octomap 1.5.0
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The Octomap library implements a 3D occupancy grid mapping approach. It provides data structures and mapping algorithms. The map is implemented using an Octree. It is designed to meet the following requirements:
Updatable. It is possible to add new information or sensor readings at any time. Modeling and updating is done in a probabilistic fashion. This accounts for sensor noise or measurements which result from dynamic changes in the environment, e.g., because of dynamic objects. Furthermore, multiple robots are able to contribute to the same map and a previously recorded map is extendable when new areas are explored.
Octomap was developed by Kai M. Wurm and Armin Hornung, and is currently maintained by Armin Hornung. A tracker for bug reports and feature requests is available available at https://sourceforge.net/apps/trac/octomap
See the file README.txt in the main folder.
See the file CHANGELOG.txt in the main folder or the latest version online
Jump right in and have a look at the main class octomap::OcTree and the examples in src/octomap/simple.cpp. To integrate single measurements into the 3D map have a look at octomap::OcTree::insertRay(...), to insert full 3D scans (pointclouds) please have a look at octomap::OcTree::insertScan(...). Queries can be performed e.g. with octomap::OcTree::search(...) or octomap::OcTree::castRay(...). The preferred way to batch-access or process nodes in an Octree is with the iterators leaf_iterator, tree_iterator, or leaf_bbx_iterator.
The OcTree class is derived from OccupancyOcTreeBase, with most functionality in the parent class. Also derive from OccupancyOcTreeBase if you you want to implement your own Octree and node classes. You can have a look at the classes octomap::OcTreeStamped and octomap::OcTreeNodeStamped as examples.
Start the 3D visualization with:
bin/octovis
You will find an example scan to load at
src/examples/scan.dat.bz2 (please bunzip2 it first)