First launch the simulator
roslaunch ur_robotiq_gazebo gym.launch
And run the training launch
roslaunch ur_training default.launch
First launch the gazebo and gym interface and node publishing block point.
roslaunch ur_robotiq_gazebo conveyer_gym.launch --screen
Run the RL algorithms and unpause the GAZEBO
roslaunch ur_training default.launch
Latest block's point:
rostopic echo /target_blocks_pose
Total block's points:
rostopic echo /blocks_poses
First launch the simulator
roslaunch ur_robotiq_gazebo conveyer_gym.launch controller:=vel --screen gui:=false
And load the parameters and launch python file for reset
roslaunch ur_reaching reinforcement.launch
And start the learning algorithm
python reinforcement_main.py
And unpause physics of GAZEBO simulator
rosservice call /gazebo/unpause_physics "{}"
First launch the simulator including loading the parameters and GAZEBO Excution func
roslaunch ur_robotiq_gazebo conveyer_gym.launch --screen gui:=false
And start the learning algorithm
python ppo_gae_main.py
RLkit is reinforcement learning framework based on rllab
First launch the simulator including loading the parameters and GAZEBO Excution func
roslaunch ur_robotiq_gazebo conveyer_gym.launch --screen gui:=false
And start the SAC learning algorithm based on RLkit
python rlkit_sac_main.py
And unpause physics of GAZEBO simulator
rosservice call /gazebo/unpause_physics "{}"
After training, you may find the pickled files on the rlkit/data folder.
you can easily see the results through selecting the generated folder about training like follwing:
python viskit/frontend.py ../rlkit/data/SAC/SAC_2019_10_14_08_27_55_0000--s-0/
If you want to evaluate the trained weight, you can run like following:
python rlkit/scripts/run_policy.py rlkit/data/SAC/SAC_2019_10_14_08_27_55_0000--s-0/params.pkl
- Rviz
roslaunch ur_robotiq_moveit_config moveit_rviz.launch
- rviz_visual_tools
rosrun visual_tools rviz_visual_tools_demo
- moveit_visual_tools
rosrun visual_tools moveit_visual_tools_demo
- /gazebo/unpause_physics (Empty)
- Unpause GAZEBO simulator for starting
rosservice call /gazebo/unpause_physics "{}"
- /set_velocity_controller (SetBool)
- Set velocity controllers including 6 velocity controllers after stoppint velocity_controller/JointTrajectoryController
- /set_trajectory_velocity_controller (SetBool)
- Set velocity trajectory controller including Joint trajectory controllers after stopping velocity_controller/JointVelocityController
- /stop_training (SetBool)
- Stop training process
- /start_training (SetBool)
- Start training process
We can check the controller manager status using following:
rosrun rqt_controller_manager rqt_controller_manager
Usage with real Hardware
There are launch files available to bringup a real robot - either UR5 or UR10.
In the following the commands for the UR5 are given. For the UR10, simply replace the prefix accordingly.
Don't forget to source the correct setup shell files and use a new terminal for each command!
To bring up the real robot, run:
roslaunch ur_modern_driver ur5_bringup.launch robot_ip:=192.168.0.3
MoveIt! with real Hardware and gripper
To run the MoveIt with gripper, run
roslaunch total_moveit_config total_moveit_planning_execution.launch
MoveIt API Python execution!
rosrun ur_robotiq_moveit_api ur_robotiq_moveit.py
A simple test script that moves the robot to predefined positions can be executed like this:
rosrun ur_driver test_move.py
CAUTION:
Remember that you should always have your hands on the big red button in case there is something in the way or anything unexpected happens.
Usage with Gazebo Simulation
There are launch files available to bringup a simulated robot - either UR5 or UR10.
In the following the commands for the UR5 are given. For the UR10, simply replace the prefix accordingly.
Don't forget to source the correct setup shell files and use a new terminal for each command!
To bring up the simulated robot in Gazebo, run:
roslaunch ur_gazebo ur5.launch
MoveIt! with a simulated robot
Again, you can use MoveIt! to control the simulated robot.
For setting up the MoveIt! nodes to allow motion planning run:
roslaunch ur5_moveit_config ur5_moveit_planning_execution.launch sim:=true
For starting up RViz with a configuration including the MoveIt! Motion Planning plugin run:
roslaunch ur5_moveit_config moveit_rviz.launch config:=true
NOTE:
As MoveIt! seems to have difficulties with finding plans for the UR with full joint limits [-2pi, 2pi], there is a joint_limited version using joint limits restricted to [-pi,pi]. In order to use this joint limited version, simply use the launch file arguments 'limited', i.e.:
roslaunch ur_gazebo ur5.launch limited:=true
roslaunch ur5_moveit_config ur5_moveit_planning_execution.launch sim:=true limited:=true
roslaunch ur5_moveit_config moveit_rviz.launch config:=true
MoveIt! with real Hardware
Additionally, you can use MoveIt! to control the robot.
There exist MoveIt! configuration packages for both robots.
For setting up the MoveIt! nodes to allow motion planning run:
roslaunch ur5_moveit_config ur5_moveit_planning_execution.launch
For starting up RViz with a configuration including the MoveIt! Motion Planning plugin run:
roslaunch ur5_moveit_config moveit_rviz.launch config:=true
NOTE:
As MoveIt! seems to have difficulties with finding plans for the UR with full joint limits [-2pi, 2pi], there is a joint_limited version using joint limits restricted to [-pi,pi]. In order to use this joint limited version, simply use the launch file arguments 'limited', i.e.:
roslaunch ur_bringup ur5_bringup.launch limited:=true robot_ip:=IP_OF_THE_ROBOT [reverse_port:=REVERSE_PORT]
roslaunch ur5_moveit_config ur5_moveit_planning_execution.launch limited:=true
roslaunch ur5_moveit_config moveit_rviz.launch config:=true