ZeroSim

• ZeroSim
  • Overview
  • API Documentation
  • Getting Started
    • Video Tutorials
    • Recommended System
    • Setting up a new Unity Project
    • Getting ZeroSim ROS Docker Container
    • Running TurtleBot Test Scene
    • Using RViz for Turtlebot
    • Running Universal Robot UR10 Arm Test Scene with MoveIt!
    • Running Image Segmentation Test
    • Export URDF
    • Import URDF
      • LEO Robot Example

ZeroSim is a robotics simulation engine built on the easy to use Unity 3D development platform and the power of the Robotics Operating System (ROS). ZeroSim is designed for ease of use and rapid development of all sorts of robotics and simulation -- from warehouses and industrial settings, to farming and outdoors -- from robotic arms to ground and drone based mobile robots.

ZeroSim is a project developed over several years by FS Studios for the rapid development of all sorts of robotic simulation projects for various clients, from robotic arms to mobile robots.

We are releasing ZeroSim as open source to support the community of roboticist and software engineers that have supported us over the decades. We are in active development and welcome all feature requests, bug reports, and pull requests.

Overview

ZeroSim provides a multitude of tools for building robots and environments in Unity to interface with ROS. We strive to provide the same functionality and ROS interfaces of Gazebo. Including:

• Dynamics simulation using the latest PhysX 4.x integrated in Unity.

  • Hinge, ball, linear and fixed joints.

• Advanced 3D Rendering, including the latest realtime ray tracing technology.

• Sensors:

  • 2D LIDAR -> ROS LaserScan message.
  • 3D LIDAR -> ROS PointCloud2
  • Color camera -> ROS Image and ROS CameraInfo message.
  • Color + depth camera -> ROS Image and ROS CameraInfo message.
  • Stereo camera -> ROS Image and ROS CameraInfo message.
  • IMU -> ROS Imu message
  • Magnetometer -> ROS MagneticField message.
  • Contact switch
  • Altimeter

• Ready to use ROS standard controllers and plugins:

  • Differential drive. Controlled via standard ROS Twist message.
  • Robotic arm controller via the ROS FollowJointTrajectory Action Controller Interface allowing MoveIt to connect seamlessly with ZeroSim.
  • ROS TF publisher.
  • ROS JointState publisher.

• Full ROS messaging communications layers API.

  • Many premade standard ROS messages
  • Subscribe and publish
  • Action Servers
  • Fast and efficient message encoding using ROS Bridge and BSON over TCP.
  • Parameter server

• Ready to run prebuilt ROS Docker images available publically on DockerHub: https://hub.docker.com/r/zerodog/zerosim_ros_vnc

• Machine Learning tools:

  • Image Segmentation for training semantic segmentation algorithms.

• URDF Import & Export

• ROS2 support via ROS Bridge Suite (https://github.com/RobotWebTools/rosbridge_suite)

• COMING SOON:

  • Configure and run Docker images within Unity Editor.
  • Secure communications via WebSockets.
  • Drone controller.

API Documentation

API Documentation

Getting Started

Video Tutorials

https://youtu.be/VJyvjJUfjv8

Recommended System

• Ubuntu 18.04 or 20.04 (may work on MacOS or Windows but currently untested)
• Unity 2020.x LTS (IMPORTANT: Currnetly Unity 2021.x breaks a lot of things. We hope to support 2021 in the near future.)
• Git LFS
• ROS Melodic (ZeroSim provides a pre-built Docker container for ROS functionality https://hub.docker.com/r/zerodog/zerosim_ros_vnc)
  • Note: ROS Melodic is our primary supported development environment, but ZeroSim has reportedly been able to run on Noetic and ROS2.

Setting up a new Unity Project

1. In Unity Hub create a new Unity project using Unity 2020.x or later.
2. Add ZeroSim via Unity Packages:
   1. IMPORTANT: Make sure GIT LFS is installed on your system before continuing!
   2. Unity Menu Window -> Package Manager
   3. Select the + dropdown:
      
   4. Select Add Package From Git URL... and enter git@github.com:fsstudio-team/ZeroSimROSUnity.git. Note this can take upto a few minutes to update but you should see the following:
      
   5. Import the ZeroSim Samples by selecting the Samples Import button in the Package Manager:
      
3. IMPORTANT the default Unity physics settings do not work well with a lot of simulations. It is very much recommended (required for probably most all simulations) to set the physics settings by opening the Unity menu Edit -> Project Settings... -> Physics and set the Default Solver Iterations to 30 and the Default Solver Velocity Iterations to 60.
4. IMPORTANT the default Unity fixed timestep setting does not work well with a lot of simulions. It is very much recommended to set the Fixed Timestep setting by Edit -> Project Settings... -> Time to 0.005
5. If running Unity on Linux you want to avoid using OpenGL and use Vulkan, otherwise image based sensors may run slowly or not at all. To change to using Vulkan:
   1. In the Unity Menu: Edit -> Project Settings...:
   2. Uncheck Auto Graphics API for Linux and then under Graphics APIs for Linux set Vulkan ahead of OpenGL:
      

Getting ZeroSim ROS Docker Container

1. Available at https://hub.docker.com/r/zerodog/zerosim_ros_vnc or docker pull zerodog/zerosim_ros_vnc:latest

Running TurtleBot Test Scene

NOTE: Order of operations is important. Especially starting the Docker before the Unity simulation.

1. Make sure that the ZeroSim samples are installed as outlined above.
2. Make sure that the ZeroSim Docker container above is installed.
3. Open the Turtlebot3_Waffle_test.scene
4. Launch the ZeroSim Docker via:

docker run -it --rm \
--publish=9090:9090 \
--publish=11311:11311 \
--publish=8083:8083 \
--publish=80:80 \
--publish=5678:5678 \
--name my_zerosim_vnc_docker \
zerodog/zerosim_ros_vnc:latest \
roslaunch zero_sim_ros basic_unity_editor.launch

5. Run the ROS teleop in a seperate terminal by running:

docker exec -it my_zerosim_vnc_docker \
bash -c "source devel/setup.bash ; rosrun turtlebot3_teleop turtlebot3_teleop_key"

6. In the Unity editor press the "Play" button.
7. The Turtlebot can now be controlled via the w a s d keys in the ROS teleop console window:

Using RViz for Turtlebot

This will show visualizing the 2D LIDAR and ROS TF in RViz. This uses a VNC viewer to the ZeroSim ROS Docker container.

1. Startup the Turtlebot Test Scene as detailed above.
2. Open a noVNC connection by:
   1. In a browser open http://localhost:8083/vnc.html
   2. Press the "Connect" button.
3. In the VNC w