Title :
Directional Super-Resolution by Means of Coded Sampling and Guided Upsampling
Author :
Schedl, David C. ; Birklbauer, Clemens ; Bimber, Oliver
Abstract :
We present a simple guided super-resolution technique for increasing directional resolution without reliance on depth estimation or image correspondences. Rather, it searches for best-matching multidimensional (4D or 3D) patches within the entire captured data set to compose new directional images that are consistent in both the spatial and the directional domains. We describe algorithms for guided upsampling, iterative guided upsampling, and sampling code estimation. Our experimental results reveal that the outcomes of existing light-field camera arrays and lightstage systems can be improved without additional hardware requirements or recording effort simply by realignment of cameras or light sources to change their sampling patterns.
Keywords :
cameras; image coding; image resolution; image sampling; iterative methods; sensor arrays; best-matching multidimensional patches; depth estimation; directional images; directional super-resolution; guided super-resolution technique; guided upsampling; image correspondences; iterative guided upsampling; light stage systems; lightfield camera arrays; sampling code estimation; Cameras; Estimation; Interpolation; Light emitting diodes; Lighting; Spatial resolution;
Conference_Titel :
Computational Photography (ICCP), 2015 IEEE International Conference on
Conference_Location :
Houston,TX
DOI :
10.1109/ICCPHOT.2015.7168365
