This paper presents a new spectral synthesis method, motivated by the spectral turbulence theory, for visual modeling and the realistic and computer-effective animation of turbulent gaseous motion in 2-D and 3-D, which avoids the computational costs of direct simulation. Animation of gases is achieved through a phase shift in the frequency domain according to Kolmogorov's exponential law. The parameters of the turbulence model are intuitive, enabling animaters and designers to become familiar with them quickly. Owing to the method's computational effectiveness, an interactive, (quasi-)real-time, parallelized version, which provides the fast feedack needed to easily adjust the model's parameters, could be implemented
We present a physically based method for modeling and animating fire. Our method is suitable for bot...
In this paper, a systematic discussion on the generation of synthetic turbulence using spectral meth...
of computer simulations of two-dimensional turbulence and three-dimensiona flows by M. Briscolini P....
This paper presents a new spectral synthesis method, motivated by the spectral turbulence theory, fo...
This paper presents a functional method for the visual simulation of 2-D or 3-D turbulent gaseous mo...
This paper describes a new technique that efficiently combines volume rendering and scanline a-buffe...
This document describes a new animation technique for modeling the turbulent rotational motion that ...
Producing realistic images and animations of flames is one of the most interesting subjects in the f...
Developing a visually convincing model of fire, smoke, and other gaseous phenomenais among the most ...
This thesis presents a general method for the integrated computer animation of the shape and shadin...
Numerical simulations are often used in computer graphics to capture the effects of natural phenomen...
The numerical and physical issues of simulations on compressible turbulence are reviewed in the pres...
We present a method for real-time image based simulation of gaseous material such as fire and smoke....
The generation of realistic motion satisfying user-defined requirements is one of the most important...
International audienceWe present a simple and physically inspired method to animate realistically lo...
We present a physically based method for modeling and animating fire. Our method is suitable for bot...
In this paper, a systematic discussion on the generation of synthetic turbulence using spectral meth...
of computer simulations of two-dimensional turbulence and three-dimensiona flows by M. Briscolini P....
This paper presents a new spectral synthesis method, motivated by the spectral turbulence theory, fo...
This paper presents a functional method for the visual simulation of 2-D or 3-D turbulent gaseous mo...
This paper describes a new technique that efficiently combines volume rendering and scanline a-buffe...
This document describes a new animation technique for modeling the turbulent rotational motion that ...
Producing realistic images and animations of flames is one of the most interesting subjects in the f...
Developing a visually convincing model of fire, smoke, and other gaseous phenomenais among the most ...
This thesis presents a general method for the integrated computer animation of the shape and shadin...
Numerical simulations are often used in computer graphics to capture the effects of natural phenomen...
The numerical and physical issues of simulations on compressible turbulence are reviewed in the pres...
We present a method for real-time image based simulation of gaseous material such as fire and smoke....
The generation of realistic motion satisfying user-defined requirements is one of the most important...
International audienceWe present a simple and physically inspired method to animate realistically lo...
We present a physically based method for modeling and animating fire. Our method is suitable for bot...
In this paper, a systematic discussion on the generation of synthetic turbulence using spectral meth...
of computer simulations of two-dimensional turbulence and three-dimensiona flows by M. Briscolini P....