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MRS extras resources for Gazebo

Build status Build Status

Resources for Gazebo/ROS simulator that depends on packages (e.g. mrs_msgs, mrs_lib) inside of the MRS system.

Link attacher

Modified version from the pal-robotics: gazebo_ros_link_attacher

Description

  • World plugin that can attach or detach two Gazebo models with a virtual joint.
  • The plugin is controlled by five ros services:
    • /link_attacher_node/apply_force
    • /link_attacher_node/attach
    • /link_attacher_node/attach_typed
    • /link_attacher_node/delete
    • /link_attacher_node/detach

Usage

After building, activate by adding the following to your world definition.

  ...
  <world name="...">
  ...
    <plugin name="mrs_gazebo_link_attacher_plugin" filename="libMRSGazeboLinkAttacherPlugin.so"/>
  ...

Example

Imagine that the world contains two object - unit_box_1 and unit_sphere_1, where each of them has one link named link. Then their attaching is done by calling:

rosservice call /link_attacher_node/attach "model_name_1: 'unit_box_1'
link_name_1: 'link'
model_name_2: 'unit_sphere_1'
link_name_2: 'link'"

And similar thing for detaching:

rosservice call /link_attacher_node/detach "model_name_1: 'unit_box_1'
link_name_1: 'link'
model_name_2: 'unit_sphere_1'
link_name_2: 'link'"

Thermal camera plugin

Modified version from the hector_gazebo: hector_gazebo_thermal_camera

Description

  • Simulates a thermal camera sensor in Gazebo.
  • Objects that can be detected by the thermo camera have to have specific visual properties. See example fire_mockup.
  • The original plugin has been extended to publish tranform message on topic /tf_gazebo_static. To make this transformation visible in ROS use our Static transform republisher plugin in your world definition.

Usage

After building, activate by adding the following to your robot definition.

  ...
    <gazebo reference="${namespace}/${camera_frame_name}/thermal_camera_link">
      <sensor type="camera" name="mrs_thermal_camera_sensor">
        <update_rate>${frame_rate}</update_rate>
        <camera>
          <horizontal_fov>${hfov}</horizontal_fov>
          <image>
            <format>R8G8B8</format>
            <width>${3 * image_width}</width>
            <height>${3 * image_height}</height>
          </image>
          <clip>
            <near>0.1</near>
            <far>300</far>
          </clip>
        </camera>
        <plugin name="thermal_camera_controller" filename="libMRSGazeboThermalCameraPlugin.so">
          <alwaysOn>true</alwaysOn>
          <cameraName>${camera_suffix}</cameraName>
          <updateRate>${frame_rate}</updateRate>
          <imageTopicName>${camera_topic_name}/rgb_image</imageTopicName>
          <cameraInfoTopicName>${camera_topic_name}/camera_info</cameraInfoTopicName>
          <rawTemperatureTopicName>${camera_topic_name}/raw_temp_array</rawTemperatureTopicName>
          <surroundingTemperature>20</surroundingTemperature>
          <maximalTemperature>150</maximalTemperature>
          <minimalTemperatureGreenColor>0.2</minimalTemperatureGreenColor>
          <noiseStdDev>4.0</noiseStdDev>
          <noiseStdDevMaxTemp>20.0</noiseStdDevMaxTemp>
          <frameName>${camera_frame_name}</frameName>
          <parentFrameName>${parent_frame_name}</parentFrameName>
          <sensorBaseFrameName>${sensor_base_frame_name}</sensorBaseFrameName>
          <x>${x}</x>
          <y>${y}</y>
          <z>${z}</z>
          <roll>${roll}</roll>
          <pitch>${pitch}</pitch>
          <yaw>${yaw}</yaw>
        </plugin>
      </sensor>
    </gazebo>
  ...