Sökning: "fire radiative power"

Hittade 2 uppsatser innehållade orden fire radiative power.

  1. 1. A Physically Based Pipeline for Real-Time Simulation and Rendering of Realistic Fire and Smoke

    Kandidat-uppsats, Stockholms universitet/Numerisk analys och datalogi (NADA)

    Författare :Yiyang He; [2018]
    Nyckelord :Visualization; Physically Based; Pipeline; Real-Time; Dynamic Simulation; Combustion; Fire; Explosion; Smoke; Thick Smoke; Computer Graphics; PDE; Numerical Methods; Grid Based; Navier-Stokes Equation; Imcompressible Fluid; Radiative Transfer Equation; RTE; Volumetric Illumination; Volumetric Rendering; Volumetric Global Illumination; Distant Light Source; Volumetric Global Shadow; Local Shadow Approximation; Black-body Radiation; Poisson Solver; Spectroscopy; Fire Color; Color Reproduction; Tone Mapping; Color Temperature; Color Matching Function; Tristimulus; CIE Standard Observer; Color Space; XYZ; RGB; GPU; GPGPU; ComputeShader; DirectX 12; Unity; C#;

    Sammanfattning : With the rapidly growing computational power of modern computers, physically based rendering has found its way into real world applications. Real-time simulations and renderings of fire and smoke had become one major research interest in modern video game industry, and will continue being one important research direction in computer graphics. LÄS MER

  3. 2. Modeling the evolution of wildfire : an analysis of short term wildfire events and their relationship to meteorological variables

    Master-uppsats, Lunds universitet/Institutionen för naturgeografi och ekosystemvetenskap

    Författare :Sean Demet; [2014]
    Nyckelord :evolution of wildfire; fire; wildfire; fire radiative power; Ecosystem Analysis; Physical Geography and Ecosystem Sciences; Physical Geography; linear regression modeling; Bayesian Information Criteria; Köppen-Geiger Climate Classification; Earth and Environmental Sciences;

    Sammanfattning : Wildfire events are expected to increase with the changing climate; thereby increasing atmospheric, economic, and anthropogenic impacts. Gaining a real-time understanding of the evolution of wildfire events can benefit regional meteorology models, global atmospheric models, and hazard warning systems. LÄS MER