Nvidia corporation (20240249463). RAY TRACING USING RESERVOIR RESAMPLING WITH SPATIAL SHIFT-MAPPING simplified abstract
Contents
RAY TRACING USING RESERVOIR RESAMPLING WITH SPATIAL SHIFT-MAPPING
Organization Name
Inventor(s)
Yaobin Ouyang of Shanghai (CN)
Jacopo Pantaleoni of Berlin (DE)
Markus Kettunen of Urdorf (CH)
Shiqiu Liu of Santa Clara CA (US)
RAY TRACING USING RESERVOIR RESAMPLING WITH SPATIAL SHIFT-MAPPING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240249463 titled 'RAY TRACING USING RESERVOIR RESAMPLING WITH SPATIAL SHIFT-MAPPING
- Simplified Explanation:**
The patent application describes a method to create images with realistic lighting effects using efficient ray tracing and light source identification techniques.
- Key Features and Innovation:**
- Efficient ray tracing for global illumination
- Light source identification for accurate rendering
- Reservoir resampling with temporal and spatial reservoirs
- Deployment of temporal and spatial reservoirs for improved image quality
- Potential Applications:**
This technology can be used in computer graphics, animation, virtual reality, and gaming industries to create realistic and immersive visual experiences.
- Problems Solved:**
The technology addresses the challenges of rendering realistic lighting effects in computer-generated images, improving the overall quality and realism of the visuals.
- Benefits:**
- Enhanced visual quality
- Realistic lighting effects
- Improved efficiency in rendering images
- Commercial Applications:**
This technology can be applied in the entertainment industry for creating visually stunning movies, games, and virtual reality experiences, enhancing user engagement and immersion.
- Questions about Global Illumination:**
1. How does global illumination improve the realism of computer-generated images? 2. What are the key components of efficient ray tracing for global illumination?
Original Abstract Submitted
disclosed are apparatuses, systems, and techniques to render images with global illumination using efficient ray tracing, light source identification, and reservoir resampling that deploys temporal and spatial reservoirs.