I have implemented an image blending method for seamless blending using plain C++. Now I want to convert this code for GPU (using OpenGL ES 2 Shaders for mobile devices). Basically the method creates Gaussian and Laplacian Pyramides for each image which are then combined from low-resolution to top (see also the paper "The Laplacian Pyramid as a Compact Image Code" from Burt et.al. 1983).
My problem is that the Laplacian pyramid levels can have negative values but my devices do not support float or integer type textures (using the ORB_texture_float extension e.g.).
I already looked for papers dealing with GPU-based pyramids but without finding something really useful.
- How can I implement such a pyramid efficiently for a GPU?
- Is it possible to calculate a Gaussian/Laplacian pyramid level without iterating through the preceding levels?
EDIT It seems as if there is no "good" way to calculate Laplacian Pyramids completely on GPU except using two passes (one for signs, one for values) which do not have support for either signed types (for instance ARB_texture_float) or types larger than byte when the the image's data range is between [0..255]. My Laplacian Pyramid runs perfectly on GPUs with ARB_texture_float extension but without the extension (and some adjustments to compress the range) the pyramid gets "wrong" due to range compression.