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  1.                  Light Field Rendering
  2.  
  3.               Marc Levoy and Pat Hanrahan
  4.               Computer Science Department
  5.                   Stanford University
  6.  
  7. Contact information:
  8.     Gates Computer Science Building 3B
  9.     Stanford University
  10.     Stanford, CA  94305
  11.     {levoy,hanrahan}@cs.stanford.edu
  12.     http://www-graphics.stanford.edu
  13.  
  14.  
  15. Contents of this directory:
  16.  
  17.     buddha.mpg
  18.             Buddha light field,
  19.             constructed from a 16 x 16 array of
  20.             256 x 256 pixel rendered images
  21.             recorded interactive session with our
  22.             real-time light field viewer,
  23.             uncompressed except compression during MPEG recording
  24.             (250KB)
  25.  
  26.     cohernce.pdf
  27.             High-resolution figure 6:
  28.             Two visualizations of a light field
  29.  
  30.     gantry.pdf
  31.             High-resolution figure 9:
  32.             Our prototype camera gantry
  33.  
  34.     interp.pdf
  35.             High-resolution figure 13:
  36.             The effects of interpolation during slice extraction
  37.  
  38.     lightfld.pdf
  39.             High-resolution figures 14 and 15:
  40.             Example images from four light fields,
  41.             and images from compresed light fields
  42.  
  43.     plion.mpg
  44.             Full-surround lion light field,
  45.             constructed from four 32 x 16 arrays of
  46.             256 x 256 pixel digitized images,
  47.             compressed by 118:1 using the pipeline
  48.             described in the paper,
  49.             plus compression during MPEG recording
  50.             (434KB)
  51.  
  52.     sampling.pdf
  53.             High-resolution figure 4:
  54.             Using line space to visualize sampling uniformity
  55.  
  56.     tiling.pdf
  57.             High-resolution figure 3:
  58.             Using line space to visualize ray coverage
  59.  
  60.