Object Orientation Corrected Bounding Box Fit for Point Cloud Clusters.
- Apollo's Min-box Object Builder
- TAS: An Orientation Corrected Bounding Box Fit Based on the Convex Hull under Real Time Constraints, similar to Apollo, IV 2018.
- M. Himmelsbach's Fit Oriented Box by a RANSAC algorithm to fit the dominant line in the xy-projection of the segment’s points; the other axis is then taken to be perpendicular to the dominant line, IV 2012.
@inproceedings{himmelsbach2012tracking, title={Tracking and classification of arbitrary objects with bottom-up/top-down detection}, author={Himmelsbach, Michael and Wuensche, H-J}, booktitle={Intelligent Vehicles Symposium (IV), 2012 IEEE}, pages={577--582}, year={2012}, organization={IEEE} }
git clone
as a ROS package, with common_lib as dependency.find_package
for this object_builders_lib local package.find_package(catkin REQUIRED COMPONENTS # ROS core roscpp # ROS messages #std_msgs #sensor_msgs # ROS PCL #pcl_conversions #pcl_ros # 3rd modules for ROS, like Eigen cmake_modules # local packages common_lib object_builders_lib )
- Use Point Cloud Clusters' Object Builder in your source code.
// 1.include files #include "object_builders/base_object_builder.hpp" #include "object_builders/object_builder_manager.hpp" // 2.define object builder boost::shared_ptr<object_builder::BaseObjectBuilder> object_builder_; // 3.create object builder by manager object_builder_ = object_builder::createObjectBuilder(); // 4.build 3D orientation bounding box for clustering point cloud std::vector<PointICloudPtr> cloud_clusters; std::vector<ObjectPtr> objects; object_builder_->build(cloud_clusters, &objects);