ZED integration on a Robot

This tutorial explains how to use the xacro tool to add the ZED camera to the URDF of a robot.

There are two different configurations to use when adding a ZED to a robot. Which one to select depends on how you plan to localize the robot in the map:

1. Localize the robot by using exclusively the ZED Positional Tracking module
2. Localize the robot by using the ROS 2 tools (e.g. the Robot Localization package) to fuse different sources of odometry and pose estimation.

The file of the tutorial are available in the folder tutorials/zed_robot_integration of the zed-ros2-examples GitHub repository.

Install the dependencies #

For the scope of this tutorial we use the AgileX Scout Mini 4WD robot as a reference, but the explained concepts apply to all the robots in the same way.

You can install the required packages by using the following commands:

cd <ros2_workspace>/src
git clone https://github.com/stereolabs/scout_ros2.git
git clone https://github.com/westonrobot/ugv_sdk.git
git clone https://github.com/westonrobot/async_port.git
cd ..
sudo apt update
rosdep install --from-paths src --ignore-src -r -y # install dependencies
colcon build --symlink-install --cmake-args=-DCMAKE_BUILD_TYPE=Release --parallel-workers $(nproc) # build the workspace
source ~/.bashrc

Create the URDF file by using xacro #

xacro is an XML macro language. With xacro, you can construct shorter and more readable XML files by using macros that expand to larger XML expressions.

With xacro you can use parameters, variables, constants, and apply math formulas to customize the URDF model of the robot according to the used configuration.

Two different configurations are proposed:

• mono-camera: how to add a single ZED camera to the robot
• multi-camera: how to add multiple ZED cameras to the robot. The tutorials explains how to create a dual-camera configuration, but the concepts can be generalized to N cameras.

Mono-Camera Configuration #

The xacro file urdf/zed_robot_mono.urdf.xacro defines the robot configuration required to obtain the result of the following picture.

Set the parameters #

Three xacro arguments are defined at the very beginning of the example zed_robot_mono.urdf.xacro file to configure the robot:

  <xacro:arg name="camera_name"   default="zed" />
  <xacro:arg name="camera_model"  default="zed" />
  <xacro:arg name="use_zed_localization" default="true" />

• camera_name: sets the name of the camera to be used as prefix for the name of the links and joints of the camera URDF.
• camera_model: sets the model of the camera to load the relative visual 3D mesh, set the camera dimensions, and set the values biases for the mounting points.
• use_zed_localization: allows to set the correct TF tree in case ZED Localization is used as the main localization engine, or an external localization engine (e.g. the Robot Localization package) is used.

Add a Robot model #

First of all the URDF must contain the description of the robot. In this tutoria we import the scout_mini.xacro file from the scout_description package.

We provide this file in the GitHub repository scout_ros2 that is a fork of the original repository with a few customizations and fixes.

  <xacro:include filename="$(find scout_description)/urdf/scout_mini.xacro" />

The file scout_mini.xacro defines a link called base_link that will be the reference link to place the camera on the robot. You can use other links as a reference, but it’s important that you respect the conventions explained in the next section.

Add a ZED Camera #

To use a ZED camera we must include the xacro file that describes the links and joints of a ZED camera. The file is available in the zed_wrapper package of the zed-ros2-wrapper repository.

  <xacro:include filename="$(find zed_wrapper)/urdf/zed_macro.urdf.xacro" />

Next we can add one ZED camera of type camera_model with name camera_name, as defined with the correspondent xacro arguments:

  <xacro:zed_camera name="$(arg camera_name)" model="$(arg camera_model)" />

Add a joint to the URDF to place the ZED Camera on the Robot #

This is the most important part of the xacro file. Here we can connect the camera to the robot, and define the relative position and orientation.

The ZED URDF defines a reference link called <camera_name>_camera_link. This is the link that must be used to connect the camera to the URDF that describes a robot.

The most common way to place the camera on the robot is to add a joint that connects <camera_name>_camera_link to the base_link frame of the robot.

This is not mandatory, you can connect the camera to the link of the robot that you prefer. In any case, it is important that the TF chain map -> odom -> [...] -> <camera_name>_camera_link is not broken (see REP 105 as a reference).

There is an important matter that needs to be considered: if you plan to use the ZED Positional Tracking module, and you set the parameter pos_tracking.publish_tf of the ZED node to true, then the <camera_name>_camera_link must be the root frame of the robot to correctly localize it on the map.

The following part of the zed_robot_mono.urdf.xacro allows to create the joint according to the value of the argument use_zed_localization:

  <!-- Add a joint to connect the ZED Camera to the robot -->
  <xacro:if value="$(arg use_zed_localization)">
    <!-- ZED Localization -> The reference link is '$(arg camera_name)_camera_link' and 'base_link' is a child -->
    <joint name="$(arg camera_name)_joint" type="fixed">
      <parent link="$(arg camera_name)_camera_link"/>
      <child link="base_link"/>
      <origin
        xyz="-0.12 0.0 -0.25"
        rpy="0 0 0"
      />
    </joint>
  </xacro:if>
  <xacro:unless value="$(arg use_zed_localization)">
    <!-- NO ZED Localization -> '$(arg camera_name)_camera_link' is a child of 'base_link' -->
    <joint name="$(arg camera_name)_joint" type="fixed">
      <parent link="base_link"/>
      <child link="$(arg camera_name)_camera_link"/>
      <origin
        xyz="0.12 0.0 0.25"
        rpy="0 0 0"
      />
    </joint>
  </xacro:unless>

If the parameter use_zed_localization is true, then the frame <camera_name>_camera_link is a parent link, while base_link is a child, and the origin transform reflects this convention.

