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Project on SayCan experiments: MISISRL&SRC

Proof of concept of the SayCan project applying on real UR5 robot

Table of Contents

Overview

We are using ROS Noetic to set up communication between services. UR5 controller is provided by MoveIt! for safe robot motion. The stand is equipped with a Realsense L515 camera for object segmentation.

Running the project

This project uses git submodules. To clone the project with all submodules, use the following command:

git clone https://github.com/atokagzx/SayCan_experimental -b master --recurse-submodules

We recommend to use a docker container to run the project. To do so, you need to install docker on your machine. Then, you can run the project with the following commands in terminal:

docker/build_docker.sh
docker/run_docker.sh

you are able to open a new terminal session inside docker container with the following command:

docker/into_docker.sh

roslaunch ur_calibration calibration_correction.launch robot_ip:= target_filename:=/workspace/ros_ws/src/alpaca_moveit_config/stand_model/kinematics.yaml

Camera calibration

For the correct work of the project, you need to calibrate the camera extrinsics.

  • First of all you should print the calibration pattern on a sheet of paper.
  • Then you need to run the following command in terminal:
roslaunch tf_broadcaster calibrate_camera_position.launch

This command wil bring up the camera node, robot node and tf broadcaster node. Robot will move to the calibration position and the camera will start to capture images. Then you will have 10 secods to insert the calibration pattern into the gripper. When the calibration pattern is in the gripper, you need to press the S in the OpenCV window. After that, the calibration node will save the calibration file. Default path to the calibration file is:/workspace/config/camera_pos.yaml

Bringing up

To bringup the project, you need to run the following commands in terminal:

roslaunch alpaca_bringup bringup.launch

This command will start all the necessary nodes for the project. Including:

  • UR5 controller - MoveIt! node for robot motion
  • Alpaca controller - Alpaca control node provides the main logic of the stand control
  • Realsense camera - Realsense node for camera data
  • WSG50 gripper - WSG50 node for gripper control

Next you are able to run example scripts to test the project:

rosrun alpaca_connector monitoring.py # monitoring of robot's ee position to camera frame
rosrun alpaca_connector control_gripper.py # control gripper example script
rosrun alpaca_connector follow_trajectory.py # execute trajectory using robot's ee position to camera frame

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