SNU Big Data Knowledge Information Platform
Full Menu
AI
Your Browsing History
14 More
loading...
Report registration
Paper List
효과적인 VFX 수중 폭발효과 구현을 위한 유체 시뮬레이션 제어
Author
황민식, 이현석
Journal Title
멀티미디어학회논문지
Publication Year
2017
Topics
Summary
This study proposes an efficient production guideline for underwater explosion effects, a crucial element in VFX for films and animations. It analyzes various factors of real explosions and suggests a four-step experimental production analysis tool for creating realistic underwater explosion effects through fluid simulation. The research experimentally investigates technical factors such as realistic fluid creation and emission, fluid expansion control by water pressure, bubble effects, and bubble motion & fluid dissipation to verify effective fluid simulation production methods.
Related Content
LikeSNU analyzes your query semantically to recommend related resources.
-
Guidelines for vapor cloud explosion, pressure vessel burst, BLEVE, and flash fire hazards.
-
Hydrodynamics of explosion : experiments and models
-
Experimentation, modelling, and computation in flow, turbulence and combustion
-
Turbulent flow : analysis, measurement, and prediction
-
Engineering turbulence modelling and experiments 6 : procedings of the ERCOFTAC International Symposium on Engineering Turbulence Modelling and Measurements - ETMM6 - Sardinia, Italy, 23-25 May, 2005
-
Acoustics, aeroacoustics and vibrations
-
Hydroelasticity in marine technology : proceedings of the International Conference on Hydroelasticity in Marine Technology, Trondheim, Norway, 25-27 May 1994
-
Viscous fluid flow
-
Selected topics of computational and experimental fluid mechanics
-
Flow visualization and image analysis
-
Atlas of visualization II
-
Intense dynamic loading of condensed matter
-
Modelling the effects of blasting on rock breakage
-
Vortex methods and vortex motion
-
Prediction of transport and other physical properties of fluids
-
Computational fluid dynamics for engineers
-
Vacuum technology : practice for scientific instruments
-
Dynamics of exothermicity : in honor of Antoni Kazimierz Oppenheim
-
Direct numerical simulation for turbulent reacting flows
-
Flow visualization
Previous
Next
Previous
Next