In this case, the camera is positioned 12 cm ahead of the center of the robot and 25 cm above it, using a camera mount not described in the URDF.

This is the TF tree generated when use_zed_localization is enabled:

If the parameter use_zed_localization is false, then the frame base_link is a parent link, while <camera_name>_camera_link is a child, and the origin transform is the inverse with respect to the one set in the previous condition.

This is the TF tree generated when use_zed_localization is disabled:

Multi-Camera Configuration #

The xacro file urdf/zed_robot_dual.urdf.xacro defines the robot configuration to obtain the result of the following picture in a dual-camera configuration.

The concepts exposed in this section can be applied to a multi-camera setup comprised of N cameras.

Set the parameters #

A few xacro arguments are defined at the very beginning of the zed_robot_dual.urdf.xacro file.

The name and the model of each camera installed on the robot must be specified:

  <xacro:arg name="camera_name_1"   default="zed_front" />
  <xacro:arg name="camera_name_2"   default="zed_back" />
  <xacro:arg name="camera_model_1"  default="zedx" />
  <xacro:arg name="camera_model_2"  default="zedx" />
  <xacro:arg name="use_zed_localization" default="true" />

Each camera must have a unique name, while the model can be the same for each of them.

You can add additional lines to define camera_name_N and camera_model_N for every other camera in your multi-camera setup.

Add all the ZED Cameras #

To use a ZED camera we must include the xacro file that describes the links and joints of a ZED camera. The file is available in the zed_wrapper package of the zed-ros2-wrapper repository.

  <xacro:include filename="$(find zed_wrapper)/urdf/zed_macro.urdf.xacro" />

we must now add an instance of each camera, specifying the unique name and the model:

  <!-- Add the first ZED Camera -->  
  <xacro:zed_camera name="$(arg camera_name_1)" model="$(arg camera_model_1)" />
  <!-- Add the second ZED Camera -->
  <xacro:zed_camera name="$(arg camera_name_2)" model="$(arg camera_model_2)" />

Here you can notice the power of xacro: we can add ZED Cameras with a simple line of code for every camera of the setup. We only need to define the values of two parameters, the unique name that allows us to distinguish each camera, and the camera model to correctly define its links and joints.

Add the joints to the URDF to place the ZED Cameras on the Robot #

We must now add the required joints to connect each camera to the model of the robot.

We consider the camera #1 as the main camera, we must handle this camera in the same way we must do in a mono-camera configuration: if use_zed_localization is enabled, the link <camera_name_1>_camera_link is the reference frame for the robot localization.

<xacro:if value="$(arg use_zed_localization)">
    <!-- ZED Localization -> The reference link is '$(arg camera_name_1)_camera_link' and 'base_link' is a child -->
    <joint name="$(arg camera_name_1)_joint" type="fixed">
      <parent link="$(arg camera_name_1)_camera_link"/>
      <child link="base_link"/>
      <origin
        xyz="-0.12 0.0 -0.25"
        rpy="0 0 0"
      />
    </joint>    
  </xacro:if>
  <xacro:unless value="$(arg use_zed_localization)">
    <!-- NO ZED Localization -> '$(arg camera_name)_camera_link' is a child of 'base_link' -->
    <joint name="$(arg camera_name_1)_joint" type="fixed">
      <parent link="base_link"/>
      <child link="$(arg camera_name_1)_camera_link"/>
      <origin
        xyz="0.12 0.0 0.25"
        rpy="0 0 0"
      />
    </joint>
  </xacro:unless>

all the other cameras are instead always added as a child of the base_link robot frame:

  <joint name="$(arg camera_name_2)_joint" type="fixed">
    <parent link="base_link"/>
    <child link="$(arg camera_name_2)_camera_link"/>
    <origin
      xyz="-0.12 0.0 0.25"
      rpy="0 0 ${M_PI}"
    />
  </joint>

Note: if use_zed_localization is true, only the node of the camera #1 must broadcast the TF and it must set the parameter pos_tracking.publish_tf:=true. The other ZED nodes must disable the TF broadcasting: pos_tracking.publish_tf:=false to avoid conflicts and eventual chaotic behaviors.

This is the TF tree when use_zed_localization is enabled:

This is the TF tree when use_zed_localization is disabled:

Visualize the model #

We provide two launch files to visualize the robot model in RVIZ 2 and check that the URDF generated from the xacro files are correct:

Mono-camera configuration:

ros2 launch zed_robot_integration view_mono_zed.launch.py use_zed_localization:=true

Dual-camera configuration:

ros2 launch zed_robot_integration view_dual_zed.launch.py use_zed_localization:=true