In this work we propose a novel approach for realistic fire animation and manipulation. We apply a statistical learning method to an image sequence of a real-world flame to jointly capture flame motion and appearance characteristics. A low-dimensional generic flame model is then robustly matched to the video images. The model parameter values are used as input to drive an Expectation-Maximization algorithm to learn an {\em auto regressive process} with respect to flame dynamics. The generic flame model and the trained motion model enable us to synthesize new, unique flame sequences of arbitrary length in real-time
Early and accurate detection and localization of flame is an essential requirement of modern early f...
We present a method for real-time simulation of 3-dimensional fire inspired by an old mechanical tri...
We present a method for real-time image based simulation of gaseous material such as fire and smoke....
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
We introduce new approaches of modeling and synthesizing realistic-looking 2D fire animations using ...
We present a novel graph-based data-driven technique for cost-effective fire modeling. This techniqu...
The video results for the PhD Thesis of Andrew Chinery, titled Dynamic Editable Models of Fire From ...
Abstract Fluid dynamics can produce realistic looking fire effects, which are heavily used in animat...
We propose a method for real-time photorealistic stereo rendering of the natural phenomenon of fire....
Summarization: Working on the computer reconstruction of the Gallo-Roman forum of Bavay, we try to i...
Producing realistic images and animations of flames is one of the most interesting subjects in the f...
Modern diagnostic tools in turbulent combustion allow for highly-resolved measurements of reacting f...
This major qualifying project describes the research and implementation of a new process for the cre...
Early and accurate detection and localization of flame is an essential requirement of modern early f...
We present a method for real-time simulation of 3-dimensional fire inspired by an old mechanical tri...
We present a method for real-time image based simulation of gaseous material such as fire and smoke....
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
In this work we propose a novel approach for realistic fire animation and manipulation. We apply a s...
We introduce new approaches of modeling and synthesizing realistic-looking 2D fire animations using ...
We present a novel graph-based data-driven technique for cost-effective fire modeling. This techniqu...
The video results for the PhD Thesis of Andrew Chinery, titled Dynamic Editable Models of Fire From ...
Abstract Fluid dynamics can produce realistic looking fire effects, which are heavily used in animat...
We propose a method for real-time photorealistic stereo rendering of the natural phenomenon of fire....
Summarization: Working on the computer reconstruction of the Gallo-Roman forum of Bavay, we try to i...
Producing realistic images and animations of flames is one of the most interesting subjects in the f...
Modern diagnostic tools in turbulent combustion allow for highly-resolved measurements of reacting f...
This major qualifying project describes the research and implementation of a new process for the cre...
Early and accurate detection and localization of flame is an essential requirement of modern early f...
We present a method for real-time simulation of 3-dimensional fire inspired by an old mechanical tri...
We present a method for real-time image based simulation of gaseous material such as fire and smoke....