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| :github_url: https://github.com/ros-controls/ros2_control/blob/{REPOS_FILE_BRANCH}/hardware_interface/doc/different_update_rates_userdoc.rst | ||
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| .. _asynchronous_components: | ||
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| Running Hardware Components Asynchronously | ||
| ============================================ | ||
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| The ``ros2_control`` framework allows to run hardware components asynchronously. This is useful when some of the hardware components need to run in a separate thread or executor. For example, a sensor takes longer to read data that affects the periodicity of the ``controller_manager`` control loop. In this case, the sensor can be run in a separate thread or executor to avoid blocking the control loop. | ||
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| Examples | ||
| *********** | ||
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| The following examples show how to use the different hardware interface types synchronously and asynchronously with ``ros2_control`` URDF. | ||
| They can be combined together within the different hardware component types (system, actuator, sensor) (:ref:`see detailed documentation <overview_hardware_components>`) as follows | ||
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| For a RRBot with Multimodal gripper and external sensor: | ||
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| .. code-block:: xml | ||
| <ros2_control name="RRBotSystemMutipleGPIOs" type="system"> | ||
| <hardware> | ||
| <plugin>ros2_control_demo_hardware/RRBotSystemPositionOnlyHardware</plugin> | ||
| <param name="example_param_hw_start_duration_sec">2.0</param> | ||
| <param name="example_param_hw_stop_duration_sec">3.0</param> | ||
| <param name="example_param_hw_slowdown">2.0</param> | ||
| </hardware> | ||
| <joint name="joint1"> | ||
| <command_interface name="position"> | ||
| <param name="min">-1</param> | ||
| <param name="max">1</param> | ||
| </command_interface> | ||
| <state_interface name="position"/> | ||
| </joint> | ||
| <joint name="joint2"> | ||
| <command_interface name="position"> | ||
| <param name="min">-1</param> | ||
| <param name="max">1</param> | ||
| </command_interface> | ||
| <state_interface name="position"/> | ||
| </joint> | ||
| <gpio name="flange_digital_IOs"> | ||
| <command_interface name="digital_output1"/> | ||
| <state_interface name="digital_output1"/> <!-- Needed to know current state of the output --> | ||
| <command_interface name="digital_output2"/> | ||
| <state_interface name="digital_output2"/> | ||
| <state_interface name="digital_input1"/> | ||
| <state_interface name="digital_input2"/> | ||
| </gpio> | ||
| </ros2_control> | ||
| <ros2_control name="MultimodalGripper" type="actuator" is_async="true" thread_priority="30"> | ||
| <hardware> | ||
| <plugin>ros2_control_demo_hardware/MultimodalGripper</plugin> | ||
| </hardware> | ||
| <joint name="parallel_fingers"> | ||
| <command_interface name="position"> | ||
| <param name="min">0</param> | ||
| <param name="max">100</param> | ||
| </command_interface> | ||
| <state_interface name="position"/> | ||
| </joint> | ||
| </ros2_control> | ||
| <ros2_control name="RRBotForceTorqueSensor2D" type="sensor" is_async="true"> | ||
| <hardware> | ||
| <plugin>ros2_control_demo_hardware/ForceTorqueSensor2DHardware</plugin> | ||
| <param name="example_param_read_for_sec">0.43</param> | ||
| </hardware> | ||
| <sensor name="tcp_fts_sensor"> | ||
| <state_interface name="fx"/> | ||
| <state_interface name="tz"/> | ||
| <param name="frame_id">kuka_tcp</param> | ||
| <param name="fx_range">100</param> | ||
| <param name="tz_range">100</param> | ||
| </sensor> | ||
| <sensor name="temp_feedback"> | ||
| <state_interface name="temperature"/> | ||
| </sensor> | ||
| <gpio name="calibration"> | ||
| <command_interface name="calibration_matrix_nr"/> | ||
| <state_interface name="calibration_matrix_nr"/> | ||
| </gpio> | ||
| </ros2_control> | ||
| In the above example, the following components are defined: | ||
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| * A system hardware component named ``RRBotSystemMutipleGPIOs`` with two joints and a GPIO component that runs synchronously. | ||
| * An actuator hardware component named ``MultimodalGripper`` with a joint that runs asynchronously with a thread priority of 30. | ||
| * A sensor hardware component named ``RRBotForceTorqueSensor2D`` with two sensors and a GPIO component that runs asynchronously with the default thread priority of 50. |
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