[Documentation] [TitleIndex] [WordIndex

Only released in EOL distros:  

steer_drive_ros: steer_bot_hardware_gazebo | steer_drive_controller | stepback_and_steerturn_recovery

Package Summary

Controller for a steer drive mobile base.

An example of using the packages can be seen in Robots/CIR-KIT-Unit03.


Controller for wheel systems with steering mechanism. Control is in the form of a velocity command, that is split then sent on the single rear wheel and the single front steer of a steering drive wheel base. Odometry is computed from the feedback from the hardware, and published.

Velocity commands

The controller works with a velocity twist from which it extracts the x component of the linear velocity and the z component of the angular velocity. Velocities on other components are ignored.

Hardware interface type

The controller inherits multi_interface_controller to work with wheel joints through a velocity interface for a linear wheel and a position interface for a front steer wheel, which is the the most basic configuration for the steer driving mechanism.

Converting controller's interfaces to actual controller's interfaces

If you want rviz to show states of robot's actual joint interfaces' tf through joint_state_controller and robot_state_publisher, you need to convert the two interfaces of steer_drive_controller to your robot's specific ones via RobotHW or RobotHWSim (generally used for GAZEBO). This is because the controller only update it's basic interfaces mentioned in the previous section.

Other features






The controller main input is a geometry_msgs::Twist topic in the namespace of the controller.

Subscribed Topics

cmd_vel (geometry_msgs/Twist)

Published Topics

odom (nav_msgs/Odometry) /tf (tf/tfMessage)

Joint Parameters

rear_wheel (string)

front_steer (string)

Coveriance Parameters

pose_covariance_diagonal (double[6])

twist_covariance_diagonal (double[6])

publish_rate (double, default: 50.0)

cmd_vel_timeout (double, default: 0.5)

base_frame_id (string, default: base_link)

odom_frame_id (string, default: odom) enable_odom_tf (bool, default: true)

Multiplier Parameters

wheel_separation_h_multiplier (double, default: 1.0)

wheel_radius_multiplier (double, default: 1.0) steer_pos_multiplier (double, default: 1.0)

Limmiter Parameters

linear/x/has_velocity_limits (bool, default: false)

linear/x/max_velocity (double) linear/x/min_velocity (double) linear/x/has_acceleration_limits (bool, default: false) linear/x/max_acceleration (double) linear/x/min_acceleration (double) linear/x/has_jerk_limits (bool, default: false) linear/x/max_jerk (double) angular/z/has_velocity_limits (bool, default: false) angular/z/max_velocity (double) angular/z/min_velocity (double) angular/z/has_acceleration_limits (bool, default: false) angular/z/max_acceleration (double) angular/z/min_acceleration (double) angular/z/has_jerk_limits (bool, default: false) angular/z/max_jerk (double)

Calibration Parameters

wheel_separation_h (double)

wheel_radius (double)

Controller configuration examples

Minimal description

  type: "steer_drive_controller/SteerDriveController"
  rear_wheel: 'rear_wheel_joint'
  front_steer: 'front_steer_joint'
  pose_covariance_diagonal: [0.001, 0.001, 1000000.0, 1000000.0, 1000000.0, 1000.0]
  twist_covariance_diagonal: [0.001, 0.001, 1000000.0, 1000000.0, 1000000.0, 1000.0]

Complete description

  type        : "diff_drive_controller/DiffDriveController"
  rear_wheel: 'rear_wheel_joint'
  front_steer: 'front_steer_joint'
  publish_rate: 50.0               # default: 50
  pose_covariance_diagonal : [0.001, 0.001, 1000000.0, 1000000.0, 1000000.0, 1000.0]
  twist_covariance_diagonal: [0.001, 0.001, 1000000.0, 1000000.0, 1000000.0, 1000.0]

  # Wheel separation between the rear and the front, and diameter of the rear. 
  # These are both optional.
  # steer_drive_controller will attempt to read either one or both from the
  # URDF if not specified as a parameter.
  wheel_separation_h : 1.0
  wheel_radius : 0.3

  # Wheel separation and radius multipliers for odometry calibration.
  wheel_separation_h_multiplier: 1.0 # default: 1.0
  wheel_radius_multiplier    : 1.0 # default: 1.0

  # Steer position angle multipliers for fine tuning.
  steer_pos_multiplier       : 1.0

  # Velocity commands timeout [s], default 0.5
  cmd_vel_timeout: 0.25

  # Base frame_id
  base_frame_id: base_footprint #default: base_link

  # Odom frame_id
  odom_frame_id: odom

  # Velocity and acceleration limits
  # Whenever a min_* is unspecified, default to -max_*
      has_velocity_limits    : true
      max_velocity           : 1.0  # m/s
      min_velocity           : -0.5 # m/s
      has_acceleration_limits: true
      max_acceleration       : 0.8  # m/s^2
      min_acceleration       : -0.4 # m/s^2
      has_jerk_limits        : true
      max_jerk               : 5.0 # m/s^3

      has_velocity_limits    : true
      max_velocity           : 1.7  # rad/s
      has_acceleration_limits: true
      max_acceleration       : 1.5  # rad/s^2
      has_jerk_limits        : true
      max_jerk               : 2.5 # rad/s^3


An example for usage of steer_drive_controller with RobotHW can be grabbed from Robots/CIR-KIT-Unit03.

RobotHWSim for GAZEBO

We developped a general RobotHWSim plugin for usage of GAZEBO. You can get the plugin from steer_bot_hardware_gazebo and also see an example of application on Robots/CIR-KIT-Unit03.

Recovery Behavior

We also provide a recovery behavior plugin of move_base specifically desigined for steer mechanism base robots in stepback_and_steerturn_recovery. Feel free to see Robots/CIR-KIT-Unit03 to learn how to use it.

2020-03-28 13:13