#nao_dcm
##ROS Stack for Aldebaran's Nao Humanoid
- Goal is to connect to the machine of Nao and not the API provided by Aldebaran.
- Ιt makes use only of the DCM and Memory Proxies.
- Supports V4.0 robots (H21 and H25 Body Types).
- Written purely in C++ and uses the C++ SDK (1.14.5).
0.0.1 (Beta)
nao_dcm requires several packages to be installed in order to work properly:
- ROS - ROS >= Hydro (should also work on the forthcoming Indigo)
- NaoQi C++ SDK - Version 1.14.5
- ROS MoveIt! - Used for motion planning
- ROS Control - Version >=0.6.0
- Webots for Nao - The best simulator so far [optional]
- Gazebo - Work in progress but with satisfactory results (Version >= 2.2.2 alongside gazebo-ros-pkgs >= 2.3.4) [optional]
- Nao Robot - A real working Nao is the best "simulator" you'll ever get!! Version >= V4.0 and flashed OpenNao OS >= 1.14.5
###Bringup nao_dcm driver (remotely)
roslaunch nao_dcm_bringup nao_dcm_{BodyType}_remote.launch{BodyType} is either H21 or H25.
This will connect to Nao Robot, start the cameras and open up a simple dashboard for monitoring and basic control over Nao.
###MoveIt Demo
roslaunch nao_dcm_moveit_config moveit_planner_{BodyType}.launch{BodyType} is either H21 or H25.
This requires that you have connected to the Robot/Simulation via nao_dcm driver and will open up rviz with the Navigation plugin configured to give Nao trajectories to execute.
###Webots Simulation
Launch your Webots for Nao Simulator and then follow the instructions above to bringup nao_dcm driver (remotely). On some versions of Webots, it is required that you move the head before you get camera feedback. Also, changing the camera resolution via dynamic reconfigure will not have any effect as Webots uses fixed resolution.
###Gazebo Simulation
roslaunch nao_dcm_gazebo nao_dcm_gazebo_{BodyType}.launch{BodyType} is either H21 or H25.
**NOTE: **This is work in progress and may not work very well.
This will launch Gazebo Simulator and trajectory controllers to simulate the real robot. This is somewhat equivalent as bringing up nao_dcm_driver (remotely). Thus, then for example you can use MoveIt Demo to give trajectories to Nao to execute.
- nao_dcm can be run locally, but you need to have built and installed ROS Hydro on Nao as nao_dcm requires ros_controls packages (available only on >= Hydro). Yet, running nao_dcm driver remotely is identical in performance as running it locally (if the connection is strong and persistent - Wi-Fi usage is not recommended).
- Tutorials will become available as soon as possible.
- Integration with nao_meshes for better visual feedback. You can disable it if you want a rough 3D model made of boxes and cylinders.
- Although my intension is to provide ROS integration to the machine, basic gait and motion planning schemes are on the way for those that want quick results/feedback.
- Integration for LED, IR and Audio hardware is not available and is not on my agenda. So, feel free to contribute in that direction.
- This is only ONE part of my Diploma Thesis ("Navigation of Humanoid Robots in Unknown Space With Dynamic Obstacles"), so many parts of the code are not perfect and well-thought. So, PRs for code improvement are welcomed.
Since my intention is to use the lowest level of Aldebaran's API possible and its name is DCM, I decided to name the ROS Stack nao_dcm.
BSD
Copyright (c) 2014, Konstantinos Chatzilygeroudis