I have a very large point cloud (> 100000 points) that I'd like to detect planar arrangements in. I decided to use an octree to break the points into very small planar clusters and then merge neighboring clusters that are coplanar. I have written code in C++ that quickly splits the point cloud into the small planar clusters, but how to effectively merge them is eluding me...
Octree implementation uses a pointer structure: there are
OctreeNodes with arrays
OctreeNode* children containing pointers to their child nodes, or all
NULL pointers if it is a leaf node.
My first thought was to, in each
OctreeNode object, keep a pointer to a
Plane object. After splitting the points the first time, each leaf in the octree will get a
Plane that represents the least-squares fit to all the points contained in the leaf. I then iterate over every leaf node in the tree. For each leaf node, I check each one of its neighbor leaf nodes: if the neighbor's plane should be merged with the current leaf's plane, I call
Plane* newPlane = Plane::mergePlanes(this->plane, neighbor->plane); to create a new plane that represents the points in both nodes.
This is where I've run into trouble... I first thought I could simply replace both planes with the new plane, i.e.
plane = newPlane; neighbor->plane = newPlane; and be done (memory leaks aside; I handled them in the real code). Unfortunately, this doesn't work in practice. After merging several planes, there may be several different
OctreeNodes pointing to a single
Plane, and simply replacing the pointers in
neighbor->plane doesn't replace EVERY pointer that is pointing to their old planes.
The solution seemed hackish even when I first came up with it, and now its flaws are even more clear. Can anyone think of a way to fix the merging method I came up with, or think of a better one?