I am trying to learn something about volume ray tracing. I have implemented very simple ray tracer for voxel clouds. My voxel is axis-aligned cuboid with arbitrary sides, either completely opaque or completely transparent. To render this cloud I organize it in sparse voxel octree to provide fast searching for intersection of the ray with any voxel in the tree. Then I send a ray from the eye for each pixel on the screen and search if the ray traverses any voxel. If it does, I draw a pixel on the screen using simple geometry equations.
I've found many CT datasets on the web (ie. http://www-graphics.stanford.edu/data/voldata/). They are usually set of numbers representing density for each element in 3d grid. I've done some renderings considering voxels whose density is lower than the threshold to be fully transparent and voxels whose density is higher to be fully opaque. Here is an example:
Now I want to play with transparency. Here I see two big problems:
1) Empty voxels are not stored in SPO. Since every voxel in the grid carries its own density, there are no empty voxels at all and we must add every voxel in the tree.
2) Ray does not stop when first voxel is hit (because of transparency) and we must continue our search for intersections while resulting density (and color) is not accumulated completely. Furthermore, next intersection is predictable. It surely will be with closest neighbor of the voxel on the ray path.
Hence, I do not think that SPO will be efficient anymore. Maybe there are other optimizations designed specially for continuous (by 'continuous' I mean that every voxel have 6 neighbors if they are not lying on the border of the set) set of transparent voxels?