Please refer to the following to obtain information about Human Support Robot (HSR) and use it in your paper.
https://robomechjournal.springeropen.com/articles/10.1186/s40648-019-0132-3
In order to run the simulator, docker and docker-compose are necessary.
In the case of a Windows or Mac environment, please install docker for Windows or Mac respectively.
In the case of Linux, please input the following commands and install docker.
$ curl -fsSL https://get.docker.com -o get-docker.sh
$ sh get-docker.sh
If you input the following command, even regular users will be able to execute the docker command.
$ sudo usermod -aG docker <USERNAME>
After executing the above command, log out then log in again.
Input the following command, then verify that docker can execute correctly.
$ docker info
Input the following commands and install docker-compose. As the docker-compose that can be installed via apt-get is old, please input all of the following commands to install the newest version of docker-compose.
$ sudo apt-get remove docker-compose
$ COMPOSE_VERSION=$(wget https://api.github.com/repos/docker/compose/releases/latest -O - | grep 'tag_name' | cut -d\" -f4)
$ sudo wget https://github.com/docker/compose/releases/download/${COMPOSE_VERSION}/docker-compose-`uname -s`-`uname -m` -O /usr/local/bin/docker-compose
$ sudo chmod 755 /usr/local/bin/docker-compose
Please input the following commands to clone this repository.
$ git clone --recursive https://github.com/hsr-project/tmc_wrs_docker.git
$ cd tmc_wrs_docker
Download all of the images necessary for running the simulator. As you will be downloading a large amount of data, please execute the following command in an environment that is connected to a high speed network.
$ ./pull-images.sh
Please input the following command and start the simulator.
$ docker-compose up
Please open each of the following URLs in a browser, then move on to development.
- The simulator's screen http://localhost:3000
- IDE http://localhost:3001
- jupyter notebook http://localhost:3002
If it is the case that there is an NVIDIA video card, then acceleration of the simulation through rendering on the GPU is possible.
First, please install nvidia-docker by referring to the following URL:
https://github.com/NVIDIA/nvidia-docker
Please input the following command and start the simulator.
$ docker-compose -f docker-compose.nvidia.yml up
Please open each of the following URLs in a browser, then move on to development.
- The simulator's screen http://localhost:3000
- IDE http://localhost:3001
- jupyter notebook http://localhost:3002
In gazebo in the simulator's screen, click the play button (the right facing arrow in the lower left of the screen), and start the simulation. Into the terminal of the IDE screen, please input the following command to start rviz:
rviz -d $(rospack find hsrb_rosnav_config)/launch/hsrb.rviz
rviz will appear in the simulator's screen. If you click "2D Nav Goal" in rviz and click the autonomous movement goal, then the HSR will move autonomously to the goal location.
In order to communicate from the host PC that is running the docker image with the simulator's roscore, it is necessary that ROS_MASTER_URI is set appropriately. If you source the script that is located directly under this package as illustrated below, then it is possible to set ROS_MASTER_URI.
$ source ./set-rosmaster.sh
After starting the simulator, please check that ROS communication is working using the host PC.
- Yosuke Matsusaka
- HSR Support [email protected]
This software is released under the BSD 3-Clause Clear License, see LICENSE.txt.