ROS node for shape completion. This node runs an action server to take in pointclouds representing partial views of an object, and returning a completed mesh of the object.
This is the maintained code base for the shape completion CNN from the IROS 2017 paper "Shape Completion Enabled Robotic Grasping"
@inproceedings{varley2017shape,
title={Shape Completion Enabled Robotic Grasping},
author={Varley, Jacob and DeChant, Chad and Richardson, Adam and Nair, Avinash and Ruales, Joaqu{\'\i}n and Allen, Peter},
booktitle={Intelligent Robots and Systems (IROS), 2017 IEEE/RSJ International Conference on},
year={2017},
organization={IEEE}
}
This has been tested on ubuntu 14.04 and ROS Indigo and ubuntu 16.04 and ROS Kinetic. You will need to first setup Keras with a tensorflow backend. Setup instructions can be found here: https://github.com/fchollet/keras/
This repos is best run as part of: https://github.com/CURG/pc_pipeline_launch which should be setup first. Once the pc_pipeline is setup, this node offers a drop in replacement for pc_object_completion_partial.
git clone git@github.com:CURG/binvox-rw-py.git
git clone git@github.com:ShapeCompletion3D/python-pcl.git
git clone git@github.com:CURG/Curvox.git
git clone git@github.com:CURG/Mesh_Reconstruction.git
binvox_rw: python utility library to read and write voxel grids to run length encoded binvox files
python-pcl: python utility library to read and write pointclouds to .pcd files
Curvox: python mesh/pointcloud utility library mostly for marshalling ros mesh and pointcloud messages into ply and pcd files
Mesh_Reconstruction: Code from IROS 2017 "Shape Completion Enabled Robotic Grasping" paper. This code takes the 40^3 voxel grid output from the CNN and combines it with the high resolution observed pointcloud directly captured from the depth sensor. This way the visible portions of the completions are nicely detailed.
cd ~
mkdir -p ~/cnn_completion_ws/src
cd ~/cnn_completion_ws/src
git clone git@github.com:CURG/pc_pipeline_msgs.git
git clone git@github.com:CURG/pc_object_completion_cnn.git
cd ~/cnn_completion_ws/src/pc_object_completion_cnn/scripts/shape_completion_server/trained_models
./load_trained_model.sh
cd ~/cnn_completion_ws
source /opt/ros/indigo/setup.bash
catkin_make
You will also need to modify set_env.sh to correctly set where to reach your ROS core.
cd ~/cnn_completion_ws/
source devel/setup.bash
cd ~/cnn_completion_ws/src/pc_object_completion_cnn
source set_env.sh
rosrun pc_object_completion_cnn mesh_completion_server.py