GraphicsAtStanford mar05 san

Information about GraphicsAtStanford mar05 san

Published on November 16, 2007

Author: Cubemiddle

Source: authorstream.com

Content

Graphics research and courses at Stanford:  Graphics research and courses at Stanford http://graphics.stanford.edu Graphics faculty:  Graphics faculty Ron Fedkiw simulation, natural phenomena Related areas:  Related areas Sebastian Thrun robotics, computer vision Terry Winograd human-computer interaction Mark Horowitz VLSI, hardware Scott Klemmer human-computer interaction Research projects:  Research projects Digital Michelangelo project Solving the Forma Urbis Romae Visualizing cuneiform tablets Modeling subsurface scattering Kinetic data structures Measuring and modeling reflectance Acquisition and display of light fields Image-based modeling and rendering Geometry for structural biology Reflective integral digital photography Parallel graphics architectures Stanford multi-camera array Non-photorealistic visualization Multi-perspective panoramas Automatic illustration systems Physics-based modeling and simulation Virtual humanoid Real-time programmable shading …and many more Light field photography (Hanrahan, Levoy, Horowitz):  Light field photography (Hanrahan, Levoy, Horowitz) Our prototype camera:  Our prototype camera 4000 × 4000 pixels ÷ 292 × 292 lenses = 14 × 14 pixels per lens Contax medium format camera Kodak 16-megapixel sensor Examples of digital refocusing:  Examples of digital refocusing Refocusing portraits:  Refocusing portraits Refocusing portraits:  Refocusing portraits Action photography:  Action photography Scientific computing on GPUs (Hanrahan):  Scientific computing on GPUs (Hanrahan) 3GHz Pentium P4 SSE 6 GFLOPs ATI X800XT (R420) fragment processor: 520 Mhz * 16 pipes * 4 wide * 1 flop/inst * 1 inst/cycle = 66.5 GFLOPs key challenge: how to program GPUs? Stream programming on GPUs:  Stream programming on GPUs molecular dynamics [email protected] fluid flow Non-photorealistic rendering for scientific illustration (Hanrahan):  Non-photorealistic rendering for scientific illustration (Hanrahan) for each phase of moon, extract strip at illumination horizon mosaic together so that light appears raking everywhere Stanford multi-camera array (Levoy, Horowitz):  Stanford multi-camera array (Levoy, Horowitz) 640 × 480 pixels × 30 fps × 128 cameras synchronized timing continuous streaming flexible arrangement Ways to use large camera arrays:  Ways to use large camera arrays widely spaced light field capture tightly packed high-performance imaging intermediate spacing synthetic aperture photography Example of synthetic aperture photography:  Example of synthetic aperture photography Arrays of cameras and projectors:  Arrays of cameras and projectors real-time 3D capture of moving scenes non-photorealistic illumination Algorithms for point clouds (Guibas):  Algorithms for point clouds (Guibas) completion using prior models 3D shape segmentation Geometric reasoning for networks of cameras (Guibas):  Geometric reasoning for networks of cameras (Guibas) estimate spatial occupancy by sharing occlusion maps across multiple cameras Physics-based modeling and simulation (Fedkiw):  Physics-based modeling and simulation (Fedkiw)   The Stanford CityBlock Project (Thrun, Levoy):  The Stanford CityBlock Project (Thrun, Levoy) goal to obtain a useful visual representation of commercial city blocks applications graphical yellow-pages – associate images with web sites in-car navigation – get a picture of the place you’re going The vehicle:  The vehicle Sebastian Thrun’s modified Volkswagen Toureg GPS + IMU + odometry + LIDAR + high-speed video Multiperpective panoramas:  Multiperpective panoramas capture video while driving extract middle column from each frame stack them to create a panorama Multiperpective panoramas:  Multiperpective panoramas Multiperpective panoramas:  Multiperpective panoramas Courses (http://graphics.stanford.edu/courses/):  Courses (http://graphics.stanford.edu/courses/) CS 205 – Mathematics for Robotics, Vision, and Graphics Fedkiw CS 248 – Introduction to Computer Graphics Levoy CS 223B – Introduction to Computer Vision Thrun CS 348A – Geometric Modeling Guibas CS 348B – Image Synthesis Techniques (rendering) Hanrahan CS 368 – Geometric Algorithms (computational geometry) Guibas CS 448 – Topics in Computer Graphics everybody CS 468 – Topics in Geometric Algorithms Guibas Examples of topics:  Examples of topics CS 448 - Topics in Computer Graphics data visualization modeling virtual humans computational photography real-time graphics architectures CS 468 - Topics in Geometric Algorithms introduction to computational topology matching techniques and similarity measures “Retreats”:  “Retreats” Slide32:  http://graphics.stanford.edu

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