masashi Nakagawa, Yusuke Abe, Youngha Chang, Kiyomi Niki, Shuichiro Takanashi:
Simulation of the Aortic Valve Deformation by Considering Blood Flow Reflection. MMVR 2013: 286-292
2000 – 2009
- 2008
- [j3]Suguru Saito, Akane Kani, Youngha Chang, Masayuki Nakajima:
Curvature-based stroke rendering. Vis. Comput. 24(1): 1-11 (2008) - 2007
- [j2]Youngha Chang, Suguru Saito, Masayuki Nakajima:
Example-Based Color Transformation of Image and Video Using Basic Color Categories. IEEE Trans. Image Process. 16(2): 329-336 (2007) - 2005
- [j1]Youngha Chang, Suguru Saito, Keiji Uchikawa, Masayuki Nakajima:
Example-Based Color Stylization of Images. ACM Trans. Appl. Percept. 2(3): 322-345 (2005) - [c6]Youngha Chang, Suguru Saito, Masayuki Nakajima:
Example-based color transformation for image and video. GRAPHITE 2005: 347-353 - 2004
- [c5]Youngha Chang, Keiji Uchikawa, Suguru Saito:
Example-based color stylization based on categorical perception. APGV 2004: 91-98 - 2003
- [c4]Youngha Chang, Suguru Saito, Masayuki Nakajima:
A Framework for Transfer Colors Based on the Basic Color Categories. Computer Graphics International 2003: 176-183 - [c3]Suguru Saito, Akane Kani, Youngha Chang, Masayuki Nakajima:
Generation of Varying Line Thickness. Computer Graphics International 2003: 294-299 - 2002
- [c2]Youngha Chang, Suguru Saito, Masayuki Nakajima:
Color transformation based on the basic color categories of a painting. SIGGRAPH Abstracts and Applications 2002: 157 - [c1]Suguru Saito, Akane Kani, Youngha Chang, Masayuki Nakajima:
Rich curve drawing. SIGGRAPH Abstracts and Applications 2002: 244
Coauthor Index
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